Entries |
Document | Title | Date |
20090052178 | Configuration of multiple LED modules - A configuration of multiple LED modules comprising a plurality of LED modules that each contain a carrier that has a first main area, a second main area and at least one semiconductor layer, wherein the first main area has a planar configuration. The LED modules also include a plurality of LED semiconductor bodies that applied on the first main area of the carrier. In addition, the multiple LED modules include a common heat sink, where the carrier of the LED modules in each case are connected to the common heat sink on the second main area. | 02-26-2009 |
20090059588 | HOUSING COMPRISING A HOUSING UNDERPART AND METHOD FOR EMITTING ELECTROMAGNETIC RADIATION - A housing includes a housing underpart, the housing underpart being provided with a housing cavity. The housing cavity comprises an opening on one housing side and, on the floor of the cavity, contains an electromagnetic radiation emitting semiconductor chip. A cover that is at least partially transparent to the electromagnetic radiation covers the housing cavity. A method for emitting electromagnetic radiation in a preferred direction is also disclosed. | 03-05-2009 |
20090073692 | Modular lighting system - A modular, expandable lighting system comprising at least one light emitting diode segment having at least one printed circuit board, at least one light emitting diode and at least one pair of terminals connected to said printed circuit board and means for fixedly but removable fastening and mounting said light emitting diode segment with ease in tight spaces. | 03-19-2009 |
20090073693 | LED LIGHTING SYSTEM FOR A CABINET SIGN - A lighting system generally includes a plurality of electrically interconnected modules. Each module includes a support, circuitry on the support, at least two light emitting diodes (“LEDs”) on the support and electrically connected to the circuitry, and a housing over the support for covering the circuitry. A first LED on a first surface of the support emits light in a first general direction and a second LED mounted on a second surface of the support emits light in a second general direction, which is opposite the first general direction. | 03-19-2009 |
20090080193 | LED BASED HAZARDOUS LOCATION LIGHT WITH VERSATILE MOUNTING CONFIGURATIONS - The present invention relates generally to a lighting apparatus for hazardous locations. In one embodiment, the lighting apparatus comprises a light engine, a heat sink coupled to the light engine, a stalk coupled to the light engine for externally coupling a power supply to the light engine and an electrical wiring splice box coupled to the stalk. | 03-26-2009 |
20090086487 | Flexible LED Lighting Systems, Fixtures and Method of Installation - A low-voltage LED lighting system and method for installation thereof in which the system includes: (a) at least one LED lighting fixture each having one or more LEDs; (b) at least one remotely-located power driver; and (c) interconnections between the at least one LED fixture and the at least one driver using communication network cabling and standard 8P8C network connectors. Preferred lighting fixtures are recessed lighting fixtures adapted for ceiling mounting. | 04-02-2009 |
20090086488 | LED luminaire - A modular light emitting diode (LED) mounting configuration is provided including a light source module having a plurality of pre-packaged LEDs arranged in a serial array. The module is connected to a heat dissipating plate configured to mount to an electrical junction box. Thus, heat from the LEDs is conducted to the heat dissipating plate and to the junction box. A sensor is configured to detect environmental parameters and a driver is configured to illuminate the LEDs in response to the environmental parameters, thereby selectively configuring the LEDs to function in a wide variety of useful applications. | 04-02-2009 |
20090091932 | LED ARRAY GRID, METHOD AND DEVICE FOR MANUFACTURING SAID GRID AND LED COMPONENT FOR USE IN THE SAME - Disclosed herein is a method for producing an LED array grid including the steps of (i) arranging N electrically conducting parallel wires, where N is an integer >1, thus creating an array of wires having a width D perpendicular to a direction of the wires, (ii) arranging LED components to the array of wires such that each LED component is electrically coupled to at least two adjacent wires, (iii) stretching the array of wires such that the width D increases, and arranging the stretched LED array grid onto a plate or between two plates | 04-09-2009 |
20090097249 | LIGHT EMITTING DIODE BASED LIGHT SOURCE ASSEMBLY - An LED based light source assembly ( | 04-16-2009 |
20090103300 | LAMP STRUCTURE WITH LOW TEMPERATURE FEATURE - A fluorescent lamp holder combination device includes a main lamp holder and an auxiliary lamp holder set, which is provided with an auxiliary lamp holder. The main lamp holder is internally configured with a multifunction ballast, which is electrically connected to a conducting portion. Each of the conducting portions is electrically connected to a connecting portion of each of the auxiliary lamp holders by means of a set of conducting cables, thereby enabling parallel connection between each of the auxiliary lamp holders using the single multifunction ballast, and achieving the effectiveness to enable the single multifunction ballast to provide stable rectification and energy saving for the auxiliary lamp holders. Furthermore, a starting capacitor and current-limiting inductor can be disposed within each of the auxiliary lamp holders, thereby reducing use-cost of the set of conducting cables while facilitating maintenance of the starting capacitors and the current-limiting inductors. | 04-23-2009 |
20090109674 | LED LIGHT - A Light-Emitting Diode (“LED”) light including a housing with two ends, a base coupled to the housing at one of the two ends for connecting to an electrical fixture, the housing including vertical plates with a majority of higher-power LEDs mounted on the vertical plates at an angle of less than 75 degrees relative to the vertical plates. In one aspect, the LEDs are mounted in a column and row grid pattern. In one aspect, the housing includes a horizontal plate with lower-power LEDs mounted thereon. In one aspect, the LED light includes a temperature regulation device housed within its housing for heat dissipation. | 04-30-2009 |
20090109675 | Submersible lamp for use in fotoperiod in processes of handling of salmon species - A submergible lamp for its use or application in photoperiod in processes of smolting, feeding and optimum handling of the reproductive process of salmon species, whose source of illumination are a group of green LED luminaries issuing light with an intensity of 500 to 550 nanometres, by means that allow for a lower consumption than the lamps currently in use and which not only represent economies in terms of costs, but also a favorable environmental impact in terms of a lower consumption of fuel or batteries, which might eventually represent a danger to the environment, becoming waste and by demanding a substantial infrastructure in their installation. The lamp consists of a semi-spherical casing with top side exit for the power cable covered by a threaded stuffing box through which the three-phase cable emerges, with an inner lining on the surface, transverse to said semi-spherical casing has a tunnel, which permits the affixing and installation of the lamp surrounded by a peripheral ring and base walls both of which have equidistant orifices which allow for joining and affixing by means of screw bolts, with the orifices of the central piece with a cylindrical cross section equipped on the inside with a peripheral body or projection that serves as support for the upper edge of the exterior body or glass cupola, with the upper zone of that peripheral body or projection. In turn, the peripheral projection has a central grooving where an “O” ring is placed that prevents water from entering the lamp; also, said lamp has another interior body or LED holder made of plastic, equipped with LEDs, said interior body is placed inside the exterior body of glass. | 04-30-2009 |
20090129086 | Thermal Management for Light Emitting Diode Fixture - A recessed light fixture includes an LED module, which includes a single LED package that is configured to generate all light emitted by the recessed light fixture. For example, the LED package can include multiple LEDs mounted to a common substrate. The LED package can be coupled to a heat sink for dissipating heat from the LEDs. The heat sink can include a core member from which fins extend. Each fin can include one or more straight and/or curved portions. A reflector housing may be coupled to the heat sink and configured to receive a reflector. The reflector can have any geometry, such as a bell-shaped geometry including two radii of curvature that join together at an inflection point. An optic coupler can be coupled to the reflector housing and configured to cover electrical connections at the substrate and to guide light emitted by the LED package. | 05-21-2009 |
20090129087 | Light System and Method to Thermally Manage an LED Lighting System - A method of cooling light emitting diode (LED) lighting systems and associated structures are disclosed and claimed herein. The method involves determining the areas of a printed circuit board (PCB) onto which LEDs will be mounted will have the highest temperature during operation and positioning thermal vias of a certain size in or adjacent that area. The thermal vias extend from the PCB first side through the PCB substrate to the PCB second side to allow fluid flow through the PCB. The thermal vias are coated with a plating so that thermal energy is conductively transferred from the area adjacent an LED or resistor to the thermal via. From the thermal via the thermal energy may be dissipated to the atmosphere adjacent the thermal via through various modes. Novel structures according to the present invention include LED circuits, light fixtures, PCBs, and various combinations thereof employing the thermal vias. | 05-21-2009 |
20090135599 | LIGHT SOURCE DEVICE - A light source device is disclosed, which involves forming a plurality of carrier planes on a substrate with at least one of the carrier planes forming an angle relative to the substrate, and respectively mounting LEDs on the carrier planes and electrically connecting the LEDs with the carrier planes so as to obtain a preferred light distribution effect, thereby eliminating the need of additional light control element in the prior art and enhancing light emitting efficiency of the light source device. | 05-28-2009 |
20090141492 | LIGHT SOURCE APPARATUS, AND DISPLAY APPARATUS - A light source apparatus which can improve efficiency in generating light from a light-emitting device is provided. | 06-04-2009 |
20090141493 | LED SYSTEM, LED LAMP AND METHOD FOR ASSEMBLING A LED SYSTEM - The LED system has a set consisting of multiple LED lamps and an integrally formed electrical connecting member common to the LED lamps, wherein the electrical connecting member has multiple connection points for contacting a respective LED lamp. | 06-04-2009 |
20090147517 | LED RECESSED LAMP WITH SCREWS FIXING A RECESSED FIXTURE THEREOF - An LED recessed lamp for being received in a wall, including a housing ( | 06-11-2009 |
20090147518 | LED LAMP WITH IMPROVED HEAT DISSIPATING STRUCTURE - An LED lamp includes a top cover, a heat sink, and a conducting member, a plurality of light bars and a light cover. The top cover has a plate and a head extending upwardly from a centre of the plate. The heat sink has a conducting tube coupled to the plate of the top cover and a plurality of fins extending outwardly from the conducting tube. The conducting member is received in and thermally contacts with the conducting tube, and has a top surface attached to the plate and an inner surface on which the plurality of light bars are mounted. The inner surface is oriented downwardly and concaved from a bottom of the conducting member. Each light bar has a printed circuit board and a plurality of LEDs thereon. | 06-11-2009 |
20090147519 | LED work light - An LED work light has multichip LEDs and a diffusing dome. Each LED may have separate electrical terminals for each chip. The LED work light may have convex lenses forward of each LED. Convex lenses may be hemispherical. Convex lenses may have a nonhemispheric curved surface whose cross section has at least one circular arc and no non-circular arcs. The LED work light has a battery or receives power from an external power source. The LED work light may have a transparent plastic tube as a structural member. A replaceable plastic cover may be added to protect any structural tube or other major transparent part of the LED work light from abrasions. The plastic cover may be tubular. The plastic cover may comprise laminations of plastic that can be removed individually after being abraded. Any external power source may be a wall transformer type and may have current limiting means. The LEDs may be attached to the rear surface of an LED PCB that is fastened to a heatsink in a manner achieving thermal contact between the rear surfaces of the LEDs and the heatsink. A position sensing switch may be used. | 06-11-2009 |
20090154159 | LIGHT SOURCE FOR ILLUMINATING AN ELECTRONICS RACK TO FACILITATE SERVICING THEREOF - An apparatus is provided for facilitating servicing of an electronics rack. The apparatus includes a light source, which includes a plurality of light-emitting diodes. The plurality of light-emitting diodes are secured to the electronics rack or a floor tile disposed adjacent to the electronics rack, and are configured to illuminate at least a lower portion of the electronics rack at either the air inlet or air outlet side of the rack. A power supply is also provided for selectively supplying power to the plurality of light-emitting diodes. In one implementation, the light source includes an elongate light bar, which is configured to mount to either the inlet door or outlet door of the electronics rack, and the plurality of light-emitting diodes are secured to an elongate housing structure which pivotally couples to a base plate for adjustment of a direction of illumination by the light-emitting diodes. | 06-18-2009 |
20090154160 | LED LAMP WITH AN IMPROVED HEAT SINK - A recessed LED lamp for being mounted in a wall or a ceiling, includes a housing ( | 06-18-2009 |
20090175038 | Lighting arrangement and solid-state light source - The invention relates to a lighting arrangement for illuminating a surface. The lighting arrangement has a supporting element and a lighting unit ( | 07-09-2009 |
20090185373 | APPARATUS AND METHOD FOR THERMAL DISSIPATION IN A LIGHT - A device is disclosed for producing light that may include one or more printed circuit boards (PCBs), an electronics package may be disposed about the first surface of one or more of the PCBs and a housing. The PCBs may include a metal layer and a core, and, in some aspects, may include multiple cores interposed between multiple metal layers, and in some embodiments a backplane may be disposed along the core(s). A plurality of PCB's may be set apart and connected by pins to dissipate heat from one PCB to another, and/or to convey electrical connectivity. Pins may be configured to pass through or into one or both the PCBs including the cores to conduct heat generated by the electronics package away for dispersion. In some embodiments, the pins may pass into the backplane. The PCBs may include LEDs, lights, computer devices, memories, telecommunications devices, or combinations of these. The device may also include a housing to contain the plurality of PCBs such that air flow may enter the housing and pass by the pins for cooling of the PCBs and electronics thereof. The housing may also be configured to permit external power to be applied to the PCBs within the apparatus. | 07-23-2009 |
20090190352 | LIGHT-GENERATING DEVICE - A light-generating device ( | 07-30-2009 |
20090207611 | Lighting Device - A lighting device comprises a support or base having ferromagnetic features; one or more fixing elements reversibly associable to the support by means of magnetic attraction; a structure for supporting and/or shielding one or more luminous source. The structure is stably associable to the support or base by means of the fixing elements, fixed to the support or base according to different configurations. | 08-20-2009 |
20090213592 | LED LAMP WITH HEAT SINK ASSEMBLY - An LED lamp includes a support, an envelope, a heat sink assembly and a plurality of LED modules. The envelope is coupled to the support. The heat sink assembly includes a first heat sink mounted on the envelope, a cylindrical second heat sink attached to a bottom surface of the first heat sink and positioned in the envelope, and a plurality of heat pipes. The LED modules are mounted on an outside wall of the second heat sink. The heat pipes have condensing portions embedded in the bottom surface of the first heat sink and evaporating portions sandwiched between the outside wall of the second heat sink and the LED modules. | 08-27-2009 |
20090219719 | LIGHT EMITTING DIODE AND LIGHT SOURCE MODULE HAVING SAME - An exemplary light emitting diode includes a substrate, a LED chip, a first heat conductor, and a second heat conductor. The substrate comprises a first surface and an opposite second surface. The LED chip is positioned on the first surface of the substrate and it has a first electrode and a second electrode. The first heat conductor is attached to the second surface of the substrate and electrically connected to the first electrode of the LED chip. The second heat conductor is extending through the first heat conductor and insulated from the second heat conductor, and electrically connected to the second electrode of the LED chip. | 09-03-2009 |
20090231849 | LIGHT EMITTING DIODE LIGHTING MODULE AND METHOD FOR MAKING THE SAME - A method for making a light emitting diode lighting module includes steps of: (a) packaging a plurality of light emitting diode dies respectively on a plurality of die-mounting parts of a metal lead frame to form a plurality of light emitting diodes, respectively; and (b) cutting off supporting parts of the lead frame so as to form a connecting structure through which the light emitting diodes are connected to each other in one of serial, parallel, and serial-and-parallel connecting manners. | 09-17-2009 |
20090237932 | LED LIGHTING DEVICE HAVING HEAT CONVECTION AND HEAT CONDUCTION EFFECTS AND HEAT DISSIPATING ASSEMBLY THEREFOR - An LED lighting device having heat convection and heat conduction effects has a heat dissipating assembly, a substrate, multiple LEDs and a base. The heat dissipating assembly has a housing and an outer cover. The housing has multiple air holes. The outer cover is mounted on an open top of the housing and has multiple through holes and an exterior flue protruding from the outer cover and extending into the housing. The substrate is mounted inside the housing against the outer cover and has a hole allowing the exterior flue to extend therethrough. The LEDs are mounted on the substrate and respectively correspond to the through holes. The base is attached to a bottom of the housing. The exterior flue encourages heated air to move through the exterior flue and flow out of the housing via the air holes. With such continuous and directional air movement, the LED lighting device obtains good heat-dissipating efficiency. | 09-24-2009 |
20090237933 | LED ILLUMINATION DEVICE AND LIGHT ENGINE THEREOF - An LED illumination device includes an optical section at a front end thereof, an electrical section at a rear end thereof, and a heat dissipation section between the optical section and the electrical section. The optical section includes a plurality of LEDs electrically connecting with the electrical section, and a light output housing around the LEDs. The heat dissipation section includes a plurality of L-shaped heat pipes, a heat sink and a mounting seat. Each of the heat pipes includes an evaporation section and a condensation section substantially perpendicular thereto. The condensation sections of the heat pipes are received in the heat sink. The mounting seat attaches to the evaporation sections of the heat pipes. The LEDs thermally connect with evaporation sections via the mounting seat. | 09-24-2009 |
20090244894 | LED ASSEMBLY FOR LED LAMP CONSISTING OF MULTIPLE LED UNITS EACH HAVING A HEAT SINK - An LED assembly for an LED lamp includes a replaceable bracket and a plurality of LED units mounted on the bracket. The bracket includes a frame and a plurality of mutually crossed beams interconnected in the frame to define a plurality of square openings. Each LED unit includes a printed circuit board, a heat sink secured below the printed circuit board and fixed on the bracket, and a plurality of LEDs mounted on the printed circuit board to be exposed in the openings in the bracket. The bracket can have different configuration so that light beams generated by the LEDs are parallel to each other, in a convergent manner or in a divergent manner. | 10-01-2009 |
20090244895 | Light-Emitting Diode Illuminating Equipment with High Power and High Heat Dissipation Efficiency - The invention provides a LED illuminating equipment with high power and high heat-dissipating efficiency. The LED illuminating equipment of the invention includes a plurality of diode light-emitting apparatuses. Particularly, the heat generated by the diode light-emitting apparatuses in operation is conducted to a heat-dissipating plate device and the heat-dissipating fins. Besides, the heat is uniformly distributed over the heat-dissipating plate device and further dissipated by the heat-dissipating plate device and the heat-dissipating fins extending thereon. | 10-01-2009 |
20090244896 | LED LUMINAIRE - A luminaire includes a base, a lighting module disposed on the base, the lighting module including a mounting plate, and a plurality of light emitting diodes provided on the mounting plate, and a cover surrounding the lighting module and secured in the base, the cover optimally directing light emitted by the plurality of light emitting diodes. | 10-01-2009 |
20090251898 | LED Light Fixture - An LED floodlight fixture includes (1) a housing that has (a) at least one end-portion and (b) a single-piece extrusion including (i) a base having an LED-adjacent surface and an opposite surface and (ii) a heat-dissipating section having heat-dissipating surfaces extending from the opposite surface, and (2) an LED arrangement mounted to the LED-adjacent surface in non-water/air-tight condition with respect to the housing. The housing preferably forms at least one venting gap to provide cool-air ingress to and along the heat-dissipating surfaces by upward flow of heated air therefrom. Additionally and/or alternatively, the base of the single-piece extrusion has one or more venting apertures to provide cool-air ingress for such purpose. One aspect of the invention involves the heat-dissipating section of the extrusion including a closed extruded wireway therealong enclosing wires extending to/from electrical component(s). | 10-08-2009 |
20090257226 | LED LAMP HAVING A SEALED STRUCTURE - An LED lamp includes a lamp holder, a heat sink, a plurality of LED modules, a cover, an envelope and a sealing cushion. The lamp holder has a connecting portion at a bottom thereof adapted for engaging with a lamp socket to fix the LED lamp in position. The heat sink is disposed on the lamp holder. The LED modules are attached to a circumference of the heat sink. The cover is coupled to a top of the heat sink. The envelope encloses the heat sink and the LED modules therein and has a lower end engaging with the lamp holder and an upper end engaging with the cover. The sealing cushion is provided between at least one of the combinations of the lamp holder and the envelope, and of the cover and the envelope to prevent an entry of foreign matter. | 10-15-2009 |
20090257227 | BALLOON LAMP - A balloon lamp includes a holder base, a balloon shade affixed to the holder base at the top, a balloon connector mounted in the balloon shade to secure a balloon, a power supply unit mounted in the holder base, and one or more LEDs installed in the balloon shade or the holder base and electrically connected to the power supply unit to emit light toward the balloon, thus producing a lighting effect. | 10-15-2009 |
20090262533 | OUTDOOR LED LAMP ASSEMBLY - An LED lamp assembly includes a receiving member, a first LED lamp and a second LED lamp. The receiving member has a pair of opposite slope surfaces. The first and second LED lamps are mounted on the opposite slope surfaces of the receiving member. Each of the first and second LED lamps includes a heat sink and a plurality of LED modules mounted on the heat sink. A number of the LED modules of the first LED lamp is more than that of the second LED lamp. When the LED lamp assembly is mounted on a roadside, the first LED lamp is oriented slantwise toward a leaving direction of vehicles while the second LED is oriented slantwise toward a coming direction of the vehicles. | 10-22-2009 |
20090268462 | LED LAMP - An LED lamp includes a housing, a bracket snugly received in the housing, a connecting member fixed to a top of the bracket, a heat sink standing on a top of the connecting member, a plurality of LEDs attached an outer surface of the heat sink and an envelope which is placed on the top of the connecting member, encloses the heat sink and the LEDs therein and engages with the housing. The bracket has a connecting plate. A plurality of electronic components is mounted on a front side of the connecting plate and a plurality fins extending from a rear side of the connecting plate. A covering panel is used to cover an opening of the bracket in front of the connecting plate. | 10-29-2009 |
20090268463 | LED LAMP WITH HEAT SINK - An LED lamp ( | 10-29-2009 |
20090268464 | LED LAMP WITH HEAT SINK - An LED lamp includes a plurality of LED modules, a heat absorbing member, a heat sink and an envelope. The heat absorbing member comprises a plurality of inclined top boards oriented toward different directions and a plurality of horizontal bottom boards located below and connecting with corresponding top boards. A plurality of air passages is defined between the top board and the bottom board. Each of the LED modules is attached on a corresponding top board. The heat sink thermally contacts the heat absorbing member. The envelope is mounted on the heat sink and engages with the heat sink to enclose the heat absorbing member and LED modules therein. | 10-29-2009 |
20090273926 | CONFIGURABLE LAMP BAR - A lamp bar includes a plurality of LEDs positioned along the body, and a rotational mechanism for rotating the body independently of an electrical connection to a power source. | 11-05-2009 |
20090273927 | POLY NIGHT LIGHT - A poly night light is made of an un-saturated polyester resin (UPR) compound to provide the night light with a certain degree of softness and cushioning to meet quality tests. The poly night light has a molded-in clip that allows the display unit to fit into a lamp holder's connector for solid installation. The lamp holder can be for an incandescent bulb, neon bulb, LED(s), organic electro-luminescent element(s), or other conventional lighting elements. The poly display unit may have a three-dimensional design, shape, curvature, and/or configuration for an eye-catching, valuable appearance and further may be painted by hand or spray paint to make it more elegant than any other currently-marketed night light. | 11-05-2009 |
20090279300 | LED LIGHT SOURCE UNIT - To provide an LED light source unit which is excellent in heat dissipation performance, able to prevent damage to LED and bright, and which has a long life. | 11-12-2009 |
20090284972 | Light-emitting Diode Module with Heat Dissipating Structure and Lamp with Light-emitting Diode Module | 11-19-2009 |
20090290347 | Angled LED Light Module - An angled LED light module comprising at least two boards arranged at an angle relative to each other; and a plurality of LED bulbs mounted on the at least two boards, wherein the at least two boards and the plurality of LED bulbs form a single light source. In one aspect, the at least two boards are printed circuit boards. In one aspect, the angled LED light module comprises two stages. | 11-26-2009 |
20090290348 | Thermal Management Of LED-Based Lighting Systems - An LED-based lighting system includes a housing forming one or more apertures, a PCB having conductors on its front-side, and one or more LEDs mounted with the conductors. The PCB mounts with the conductors proximate to a top surface of the housing such that the LEDs emit light through the apertures, and heat generated by the one or more LEDs primarily dissipates through the conductors to the housing. A retrofit apparatus for a light fixture includes a PCB having conductors on its front-side thereof, and one or more LEDs mounted with the conductors. The PCB mounts with the conductors proximate to a surface of a mounting bracket that is configured for mounting to the light fixture, such that when the bracket mounts to the light fixture, heat generated by the one or more LEDs primarily dissipates through the conductors and the structural element to the light fixture. | 11-26-2009 |
20090290349 | Non-Glare Reflective LED Lighting Apparatus with Heat Sink Mounting - A lighting apparatus using at least one light-emitting diode (“LED”), back-reflecting collection optics for LEDs, and an improved heat sink mounting apparatus which promotes efficient heat dissipation generated from the LED while minimizing light obstruction and glare. The lighting apparatus contains a main housing; a reflector disposed within the main housing, the reflector having a front side and a rear side; a top rim thermally coupled to one end of the main housing; a heat conducting body positioned to face the front side of the reflector, the heat conducting body comprising a heat pipe thermally coupled to the top rim; at least one light-emitting diode thermally coupled to the heat conducting body, the at least one light-emitting diode being positioned to face directly at the front side of the reflector so that light emitted from the at least one light-emitting diode is directed to the front side of the reflector. | 11-26-2009 |
20090296391 | SOLID STATE LAMP LIGHTING SYSTEM - A LED lamp assembly includes a substrate, a plurality of LEDs and a circuit. The circuit can provide soft start pulses for driving the plurality of LEDs. The soft start pulses allow for greater drive energies to be used for emitting high power light. The plurality of LEDs can be disposed on the substrate, which can include a thermally conductive material that can facilitate heat transfer from the plurality of LEDs. The substrate can include a bore that can facilitate heat transfer when exposed to air, liquid, ice, or combinations thereof. | 12-03-2009 |
20090296392 | LED LIGHTING FIXTURE - An LED lighting fixture including a support structure having a horizontal cross-dimension; a top structure attached to the support structure and extending outwardly beyond the support structure, the top structure having a bottom surface with peripheral portion surrounding a non-peripheral portion; and a plurality of LED emitters positioned on the peripheral portion for emitting light in downward direction substantially outside of the horizontal cross-dimension of the support structure. | 12-03-2009 |
20090296393 | LED LAMP - An LED lamp comprises a heat sink, a plurality of LED modules respectively disposed at two opposite sides of the heat sink, a casing attached to a front of the heat sink, two envelopes respectively located at the two opposite lateral sides of the heat sink and covering the LED modules therein and a holder connecting the casing for holding the LED lamp in position. | 12-03-2009 |
20090296394 | Light emission structure - A light emission structure includes a circuit board and at least one light-emitting diode. The circuit board defines at least one opening, which receives the light-emitting diode therein in such a way that the light-emitting diode has a plurality of terminals extending over and supported by the circuit board and a gap is formed between the light-emitting diode and the opening. As such, heat dissipation of the light-emitting diode is enhanced and overall thickness is reduced. | 12-03-2009 |
20090303717 | LED LAMP ASSEMBLY - An LED lamp assembly includes a first heat sink, a plurality of second heat sinks secured to a periphery of the first heat sink, a plurality of LED modules respectively attached to the second heat sinks and a plurality of heat pipes interconnecting the first heat sink and the second heat sinks. The first heat sink comprises a heat conducting body defining a through hole therein and a plurality of first fins around the heat conducting body. The second heat sinks each comprise a plurality of second fins facing the first fins of the first heat sink. The heat pipes each comprise an evaporating section attached to a corresponding second heat sink and a condensing section extending into the through hole of the heat conducting body of the first heat sink and attached to the heat conducting body. | 12-10-2009 |
20090303718 | LED LAMP - An LED lamp includes a lamp cover consisting of a plurality of sector-shaped connecting bodies, a plurality of fins attached to the lamp cover and a plurality of LED modules attached to the lamp cover and opposing the fins. A locking device is pivotably mounted to the lamp cover and comprises a supporting pole extending in the lamp cover, a plurality of branches pivotably mounted to the lamp cover and the supporting pole. The branches are movable along the supporting pole to be locked at a desired position, whereby an illumination angle of the LED modules of the lamp cover relative to the supporting pole is changeable via movement of the branches along the supporting pole of the locking device. Thus, an illumination area and an illumination intensity of the LED lamp are adjustable. | 12-10-2009 |
20090303719 | LIGHTING DEVICE - A lighting device is provided. The lighting device has a cooling lampstand made out of one piece by a resin composition. The circuit and at least one light emitting diode (LED) are directly disposed on the cooling lampstand. | 12-10-2009 |
20090303720 | LED Lighting Device - An arrangement of a multiplicity of LEDs, drive circuitry, and supporting structure to form a replacement for standard fluorescent tubes without the need to rewire or remove the magnetic or electronic ballasts in use in standard fluorescent fixtures. | 12-10-2009 |
20090310361 | Luminaire with Integral Signage Endcaps - A luminaire with signage endcaps includes a luminaire housing and one or more light emitting elements. The housing typically includes a top member and multiple side members extending down from the top member. The top and side members define the interior of the luminaire housing. Light emitting elements are coupled to the housing. These light emitting elements generally emit light downward from the luminaire and can be coupled along the interior of the housing or positioned along an exterior side of one or more of the side members. A stencil or stencil plate can be positioned along or coupled to one or more others side members. The stencil and stencil plate include openings in the shape of alphanumeric symbols and/or ideograms and include within the openings or have positioned adjacent to the openings a translucent member. Ambient light within the interior of the housing illuminates the stencil and translucent member. | 12-17-2009 |
20090310362 | LIGHTING SYSTEM FOR A DISPLAY APPARATUS - A lighting system for a display assembly, in particular for a dispensing apparatus such as a chilled vending machine, including a track assembly and one or more LED lighting units releasably attachable to the track assembly and means for supplying DC electrical power to the lighting units attached to the track assembly is disclosed. A dispensing apparatus, in particular a low temperature dispensing apparatus such as a chilled vending machine is also disclosed. The track assembly is modular, including releasably interconnectable tracks, preferably having a continuous profile with electrodes | 12-17-2009 |
20090310363 | LED LAMP HAVING ENHANCED WATERPROOFING - An LED lamp includes a heat sink, a plurality of LED modules attached to the heat sink, and an envelope disposed on the base of the heat sink. The heat sink includes a base and a plurality of fins extending from the base. The envelope defines a receiving groove therein surrounding the LED modules. The receiving groove is stepped to have an upper portion and a lower portion recessed downwardly from a bottom of the upper portion. The LED lamp further includes an annular waterproof gasket. The waterproof gasket includes a main body received in the upper portion of the receiving groove and an engaging portion protruding downwardly from a bottom thereof and engagingly received in the lower portion of the receiving groove. The lower portion and the upper portion of the receiving groove are both rectangular in cross-section. | 12-17-2009 |
20090316406 | Foldable LED light recycling cavity - LEDs are mounted onto a flat, thermally conductive, substrate, which is folded to form a light recycling cavity. A planar substrate is first coated with a metal layer, which is patterned to electrically connect the LEDs and to form bonding pads for wirebonds to connect the LEDs to external circuitry. The LEDs are mounted on the substrate. The substrate is then scribed on the backside to form the folds. The LED dies are then attached onto the metal islands (pads) defined on the substrate and wirebonds are used to connect the top side of the LED to adjacent patterned metal islands (pads) on the substrate. The substrate is then folded into a light recycling cavity where the LEDs are facing the inside of the cavity. | 12-24-2009 |
20090323340 | LED LAMP - An LED lamp includes an LED module, a heat sink having a base abutting an upside of the LED module, a plurality of posts extending through the LED module and into the base of the heat sink, and a plurality of elastic members engaging the plurality of posts respectively and elastically abutting an underside of the LED module to secure the LED module to the base of the heat sink. The LED module is sandwiched between the base and the elastic members, and is thereby secured to the base of the heat sink. | 12-31-2009 |
20090323341 | Convective cooling based lighting fixtures - Convective cooling based lighting fixtures are disclosed. In some embodiments, a lighting fixture comprises a paddle configured to move in one or more directions and a set of one or more heat generating lighting elements mounted on the paddle. The motion of the paddle results in convective cooling of the set of lighting elements. | 12-31-2009 |
20090323342 | LED ILLUMINATION DEVICE - An LED illumination device includes a light source and a heat sink. The heat sink includes an elongated base and a plurality of fins extending from the base. The base has a heat-absorbing surface and an opposite heat-spreading surface. The fins extend upwardly from the heat-spreading surface. The light source is attached to the heat-absorbing surface, whereby heat generated by the light source is removed by the heat sink. The heat-absorbing surface is one of a convex surface and a concave surface, whereby light emitted from the light source is diverged or converged towards objects. | 12-31-2009 |
20100002438 | LED LAMP - An LED lamp includes a heat sink having a base and a plurality of LED module assemblies mounted on a top surface of the base of the heat sink. Each of the LED module assemblies includes a fixing bracket secured to the top surface of the base, an LED module mounted on a top surface of the fixing bracket and two heat pipes engaging with the fixing bracket and the heat sink. The fixing bracket includes a bottom plate attached on the top surface of the base, a top plate on which the LED module is attached and a connecting plate interconnecting the bottom plate with the top plate. The heat pipes thermally connect the bottom plate and the heat sink with the top plate. | 01-07-2010 |
20100027261 | LED LIGHT SOURCE UNIT - To provide an LED light source unit which is excellent in heat dissipation performance, able to prevent damage to LED and bright, and which has a long life. | 02-04-2010 |
20100033968 | LIGHT INFORMATION MODULE - A light-information module including a foundation on which there are fixed tubular light-conducting elements with luminous sources mounted therein, wherein a light-emitting armature is located within each of the light-conducting elements, said light-emitting armature including at least one group of parallel conductors, wherein each of the conductors includes a thin copper wire, each of the conductors is situated in a plane with the other conductors, each of the conductors has a length coinciding to that of the light-conducting element, and each of the conductors is provided with a S-shaped compensator. The light-emitting armature also includes at least one set of luminous sources, each including transistorized light emitting diodes, connected between each other and forming a full-color pixel by means of compact printed circular boards, having contact areas on one side thereof to fix said at least one set of luminous sources on said parallel conductors by welding or soldering. | 02-11-2010 |
20100046220 | LED UNIT AND LED LIGHTING LAMP USING THE LED UNIT - The present invention is an LED unit having a thermal-release structure including a base having high thermal conductivity, a circuit board which includes a wiring pattern and is provided on the base, at least one LED element which is electrically connected to the wiring pattern and disposed on the base, and a light-transmitting resinous body provided to cover above the base to seal the LED element. | 02-25-2010 |
20100046221 | LED Source Adapted for Light Bulbs and the Like - A light source and method for making the same are disclosed. The light source includes a housing, a drive assembly, and an LED. The housing has an interior compartment enclosed in an outer surface having a heat dissipating surface and first and second power terminals that are accessible from outside the interior compartment. The drive assembly is located in the interior compartment and electrically connected to the first and second power terminal. The LED is directly attached to the heat dissipating surface and electrically insulated therefrom, the LED having first and second LED power contacts. The housing has first and second housing power terminals disposed outside the housing, electrically isolated from the heat-dissipating surface, and connected to the drive assembly. A first conductor connects the first LED power contact to the first housing power terminal. A second conductor connects the LED second power contact to the second housing power terminal. | 02-25-2010 |
20100046222 | LIGHT EMITTING DIODE LAMP TUBE - An LED lamp tube is applied to satisfy a light source requirement and is used primarily to replace an existing conventional lamp tube, achieving an energy saving requirement. Plural LEDs are used as a luminous source which is assembled in a light permeable tube body, fitted with a drive circuit control module, so as to form the LED lamp tube. In addition, the LED lamp tube can be connected serially in plural sets depending on a length of the tube body, so as to comply with a light source requirement in various environments. | 02-25-2010 |
20100046223 | LED LAMP ASSEMBLY - The present invention relates to lighting assemblies and more particularly to light emitting diode (LED) light bulbs comprising a support for one or more LED lenses, which can be used to position and support the lenses within the lamp housing and which facilitate assembly of the light bulbs during manufacturing. | 02-25-2010 |
20100046224 | ILLUMINATION DEVICE - An illumination device includes a circuit board unit having positioning hole units corresponding respectively to LEDs mounted thereon. Each positioning hole unit includes a first positioning hole, and a second positioning hole having a diameter larger than that of the first positioning hole. A lamp seat has positioning post units corresponding respectively to the positioning hole units in the circuit board unit. Each positioning post unit includes a first positioning post, and a second positioning post having a width larger than that of the first positioning post. When the circuit board unit is mounted on the lamp seat, the first and second positioning posts of each positioning post unit respectively extend through and engage the first and second positioning holes of a corresponding positioning hole unit in the circuit board unit, thereby positioning the circuit board unit to the lamp seat. | 02-25-2010 |
20100053963 | LED LAMP - An LED lamp includes a base, a heat sink placed on a top surface of the base and a plurality of LED modules mounted on the heat sink. The base has a base plate, an engaging flange extending upwards from an edge of the base plate and a plurality of projecting vanes formed on a bottom of the base plate. The heat sink surrounded by the engaging flange comprises a core, a plurality of branches extending outwards from an outer circumference of the core and a plurality of fins formed on two opposite sides of each branch. Each branch defines an inclined surface on a top thereof and has a height gradually decreased along a direction outwards from the core. Each LED module has a printed circuit board mounted on the inclined surface of a corresponding branch of the heat sink. | 03-04-2010 |
20100053964 | LED LAMP - An LED lamp comprises a heat sink with a plurality of LED modules attached thereon, an envelope receiving the heat sink and the LED modules, and a top cover and a bottom cover mounted at two ends of the heat sink via a plurality of fasteners and shafts with an elastic member coiled therearound. The top cover, the envelope and the bottom cover cooperatively form a sealed space receiving the heat sink and the LED modules. When the fasteners are fastened toward the heat sink, the shafts move upwardly relative to the bottom cover, whereby a distance between the top cover and the heat sink is decreased, so the heat sink makes tight contact with the top cover. | 03-04-2010 |
20100053965 | LED LAMP - A LED lamp comprises: a lamp base; an illuminating component, mounted on the lamp base, wherein the illuminating component comprises a circuit board and a plurality of LEDs arranged on the circuit board; a lamp shade, mounted on the lamp shade for enclosing the illuminating element, wherein the lamp shade has at least one open area; and at least one waterproof and ventilative element, disposed on the open area for covering the open area; thereby, vapors inside the lamp shade can vacate out of the LED lamp through the waterproof and ventilative element, while external vapors cannot infiltrate into the lamp shade through the waterproof and ventilative element. | 03-04-2010 |
20100053966 | LED LAMP AND HEAT-DISSIPATING WATERPROOF COVER THEREOF - An LED lamp includes an illumination apparatus and a heat-dissipating waterproof cover. The illumination apparatus includes LED modules; and the heat-dissipating waterproof cover is configured to cover the LED modules. The heat-dissipating waterproof cover includes a plurality of drain members, and a gap is formed between every two drain members so as to increase the air convection, thereby increasing heat dissipation efficiency of the LED modules. Every two adjacent drain members are partially overlapping in vertical to prevent the intrusion of water. | 03-04-2010 |
20100053967 | Lighting device to be installed in a panel - The invention relates to a lighting device to be installed in and/or behind a panel ( | 03-04-2010 |
20100067230 | LIGHT EMITTING DIODE LAMP TUBE - A light emitting diode (LED) lamp tube includes a lamp device including a circuit board, and a plurality of LEDs mounted on the circuit board. The circuit board is disposed in a tubular enclosure such that an inner peripheral surface of the enclosure is divided into a non-illuminated portion and a light-receiving portion. The tubular enclosure has a plurality of tapered protrusions extending from the light-receiving portion toward the LEDs. Each of the tapered protrusions converges from the light-receiving portion toward the LEDs. Each of the tapered protrusions further has a maximum width at an outer end thereof, which increases gradually from a middle portion of the light-receiving portion toward junctions of the light-receiving portion and the non-illuminated portion. | 03-18-2010 |
20100073930 | Lighting Apparatus with Heat Dissipation System - A lighting apparatus is shown and described. In one aspect, the lighting apparatus includes a light source, a plate, and frame. The light source can include one or more lighting elements that are in thermal communication with the light source. The plate can have a dissipative portion extending outward from a point of thermal communication between the plate and the light source. The frame can at least partially enclose the light source and may also be in thermal communication therewith. | 03-25-2010 |
20100073931 | LIGHT-EMITTING MODULE, LIGHT-EMITTING DEVICE HAVING THE LIGHT-EMITTING MODULE, AND LIGHTING APPARATUS HAVING THE LIGHT-EMITTING DEVICE - A light-emitting module has semiconductor light-emitting elements, a substrate, and a jointing connector. The semiconductor light-emitting elements are mounted on the obverse of the substrate, and connected in series by conductive patterns formed on the substrate. The jointing connector has a male terminal and a female terminal, which are connected in series to the conductive patterns. The jointing connector has a connecting part connectable to other same-shaped jointing connector arranged in point-symmetric for the jointing connector. | 03-25-2010 |
20100079998 | DECORATIVE LIGHT FIXTURE INCLUDING COOLING SYSTEM - A decorative light fixture includes a light engine and a shroud. The light engine includes a heat sink and a light source in thermal communication with the heat sink. The shroud covers the light engine to define an air path between an air inlet and an exhaust. The air inlet is disposed vertically below the exhaust. The air path is shaped to direct air over the heat sink and to exit the shroud above the light engine. | 04-01-2010 |
20100085751 | Enclosures for Light Sources - Embodiments of the present invention provide enclosures for light sources, such as, but not limited to, LEDs, and their circuitry that obviate the need for separate enclosures. The light sources and their circuitry are mounted on a support structure that serves as a heat sink and protected from the environment by a flame resistant and partially transparent protective cover. Multiple such enclosures may be used in a light fixture. | 04-08-2010 |
20100085752 | LED LAMP - An LED lamp includes a lamp cover, a plurality of brackets received in the lamp cover and interconnecting each other, a plurality of LED modules thermally attached to inner surfaces of the brackets and a plurality of light-guiding covers covering the LED modules, respectively. The brackets have different sizes and are coaxially positioned wherein a larger bracket encloses a smaller bracket. The LED modules are inclined relative to a bottom of the lamp cover and light emitted by the LED modules respectively travels through the light-guiding covers to generate a wide illumination area through the bottom of the brackets. | 04-08-2010 |
20100085753 | FABRIC COVER LAYER FOR DISPLAY DEVICE - A display device comprising a substrate ( | 04-08-2010 |
20100085754 | LIGHT EMITTING DEVICES HAVING HEAT-DISSIPATING SURFACE - A light-emitting device may include a heat-dissipating base, a light-emitting unit, a housing, and a first conductive contact and a second conductive contact. The heat-dissipating base has a top portion and a bottom portion. The bottom portion of the heat-dissipating base may include an exposed heat-dissipation surface. The light-emitting unit is over the top portion of the heat-dissipating base and is arranged to provide heat conductivity at least from the light-emitting unit to the heat-dissipating base. The light-emitting unit may include at least one light-emitting diode for emitting light and a first electrode and a second electrode. Heat may be generated as the light-emitting diode emits light, and the at least one light-emitting diode may have power input terminals for receiving power input to the at least one light-emitting diode. The power input may include one of an alternating-current input and a direct-current input. The first electrode and the second electrode are electrically coupled with the input terminals of the at least one light-emitting diode. The housing encloses at least a portion of the light emitting unit and covers the top portion of the heat-dissipating base. The first conductive contact and the second conductive contact are near or below a portion of the heat-dissipating base and are configured to receive external power supply. The first conductive contact may be electrically coupled with the first electrode, and the second conductive contact may be electrically coupled with the second electrode. | 04-08-2010 |
20100091494 | RAIL LIGHT - A stair rail light attachable between first and second vertical stair rail posts and having an elongated central housing whose interior mounts an extrusion designed to hold and position a plurality of LED carrier members wherein the housing slidably engages respective mounting plugs pivotally attached to respective stair rail posts, thereby permitting the length of the rail light to be adjusted in the field. | 04-15-2010 |
20100091495 | Modular Extruded Heat Sink - A modular heat sink includes one or more heat sink sections interconnected sequentially to each other to form a polar array. Each heat sink section includes a first connecting part and a second connecting part, where the first connecting part is configured to couple with the second connecting part of another heat sink section. Once assembled, the modular heat sink includes a channel formed substantially through the center of the modular heat sink. Each heat sink section is manufactured using an extrusion process. The assembled modular heat sink has one or more hollow portions within the overall shape that cannot be fabricated in a single extrusion process. One or more LEDs are coupled to the outer surface of the modular heat sink. The modular heat sink, with LEDs coupled thereto, is coupled to a wireway tube and mounted to a post-top light fixture to form an LED luminaire. | 04-15-2010 |
20100097804 | LED LAMP - An LED lamp includes a bracket, two guiding plates and a number of LED assemblies. Each of the guiding plates includes a body, a top flange and a bottom flange extending from top and bottom edges of the body, respectively. The bottom flanges are mounted on opposite sides of the bracket. The top flanges are oriented towards each other. The LED assemblies are mounted to the bracket and sandwiched between the bodies of the guiding plates. The LED assemblies slide along a longitudinal direction of the guiding plates before the LED assemblies are assembled to the bracket by screwing the LED assemblies to the guiding plates. The quantity of the LED assemblies assembled to the bracket is selective thereby to meet different luminous density requirements/specifications. | 04-22-2010 |
20100097805 | LED LAMP ASSEMBLY - An LED lamp assembly includes a fixing member with a plurality of LED lamps secured to it from different aspects. The fixing member has a plurality of supporting parts extending outwards from a bottom end thereof and a plurality of holding parts extending outwards from an upper end thereof. Each holding part defines an opening therein. The LED lamps are respectively mounted on the holding parts of the fixing member and each comprise a plurality of LED modules received in an opening of a corresponding holding part and facing toward the supporting parts. | 04-22-2010 |
20100103673 | END CAP SUBSTITUTE FOR LED-BASED TUBE REPLACEMENT LIGHT - Disclosed herein is a replacement light for a fluorescent tube usable in a fluorescent fixture. The light includes a housing having a first end and a second end opposite the first end. A support structure is disposed within the housing. At least one LED is positioned within the housing and is arranged on the support structure. A first seal has at least one aperture and is disposed within the first end of the housing. The first seal is configured to conform to an inner circumference of the first end of the housing. At least one electrical connector extends through the at least one aperture is and connectable to the fluorescent fixture. | 04-29-2010 |
20100110682 | Led-based secondary general illumination lighting color slaved to alternate general illumination lighting - One aspect relates to combining an at least one LED-based secondary general illumination lighting with an at least one primary general illumination lighting to at least partially provide an at least one combined general illumination lighting. The aspect further comprises sensing one or more sensed optical characteristics of an at least one alternate general illumination lighting. The aspect further comprises controlling at least one controlled optical characteristics of the at least one LED-based secondary general illumination lighting to control the at least one combined general illumination lighting at least partially responsive to the sensing the one or more sensed optical characteristics of an at least one alternate general illumination lighting. | 05-06-2010 |
20100110683 | LED LAMP - An LED lamp includes a heat sink having a planar base, a plurality of LED modules attached to a bottom face of the base, an envelope disposed on the bottom face of the base and covering the LED modules, and a lamp bracket securing the base and the envelope together. The lamp bracket includes a vertical frame which defines an opening at a lateral side thereof, an engaging flange extending from an inner face of the frame and supporting a fixing flange of the envelope, and a plurality of protrusions projecting from the inner face of the frame above the engaging flange and pressing the base downwardly towards the envelope. The base of the heat sink and the envelope are inserted into the vertical frame through the opening. | 05-06-2010 |
20100110684 | LIGHT EMITTING DIODE LUMINAIRES AND APPLICATIONS THEREOF - LED assemblies and luminaires comprising the same are described herein. In some embodiments, the LED assemblies and luminaires are suitable for use in a wide variety of applications including outdoor lighting applications such as roadway and sidewalk lighting, parking lot lighting and residential area lighting. | 05-06-2010 |
20100110685 | LIGHT TUBE - A light tube including a heat sink, a light transmissive cover disposed on the heat sink, and at least one light source module is provided. A containing space is formed between the heat sink and the light transmissive cover. The light source module includes a carrier, a plurality of first light-emitting devices, a plurality of second light-emitting devices, and a plurality of non-light-emitting passive devices. The carrier is disposed on the heat sink. The first light-emitting devices are arranged on the carrier along a first straight reference line to form a first line of light-emitting devices. The second emitting devices are arranged on the carrier along a second straight reference line to form a second line of light-emitting devices. The non-light-emitting passive devices are disposed on the carrier and between the first and second lines of light-emitting devices and electrically connected to the first and the second light-emitting devices. | 05-06-2010 |
20100118534 | MODULAR LED FLOOD LIGHT - A modular luminaire which uses LED light sources. The basic frame comprises two end pieces compressed together by through bolts. At least one elongated heat sink is compressed between the end pieces. Each heat sink may bear a plurality of LEDs mounted on a printed circuit board which may have an integral metallic backplate, and is installed on one of the heat sinks with a layer of heat conductive grease therebetween. The heat sinks have fins projecting in three directions, the fourth direction being accounted for by the LEDs, and are rotatable about their longitudinal axes to adjust direction of light propagation. The heat sinks are arrayed in an arc, so that the outside heat sinks shield observers from direct glare from opposed heat sinks. Heat sinks may be extruded to form cooling fins and slots which may receive fasteners such as screws. | 05-13-2010 |
20100124058 | Thermal Management of LED Lighting Systems - Embodiments of the invention provide thermal management systems for LED light fixtures. In one embodiment, an LED track light fixture includes a lighting assembly, a fixture housing mounted to the lighting assembly and having a plurality of apertures, and a mounting structure that affixes the fixture housing to a track. In this embodiment, the lighting assembly includes a heat sink, a reflector, at least one light emitting diode, and a synthetic jet actuator. In a second exemplary embodiment, a sealed, enclosed LED light fixture includes a lighting assembly, along with an enclosure and a fixture housing surrounding the lighting assembly. In this embodiment, the lighting assembly includes at least one light emitting diode, a thermoelectric cooler, and at least one heat sink. In some embodiments, a forced air cooling device may be located between the printed circuit board and the thermoelectric cooler. | 05-20-2010 |
20100128478 | HIGH INTENSITY REPLACEABLE LIGHT EMITTING DIODE MODULE AND ARRAY - A light fixture, comprising a matrix, a plurality of electrical sockets fixedly secured to the matrix and forming a rigid matrix of electrical sockets electrically interconnected in two dimensions. One or more light emitting diode modules are individually removable and replaceable within any individual electrical socket within the matrix. Each individual light emitting diode module includes a base and a light emitting diode, wherein the base is configured and arranged for fitted electrical engagement within the electrical socket. | 05-27-2010 |
20100128479 | Semiconductor Light Module - A semiconductor light module comprising: integrated drive electronics, a semiconductor light source applied to a disk-shaped module, the surface of which is electrically conductive, and wherein the module has good thermal conductivity. The drive electronics are positioned around the semiconductor light source, and the drive electronics comprise a circuit board having at least first and second conductor track levels. The first track level is oriented outward in the light emission direction in the installed state, and the second track level is enclosed by a closed cavity incorporated into the module. Ground-carrying lines of the circuit board are electrically connected to the surface of the module. | 05-27-2010 |
20100128480 | LIGHTING FIXTURE - A lighting fixture includes a light-emitting section composed of a plurality of semiconductor light-emitting devices arranged separated from one another on a planar substrate and a lighting control section configured to control lighting of the semiconductor light-emitting devices of the light-emitting section. The light-emitting section is attached at a front of a fixture main body, and a convection generation section configured to generate convection is provided at a back of the fixture main body. The convection generation section generates convection and promotes heat radiation. With the configuration, even if the lighting fixture is installed to abut on a ceiling surface, the effect of radiating heat generated by the semiconductor light-emitting devices can be ensured. | 05-27-2010 |
20100135019 | LED LAMP ASSEMBLY - An LED lamp assembly includes a bracket, a heat sink secured on the bracket, a plurality of LED modules mounted on a bottom of the heat sink, and a transparent envelope correspondingly covering the LED modules. A sealing chamber is cooperatively defined by the heat sink, the bracket and the envelope, and the LED modules are received in the sealing chamber. The LED assembly is further provided with a gas-injecting member for injecting a predetermined gas into the sealing chamber of the LED lamp assembly therethrough. | 06-03-2010 |
20100135020 | Modular illumination systems - Lighting systems are provided which may be modular in form. Components of the systems include light emitting modules having a plurality of light emitting elements such as an array of spaced apart surface mounted or through board light emitting diodes, a power input connected to the light emitting module, and a housing assembly structured to receive the module. The housing assembly includes an attachment member for securing the housing element to a mounting surface, and a face portion effective to allow passage of light from the array of light emitting elements to a region to be illuminated when the module is received by the housing assembly. | 06-03-2010 |
20100142204 | Card Edge LED Strip Connector and LED Assembly - An LED light assembly includes a plurality of LED printed circuit boards (PCB), with each LED PCB having at least one LED bulb and electrical connector pads configured at each opposite end of the boards. At least one electrical connector is configured to connect one end of a first LED PCB to an end of a second said LED PCB such that the first and second LED PCBs are electrically connected end-to-end. The connected LED PCBs may be configured in a light tube that includes connector end caps for mounting the light tube in a light fixture. | 06-10-2010 |
20100142205 | TWO PART SURFACE MOUNT LED STRIP CONNECTOR AND LED ASSEMBLY - An LED light assembly includes a plurality of LED printed circuit boards (PCB), with each LED PCB having at least one LED bulb and electrical connector pads configured at each opposite end of the boards. A two-component surface mount electrical connector is configured to connect one end of a first LED PCB to an end of a second said LED PCB such that the first and second LED PCBs are electrically connected end-to-end. The connected LED PCBs may be configured in a light tube that includes connector end caps for mounting the light tube in a light fixture. | 06-10-2010 |
20100149806 | LED LIGHTING DEVICE AND METHOD OF MANUFACTURING THE SAME - A light emitting diode (LED) lighting unit is provided. The LED lighting unit includes a printed circuit board having pairs of electrical terminals formed on one side thereof, a casing integrally formed on the one side of the printed circuit board by injection molding, and a plurality of LED chips. Each of the LED chips is electrically connected to each pair of electrical terminals, and the LED chips are exposed in the casing. The printed circuit board may be provided with a plurality of apertures for receiving molding material of the casing during injection molding. A method of manufacturing the LED lighting unit is also provided. | 06-17-2010 |
20100149807 | Light source apparatus - A light source apparatus including a first heat transfer element, a second heat transfer element, at least one first light emitting element, and at least one second light emitting element is provided. The first heat transfer element has a first carrying surface and a first heat dissipation surface opposite to the first carrying surface. The second heat transfer element surrounds the first heat transfer element and has a second carrying surface and a second heat dissipation surface opposite to the second carrying surface. The thermal resistance of the first heat transfer element is smaller than the thermal resistance of the second heat transfer element. The first and the second light emitting elements are disposed over the first and the second carrying surfaces respectively. The luminance of the first light emitting element is easier to vary with a change of temperature than the luminance of the second light emitting element. | 06-17-2010 |
20100149808 | ILLUMINATION DEVICE AND PROJECTION DEVICE WITH SUCH AN ILLUMINATION DEVICE - An illumination device may include a flexible printed circuit board; a power electronics module; and a light-emitting diode module, which is electrically connected to the power electronics module by means of the flexible printed circuit board. | 06-17-2010 |
20100149809 | LED LIGHTING FIXTURE - An LED lighting fixture including a housing including a first and second border structures. An LED assembly is secured with respect to the housing to permit air/water-flow over the LED assembly. The LED assembly includes at least one LED-array module mounted at an elongate LED heat sink that extends along the housing and between two heat-sink ends. The heat sink has an LED-module-engaging surface and a heat-transfer surface. One heat-sink end is at the first border structure and the other heat-sink end is at the second border structure. The housing and the heat sink define an air gap permitting air/water-flow to and from the heat sink. | 06-17-2010 |
20100149810 | Mounting structure of component of lighting device and method thereof - Disclosed is a structure for mounting a component to a lighting device, including at least one lighting-device base, at least one metal film, and a lighting array chip. The lighting-device base has a surface to which a first layer of metal bonding agent is applied. The metal film has a surface attached to the first metal bonding agent layer on the surface of the lighting-device base. The lighting array chip has a bottom surface to which a second layer of metal bonding agent is applied. The second metal bonding agent layer is further attached to an opposite surface of the metal film so as to securely mount the lighting array chip to the surface of the lighting-device base. A mounting method is also provided, including the steps of applying a metal bonding agent to a surface of a lighting-device base; connecting the lighting-device base to a positive electrode of a power source; connecting a metal film to a negative electrode of the power source; applying a metal bonding agent to a lighting array chip; bonding the lighting array chip to the metal film; and hot-pressing to bond the lighting array chip to the lighting-device base, so that the lighting array chip is securely mounted to the surface of the lighting-device base by means of thermal fusion caused between the negative and positive polarities of the power source applied to the metal film and the lighting-device base. | 06-17-2010 |
20100157599 | Method and Apparatus for Forming a Thermal Interface for an Electronic Assembly - A method and apparatus are provided for forming a thermal interface for an electronic product. A thermally conductive polymer having an adhesive layer formed thereon is provided, a surface of an electronic assembly is pressed against the adhesive layer, and the adhesive layer is allowed to cure so that the thermally conductive polymer and the electronic assembly are in thermal communication with each other. The electronic assembly could be pressed against the thermally conductive polymer using a press and die assembly having a pad for supporting the polymer and a controller for controlling operation of the press. The thermally conductive polymer is bonded to the electronic assembly so that no air pockets or voids are formed therebetween. | 06-24-2010 |
20100157600 | POINTLESS ILLUMINATION DEVICE - The present invention relates to a pointless illumination device, comprising: a body; a cover, made of a light spreading material which can uniformly spread out the light of a plurality of light emitting devices; a light source module; a first contact portion; and a second contact portion. The light emitted from the light source module is uniformly spread through the cover so that the phenomenon of pointwise illumination does not exist in the illumination device. | 06-24-2010 |
20100165626 | LED LAMP - An LED lamp fixed to an end of a fixing rod, includes a casing, a heat dissipating member fixed to a bottom of the casing and a plurality of LED modules attached to a bottom of the heat dissipating member. The casing has a sleeve part and a mounting part integrally extending from an end of the sleeve part. A plurality of connecting plates extend inwardly along radial directions from an inner wall of the sleeve part. The fixing rod is inserted into the sleeve part of the casing and secured within free, inner ends of the connecting plates. | 07-01-2010 |
20100165627 | LIGHT EMITTING MODULE AND LED LAMP EMPLOYING IT - An LED lamp comprises an array of light emitting modules. The light emitting modules each comprise a grille, a heat sink, an LED module and a transparent plate. The grille comprises an inner wall and a frame extending integrally upwards and downwards from the inner wall. The heat sink has a bottom portion thereof extending through the inner wall and has two opposite ends of a top portion thereof abutting the inner wall. The LED module is attached to a top side of the heat sink. The transparent plate is mounted on a top end of the grille and covers the heat sink and the LED module. A plurality of fasteners extend through the inner wall, each having a rotatable resisting portion. The resisting portion presses the heat sink downwardly on the inner wall. | 07-01-2010 |
20100177515 | MODULAR LED LIGHT SYSTEM AND METHOD - A modular device and system for formation of an LED based light bulb. The formed bulb is assembled from interchangeable components which adapted it for engagement to any of a plurality of conventional bulb light fixture connectors. Diffusors and hoods are also attachable to change the diffusion and focus of light emitted from the formed bulb. A plurality of different circuit boards may be engaged to a socket positioned on a heat sink to increase or decrease emitted light. The socket will only electrically engage the circuit board if the heat sink will dissipate the anticipated heat generated by the circuit board. | 07-15-2010 |
20100188848 | ELECTRO-THERMAL SEPARATION LIGHT EMITTING DIODE LIGHT ENGINE MODULE - An electro-thermal separation light emitting diode light engine module includes a heat dissipater, an illuminating module and a printed circuit board. The illuminating module is provided on the heat dissipater and is provided with at least one contact end. The printed circuit board is transfixed with at least one hole for accepting the illuminating module and is provided with a circuit for electrically connecting the contact end. Therefore, the illuminating module can be cooled directly through the heat dissipater and can be connected electrically by the circuit of the printed circuit board, achieving the practical progressiveness by providing a better heat dissipation effect and reducing cost. | 07-29-2010 |
20100188849 | LED LIGHTING FIXTURE - The invention provides an LED lighting fixture capable of adjusting light distribution very conveniently. The LED lighting fixture of the invention includes LED light sources and radiator, the radiator is provided with mounting surface arrays and the LED light sources are mounted on the mounting surface arrays. The LED light sources are mounted on the mounting surface arrays, thus realizing secondary distribution of the LED light source and being capable of adjusting light distribution very conveniently as required; separate design of the radiator and the support frame facilitates realization of diversified appearances; and integrated heat radiation design fulfills heat radiation requirements. The LED lighting fixture can be a good substitute for the conventional lighting fixtures, has the advantages of being environment-friendly, efficient, energy-saving, safe and reliable, and can be widely applied to highways, urban roads, industrial parks, schools, squares, tunnels, etc. | 07-29-2010 |
20100195331 | LIGHT-EMITTING DIODE LAMP WITH RADIATION MECHANISM - A LED lamp includes at least one LED element having electrode terminals, a conductive heat-receiving member electrically and mechanically connected with the electrode terminals of the at least one LED element, for receiving heat emitted from the at least one LED element via the electrode terminals, a casing for housing, at substantially sealed state, the at least one LED element and the heat-receiving member, a plurality of fins thermally coupled with the casing and arranged at a position out of a main irradiation direction of light from the at least one LED element, and a conductive heat-transfer member electrically and mechanically connected with the heat-receiving member, the heat-transfer member extending to a position at which the plurality of fins exist. | 08-05-2010 |
20100202144 | Module structure of the LED lights and radiator - The module structure of the LED light and radiator comprises a cover and a light module. The penetrating holes and retaining holes are set at the bottom of the container in the inner side of the bottom cover. The screw holes are set around the fitting holes. The light module comprises an aluminum base set with many screw holes corresponding with the screw holes on the bottom cover, a radiator, LED lights which are on the circuit board and a lamp mask. A circuit board thereon set a lamp mask with screws is below the aluminum base, and the radiator is set on the aluminum base. | 08-12-2010 |
20100202145 | ILLUMINATING EQUIPMENT USING HIGH POWER LED WITH HIGH EFFICIENCY OF HEAT DISSIPATION - The invention provides a packaged system that is suitable for a LED package of high power. The packaged system further includes a heat-conducting device surrounded by at least one heat-dissipating fin to effectively dissipate the heat generated by the high power LED package. The packaged system with high efficiency of heat dissipation can be incorporated into various projecting illuminating equipments, such as a flashlight or floodlight, by simply installing the present invention into a housing and providing power connection thereto. | 08-12-2010 |
20100208461 | LED LAMP - A hang LED lamp includes a base, a heat sink attached to a bottom of the base, a plurality of heat conducting plates coupled to a periphery of the heat sink and connecting with the base and the heat sink, a plurality of LED modules mounted on the heat conducting plates, a cover engaging the base and covering the heat sink, the heat conducting plates and the LED modules therein, and a fixing member connecting a top of the base to fix the LED lamp in a desired position. A plurality of heat pipes are embedded in the heat conducting plates with first ends connecting with the heat sink and second ends connecting with the base. | 08-19-2010 |
20100214778 | TABLE LAMP - The table lamp contains a lamp base and an extension tube plugged vertically into the lamp base. A curved transparent light tube is attached along its entire length to a parallel and also curved back cover. The combination is joined to a top end of the extension tube. Two light generation assemblies are provided at the two ends of the light tube, respectively, each sequentially composed of a lens, a lens ring, a light emitting diode, a power circuit, a heat dissipation plate, and a heat dissipation element. The light from the light emitting diodes is projected into the light tube and, with a reflection layer along the inner wall of the light tube, the light is uniformly reflected towards the area beneath the table lamp. | 08-26-2010 |
20100214779 | LED Fluorescent Tube - The invention discloses a LED fluorescent tube, having a plurality of LED modules, a linear tube and a converter. The plurality of LED modules are serially configured on one side of the linear tube, wherein each LED module comprises a PCB and a plurality of LEDs, serially configured on the PCB. The converter is configured within the linear tube for converting alternating current into direct current to supply power to the plurality of LED modules. | 08-26-2010 |
20100214780 | LED LIGHTING FIXTURE - A light emitting diode (LED) lighting fixture for achieving a desired illumination pattern includes a support plate and a plurality of panels Connected to the support plate. Each panel has an array of LEDs mounted to a planar surface thereof, and each of the panels is rotatable in at least two dimensions. | 08-26-2010 |
20100220479 | Led module and led light source apparatus - An LED module comprises: an insulating substrate in plate form; first main and sub terminals for connection to an external circuit formed near the first side of the insulating substrate; second main and sub terminals for connection to an external circuit formed near the second side opposite to the first side; three or more connecting wires formed on the insulating substrate for connecting LEDs continuously aligned at a distance from each other in series; LEDs individually connected between the connecting wires adjacent to each other and connected in series in a same direction; and a first passing wire formed on the insulating substrate for electrically connecting the first sub-terminal to the second sub-terminal, wherein a first connecting wire located on one side is electrically connected to the first main terminal, and a second connecting wire located on the other side is electrically connected to the second main terminal. | 09-02-2010 |
20100232158 | Cover Assembly for Light Emitting Diodes - A lighting assembly can comprise a cover and mounting assembly configured to receive and support a board-mounted LED. The cover and mounting assembly can comprise an outer surface with an opening corresponding to each board-mounted LED while otherwise covering the board of the LED. The cover and mounting include mounting points on its underside along with contact points positioned so that when the board-mounted LED is secured with the cover and mounting assembly, wires on the underside are brought into electrical connection with contacts of the board of the LED. | 09-16-2010 |
20100238662 | OUTDOOR LAMP HAVING WATERPROOF FASTENING ASSEMBLY - A waterproof fastening assembly secures a first structure to a second structure. The first structure defines a number of through holes and a number of flanges surrounding the through holes, respectively. The second structure defines a number of screw holes and includes a number of LED light source modules. A connection shank extends through a corresponding through hole and screws in a corresponding screw hole. An elastic waterproof ring comprises an annular body and a number of protrusions protruding from a top surface of the body. When the first structure is secured to the second structure, the connection shank presses the protrusions to enable the elastic waterproof ring to deform outwardly and inwardly simultaneously. The flange of the first structure resists the outward deformation of the elastic waterproof ring, meanwhile the body of the elastic waterproof ring inwardly engages the connection shank. | 09-23-2010 |
20100246177 | LIGHTING DEVICE AND METHOD OF COOLING LIGHTING DEVICE - A lighting device comprising a solid state light emitter and a fan, the fan blowing fluid toward the emitter. A lighting device comprising a solid state light emitter and a baffle, the solid state light emitter being movable. A lighting device comprising a solid state light emitter, a substrate and a diaphragm, the diaphragm defining a chamber having a valve and being movable. A lighting device comprising a housing and a solid state light emitter within the housing, the solid state light emitter being movable. Also, methods of cooling a lighting device. | 09-30-2010 |
20100246178 | Thermal Management For LED Lighting - A light emitting diode (LED) lighting device that includes a housing and a heat sink assembly received within the housing. The heat sink assembly includes at least a first heat sink member and at least a second heat sink member. A printed circuit board having at least one LED provided thereon is mounted to both the first heat sink member and the second heat sink member. At least one biasing member biases an outer side of the first heat sink member and an outer side of the second heat sink member into contact with an inner side of the housing. Heat from the at least one LED is transferred through the heat sink assembly to the housing, where it is dissipated into the air. | 09-30-2010 |
20100246179 | LED LAMP - An LED lamp includes a lamp body having a heat sink forming an insert and a lamp holder which is connected to the heat sink of the lamp body. The lamp holder includes a mounting portion extending outwards from an external surface thereof. The mounting portion defines a socket. The insert is inserted into the socket to thereby connect the lamp body with the heat sink of the lamp holder. An light source module consisting of a plurality of LEDs is mounted on a bottom surface of the heat sink. | 09-30-2010 |
20100246180 | Solid state architectural lighting system - Functional and decorative solid-state lighting systems for architectural applications and method of installation thereof are disclosed. The lighting systems do not require housing or cavity as previously required offering an improved method of installation. | 09-30-2010 |
20100254139 | OMNIDIRECTIONAL LIGHT BULB USING LIGHT EMITTING DIODE - The light bulb contains a transparent body member and a contact member at an end of the body member that could be screwed into a conventional light bulb socket for establishing electrical connections. Inside the transparent member, there are a number of circuit boards, each having a circular end and a rectangular body. Around the circumference of a side of the circular end, a number of LEDs are provided at appropriate spacing to project light towards various centrifugal directions, respectively. The circuit boards intersect with each other along a vertical direction so as to form a cross shape, a star shape, or a similar, radiating-from-a-center shape. | 10-07-2010 |
20100254140 | LAMP HOLDER OF LED STREETLAMP WITH HEAT-CONDUCTING AND HEAT-DISSIPATING CAPABILITY - A lamp holder of a LED streetlamp includes a lamp cover, a LED unit and a plurality of heat-conducting posts. The LED unit is provided below the lamp cover. A transparent lamp cover covers outside the LED unit. Further, the heat-conducting posts are arranged upright in the lamp cover and separated from each other by a distance. Each of the heat-conducting posts is connected to the inner edge surface of the lamp cover opposite to the LED unit and extends toward the top edge of the lamp cover to be located between the top and bottom of the lamp cover. On both sides of the lamp cover laterally facing the heat-conducting posts, venting holes are provided to form an open structure, thereby allowing outside air to enter the lamp cover and flow among the heat-conducting posts. | 10-07-2010 |
20100259931 | Fixture with Intelligent Light Modules - In embodiments of the present invention, a method and system is provided for designing improved intelligent, LED-based lighting systems. The LED based lighting systems may include fixtures with one or more of rotatable LED light bars, integrated sensors, onboard intelligence to receive signals from the LED light bars and control the LED light bars, and a mesh network connectivity to other fixtures. | 10-14-2010 |
20100265708 | HEAT-DISSIPATING ASSEMBLY OF LED LAMP HOLDER - A LED lamp holder includes a lamp cover and a heat-dissipating device provided in the lamp cover. An accommodating inlet is provided on the lamp cover. A LED unit is provided below the lamp cover. A cover plate covers the accommodating inlet. The heat-dissipating device includes a heat-absorbing plate, a heat-dissipating plate and a heat pipe connected between the heat-absorbing plate and the heat-dissipating plate. The heat-absorbing plate is brought into contact with the LED unit, while the heat-dissipating plate is brought into contact with the cover plate. The cover plate is penetrated by a plurality of screw elements. Each of the screw elements is screwed to the heat-absorbing plate. The length of each screw element exactly makes the heat-absorbing plate to abut and contact the LED unit. | 10-21-2010 |
20100265709 | LED ILLUMINATING DEVICE - An LED illuminating device includes an optical module and a heat dissipation device. The optical module includes a plurality of LEDs. The heat dissipation device includes a housing and a heat sink. The heat sink includes a base and a plurality of spaced fins formed on the base. The LEDs are thermally attached to a heat absorbing surface formed at a bottom of a bottom plate of the housing. The heat sink and the housing cooperatively define a hermetical chamber therebetween. A closed sidewall of the chamber is sandwiched between the base of the heat sink and the bottom plate of the housing. A wick structure is received in the chamber and attached to the heat dissipation device at a periphery of the chamber. A working fluid is filled in the chamber and saturated in the wick structure. | 10-21-2010 |
20100265710 | LED ILLUMINATOR - An LED illuminator includes a connecting member, a lamp cover, a hollow lamp cap, a plurality of LEDs received in the lamp cover, and a sealing member. The connecting member is a hollow cylinder. The lamp cover couples to and seals a first end of the connecting member. The lamp cap has a top end coupling to a second end of the connecting member opposite the first end and a bottom end defining an aperture. The sealing member defines an annular slot in an outer circumferential surface, with a diameter not smaller than that of the aperture. A portion of the bottom end of the lamp cap around the aperture engages into the slot of the sealing member. A channel extends through the sealing member with a diameter not larger than a conductive wire. | 10-21-2010 |
20100271822 | LED LAMP - An LED lamp includes a heat sink and a plurality of LED modules attached to a bottom of the heat sink. The heat sink includes a heat spreader having a heat dissipating portion curved downwardly and a mounting portion horizontally extending from an end of the heat dissipating portion. A plurality of fins upwardly extend from a curved top of the heat dissipating portion. The LED modules are attached to a bottom of the heat dissipating portion of the heat spreader of the heat sink. | 10-28-2010 |
20100271823 | HEAT DISSIPATION DEVICE AND ILLUMINATION DEVICE USING SAME - An exemplary heat dissipation device includes an elongated main body, a number of heat sinks, and a number of airflow channels. The main body has a central axis, and includes a first portion and a second portion. The second portion has an end distant from the first portion which is configured for supporting at least one item selected from the group consisting of a solid-state light source and a circuit board having a solid-state light source mounted thereon. The heat sinks are arranged around the first portion in sequence along the central axis of the main body, and spaced from one another. Each heat sink includes a number of fins extending out from the first portion radially. The airflow channel is defined between each two neighboring heat sinks. | 10-28-2010 |
20100277916 | LED Light Module and Modular Lighting System - There is disclosed a light module including a first plurality of light emitting diodes (LEDs), a heat transfer surface and an electrical power plug. The plurality of LEDs may be disposed generally in a first circle to emit light radially outward from a central axis. The heat transfer surface may be thermally coupled to the plurality of LEDs. The electrical power plug may be electrically coupled to the plurality of LEDs. | 11-04-2010 |
20100277917 | ELECTRICALLY INSULATED LED LIGHTS - A method of electrical insulation used in the high voltage (>60V) LED lighting system. The LED lighting system comprises the housing, end cap, lens and PCBs. The LEDs are mounted on the PCBs. The insulating housing or channel between the PCBs and the housing prevents the electrical shock and increase the clearance and creepage distance. The insulating housing or channel is made of materials with good heat conductivity and high insulation. | 11-04-2010 |
20100277918 | LIGHT-EMITTING DIODE LIGHTING TUBE - A light-emitting diode (LED) lighting tube is of a disassembleable structure, which arranges those components that are susceptible to easy damage in an end cap that is located at an outer side. Thus, when the lighting device is malfunctioning, it only needs to replace the end cap module that is located at the outer side to resume normal operation of the lighting tube. Parts of long lifespan of the lighting tube are preserved so that the costs are reduced and the tread of environmental protection is met. | 11-04-2010 |
20100277919 | LED MODULE AND LED DOT MATRIX DISPLAY - An LED module A | 11-04-2010 |
20100284188 | LAMP - A lamp including a carrier and a plurality of light source modules stacked to the carrier is provided. Each light source module includes a circuit board and a plurality of light-emitting diodes, wherein the light-emitting diodes are disposed on at least one side of the circuit board and electrically connected to the circuit board. | 11-11-2010 |
20100290227 | CIRCUIT LAYOUT OF CIRCUIT SUBSTRATE, LIGHT SOURCE MODULE AND CIRCUIT SUBSTRATE - A circuit layout of a circuit substrate having a plurality of device bonding areas is provided. The circuit layout includes first pads, second pads, bridging lines, first outer leads and second outer leads. Each device bounding area is configured with one first pad and one second pad. The bridging lines are respectively disposed between any two adjacent device bounding areas and extended from a side of the first pad inside one device bounding area to a side of the second pad inside another one device bounding area adjacent to the first pad. Each first outer lead and each second outer lead are respectively corresponding to one first pad and one second pad, are respectively correspondingly extended into the device bounding area which the first pad and the second pad are located at, and are beside the first pad and the second pad correspondingly. | 11-18-2010 |
20100290228 | ILLUMINATION DEVICE WITH SPHERICAL SURFACE - An exemplary illumination device includes a base, a first solid-state light source, and a number of second solid-state light sources. The base has a spherical surface. The spherical surface defines a spherical center and a base central axis passing through the spherical center. The first solid-state light source defines a first light source central axis coaxial with the base central axis of the spherical surface. The second solid-state light sources are mounted over the spherical surface. Each of the second solid-state light sources defines a second light source central axis passing through the spherical center of the spherical surface. Light intensities of the first solid-state light source and each second solid-state light source satisfy the formula: I=I | 11-18-2010 |
20100296286 | LED LAMP HAVING IMPROVED HEAT DISSIPATION STRUCTURE - The LED lamp contains one or more base plates, each having a plurality of through terminal holes connected by a patterned conduction layer. The base plates are separated by support tubes and a number of LEDs have their terminals threaded through the terminal holes and soldered to the conduction layers of the base plates. When the LEDs are turned on, the produced heat is dissipated first by the lengthy terminals of the LEDs between the base plates, and then by the extended conduction layers along the base plates. A large number of LEDs therefore could be packed into an even smaller space and the LED lamp has an even lower production cost. | 11-25-2010 |
20100296287 | LED LAMP - An LED lamp includes a monolithic housing made of metal extrusion and comprising a heat sink and a receiving portion integrally extending from a bottom of the heat sink, a plurality of LED modules attached to the heat sink, a cover covering the LED modules and a supporting bracket mounted on the housing. The heat sink includes a planar base and a plurality of fins extending from a top face of the base. The receiving portion includes a frame defining a window at a center thereof and two sidewalls interconnecting the frame and the base. The frame, the sidewalls and the base cooperatively define a receiving chamber for accommodating the LED modules therein. The LED modules are attached to the base and located corresponding to the window of the frame. The cover is mounted on a bottom of the frame and correspondingly covers the window. | 11-25-2010 |
20100296288 | HIGH-POWER LED LAMP - A high-power LED lamp set is provided in the present invention. The high-power LED lamp set comprises: a power converting module; a power supply casing ( | 11-25-2010 |
20100296289 | LED LIGHTING FIXTURE - A light emitting diode (LED) lighting fixture for achieving a desired illumination pattern includes a panel and one or more LEDs attached to a surface of the panel. One or more of the LEDs may be mounted at an angle to the surface. | 11-25-2010 |
20100302778 | LED LIGHTING FIXTURE - A light fixture comprising a mounting housing comprising a junction box and a first connector component and a light housing comprising at least one light emitting diode contained within the light housing and electrically coupled to a second connector component complementary to the first connector component. | 12-02-2010 |
20100302779 | Fixture with Replaceable Light Bars - In embodiments of the present invention, a method and system is provided for designing improved intelligent, LED-based lighting systems. The LED based lighting systems may include fixtures with one or more of rotatable LED light bars, integrated sensors, onboard intelligence to receive signals from the LED light bars and control the LED light bars, and a mesh network connectivity to other fixtures. | 12-02-2010 |
20100328946 | LIGHT DEVICES HAVING CONTROLLABLE LIGHT EMITTING ELEMENTS - In some embodiments, a light device for generating light includes light emitting diodes (LEDs), and power supply circuitry including at least one switching regulator including switching elements to provide power to the LEDs. The light device includes a device support structure including a device connector and an LED support to support the LEDs, wherein the device connector is one end of the device support structure, and the power supply circuitry is supported by the device support structure. Other embodiments are described. | 12-30-2010 |
20100328947 | LIGHT-EMITTING DIODE LIGHT SOURCE ASSEMBLY WITH HEAT DISSIPATION BASE - A light-emitting diode (LED) light source assembly with a heat dissipation base is provided. The LED light source assembly includes the heat dissipation base and a light bar. The light bar includes a flexible printed circuit (FPC) board and at least one LED unit which is disposed on the FPC board and electrically connected to the FPC board. The heat dissipation base has two retaining recesses for lodging the side portions of the FPC board, so the FPC board can be thermally conductively connected to the heat dissipation base. Because of the flexibility of the FPC board, it is easy to lodge the FPC board in the heat dissipation base via the retaining recesses. Thus, the cost for arranging the light bar can be economized. | 12-30-2010 |
20100328948 | LED LAMP WITH LARGE LIGHT EMITTING ANGLE - An LED lamp includes a heat sink, a bracket, a plurality of LED modules. The heat sink includes a supporting plate and a plurality of fins extending upwardly from a first surface of the supporting plate. The bracket is mounted on a second surface of the supporting plate and includes a plurality of bottom plates each angled an acute angle relative to the second surface of the supporting plate. The bottom plates are arranged radially from a central portion of the supporting plate. Each of the bottom plates includes an outer surface facing downwardly and outwardly away from the second surface of the supporting plate. The LED modules are mounted on the outer surfaces of the bottom plates, respectively. | 12-30-2010 |
20100328949 | ILLUMINATION DEVICE - An illumination device includes a light source and a heat dissipation device. The light source includes a base and at least a light emitting diode on the base. The heat dissipation device includes a fan for dissipating heat from the light source, and a hollow shell. The hollow shell has an inlet and an outlet defined thereon. The fan is located on the hollow shell, and the airflow from the fan is parallel to a rotation plane of the fan. In operation, air is impelled from the hollow shell by the fan, and heat from the light source is evacuated by airflow from the inlet to the outlet, and air pressure in the shell is reduced. Cool air flows into the hollow shell through the inlet. | 12-30-2010 |
20100328950 | ILLUMINATION DEVICE - An illumination device includes a light source and a heat-dissipation device. The heat-dissipation device has an air impeller configured for dissipating heat from the light source, and a hollow shell. The hollow shell has an inlet and an outlet with a height difference therebetween. The air impeller is removably installed on the shell between the inlet and outlet. The air impeller is adjacent to the outlet and accelerates airflow therefrom. Air pressure around the outlet is reduced and a pressure difference between the inside and outside of the hollow shell is generated. Air in hollow shell is heated by the light source and leaves the hollow shell via the outlet. Cold air enters the hollow shell via the inlet. | 12-30-2010 |
20100328951 | LUMINAIRE SYSTEM WITH THERMAL CHIMNEY EFFECT - A luminaire system having an elongated throughway utilizing a thermal chimney effect. The thermal chimney effect within the throughway circulates air to remove heat generated from the electrical components of the system. Dissipating heat into the throughway from the electrical components can increase the life expectancy of the lamp and the output of the lamp. The electrical components of the system being entirely sealed and isolated from the throughway results in a permanent air, dust, and water tight seal. The seal can minimize damage to the electrical components of the system as well as prevent the build up of moisture and dust within these sealed components. | 12-30-2010 |
20110002119 | LED LAMP WITH LARGE LIGHT EMITTING ANGLE - An LED lamp includes a heat sink and a plurality of LED modules. The heat sink includes a base and a plurality of supporters extending from a top face of the base. Each supporter has an inclined supporting face facing an adjacent one of two opposite lateral sides of the base. Each LED module is mounted on an inclined supporting face of a corresponding supporter. The supporters have extending heights gradually increasing along a horizontal direction from the two opposite lateral sides toward a center of the base. Angles between the base and the supporting faces of the supporters are acute angles and gradually decrease along the horizontal direction from the two opposite lateral sides toward the center of the base. | 01-06-2011 |
20110002120 | LED LAMP - An LED lamp includes a plurality of LED light units juxtaposed together and a connecting member engaging with the LED light units. Each LED light unit includes a heat sink and an LED module engaged on the heat sink. The heat sink defines a groove group at each lateral portion thereof. The connecting member includes a plurality of inserts received in grooves of the groove groups of the heat sinks of neighboring LED light units and clasping the neighboring LED light units together thereby to secure the LED light units into the LED lamp. | 01-06-2011 |
20110019413 | LED retrofit for fluorescent backlit signs - The present invention relates to an LED assembly designed to supplant fluorescent tubes, comprising: an array of standardized LED modules affixed to a lightweight frame resulting in a uniform two dimensional array of LEDs casting their light directly onto a translucent sign panel or, alternatively, a light defusing panel for area lighting. When the application is to retrofit a fixture with fluorescent tubes, the assembly is provided with adapters that attach to the fluorescent tube receptacles. | 01-27-2011 |
20110019414 | LED DISPLAY DEVICE - A LED display device ( | 01-27-2011 |
20110019415 | HEAT DISSIPATING MODULE OF LIGHT EMITTING DIODE - A LED heat dissipating module includes a plurality of flat light emitting diodes, a circuit board having a plurality of perforations, a plurality of thermally-conductive structures, and a thermally-conductive metallic slice disposed on the backside of the circuit board. The thermally-conductive structures are penetrated through the perforations and in contact with the flat light emitting diodes and the thermally-conductive metallic slice. The heat energy generated from the flat light emitting diodes is conducted from the thermally-conductive structures to the thermally-conductive metallic slice, and then exhausted out of the LED heat dissipating module from the thermally-conductive metallic slice. | 01-27-2011 |
20110019416 | MODULAR LAMP FOR ILLUMINATING A HAZARDOUS UNDERWATER ENVIRONMENT - A modular light unit for illuminating a hazardous underwater environment includes a housing having a front portion with a light transmissive window and a back shell portion which enclose a layered lighting assembly. The layered lighting assembly includes a PCB with an array of LEDs mounted thereon with the LEDs in thermal communication with a bottom surface of the PCB. A thermal bridge abuts the bottom surface of the PCB on one side and a heat sink on the other. A thermally conductive potting material fills spaces between the heat sink and the back shell portion. An underwater connector provides releasable connection to an electrical cable for providing power to drive the plurality of LEDs. A quick-release mechanical fastener is attached to the housing for releasably attaching the modular light unit to a support structure installed within the hazardous underwater environment. | 01-27-2011 |
20110019417 | Thermal Management Of LED-Based Lighting Systems - An LED-based lighting system includes a printed circuit board (“PCB”) having conductors on a front-side thereof, one or more LEDs mounted with the conductors, and a structural element. The PCB is mounted with the conductors near to the structural element so that heat dissipation from the LEDs is primarily through the conductors and the structural element. A method of dissipating heat generated by an LED-based lighting system includes configuring a PCB with conductors on a front-side of the PCB, such that when one or more LEDs mounted to the conductors generates heat, the heat dissipates from the one or more LEDs to the conductors. The method also includes integrating a structural element such that at least portions of the conductors face the structural element, and the heat dissipates from the conductors to the structural element. | 01-27-2011 |
20110019418 | Lighting System With Removable Light Modules - A lighting system with removable light modules mounted on a frame by an attractive force between magnetic material of the light module and magnetic material of the frame such that a light module may be installed on, removed from, or relocated on the frame manually without tools or permanent electrical connection. The frame may be one-, two-, or three-dimensional, and it may provide an aesthetic appearance even when the lighting system is not illuminated. The light modules may employ incandescent, quartz-halogen, LED, or fluorescent light sources. Particularly, in LED embodiments, the magnetic materials serve the dual functions of mounting and heat sinking. The lighting system may be utilized as a sign, signaling device, or a building block in larger lighting systems. The lighting system has a wide variety of applications and provides a user with improved ability to control the quantity, direction, and characteristics of the emitted light. | 01-27-2011 |
20110026251 | LED ILLUMINATING DEVICE - An LED illuminating device includes a boiling room, an optical module, a heat insulating member and a heat exchanging member communicating with the boiling room. The boiling room defines a horizontal room and an annular, vertical room having a bottom end surrounding the horizontal room. A wick structure is received in the boiling room. Working fluid is received in the boiling room and saturated in a bottom portion of the wick structure. The optical module includes a plurality of LEDs attached to a heat absorbing member connecting with the bottom portion of the wick structure. The heat insulating member is received in the boiling room and attached to a middle portion of the wick structure for thermally insulating the middle portion of the wick structure from vaporized working fluid in the horizontal room of the boiling room. | 02-03-2011 |
20110026252 | POSITIONABLE LIGHTING SYSTEMS AND METHODS - A lighting assembly includes a lighting unit having a housing defining an internal cavity and an opening. A light source is assembled within the internal cavity of the housing. An electrical wire is electrically connected to the light source at a first end and is configured to be contained at least in part within the housing. The opening is configured to permit withdrawal of a user selected amount of the electrical wire from within the internal cavity and/or to permit a user selected amount of the electrical wire to be inserted into the internal cavity. | 02-03-2011 |
20110026253 | LIGHTING APPARATUS USING LIGHT EMITTING DIODE - Disclosed is a light apparatus using light emitting diodes that includes: a base body member having a mounting surface on its one surface; a plurality of inclined block members each of which is mounted on the mounting surface of the base body member and has an inclined surface on one surface thereof; and light emitting diode module members that are mounted on the inclined surfaces of the inclined block members. According to the disclosure, it is possible to easily form various light distributions required for the lighting design by combining the inclined block members and the light emitting diode module members that are mounted on the mounting surfaces of the base body member, and various light distributions can be formed, which makes it possible to improve flexibility in the lighting design and to improve lighting efficiency for an object to be illuminated. | 02-03-2011 |
20110032703 | Seat Light and Backlit Plaque Holder - A seat light and plaque holder including a seat light base having a downwardly angled mounting surface and an upwardly angled mounting surface with a first plurality of LEDs mounted on the downwardly angled mounting surface and a second plurality of LEDs is mounted on the upwardly angled mounting surface. A light cover is attached to the seat light base having a row marker positioned thereon to be backlit by the second plurality of LEDs and an end portion of a length selected to shield the downwardly angled first plurality of LEDs from view of persons walking up or down an aisleway while directing illumination towards an aisleway. | 02-10-2011 |
20110038152 | LED-ILLUMINANT WITH OMNI-DIRECTIONAL LIGHT EMISSION AND OPTIMIZED HEAT DISSIPATION - An LED-illuminant comprises a plurality of angled supports ( | 02-17-2011 |
20110038153 | Led lamp and cooling method thereof - A cooling method for an LED lamp is disclosed. An LED lamp is provided. The LED lamp includes a housing and at least one LED light source module. The housing has a cover body, a base and a plurality of air outlets. The base forms at least one segment difference portion. The slanted surface of the segment difference portion has a plurality of air inlets. The LED light source module is adjacent to the air inlets. The LED light source module has a cooling device and the cover body has a plurality of air outlets. Airflow is guided into the cooling space along the air inlet on the slanted surface of the segment difference portion. When the LED lamp generates heat, air entered into the cooling space is blown to the cooling device. The airflow with heat is exhausted from the air outlet of the cover body. | 02-17-2011 |
20110038154 | SYSTEM AND METHODS FOR LIGHTING AND HEAT DISSIPATION - A system for lighting and heat dissipation of the present invention, comprises: an uni-body fixture adapted to increase a heat dissipation surface area; atleast a metal PCB housing configured to house a pluralities of LEDs with zero air-gaps; and atleast a heat pad capable of mounting the metal PCB housing at a first face, wherein a plurality of tapered and directional heat sink fins adapted longitudinally across a length of an upper face of the uni-body fixture for fastest heat dissipation from atleast a LED junctions to the atmosphere. A power supply unit having an independent heat sink surface area is adapted for heat dissipation to prevent heat contribution from the power supply unit to the light unit. | 02-17-2011 |
20110044040 | LIGHTING DEVICE AND MANUFACTURING METHOD THEREOF - A lighting device includes a printed circuit board, a plurality of electrical connection units, and a plurality of illuminant units. The printed circuit board has a layer of insulation and a layer of circuit. The insulation layer forms a plurality of holes corresponding to a plurality of electrically conductive zones of the circuit layer. The electrical connection units are connected to the electrically conductive zones through the holes. The illuminant units are set in electrical connection with the electrical connection units. The electrical connection units are fixedly mounted to the circuit layer and electrical power is supplied through the electrically conductive zones to the illuminant units. The electrical connection units are arranged in an array on the printed circuit board. | 02-24-2011 |
20110044041 | DAYLIGHTING DEVICES AND METHODS WITH AUXILIARY LIGHTING FIXTURES - Daylighting systems and methods with auxiliary lighting fixtures are disclosed. Some embodiments disclosed herein provide a daylighting apparatus including a tube having a sidewall with a reflective interior surface and an auxiliary light fixture. The tube can be disposed between a transparent cover positioned to receive daylight and a diffuser positioned inside a target area of a building. In certain embodiments, the tube is configured to direct the daylight transmitted through the transparent cover towards the diffuser. The auxiliary light fixture can include a lamp disposed within the tube and a light control surface configured to reflect light exiting the lamp towards the diffuser and to transmit daylight propagating through the tube from the direction of the transparent cover. The lamp can be disposed on the sidewall of the tube. | 02-24-2011 |
20110044042 | LED ILLUMINATION DEVICE - An LED illumination device includes a heat dissipation part, an optical part and an electric part. The optical part includes an LED module attached on the heat dissipation part and an envelope mounted on the heat dissipation part and covering the LED module. The electric part includes a casing and a lamp cap. The casing is cup-shaped. The lamp cap includes a sleeve electrode and a spring electrode attached at a bottom of the sleeve electrode. The sleeve electrode and the spring electrode electrically power the LED module. One end of the casing along an axis thereof is mounted on bottom ends of the heat dissipation part and the optical part. The sleeve electrode is disposed around the other end of the casing. The spring electrode is resiliently deformable along an axis of the sleeve electrode. | 02-24-2011 |
20110044043 | LED LAMP - An LED lamp includes at least a flat-plate heat pipe arranged within a flat sealing container, wherein the upper and the lower surfaces of the flat-plate heat pipe respectively contact with the internal walls of the top plate and the base plate of the sealing container. At least one LED module is configured on the base plate. The heat generated by the LED module transfers through the base plate to the flat-plate heat pipe, and vaporizes the working fluid therein, so that the heat is spread with the vapor motion, and is then released to the atmosphere through the large area including the external wall of the sealing container and the fin structure thereon. The sealing container provides structural strength of the lamp and protects the flat-plate heat pipe from corrosion by water and contaminants in the environment. | 02-24-2011 |
20110044044 | LAMP AND A PROCESS FOR PRODUCING A LAMP - A process for producing a lamp, including forming one or more electrical connectors having a predetermined shape for making electrical connections to one or more light source assemblies mounted at predetermined locations on a non-planar support. The light source assemblies are formed by forming an electrical insulator on a peripheral region of an electrically conductive receptacle, forming an electrically conductive contact adapted to fit the peripheral region, attaching the electrically conductive contact to the electrical insulator, mounting a light source in the receptacle, and making a first electrical connection between a first electrically conductive contact of the receptacle and a first contact of the light source, and a second electrical connection between a second electrically conductive contact of the receptacle and a second contact of the light source. The light sources mounted in the electrically conductive receptacles are light emitting diodes and are encapsulated in transparent medium. An array of electrically conductive receptacles is formed from sheet metal by stamping and cutting. Connected receptacles are subsequently separated from the sheet, The electrical connectors are first and second annular connectors with projections and are formed from a metal sheet and subsequently separated by removing joining portions and tie bars. | 02-24-2011 |
20110051418 | Method and Apparatus Pertaining to Heat Sinking a Light Fixture Light-Emitting Diode - A wall-mounted light fixture comprises an LED-mounting surface having one or more LED's mounted thereon to serve as a primary source of illumination for the wall-mounted light fixture. This wall-mounted light fixture also generally comprises a house that contains the one or more LED's. This housing also comprises, on a side that is directly thermally coupled to the LED(s) and that is oriented towards and disposed closest to the aforementioned vertical wall (when the wall-mounted light fixture is properly mounted on the vertical wall), a heat sink. This heat sink is thermally coupled to the LED-mounting surface and has an exterior portion shaped to have a large surface area to thereby substantially increase a heat-exchange capacity of the heat sink. | 03-03-2011 |
20110051419 | APPARATUS FOR FIXING LED LIGHT ENGINE TO LAMP FIXTURE - An apparatus for fixing an LED light engine includes a lamp fixture base with a fixing seat, a light emitting module with a basal seat having a light source, a heat dissipating module with a plurality of heat dissipating fins having an embedding groove concavely formed at laterals of the heat dissipating fins and the heat dissipating module being installed around the light emitting module and provided for dissipating heat, a fixing device with first and second fixing elements coupled to the heat dissipating module, and the first and second fixing elements being embedded into the embedding grooves and having at least one fixing plate installed at edges of the first and second fixing elements and fixed to the fixing seat, so as to fixing the heat dissipating module with the lamp fixture base quickly and easily, while overcoming the repair and maintenance problems and providing an excellent practical application of an LED lighting device. | 03-03-2011 |
20110058373 | Lighting apparatus for illuminating accessible areas - Lighting apparatus includes a casing ( | 03-10-2011 |
20110063843 | LED LIGHTING MODULES AND LUMINAIRES INCORPORATING SAME - LED lighting modules have a highly thermally conductive polyhedral body having a plurality of exterior facets disposed around a mounting axis in a polygonal array facing outwardly away from the mounting axis and at a downward angle thereto. At least a majority of the facets carries at least one LED whose optical axis is angled acutely. The body carries a plurality of heat dissipating fins and serves as a heat sink to prevent overheating the LEDs in a transient and steady state operation. For retrofit applications, the module is mounted to a fixture via either a support or a bracket in a mounting position in which the elevation of the LEDs is determined according to the mounting and geometry of the replaced lamp. | 03-17-2011 |
20110063844 | LED Lighting Assembly and Method of Lighting for a Merchandise Display - Aspects of the disclosure relate to a lighting assembly and method for illuminating a vertical planar area, such as a merchandise display. The lighting assembly can comprise a circuit board having a plurality of LEDs arranged in a substantially straight line and an LED driver circuit, and an integral lens assembly. The integral lens assembly can have a plurality of lenses and each of the plurality of lenses can be placed over a corresponding one of the plurality of LEDs. The lenses capture the light from the respective LED, modify its beam pattern, and re-project the light such that the light emitted from the lighting assembly is distributed substantially evenly in a vertical plane or direction. | 03-17-2011 |
20110069487 | Light Emitting Diode Light Bulbs with Strands of LEDs - The present invention relates to an LED light bulb. The LED light bulb comprises a base and a hollow shell. The base has a closed end, an open end and a sleeve between the two ends. The shell is connected to the open end of the base. The LED light bulb comprises at least two LEDs substantially linearly arranged within the shell. By arrangement of multiple LEDs one or more strands the luminance or brightness of the bulb is improved compared with a bulb with one LED or with several horizontally arranged LEDs in a common place, without sacrificing the advantage of energy saving. | 03-24-2011 |
20110069488 | LED LIGHTING FIXTURE - A light-emitting diode (LED) lighting fixture is provided as a potential solid state lighting (SSL) replacement fixture for a conventional HID lamp fixture. The LED lighting fixture includes a main housing having a bottom surface supporting an array of LEDs, a top surface and sides, and at least one driver provided in a side housing attached to a side of the main housing to drive the LED array. The thickness of the side housing is equal to or greater than the thickness of the main housing. A plurality of heat spreading fins is arranged on the top surface of the main housing. | 03-24-2011 |
20110075422 | LIGHTING DEVICES COMPRISING SOLID STATE LIGHT EMITTERS - A lighting device comprising a trim element, an electrical connector and at least one solid state light emitter, the lighting device weighing less than one kilogram. If current of about 12 watts (or in some cases about 15 watts, or in some cases not more than about 15 watts) is supplied to the electrical connector, the at least one solid state light emitter will illuminate so that the lighting device will emit white light of at least 500 lumens. Also, a lighting device that weighs less than one kilogram and can generate white light of at least 500 lumens using a current of not more than about 15 watts. Also, a lighting device for mounting in a recessed housing, comprising a unitary structure trim element that conducts heat away from at least one solid state light emitter and dissipates at least some of the heat outside of the recessed housing. | 03-31-2011 |
20110075423 | LIGHTING DEVICE WITH POSITION-RETAINING ELEMENT - A lighting device comprising a first element that comprises an electrical connector, a second element that comprises at least a first light source, and a position-retaining element (or means) that holds the second element in any of at least two positions relative to the first element. Also, a lighting device comprising a first element that comprises an electrical connector, a second element that comprises at least a first trim element, and a position-retaining element (or means) that holds the second element in any of at least two positions relative to the first element. The electrical connector is electrically connected to at least a first light source, and the second element is movable relative to the first element among the positions while maintaining electrical connection between the electrical connector and at least the first light source. | 03-31-2011 |
20110080731 | LED LAMP WITH DOUBLE ILLUMINATION MODULES - An LED lamp with double illumination modules includes an upper lid, two LED illumination modules, a lower lid and two side lids. The upper lid is formed with a top surface and a bottom surface, a plurality of dissipation holes are penetrated the top surface to the bottom surface of the upper lid. The two LED illumination modules are fixed at the bottom surface of the upper lid. The lower lid is covered with the bottom surface of the upper lid to encapsulate the two LED illumination modules, wherein the lower lid is formed with at least an illumination hole correspond to the two LED illumination modules. And two side lids are covered at the two sides of the upper lid and the lower lid. | 04-07-2011 |
20110080732 | ILLUMINATION DEVICE - An illumination device. A control circuit module is disposed in a first base. A second base is detachably connected to the first base. A heat-dissipation module is disposed in the second base and is electrically connected to the control circuit module. A first fastening ring fastens the first base with the second base. A third base is detachably connected to the second base. A light source module is disposed in the third base and is electrically connected to the heat-dissipation module. A second fastening ring fastens the second base with the third base. | 04-07-2011 |
20110085334 | LED illuminating device - A LED illuminating arrangement with a plurality of illuminating devices connected in parallel with wires aligned at a one-plane manner. The illuminating device comprises a shell formed by injection molding of ABS plastic, an illuminating unit and a sealing arrangement. The shell has a top side, two sidewalls defining two guiding slots for wires passage and one or more chambers indented from the top side. The illuminating unit includes a printed circuit board and one or more diodes mounted on an exposed portion of the circuit board within the chamber in series for providing illumination. The sealing arrangement is made of thermosetting polymer sealing at each chamber, protecting the diode and the exposed portion of the circuit board against water. | 04-14-2011 |
20110090691 | LAMP ASSEMBLIES AND METHODS OF MAKING THE SAME - Lamp assemblies and methods of making the same are provided. Such a lamp assembly can include a heat sink and a light-emitting diode package that can be mounted to the heat sink. The light-emitting diode package can include a substrate with a top surface and bottom surface, a lens, and electrical contacts on the surface of the substrate. The lamp assembly can also include a printed circuit board with a face surface, a rear surface opposite the face surface and an opening extending from the face surface to the rear surface. The printed circuit board can have electrical contacts thereon for electrical connection with the electrical contacts of the light-emitting diode package. The substrate of the light-emitting diode package can engage the opening of the printed circuit board to mechanically couple the light-emitting diode package to the printed circuit board. When assembled, a bottom surface of the substrate can be flush and aligned with a rear surface of the printed circuit board. | 04-21-2011 |
20110090692 | LED LAMP HAVING IMPROVED WATERPROOF PERFORMANCE - An LED lamp includes a lamp seat, an illuminant module mounted on the lamp seat, an envelope covering the illuminant module, a waterproof cushion sandwiched between the lamp seat and the envelope and a pressing frame pressing the envelope toward the lamp seat. A plurality of protrusions protrude vertically and downwardly from the pressing frame. Outer faces of sidewalls of the lamp seat slant outwardly and upwardly relative to each other. A plurality of fasteners extend through the protrusions horizontally and are fastened on the sidewalls of the lamp seat, whereby the envelope is urged to tightly press the waterproof cushion toward the lamp seat. | 04-21-2011 |
20110090693 | BUILDING MATERIAL AND BUILT-UP BUILDING MATERIAL STRUCTURE - A building material whereinside an accommodating space is formed is disclosed. The building material includes a first area whereon at least one protruding part and at least one sunken part are formed alternately in a first direction, and a second area whereon at least one protruding part and at least one sunken part are formed alternately in the first direction. The protruding part of the second area aligns with the corresponding sunken part of the first area in a second direction substantially perpendicular to the first direction, and the sunken part of the second area aligns with the corresponding protruding part of the first area in the second direction. | 04-21-2011 |
20110096545 | LED LIGHTING BAR - The LED lighting bar includes a first conductive wire ( | 04-28-2011 |
20110103058 | PRINTED CIRCUIT FOR FIVE LEDS IN SERIES - The invention relates to a specific printed circuit ( | 05-05-2011 |
20110103059 | HERMETIC LIGHT-EMITTING DEVICE - A hermetic light-emitting device includes a heat dissipation member including a first surface, a second surface and a first through-hole formed between the first and second surfaces. A circuit substrate has a plurality of conductive traces and a second through-hole disposed corresponding to the first through-hole. A light-emitting element is disposed on the circuit substrate and electrically connected to the plurality of conductive traces. A plurality of electrical wires pass through the first and second through-holes and connect to the plurality of conductive traces to externally supply electrical power to the light-emitting element. A sealing material fills the first and second through-holes. A seal pad member includes a pad opening and is disposed on the first surface of the heat dissipation member and surrounding the circuit substrate. A cover member is disposed over the light-emitting element and against the seal pad member. | 05-05-2011 |
20110103060 | ILLUMINATION APPARATUS - An illumination apparatus includes an outer housing, a heat dissipation base, a plurality of heat dissipation fins, and a light source. The outer housing has a bottom wall with an air inlet and an opening. The heat dissipation base is connected to the bottom wall. The heat dissipation fins are connected to the heat dissipation base and the heat dissipation fins are substantially parallel to each other. Each of the heat dissipation fins has a concave and the concaves of the heat dissipation fins cooperatively form a groove. The orthographic projection area overlaps the air inlet. The light source is connected to the heat dissipation base and exposed through the opening. The illumination apparatus has a good heat dissipation efficiency. | 05-05-2011 |
20110103061 | LIGHT EMITTING APPARATUS AND LIGHT UNIT HAVING THE SAME - A light emitting apparatus includes a light emitting diode including a body with a light emitting diode chip packaged therein and a plurality of lead electrodes contacted with one side of the body and a board including a plurality of electrode pads connected to lower surfaces of the lead electrodes of the light emitting diode. The lower surfaces of the lead electrodes of the light emitting diode correspond to top surfaces of electrode pads of the board with same shapes. The lower surfaces of the lead electrodes of the light emitting diode are disposed within a region of top surfaces of the electrode pads of the board, respectively. | 05-05-2011 |
20110110085 | Light Emitting Diode Module - A light fixture includes multiple light emitting diode (“LED”) modules. Each LED module includes a substrate on which one or more LED's are disposed. The LED modules can interface with one another in a variety of different configurations including an end-to-end configuration in which adjacent ends of the LED modules interface with one another. When adjacent LED modules interface with one another, there is a substantially continuous array of LED's across the LED modules. For example, one or more rows or alignment patterns of the LED's may continue, substantially uninterrupted, within and across the LED modules. Electrical connectors or other means for powering the LED modules are disposed remote from the interfacing locations. For example, electrical connectors may couple to side ends of the LED modules, away from interfacing ends of the LED modules. Thus, the electrical connectors do not impact the continuity of light across adjacent LED modules. | 05-12-2011 |
20110110086 | LUMINAIRE ASSEMBLIES AND APPLICATIONS THEREOF - The present invention provides luminaire light source assemblies incorporating LEDs as light sources for use in various lighting applications. | 05-12-2011 |
20110110087 | LIGHT ENGINE WITH ENHANCED HEAT TRANSFER USING INDEPENDENT ELONGATED STRIPS - A light emitting assembly ( | 05-12-2011 |
20110110088 | System in Package High Power Highly Efficient Diode Lamp - A system in package, high power, and highly efficient diode lamp is provided. The diode lamp includes a heat-conducting/heat-dissipating module, a LED light module, an optical module, and a control circuit module. The heat-conducting/heat-dissipating module includes a heat-conducting device and at least one heat-dissipating fin. The LED light module is disposed on a flat portion of the heat-conducting device. The optical module focuses the light emitted by the LED light module. The control circuit module is used to control the LED light module. When the diode lamp is electrically connected to a power supply, the control circuit module selectively controls the LED light module to emit the light. The heat generated during the operation of the LED light module is conducted from the flat portion of the heat-conducting device to the at least one heat-dissipating fin, and then it is dissipated by the at least one heat-dissipating fin. | 05-12-2011 |
20110116266 | LED BULB WITH MODULES HAVING SIDE-EMITTING LIGHT EMITTING DIODES AND ROTATABLE BASE - Disclosed is a light emitting diode bulb having a base member having a first surface and a second surface, an electrical connector at the first surface of the base member, a plurality of light emitting diode modules stacked on the second surface and along an axis line, a region defined by two radii extending from the axis and an outer periphery of the plurality of light emitting diodes modules, and a plurality of side-emitting light emitting diodes on each of the plurality of light emitting diode modules wherein the plurality of side-emitting light emitting diodes is within the region. | 05-19-2011 |
20110116267 | HEAT DISSIPATION STRUCTURE OF AN ELECTRONIC ELEMENT - A heat dissipation structure of an electronic element includes a cooling fin, an aluminum heat dissipation seat which is provided on the cooling fin and at least one electronic element which is provided on the aluminum heat dissipation seat. At least one heat conducting copper column is provided on the aluminum heat dissipation seat by being tightly forced in or by a stamping method with a mold, and is located corresponding to the electronic element. Therefore, the present invention can conduct heat from the electronic elements, can reduce a manufacturing cost, can accelerate production, can decrease a manufacturing process, is environment friendly and is provided with a high heat dissipation efficiency. | 05-19-2011 |
20110122620 | Waterproof LED display - A LED display includes at least two standard LED units connected side by side, having a peripheral hole and wire passing hole, a wire passing hole stopper, comprising a first annular seat, fixed around the wire passing hole via a first double sided adhesive, a first silicon rubber sealing ring, and a first screw, provided on one side of the wire passing hole; a second annular seat, fixed around the wire passing hole via a second double sided adhesive, a second silicon rubber sealing ring, and a second screw, provided on the other side of the wire passing hole, and a peripheral hole stopper comprising a third annular seat, fixed around the peripheral hole via a third double sided adhesive, a peripheral hole cap, and an O-shaped sealing ring provided between the third annular seats and the peripheral hole cap. | 05-26-2011 |
20110122621 | LIGHTING DEVICE WITH SENSOR - The lighting device contains an upper casing, a circuit board, a sensor assembly, a lower casing, and power adaptors. A number of light emitting diodes (LEDs) are configured on the circuit board. The upper and lower casings are joined to house the circuit board inside. The power adaptors are configured at two ends of assembled upper and lower casings and the circuit board. The sensor assembly contains a cylindrical casing threaded in a ring. The sensor assembly is then rotatably housed in a spherical concave on the circuit board. The sensor assembly's rotational angle could be easily adjusted to aim to cover any desired area. The power adaptors allow the lighting device to be installed to conventional sockets for fluorescent light tubes. | 05-26-2011 |
20110122622 | LED Light - A Light-Emitting Diode (“LED”) light including a housing with two ends, a base coupled to the housing at one of the two ends for connecting to an electrical fixture, the housing including vertical plates with a majority of higher-power LEDs mounted on the vertical plates at an angle of less than 75 degrees relative to the vertical plates. In one aspect, the LEDs are mounted in a column and row grid pattern. In one aspect, the housing includes a horizontal plate with lower-power LEDs mounted thereon. In one aspect, the LED light includes a temperature regulation device housed within its housing for heat dissipation. | 05-26-2011 |
20110122623 | LIGHT IRRADIATION DEVICE - The present invention uniforms a size of an LED substrate | 05-26-2011 |
20110128735 | FULL ANGLE LED ILLUMINATION DEVICE - A full angle LED (light-emitting diode) illumination device comprises at least three copper base plates, a plurality of LED chips, and a flexible circuit layer. Each copper base plate is electroplated with a layer of silver thereon and the copper base plates are arranged in a crisscross pattern to form the backbone of a three-dimensional globe. Each LED chip is provided on the external surface of the three-dimensional globe at a site where any two copper base plates are crisscrossed. The flexible circuit layer is provided on the peripheries of the copper base plates and electrically connected with the LED chips for controlling the LED chips. Accordingly, it is able to provide full angle illumination range and to improve the thermal conductivity and heat dissipation capability in order to prolong effectively the lifetime of the LED chips in use. | 06-02-2011 |
20110128736 | LED Light - A Light-Emitting Diode (“LED”) light including a housing with two ends, a base coupled to the housing at one of the two ends for connecting to an electrical fixture, the housing including vertical plates with a majority of higher-power LEDs mounted on the vertical plates at an angle of less than 75 degrees relative to the vertical plates. In one aspect, the LEDs are mounted in a column and row grid pattern. In one aspect, the housing includes a horizontal plate with lower-power LEDs mounted thereon. In one aspect, the LED light includes a temperature regulation device housed with in its housing for heat dissipation. | 06-02-2011 |
20110134639 | ILLUMINATION APPARATUS MODULE - An illumination apparatus comprises at least two illumination apparatus modules arranged abreast and a connecting element. Each illumination apparatus module includes a cover, a case, and an elastic fastener. A supporting portion is mounted on the case supporting the cover. The sidewall of the case has a first hole, and the supporting portion has a second hole. The elastic fastener is mounted on the second hole. The supporting portion supports the cover and fixes the cover on the case. The connecting element passing through the first holes of the two adjacent sidewalls of two illumination apparatus modules fixes and connects the two illumination apparatus modules together. By the first holes and the connecting element corresponding to the first holes, each illumination apparatus module combines mutually. The elastic fastener fixes the cover and the case together. | 06-09-2011 |
20110134640 | LED LUMINOUS SCREEN, PARTICULARLY FOR MEGA SCREENS - “An LED luminous screen, particularly for mega screens, giant graphical video screens, lighting effects and the like, comprising a plurality of pixels arranged according to an array, each pixel being formed by a plurality of LEDs which are associated with a printed circuit contained in a main body that forms the individual pixel; the screen comprises, for each column of the array, at least one supporting cable that can be fixed between the main bodies or to each one of the main bodies that belong to the same vertical row of the array by way of fixing means and extend substantially at right angles to an upper supporting bar, which can be arranged horizontally; the main bodies belonging to adjacent columns are mutually connectable by way of connection means in order to keep the main bodies substantially on a same plane and at a given distance between the elements.” | 06-09-2011 |
20110141739 | LIGHTING APPARATUS - Disclosed herein is a lighting apparatus in which a plurality of lighting blocks is inserted into a base member at positions desired by a user so as to improve the aesthetics of the lighting apparatus and enable easy repair and replacement. | 06-16-2011 |
20110149569 | LIGHT-EMITTING DIODE MODULE - An LED module including an LED light bar and a FPC is provided. The LED light bar includes a circuit board and a plurality of LED devices. The circuit board has a first surface, a second surface, first pins, second pins, and a slot. The LED devices are disposed on the first surface and electrically connected with the first pins. The FPC passes through the slot and is electrically connected with the second pins. The FPC includes a first bonding part, a second bonding part, and a bending part. The first bonding part has a plurality of third pins electrically connected with the second pins and is in contact with the first surface of the circuit board. The second bonding part has a plurality of fourth pins electrically connected with a control board. The bending part connects between the first part and the second part and passes through the slot. | 06-23-2011 |
20110149570 | MINIATURE TROUBLE LAMP - A trouble lamp has a generally transparent, cylindrical tube, a top end cap and an opposite bottom end cap disposed over the tube ends. A hanger has a stem inserted into the top end cap and a hook generally extending from the tube and the top end cap. An electrical cord extends from the bottom end cap to a plug configured to insert into a vehicle accessory socket. Magnets disposed at least partially within the tube top are configured to attach the trouble lamp to a ferrous metal surface. The hanger is configured to attach the trouble lamp to engine framework or wiring. An LED array disposed along the length of the tube is in communications with the cord so as to illuminate LEDs when the plug is inserted into the accessory socket. | 06-23-2011 |
20110149571 | LIGHT TRANSMISSIBLE DISPLAY APPARATUS - A light transmissible display apparatus includes a first light transmissible substrate and at least one light-emitting diode (LED) light bar disposed on the first light transmissible substrate. The light transmissible display apparatus makes people who live or work inside a building enjoy natural light from outside, and further saves the labor hour in processes of manufacturing the display apparatus. | 06-23-2011 |
20110157893 | OLED LUMINAIRE HAVING OBSERVABLE SURFACES WITH DIFFERENTIAL VISUAL EFFECTS - An OLED luminaire has at least one panel structure having a generally planar observable surface and at least one OLED panel having a light emitting surface forming at least a portion of the panel structure and having a sufficiently high lumen output for illuminating a space. The generally planer observable surface of the panel structure, including the light emitting surface of said OLED panel, create visual interest by exhibiting differential visual effects, such as different low luminance patterns or different color patterns, or both, when the OLED panel or panels are driven to a state of illumination. Differential visual effect on the luminaire's panel structure can also be created by the juxtaposition of illuminated OLED panels and non-illuminated fill panels. | 06-30-2011 |
20110157894 | LED LAMP - An LED lamp includes a lamp support and a light-source module mounted on the lamp support. The lamp support includes a main post and a branch post extending from the main post. The main post is tubular and defines a first airflow tunnel inside the main post. The branch post is tubular and defines a second airflow tunnel inside the branch post, and the second airflow tunnel is directly communicated with the outer environment. The first and second airflow tunnels are communicated with each other. The light-source module is located at a position through which an airflow from the first and second airflow tunnels of the main post and the branch post flows. | 06-30-2011 |
20110164420 | DIFFUSION STRUCTURE FOR ILLUMINATION LIGHT SOURCE - The present invention relates to a diffusion structure for illumination light source, comprises: a substrate installed with at least one light emitting diode; a heat dissipating base, the periphery thereof is installed with at least one heat dissipating fin; a lamp head; a lower cover installed with at least one heat dissipating hole; and an upper cover, one end thereof is processed with an etching treatment by a chemical agent so the surface thereof is formed to an irregular concave-convex shape thus the lamp head is provided with more projection angles so as to increase the brightness. With the rough surface of the upper cover, lights emitted by the light emitting diode is able to be diffused, and the heat dissipating fin is disposed in the lower cover so that air can be introduced into the lower cover through the heat dissipating hole for generating convection so as to process heat dissipation to the heat dissipating fin, and users are prevented from being hurt by touching the heat dissipating fin. | 07-07-2011 |
20110176309 | LAMP - A lamp has a housing and a connecting device. The housing has at least one LED, a connecting section and a through hole. The at least one LED is mounted on the housing. The connecting section protrudes from the housing beside the at least one LED. The through hole of the housing is defined through the connecting section. The connecting device is connected with the connecting section and has a rod section which is mounted through the through hole of the housing. The connecting device allows the lamp to clamp any hand tool or be worn. The light beam emitted from the lamp is kept from being blocked by hands or objects. Therefore, it is convenient to use the hand tool with enough illumination in an awkward or dark place. | 07-21-2011 |
20110176310 | LED lamp - An LED lamp includes a housing comprising a receptacle, first and second bossed holes in the receptacle, each bossed hole having internal threads, and a cover plate including parallel ribs projecting outward, and holes, the cover plate being secured to the receptacle by driving threaded fasteners therethrough into the second bossed holes; two opposite shoulders each formed lengthwise along a central line of an inner surface of either side of the receptacle; a PCB supported by the shoulder and the first bossed holes, the PCB being fastened in the receptacle by driving threaded fasteners therethrough into the first bossed holes; rows of units of LEDs electrically connected to the PCB wherein each row of units of LEDs is parallel to and adjacent the rib; and a waterproofing member in the housing for protecting the PCB. The LED lamp is shallow. | 07-21-2011 |
20110176311 | LED lighting device - An LED lighting device includes a receptacle comprising first and second bossed holes each having internal threads, and two opposite shoulders each formed lengthwise along a central line of an inner surface of either side of the receptacle; a cover plate comprising apertures and threadedly secured to the receptacle to form a housing; PCBs each supported by the shoulder and the first bossed holes and fastened in the receptacle by driving threaded fasteners therethrough into the first bossed holes; parallel elongated members each with the housing mounted thereon; units of LEDs electrically connected to the PCB wherein each unit of LEDs is fastened in the aperture; a waterproofing member filled in the housing for protecting the PCB; longitudinal and transverse frame members mounted on one surfaces of the elongated members; and a panel box mounted on the frame members, the panel box being electrically connected to the PCBs. | 07-21-2011 |
20110188247 | WATER-PROOF AND DUST-PROOF MEMBRANE ASSEMBLY AND APPLICATIONS THEREOF - Disclosed is a water-proof and dust-proof membrane assembly and applications thereof. The water-proof and dust-proof membrane assembly comprises a body and a supporting member. The body is of membrane and has a first surface, a second surface, and an asymmetric porous structure formed between the first surface and the second surface of the body. The asymmetric porous structure has a thickness ranging between 1 μm and 1000 μm, a first volumetric porosity ranging between 5% and 99%. The asymmetric porous structure has plural pores, and each pore has a pore diameter between 0.01 μm and 15 μm. The supporting member is of a polymeric material and has a first contacting surface, a second contacting surface, and a second volumetric porosity which is greater than the first volumetric porosity. The first contacting surface of the supporting member is adhered to the first surface of the body. | 08-04-2011 |
20110188248 | LAMP STRIP COVERING STRUCTURE - A lamp strip covering structure includes a first lead ( | 08-04-2011 |
20110188249 | Light-Emitting Diode Illuminating Equipment with High Power and High Heat Dissipation Efficiency - The invention provides a LED illuminating equipment with high power and high heat-dissipating efficiency. The LED illuminating equipment of the invention includes a plurality of diode light-emitting apparatuses. Particularly, the heat generated by the diode light-emitting apparatuses in operation is conducted to a heat-dissipating plate device and the heat-dissipating fins. Besides, the heat is uniformly distributed over the heat-dissipating plate device and further dissipated by the heat-dissipating plate device and the heat-dissipating fins extending thereon. | 08-04-2011 |
20110194284 | CHANNEL LETTER LIGHTING SYSTEM USING HIGH OUTPUT WHITE LIGHT EMITTING DIODES - The present embodiments provide channel letter lighting devices and/or systems. A lighting system, comprising: a plurality of electrically connected lighting units, comprising conductors to provide an electrical signal to each of said units, each of which comprises: a housing; a printed circuit board (PCB) mounted within said housing and having a plurality of light emitting elements, the electrical signal applied to said light emitting elements causing them to emit light substantially away from said housing, said PCB conducting and dissipating heat from said light emitting elements, further comprising a sealant within said housing filling cavities around said light emitting elements and the cavity around said PCB; and a mounting mechanism for mounting said unit to a structure. | 08-11-2011 |
20110194285 | LED-BASED ILLUMINATION MODULE ATTACHMENT TO A LIGHT FIXTURE - A mounting collar on a light fixture provides a compressive force between the illumination module and a light fixture. For example, a mounting collar that is fixed to the light fixture may engage with an illumination module to deform elastic mounting members on the illumination module to generate the compressive force. The mounting collar may include tapered features on first and second members that are moveable with respect to each other and that when engaged generate the compressive force. The mounting collar may include elastic mounting members on first and second members that move with respect to each other, wherein the movement deforms the elastic mounting members to generate the compressive force. The mounting collar may include an elastic member, wherein movement movement of the mounting collar relative to a light fixture deforms the elastic member to generate the compressive force. | 08-11-2011 |
20110199768 | ASSEMBLED LED LAMP STRIP STRUCTURE AND LED LAMP HAVING THE SAME FOR CONTINUOUS LIGHTING - An assembled LED lamp strip structure for generating continuous lighting includes a substrate unit, a light-emitting unit and a packaging unit. The substrate unit has a plurality of substrate bodies sequentially and electrically connected to form a strip shape. The light-emitting unit has a plurality of linear light-emitting arrays respectively disposed on and electrically connected to the substrate bodies. Each linear light-emitting array has a plurality of light-emitting elements, and light beams generated by each light-emitting element are unobstructively projected outward. The packaging unit has a plurality of packaging bodies respectively disposed on the substrate bodies and respectively covering the linear light-emitting arrays, and the length of each packaging body is substantially the same as the length of each substrate body. | 08-18-2011 |
20110199769 | LIGHTING UNIT WITH HEAT-DISSIPATING CHIMNEY - The invention provides systems and methods for providing illumination. A lighting unit may have a support structure, and one or more light emitting elements supported by a circuit board contacting the support structure. A first optical element and a second optical element may be provided. A remote luminescent material may be provided on one or more optical elements. Light emitting elements configured to excite the luminescent material such as highly efficient light emitting diodes may be directed towards the luminescent material. The support structure may be a heat dissipating element, which may conduct heat from a heat source to a surface of the support structure. The heat dissipating element may have a passageway permitting the formation of a convection path to dissipate heat from the support structure. Such lighting units may be used to replace conventional fluorescent light tubes or other lighting devices, or may be provided as standalone lighting units. | 08-18-2011 |
20110205738 | TROFFER-STYLE LIGHT FIXTURE WITH CROSS-LIGHTING - This is directed to a troffer-style light fixture using a LED light to cross-light internal surfaces of the troffer. In particular, this is directed to a troffer-style fixture having several receptacles for receiving LED modules. The modules can be inserted in the fixture such that some light emitted by the LED modules is directed towards an opposite surface of the fixture, causing light from opposite LED modules to mix as light is emitted from the fixture (e.g., cross lighting the fixture environment. The resulting light transmitted and reflected by the troffer can have softer qualities than direct light emitted by a LED module, and enhance the aesthetic appeal of light provided by the fixture. In some embodiments, one or more optical treatments can be applied to internal surfaces of the fixture to enhance the light output by the fixture. | 08-25-2011 |
20110211351 | LIGHTING DEVICES THAT COMPRISE ONE OR MORE SOLID STATE LIGHT EMITTERS - Light engine modules comprise a support member and a solid state light emitter, in which (1) the emitter is mounted on the support member, (2) a region of the support member has a surface with a curved cross-section, (3) the emitter and a compensation circuit are mounted on the support member, (4) an electrical contact element extends to at least two surfaces of the support member, and/or (5) a substantial entirety of the module is located on one side of a plane and the emitter emits light into another side of the plane. Also, a module comprising means for supporting a light emitter and a light emitter. Also, a lighting device comprising a housing member and a light emitter mounted on a removable support member. Also, a lighting device comprising a module mounted in a lighting device element. Also, a method comprising mounting a module to a lighting device element. | 09-01-2011 |
20110211352 | Lighting Device - A lighting device comprising: ( | 09-01-2011 |
20110222283 | LED LAMP AND COOLING STRUCTURE THEREOF - An LED lamp with cooling structure includes a lamp tube, a LED module accommodated in the lamp tube and a cooling structure covering the outside of the lamp tube. The lamp tube has top plate and sidewall bended and extended from periphery of the top plate. The LED module includes circuit board attached onto inside face of the top plate and plural LEDs electrically connected onto the circuit board. The cooling structure has cover plate attached to outside face of the top plate and plural cooling fins bended and extended from periphery of the cover plate and interspaced to each other, in which the cooling fins cover the outside of the sidewall of the lamp tube and is formed a cooling channel with the sidewall. Thereby, an excellent efficiency of cooling is achieved and the manufacturing cost of the LED lamp is thus reduced. | 09-15-2011 |
20110222284 | STREET LAMP - Disclosed is a street lamp. The street lamp includes:
| 09-15-2011 |
20110222285 | LIGHT EMITTING DEVICE HAVING A PLURALITY OF LIGHT EMITTING CELLS - The present invention relates to a light emitting device including at least three pairs of half-wave light emitting units, each pair including a terminal of a first half-wave light emitting unit connected to a terminal of a second half-wave light emitting unit, the terminals having the same polarity, a polarity of the connected terminals of one half-wave light emitting unit pair being opposite to the polarity of the connected terminals of an adjacent half-wave light emitting unit. The light emitting device also includes at least two full-wave light emitting units each connected to adjacent pairs of half-wave light emitting units. The half-wave light emitting units and the full-wave light emitting units each have at least one light emitting cell, the half-wave light emitting units each have a first terminal and a second terminal, the full-wave light emitting units each have a third terminal having the same polarity as the first terminal and a fourth terminal having the same polarity as the second terminal, and the third terminal of each full-wave light emitting unit being connected to the second terminal of adjacent half-wave light emitting units and the fourth terminal of each half-wave light emitting unit being connected to the first terminal of adjacent half-wave light emitting units. | 09-15-2011 |
20110228535 | METHOD AND STRUCTURES OF A MINIATURIZED LINE LAMP - The present invention discloses a method and structures of a miniaturized line lamp. Metal wires are crossed over at two sides of an LED and are in a state of clipping, allowing the LED to be located at a same plane of the metal wires of an electric wire. Electrode positions at shorter edges of two sides of the LED are perpendicular to the metal wires and each across corner is formed respectively with a notch area which is free of electrode. A no-notch position of electrode at the other end of each side provides exactly for contact of two metal wires to form a loop. Therefore, a size of the line lamp device can better comply with a requirement of miniaturization. | 09-22-2011 |
20110235328 | ENERGY HARVESTER FOR LED LUMINAIRE - A light-emitting diode luminaire includes at least one light-emitting diode and at least one thermoelectric generator in contact with a portion of the luminaire. The at least one thermoelectric generator is operable to harvest energy from heat dissipated by the at least one light-emitting diode. An energy management module is operable to receive energy harvested by the at least one thermoelectric generator. | 09-29-2011 |
20110235329 | Lamp Using LED - Provided is a lamp using LED which has a heat sink and an air-flowing part formed in a body and is equipped with a heat pipe to make higher a heat-conductive efficiency and thereby to make higher a heat-generation performance considerably so that the light emitting diode can be applied to a high-output illumination device to increase a life-time. | 09-29-2011 |
20110242810 | LAMP AND LIGHTING SYSTEM AND DEVICE - The invention relates to a lamp ( | 10-06-2011 |
20110249440 | LED LIGHTING SYSTEM - An LED lighting system comprising a housing, a divider, one or more LED strips including one or more light emitting diodes, and one or more end caps having at least one electrical terminal. The divider is disposed in the housing, the one or more LED strips is disposed on the divider; and the electrical terminal of the end caps is in electrical contact with the LED strips. In some embodiments, the end caps are adapted to engage a light socket, wherein the electrical terminal of the end caps is disposed between and in electrical contact with the LED strips and the light socket, and the light socket is in electrical contact with an electrical power source. In some embodiments, the electrical terminal defines a spring engagement between the end caps and the light socket, permitting the lighting system to rotate with respect to the light socket | 10-13-2011 |
20110255284 | LED LIGHT | 10-20-2011 |
20110255285 | ILLUMINATION DEVICE WITH HEAT DISSIPATION STRUCTURES - An exemplary illumination device includes an enclosure, a semiconductor light source accommodated in the enclosure, and an envelope engaged with the enclosure and covering the semiconductor light source. Light generated by the semiconductor light source can project through the envelope and out of the illumination device. The semiconductor light source includes a plurality of light source modules independent from each other. A plurality of air passages are defined in each light source module for air passing therethrough to dissipate heat generated by the semiconductor light source into ambient air. | 10-20-2011 |
20110255286 | Folding Worklight With Attachment Mechanism - An LED worklight includes a center core and a first panel and a second panel coupled to the center core. The first panel includes a first LED die package disposed within a first opening formed within the first panel and a first lens disposed over the first LED die package. The second panel includes features similar to the first panel. The second panel is rotatable around the center core from a zero degree closed orientation to about a 359 degree orientation, and is positionable at any intermediate angle therebetween. The first and second panels each include an attachment mechanism having an elastic band with a hook attached thereto. The attachment mechanisms are used to attach or hang the worklight to or around one or more objects. The attachment mechanisms are stored in the worklight such that the attachment mechanisms do not interfere with its operation when not in use. | 10-20-2011 |
20110255287 | CONNECTORS FOR LED STRIP LIGHTING - The present invention is directed to connectors for lighting strips. More particularly, the present invention relates to modular lighting systems, which provide for physical and electrical interconnection of multiple lighting strip devices to form lighting systems. In an embodiment, the present invention provides a connector assembly for modular lighting strips comprising: two or more integrally-formed plugs or sockets joined together in a manner to provide for physical and electrical connection with two or more lighting strips comprising a non-conductive substrate strip with an electrical circuit; a plurality of light sources operably connected to the electrical circuit; and a plug or socket integrally formed at opposing ends of the substrate strip; wherein the plugs and sockets provide for removable, friction-fit, and electrical interconnection of two or more circuits of the lighting strips. | 10-20-2011 |
20110261566 | EXTERIOR LIGHTING SYSTEM - The present invention relates generally to exterior lighting systems. More particularly, the present invention relates to a track lighting system with independently remotely controlled light modules. | 10-27-2011 |
20110267819 | PORTABLE ELECTRONIC DEVICE HAVING ILLUMINATING MODULE - A portable electronic device includes a base, a cover, and an illuminating module. The base includes a printed circuit board. The cover is secured to the base. The illuminating module is secured to the base and is covered by the cover. The illuminating module includes a light strip and a light source. The light source is electrically connected to the printed circuit board and is oriented at one end of the light strip to illuminate the portable electronic device. | 11-03-2011 |
20110267820 | OUTSIDE LIGHT AND REPLACEMENT FOR HIGH PRESSURE LAMP - An outside light ( | 11-03-2011 |
20110267821 | LIGHTING DEVICE WITH HEAT DISSIPATION ELEMENTS - A lighting device, comprising a solid state light emitter and first and second heat dissipation elements. In some devices, (1) the first heat dissipation element is in the path of at least some of the light emitted, (2) at least half of the 25% of the surface area of a first heat dissipation element that is closest to the first solid state light emitter is exposed, (3) at least part of a heat dissipation element is transparent or reflective, and a portion light from the light emitter goes in a specified range of directions, (4) angular size of gaps between heat dissipation elements are limited, and/or (5) at least 25% of heat generated by the light emitter(s) is dissipated in regions toward which light emitted by light emitter(s) is directed. Also, a lighting device comprising a solid state light emitter and means for dissipating heat. | 11-03-2011 |
20110273883 | WATERPROOF HOUSING AND ILLUMINATION APPARATUS USING THE SAME - A lamp housing used in an outdoor illumination apparatus includes an outer shell and an inner waterproof liner. The inner waterproof liner is located inside the outer shell. A power supply module is inside the inner waterproof liner. The lamp housing utilizes a double waterproof structure to maximize waterproof effectiveness. Furthermore, an illumination apparatus utilizing the lamp housing is also provided. | 11-10-2011 |
20110273884 | LIGHT FIXTURE WITH VARIABLE GEOMETRY - A lighting variable configuration apparatus comprises a plurality of ring-shaped bodies, arranged about a central axis and provided with respective plurality of lighting sources, in particular LEDs, and connected to one another by means of joints in such a way to be differently oriented with respect to one another; the bodies are connected to one another by means of pins made of electric conductive material which contact respective pairs of terminals arranged on adjacent bodies, so that the adjacent bodies are rotational with respect to one another by means of the pins and are electrically connected by means of the same pins. | 11-10-2011 |
20110273885 | LED LIGHTING DEVICE - A LED lighting device comprising a casing, which houses a plurality of power LEDs set on a LED-carrier board; and a plurality of optical elements positioned in front of respective LEDs; the casing is formed by a first half-shell and a second half-shell joined along respective peripheral edges; the first half-shell is made of light permeable material and has a front plate facing the LEDs which constitutes a light emission plate; the second half-shell is made of heat conductive, light impermeable material and has a rear wall, onto which the board is applied and which constitutes a heat dissipation plate opposite to the light emission plate. | 11-10-2011 |
20110273886 | LUMINAIRE HAVING NON-REVEALED AREA LIGHT SOURCES - A luminaire has a shell housing with an upper shell section and a lower shell section that form an interior cavity and at least one side opening through which an observer can see into the interior cavity of the shell housing from a position below the luminaire when the luminaire is positioned overhead the observer. The interior cavity has a lower region which is hidden from the direct line-of-sight of an observer below the luminaire. At least one and suitably a plurality non-revealed upwardly facing area light sources, such as OLEDs, are supported on the lower shell section of the shell housing and disposed in the lower region of the interior cavity thereof so as to produce light within the interior cavity and so as to be hidden from the direct line-of-sight of an observer below the luminaire. Upwardly facing non-revealed area light sources can also be provided on the upper shell section of said shell housing for producing light that is directed overhead the luminaire from said upper shell section from additional area light sources that are hidden from the direct line-of-sight of an observer below the luminaire. | 11-10-2011 |
20110280016 | Heat sink and cooling method for LED lighting and other applications - An inventive heat sink adapted for use with light emitting diode luminaires and other applications comprising: a first layer of carbon graphite in thermal communication with a source of heat and a second layer of aluminum in thermal communication with said first layer. Also disclosed is an inventive troffer including a frame; a printed circuit board mounted within the frame; an array of light emitting diodes mounted on the printed circuit board; a heat sink mounted in parallel with the printed circuit board; and a thermal interface layer disposed between the heat sink and the printed circuit board. In yet another embodiment, the inventive troffer assembly includes plural modules mounted within the frame, each module including: a printed circuit board mounted within the frame; an array of light emitting diodes mounted on the printed circuit board; a heat sink mounted in parallel with the printed circuit board; and a thermal interface layer disposed between the heat sink and the printed circuit board. | 11-17-2011 |
20110286215 | LIGHT STEEL FRAME LIGHTING STRUCTURE - A light steel frame lighting structure includes a main body on which at least one bulb socket is disposed. At least one light bulb inbuilt with a stabilizer is installed in the bulb socket. At least one light-focusing board is disposed on the main body for enhancing illumination of the light steel frame (or T-bar made of other materials) lighting structure. The light bulbs are all inbuilt with stabilizers and directly electrically connected to the bulb sockets of the main body for use. In case of failure of any light bulb, it is only necessary to replace the failing light bulb with a new one inbuilt with a stabilizer to restore the light steel frame lighting structure to its original state. Accordingly, the repair and maintenance of the light steel frame lighting structure can be more conveniently performed. | 11-24-2011 |
20110286216 | LIGHTING DEVICE COMPRISING AT LEAST ONE ELECTROLUMINESCENT DIODE - According to the invention, the, or each, electroluminescent diode is mounted on a cooling radiator comprising a U-shaped main body and fins located in the space delimited by the main body and spaced by bracing systems. | 11-24-2011 |
20110292656 | LUMINAIRE COOLING APPARATUS - An outdoor area light has a housing, a light source comprised of a printed circuit board, a plurality of LEDs, and a heat sink. The heat sink is disposed in thermally conductive proximity to said light source to conduct heat away from it for temperature control. The light source and heat sink are mounted in the housing. A passive impeller is mounted on the housing. A separate active impeller is also mounted on the housing. A conduit for air is in fluid communication with the active impeller and disposed to direct cooling air over the light source and/or the heat sink. The printed circuit board and/or the heat sink and/or their mounts have holes through them. The holes define fluid throughways disposed to convect heat away from the light source via air moving through the throughways. The fluid throughways may be sufficiently aligned to establish laminar flow through them. In high heat, the active impeller is engaged to cool the light; otherwise the passive impeller keeps the light cool. | 12-01-2011 |
20110299280 | LIGHTING UNIT - A lighting unit includes a fire resistant housing ( | 12-08-2011 |
20110299281 | SYSTEM FOR RETROFITTING AN EXISTING LIGHT FIXTURE WITH AN LED LUMINAIRE - An adapter plate is provided that fits an existing luminaire in place of an existing globe that mounts to the luminaire. A heat sink mates to the adapter plate and also houses a solid state light engine and associated electronics. The heat sink may provide an enclosed, protective volume for the associated electronics, such as a power supply for the solid state light engine. A globe mounting ring attached to the heat sink allows either an existing globe to be re-mounted or a new globe to be installed. | 12-08-2011 |
20110305020 | LED LAMP AND HEAT-DISSIPATING ASSEMBLY THEREOF - A LED lamp having a heat-dissipating assembly includes a lamp seat and a LED module. The heat-dissipating assembly includes a metallic base, a vapor chamber, heat pipes, heat-dissipating fins sheathed on the heat pipes, and fixing elements. The metallic base has a first plate and a second plate overlapped with each other. The first plate and the second plate are provided with locking holes. The vapor chamber is brought into thermal contact with the first plate. The heat pipes penetrate between the first plate and the second plate. The lamp seat is provided with an opening and fixing holes corresponding to the locking holes. The fixing elements penetrate the fixing holes and the locking holes, thereby fixing the lamp seat to the metallic base. In this way, the fixation of the vapor chamber with other heat-dissipating body is simplified and the present invention can be assembled easily. | 12-15-2011 |
20110305021 | SOLID STATE LIGHTING DEVICE WITH DIFFERENT ILLUMINATION PARAMETERS AT DIFFERENT REGIONS OF AN EMITTER ARRAY - Solid state lighting (SSL) devices and methods of manufacturing such devices. One embodiment of an SSL device comprises a support and an emitter array having a plurality of SSL emitters carried by the support. The emitter array has a central region and a peripheral region outward from the central region. Individual SSL emitters in both the central and the peripheral regions have a primary emission direction along which an intensity of light from the SSL emitters is highest, and the primary emission direction of the SSL emitters in the central region is at least substantially the same direction as the primary emission direction of the SSL emitters in the peripheral region. Additionally, a first coverage area ratio of the SSL emitters in the central region is different than a second coverage area ratio of the SSL emitters in the peripheral region. | 12-15-2011 |
20110310608 | LED LIGHT SOURCE | 12-22-2011 |
20110310609 | LIGHT EMITTING DEVICE AND ILLUMINATION APPARATUS - According to one embodiment, a light emitting device includes: a substrate a back face side of which is disposed on a mounting member; a plurality of light emitting elements mounted on a surface side of the substrate; and a power supply terminal provided on the surface side of the substrate and electrically connected to the light emitting elements. The power supply terminal is connected to electrical connecting units by elastic pressing force directed from the surface side of the substrate to the mounting member side. A mechanical fixing unit has a pressing portion brought into contact with the surface side of the substrate. The mechanical fixing units fix the substrate to the mounting member with use of elastic pressing force of the pressing portions directed from the surface side of the substrate to the mounting member side. | 12-22-2011 |
20110317419 | Roadside lamp with a heat dissipating design - A roadside lamp with a heat dissipating design is disclosed. The roadside lamp of the present invention comprises a seat portion and a plurality of light emitting units. A panel is fitted to the seat portion and the light emitting units are fitted to the panel. The back portion of the panel is tightly fitted to a heat dissipating fin-like portion. A pair of rails extends outwardly from the fin-like portion. The pair of rails may be used to connect the roadside lamp with a surface in a place such as a tunnel. For example, a track may be provided on the top portion of a tunnel; therefore, a plurality of the roadside lamps may be fitted to the track in a tidy manner. The pair of rails allows each roadside lamp to be fitted to the track and thus, the location of the lamp may be adjusted. | 12-29-2011 |
20110317420 | LIGHTING DEVICE - A lighting device may be provided that includes a light member having a light emitting diode (LED) to emit light in a first direction along a first axis, and a housing having a base to support the light member, and having a plurality of cooling fins that extend in a second direction away from the base. A plurality of holes may provide an air flow. Each hole may be provided through the housing from a first side of the base to the second side of the base. Each hole may correspond to an area between two separate ones of the cooling fins. | 12-29-2011 |
20110317421 | LIGHTING DEVICE SYSTEM AND METHOD - A lighting device, system, and method are disclosed. The lighting system includes a connector configured to be coupled with a relatively stationary object. The connector may have a first coupling face. A light source support may be configured to support a plurality of light sources. The light source support may have a second coupling face configured to mechanically and electrically couple with the first coupling face. The second coupling face may be radially symmetric and able to couple with the first coupling face in a first orientation and in a second orientation. The second orientation may be substantially opposite the first orientation. | 12-29-2011 |
20110317422 | Lighted Architectural Mesh - A lighted architectural mesh includes a plurality of interconnected wires forming a plurality of transverse openings. At least one light carrier is slidably received within at least one of said transverse openings. The at least one light carrier includes light nodes emitting light through the interstices on the front and/or rear side of the architectural mesh. The at least one light carrier further comprises a plurality of connecting elements, wherein the light emitter nodes of the at least one light element are releasably interconnected in series by the connecting elements. | 12-29-2011 |
20110317423 | System in Package High Power Highly Efficient Diode Lamp - A system in package, high power, and highly efficient diode lamp is provided. The diode lamp includes a heat-conducting/heat-dissipating module, a LED light module, an optical module, and a control circuit module. The heat-conducting/heat-dissipating module includes a heat-conducting device and at least one heat-dissipating fin. The LED light module is disposed on a flat portion of the heat-conducting device. The optical module focuses the light emitted by the LED light module. The control circuit module is used to control the LED light module. When the diode lamp is electrically connected to a power supply, the control circuit module selectively controls the LED light module to emit the light. The heat generated during the operation of the LED light module is conducted from the flat portion of the heat-conducting device to the at least one heat-dissipating fin, and then it is dissipated by the at least one heat-dissipating fin. | 12-29-2011 |
20110317424 | LIGHTING DEVICE AND USE THEREOF - The invention relates to a lighting device, comprising a multi-layer carrier plate with a large number of through-openings, in each of which an LED is accommodated. According to the invention, it is provided that the through-holes, accommodating the LEDs have a circular cross-sectional face. Furthermore, the invention relates to the use of a carrier plate of this type. | 12-29-2011 |
20120002417 | WATERPROOF FLEXIBLE AND RIGID LED LIGHTING SYSTEMS AND DEVICES - The present invention relates to lighting strips and more particularly to flexible lighting systems and devices, which are waterproof. The lighting strips are modular and are capable of being physically and electrically connected with one another to provide lighting systems that are waterproof and adaptable to many situations. Included in embodiments of the invention are modular lighting strips comprising: a non-conductive substrate strip comprising an electrical circuit; a plurality of high brightness LEDs operably connected to the electrical circuit; a colloid layer comprising polyurethane resin providing a waterproof coating over the substrate, the circuit, and the LEDs; and a plug at one end and a socket at an opposing end of the substrate which is integrally formed with the strip to provide for waterproof electrical interconnection of two or more circuits or to a power supply. The lighting strips of the invention can be used in particular for back lighting, accent lighting, aisle or path lighting, contour lighting, elegant interior decoration, holiday decorations, or landscape lighting. | 01-05-2012 |
20120002418 | RAIL AND CLIP MOUNTING FOR LED MODULES FOR FLUORESCENT APPLICATION REPLACEMENT - In accordance with a first exemplary embodiment of the present disclosure, a mounting arrangement for use with an LED power strip module is provided. The mounting arrangement comprises one or more one frames having a first end and a second end, a first holding base configured to mate with the first end and a second holding base configured to mate with the second end, and at least one LED module having a first and second edge and comprising a plurality of LEDs, said LED module being adapted to removably attach to the one or more frames. The first and second holding bases are adapted to secure the one or more frames to an existing raceway structure. | 01-05-2012 |
20120002419 | LIGHT MODULE - An LED array is mounted on a base that is thermally coupled to a heat spreader. At least one aperture is provided between the support area and an edge of the heat spreader. The heat spreader may be coupled to a thermal pad which has sufficient thermal conductivity and is sufficiently thin to allow the thermal resistivity between the heat spreader and a corresponding heat sink to be below a predetermined value. | 01-05-2012 |
20120002420 | LED module, LED package, and wiring substrate and method of making same - An LED module includes an electrical insulation material including a first surface having a total reflectivity of not less than 80% with respect to light with a wavelength of 450 nm, a via hole penetrating through the electrical insulation material, a wiring pattern on a second surface of the electrical insulation material, a metal filler formed in the via hole and electrically connected to the wiring pattern, and an LED chip bonded to a surface of the metal filler on the first surface of the electrical insulation material, and sealed with a resin. | 01-05-2012 |
20120002421 | BULB-SHAPED LAMP AND LIGHTING DEVICE - A bulb-type lamp having both heat dissipation and size/weight reduction properties with a lower thermal load on a lighting circuit. An LED module is mounted in a case with a base member to allow dissipation of heat. An LED mount member closes another end of the case and allows conduction of heat to the case. A lighting circuit receives power via the base member. The lighting circuit is disposed inside a circuit holder. An air space exists between the circuit holder and both the case and the mount member. The lighting circuit is isolated from the air space by the circuit holder. A relationship 0.5≦S | 01-05-2012 |
20120008321 | LUMINAIRE HAVING STRUCTURAL WALL WITH SELF-CAPTURING WIRE CHASE - The structural wall of a luminaire has one or more light source retention cavities for holding area light sources such as OLED panels, and a wire chase or chases that extend from one light source cavity to another light source cavity in the structural wall, and/or from a light source cavity to a wire feed point for the structural wall. The wire chase or chases have a wire retaining bottom channel and a constricted wire entry opening at the top of the wire chase that is narrow in relation to the wire retaining bottom channel for capturing the wires therein. In another aspect of the invention, the wire chase or chases can be manufactured as separate parts, which can be inserted into the structural wall of the luminaire. | 01-12-2012 |
20120008322 | LIGHT EMITTING DEVICE PACKAGE - The light emitting device package may include a light emitting device including at least one light emitting diode and a body including at least one lead frame on which a light emitting device is disposed, the body provided a first protrusion formed on a outside of the body, wherein the width of a lower surface of the first protrusion is 0.5 times to 0.9 times the width of a upper surface of the first protrusion. | 01-12-2012 |
20120014099 | Lamp - Provided is a lighting system having a printed circuit board on which a plurality of light emitting diodes are arranged; a base holding the printed circuit board; a heat sink provided on a lateral side of the base in a horizontal direction of the printed circuit board; a heat pipe which connects the base with the heat sink; and a rotating unit provided in at least end portion of one end portions and the other end portions of the base or the heat sink, to easily control the illuminating angle and the illuminating range and therefore to improve the energy efficiency, and to improve the heat-radiating property since the heat sink is provided in the lateral side of the substrate of heat-generating member. | 01-19-2012 |
20120014100 | LED Lighting Device - The present invention is a light generation device utilizing higher efficiency LED's while also allowing for interface with current lighting interfaces. The LED's are replaceable in the unit and may be interchanged with other LED's to affect lighting mood and style or simply for replacement in the event an LED ceases to function. | 01-19-2012 |
20120014101 | Lighting Unit and Luminaire for Road and/or Street Lighting - A lighting unit for use in a luminaire, in particular a luminaire for road and/or street lighting, has an adaptable light distribution wherein the lighting unit comprises at least two light sources or groups of light sources, each of the light sources or groups of light sources having an individual light distribution characteristic, wherein the overall light distribution of the lighting unit is adapted by modifying the ratio of the light outputs of the at least two light sources or groups of light sources | 01-19-2012 |
20120014102 | VERSATILE LIGHTING UNITS - Systems and methods which provide a versatile lighting module which may be utilized alone or in combination with other lighting modules to provide any number of lighting unit configurations are shown. Lighting modules of embodiments herein are adapted to facilitate electrical connection, whether to one or more power supply and/or to one or more other lighting module, along any portion of the entire periphery of the lighting module. Accordingly, lighting modules may be coupled together in any orientation, geometry, and topology to cooperate as a light source having various desired characteristics according to embodiments herein. | 01-19-2012 |
20120020086 | LIGHT-EMITTING DEVICE WITH ELECTRICALLY INSULATED LED MODULE - A lighting fixture includes an outer surface with pairs of fastening holes to receive LED lighting devices. The devices include an insulating base substrate, an LED module engaging the base substrate and including positive and negative power supply input terminals, and an insulating device housing shaped to cover the base substrate and the LED module when engaged therewith. A plurality of terminal board modules are integral to the device housing and effective to electrically couple respective external power supply conductors to the power supply input terminals of the LED module. The base substrate and the device housing further include a pair of through holes corresponding to an associated pair of holes on the fixture surface. When a fastener couples the base substrate and the device housing to the fixture, the LED module is insulated with respect to the fastening device and outer surface. | 01-26-2012 |
20120020087 | LIGHT EMITTING DIODE LAMP AND METHOD FOR MANUFACTURING THE SAME - A light emitting diode (LED) lamp includes a plurality of LED chips and a heat dissipation member configured to dissipate heat generated from the LED chips. The heat dissipation member includes a tubular unit having a constant cross-section perpendicular to an axial direction, and a plurality of fins, each of which extends outwardly from the tubular unit and extends in the axial direction, having a constant thickness in the axial direction. | 01-26-2012 |
20120020088 | CONNECTOR, AND LED LIGHTING APPARATUS USING THE CONNECTOR - A connector includes a plug connector and a receptacle connector which connect a circuit board to a connecting object and allow relative movement therebetween in a common plane or in mutually parallel planes. The receptacle connector includes a receptacle contact including a pair of holding portions and a pair of guide portions which are spaced from each other with the pair of holding portions positioned therebewteen, wherein each guide portion includes a support groove. The plug connector includes a plug contact and a plug insulator which holds the plug contact. The plug contact is linearly elongated and resiliently deformable in a direction of thickness thereof and includes a contact portion that is engaged in the support grooves of the pair of guide portions. The plug insulator includes an opening facing the circuit board, and an accommodation space for accommodating the receptacle contact and the plug contact. | 01-26-2012 |
20120026738 | LIGHT-EMITTING APPARATUS AND ILLUMINATION APPARATUS - According to one embodiment, a light-emitting apparatus includes a substrate, an attachment member, and a mechanical fixing component. The substrate has light-emitting elements mounted on one surface side thereof. The attachment member includes a concave portion in which the substrate is arranged with a gap between the substrate and a side circumference of the concave portion. The mechanical fixing component includes a pressure portion that is in contact with the one surface side of the substrate, the mechanical fixing component being configured to hold the substrate in the concave portion of the attachment member by elastic pressing force of the pressure portion acting in a direction from the one surface side toward the other surface side of the substrate. | 02-02-2012 |
20120033424 | LED LIGHTBULB WITH IMPROVED GAIN STRUCTURE - An LED lightbulb with an improved gain structure has a die-type LED lamp with the light-emitting dies arranged and a structure for preventing insects from intruding into the lamp, including a base casing, a heat dissipating unit coupled with the LED lamp, meshes, and a transparent cover, and characterized in that the LED lamp has a middle portion defined with a matrix arrangement region for the light-emitting dies. Rows of the light-emitting dies are disposed at the periphery of the matrix arrangement region. The light-emitting dies disposed at the periphery of the matrix arrangement region are spaced apart from the light-emitting dies disposed within the matrix arrangement region, respectively. The meshes adhere to the base casing and correspond in position to the air holes, respectively, to prevent intrusion of insects and thereby protect the LED lamp against short circuits. | 02-09-2012 |
20120033425 | LED Street Lamp and a Street Lamp Fixing Device - The present invention discloses a street lamp fixing device, comprising a LED module, a heat dissipation device, a lamp holder, a metal plate and a connector, wherein the heat dissipation device has a lamp holder mounting recess cooperated with the metal plate for locking the lamp holder. Moreover, the present invention further discloses an LED street lamp with natural convection devices, which accelerate the airflow within the street lamp to a faster speed to enhance heat exchange, whereby the lifespan of the LED street lamp is extended and the weight and size of the street lamp are reduced. | 02-09-2012 |
20120044685 | LED MODULE WITH FAST DISASSEMBLY FUNCTION - A LED module with fast disassembly function is capable of being disassembled from a hole of a substrate by a tool and includes a lamp base, a LED and fasteners. The lamp base has tabs extending outwards. Each of the tabs is provided with a through-hole corresponding to the hole. The tab is formed with an inclined surface at the periphery of the through-hole. The LED is fixed on the lamp base. Each of the fasteners has a cap. The fastener is disposed through the hole and the through-hole to be fixed thereto. A notch is formed between the cap and the inclined surface. The tool is disposed in the notch to thereby disassemble the fastener from the hole and the through-hole. With this arrangement, the damaged LED can be detached from the substrate rapidly without replacing the whole LED module, thereby reducing the time and cost for maintenance. | 02-23-2012 |
20120044686 | LED light strip - A LED light strip having a narrow elongated base layer prepared from flexible heat-resisting polyethylene terephthalate, two narrow elongated conducting copper layers coated on the base layer and arranged in a parallel manner along the length of the base layer, a cover layer prepared from flexible heat-resisting polyethylene terephthalate and covered on the base layer over the conducting layers, a plurality of crevices cut through the cover layer and spaced along the length of the cover layer and a plurality of surface mount device light-emitting diodes bonded to the conducting layers in the transverse crevices. | 02-23-2012 |
20120044687 | LED LAMP - An LED lamp includes a lamp seat and a light assembly. The lamp seat includes a heat-dispersing unit having a plurality of tubular members extending in a horizontal direction and disposed in a side-by-side manner. Each of the tubular members defines a tubular space. The light assembly includes a light module having an LED element. The light module is mounted directly or indirectly on the tubular members of the heat-dispersing unit. | 02-23-2012 |
20120044688 | ARRAY SOLID STATE LIGHTING DEVICE PACKAGE - A solid state light (SSL) including solid state emitters (SSEs), and methods of manufacturing SSLs are disclosed herein. In one embodiment, an SSL comprises a support having a first portion and a second portion inward of the second portion. A first set of first SSEs having a first performance specification rating can be located at the first portion, and a second set of second SSEs having a second performance specification rating different than the first performance specification rating can be located at the second portion. The first and second sets of SSEs can emit a desired output across the SSL. | 02-23-2012 |
20120044689 | LIGHTING SYSTEM COMPRISING AT LEAST ONE LUMINOUS BAND - In various embodiments, a lighting system may comprise at least one connection element and at least one luminous band having at least one band-shaped unit circuit board, whereby the unit circuit board is equipped with at least two semiconductor light sources, and has at least one contact area arranged between at least two semiconductor light sources, whereby the contact area is configured so it can be severed and the contact area and the connection element are configured such that after severing of the contact area the connection element can be applied onto the contact area and at least one circuit can be closed on the unit circuit board by applying the connection element onto the contact area. | 02-23-2012 |
20120057346 | Vertical & Horizontal Blinds with Lighting - The invention is based on a certain number of hollow translucent vertical blinds ( | 03-08-2012 |
20120057347 | LIGHTING UNIT - The invention provides a lighting unit comprising a substantially continuous, pliable surface ( | 03-08-2012 |
20120057348 | LED LIGHTING FIXTURE - An LED lighting fixture including a housing and an LED assembly secured with respect to the housing to permit air/water-flow over the LED assembly. The LED assembly includes (a) an LED heat sink having an LED-engaging surface and a heat-transfer surface and (b) an LED-array at the heat-transfer surface. The housing and the heat sink define an air gap permitting air/water-flow to and from the heat sink | 03-08-2012 |
20120057349 | LIGHTING UNIT - The invention describes a lighting unit ( | 03-08-2012 |
20120063135 | CIRCUIT BOARD FOR AN LED LUMINAIRE - Disclosed is an LED light source automated luminaire with a LEDs mounted on a partitionable circuit board. The partitionable circuit board allows for less expensive service cost while maintaining lower costs of manufacture of the luminaire. | 03-15-2012 |
20120063136 | Addressable or Static Light Emitting or Electronic Apparatus - The present invention provides an addressable or static electronic apparatus, such as a light emitting display. An exemplary apparatus comprises a substrate having a plurality of cavities; a plurality of first conductors coupled to the substrate and at least partially within the cavities, with the plurality of first conductors having a first and substantially parallel orientation; a plurality of light emitting diodes or other electronic components coupled to the plurality of first conductors and having a second orientation substantially normal to the first orientation; and a plurality of substantially optically transmissive second conductors coupled to the plurality of light emitting diodes and having a third orientation substantially normal to the second orientation and substantially perpendicular to the first orientation. In an exemplary method, the plurality of electronic components in a suspending medium are deposited within the plurality of cavities, and the plurality of electronic components are oriented using an applied field, followed by a bonding of the plurality of electronic components to the plurality of first conductors. | 03-15-2012 |
20120063137 | Foldable LED light recycling cavity - LEDs are mounted onto a flat, thermally conductive, substrate, which is folded to form a light recycling cavity. A planar substrate is first coated with a metal layer, which is patterned to electrically connect the LEDs and to form bonding pads for wirebonds to connect the LEDs to external circuitry. The LEDs are mounted on the substrate. The substrate is then scribed on the backside to form the folds. The LED dies are then attached onto the metal islands (pads) defined on the substrate and wirebonds are used to connect the top side of the LED to adjacent patterned metal islands (pads) on the substrate. The substrate is then folded into a light recycling cavity where the LEDs are facing the inside of the cavity. | 03-15-2012 |
20120063138 | EGRESS LIGHTING FOR TWO MODULE LUMINAIRES - Embodiments of the invention provide for a lighting system for illuminating aisles with shelving. A rail can include a plurality of LEDs that extend along the length of the rail. The rail can be coupled with a node that includes various components along with an egress light source. The LEDs can be used to primarily illuminate the shelving on both or one side of the aisle. The egress light can be used to illuminate the aisle during times of emergency, at night, or when egress may be required. | 03-15-2012 |
20120063139 | Light Band and Method for Producing a Light Band - A light band ( | 03-15-2012 |
20120069569 | LIGHT EMITTING DIODE LIGHT BAR STRUCTURE HAVING HEAT DISSIPATION FUNCTION - The present invention discloses a light emitting diode (LED) light bar structure having heat dissipation function, adapted for a backlight module, and including a heat dissipation body, a plurality of light emitting diodes (LEDs), and a circuit board. The heat dissipation body has a circuit board insertion slot and is provided with a plurality of installation holes in row. The installation holes pass through the heat dissipation body, the LEDs are embedded in respective installation holes, and the circuit board is received in the circuit board insertion slot whereby the LEDs are fixed in the installations holes and electrically connect the circuit board. Accordingly, the LED light bar structure not only simplifies assembling procedures but also directly and laterally dissipate heat generated by the LEDs through a tight engagement of the LEDs and the heat dissipation body, thereby improving dissipation efficiency of the backlight module. | 03-22-2012 |
20120069570 | ILLUMINATION DEVICE AND METHOD FOR ASSEMBLY OF AN ILLUMINATION DEVICE - The present invention discloses an illumination device ( | 03-22-2012 |
20120069571 | SOLAR SHIELD FOR LED LIGHT EMITTING ASSEMBLY - An L.E.D. light emitting assembly ( | 03-22-2012 |
20120075858 | LED BULB - An exemplary LED bulb includes a holder, a housing, a heat spreader, a power module and an LED module. The housing connects to the holder. The heat spreader detachably engages with the housing. The power module detachably engages with the housing and is received in the housing. The LED module is arranged on the heat spreader. The LED module electrically connects to the holder via the power module. The LED module is physically separated from the power module. | 03-29-2012 |
20120075859 | Thermally managed, high output light-emitting-diode assembly for illumination with ease of retrofitting - The present invention relates to LED assemblies used to replace bulbs in streetlights or similar illumination sources. The LED assemblies are self contained and comprise modules for the function and control of the LED assembly. The LED assembly can include additional capability for sensors and for communication external to the LED assembly. The LED assembly can include advanced features that can be remotely activated. The LED assembly fits within the same volume as the bulb it is replacing and therefore does not require the removal or addition of other hardware during the replacement of the bulb with the LED assembly. | 03-29-2012 |
20120075860 | LED LIGHTING EQUIPMENT WITH RADIATING STRUCTURE HAVING INCREASED SURFACE AREA AND HIGH VENTILATION EFFICIENCY - Disclosed is LED lighting equipment formed with a radiating structure which can improve the heat radiation effect by having good ventilation and an increased surface area. According to the present invention, the LED lighting equipment comprises: a printed circuit board; a plurality of LEDs which are mounted on the front of the printed circuit board; a radiating structure which supports the printed circuit board, and radiates the heat generated from the plurality of LEDs; a power supply unit which is formed on the rear of the radiating structure, and supplies power to the plurality of LEDs through the printed circuit board; and a cover which protects the plurality of LEDs from the outside, wherein the radiating structure comprises a plate-shaped upper member, a lower member, and a plurality of intermediate members combined between the upper member and the lower member, and each of the plurality of intermediate members includes a body of which the inner part is hollow and a plurality of protrusions which are radially formed on the body. | 03-29-2012 |
20120081899 | LUMINAIRE SYSTEM AND METHOD - A method of designing a modular lighting system comprising determining a length of a lighting fixture, then selecting a plurality of light emitting diode (LED) modules from a selection of standardized sizes. And assembling the modules together with a fixture, so that the modules and the fixture combine to form the determined length. In some embodiments the selecting is done from a group comprising either a 10 inch, a 12 inch or a 4 inch LED module. In some embodiments the determining is in response to a building metric. | 04-05-2012 |
20120087127 | Light source, device including light source, and/or methods of making the same - Certain example embodiments of this invention relate to techniques for improving the performance of Lambertian and non-Lambertian light sources. In certain example embodiments, this is accomplished by (1) providing an organic-inorganic hybrid material on LEDs (which in certain example embodiments may be a high index of refraction material), (2) enhancing the light scattering ability of the LEDs (e.g., by fractal embossing, patterning, or the like, and/or by providing randomly dispersed elements thereon), and/or (3) improving performance through advanced cooling techniques. In certain example instances, performance enhancements may include, for example, better color production (e.g., in terms of a high CRI), better light production (e.g., in terms of lumens and non-Lambertian lighting), higher internal and/or external efficiency, etc. | 04-12-2012 |
20120087128 | Lighting and Ventilating System and Method - Embodiments of the invention provide a lighting and ventilating system including a main housing. The main housing can include an inlet through which air can be received within the main housing and an outlet through which the air can exit the main housing. A fan wheel can be supported in the main housing and it can be operable to generate a flow of air. A grille can be coupled to the main housing and the grille can comprise at least one aperture. The system can include a plate coupled to the grille and the plate can include a recess. Also, a set of illumination devices can be at least partially disposed within the recess. | 04-12-2012 |
20120087129 | POSITIONABLE LIGHTING SYSTEMS AND METHODS - A lighting assembly includes a lighting unit having a housing defining an internal cavity and an opening. A light source is assembled within the internal cavity of the housing. An electrical wire is electrically connected to the light source at a first end and is configured to be contained at least in part within the housing. The opening is configured to permit withdrawal of a user selected amount of the electrical wire from within the internal cavity and/or to permit a user selected amount of the electrical wire to be inserted into the internal cavity. | 04-12-2012 |
20120087130 | ALTERNATING CURRENT LED ILLUMINATION APPARATUS - An alternating current LED illumination apparatus includes a heat dissipation plate, a plurality of LED chips arranged on the heat dissipation plate, a circuit layer, an encapsulation, two electrodes located on the heat dissipation plate and exposed out of the encapsulation, and a driving element. The LED chips are thermally connected with the heat dissipation plate, and at least two of the LED chips are connected in anti-parallel. The encapsulation covers the LED chips and at least part of the circuit layer. The driving element comprises a transformer and a switch. The transformer has an input terminal and an output terminal, the input terminal is configured to connect to an alternating current (AC) power source, and the output terminal is electrically connected with the electrodes by the switch. | 04-12-2012 |
20120092869 | Method & Apparatus for Lighting - A lighting fixture includes a directional light source that produces a plurality of light rays. An optical module is coupled to the directional light source to focus the plurality of light rays into a beam of light rays to be output by the lighting fixture. The angular distribution of a majority of the beam relative to a vector normal to a ceiling on or near which the fixture is to be installed is in a range of 70 to 95 degrees. A blocking structure is used to block a direct view of the beam of light when the fixture is installed such that only indirect light is primarily visible from a viewer at least in or around a working plane substantially parallel to the ceiling. | 04-19-2012 |
20120092870 | HEAT MANAGING DEVICE - It is presented a heat managing device for a light source ( | 04-19-2012 |
20120099315 | LED ILLUMINATION APPARATUS - An LED illumination apparatus includes a shell, a fixing module, and at least one LED module fixed in the shell by the fixing module, wherein the fixing module includes a fastening piece and a tenon fixing respectively the two ends of the at least one LED module. The fastening piece includes a base fixed on the shell and a locking arm connecting to the base, and one end of the at least one LED module is fixed by one free end of the locking arm attached to the base. | 04-26-2012 |
20120099316 | LIGHT EMITTING MODULE AND LED LAMP EMPLOYING IT - A light emitting diode lamp includes a lamp rack and a light emitting module mounted on the lamp rack. The ling emitting module includes a printed circuit board and a plurality of LEDs attached to the printed circuit board. The LEDs are arranged in an array. Each of the LEDs has a width W. Each of the LEDs spaces from an adjoining LED with a distance D. The width W and the distance D are in the condition that 0.5>W/D>0.15. | 04-26-2012 |
20120099317 | LIGHT EMITTING DIODE LAMP - A light emitting diode lamp includes a lamp base, a number of illumination modules located on the lamp base, and at least one wire housing located on the lamp base. Each illumination module includes a module frame and a number of illumination units on the module frame. The illumination units are apart from each other. Each illumination unit includes a hollow heat dissipating assembly, at least one lighting assembly contacting the hollow heat dissipating assembly, at least one printed circuit board, and two connection units connected to two opposite terminals of the hollow heat dissipating assembly. At least one of the two connection units includes a power cord. The wire housing includes a number of first connecting terminals electrically connected to the power cords of the illumination units. | 04-26-2012 |
20120099318 | LIGHT EMITTING DIODE LAMP - A light emitting diode lamp includes a lamp base defined a plurality of openings and a number of illumination modules located on the lamp base. Each illumination module includes a number of lamp holders separately located on sidewalls of the openings and a number of illumination units held by the lamp holders and apart from each other. Each illumination unit includes a hollow heat dissipating assembly, at least one lighting assembly contacting the hollow heat dissipating assembly, at least one printed circuit board, and two connection units connected to two opposite terminals of the hollow heat dissipating assembly. The printed circuit board controls a power supply through the lamp holders and at least one of the connection units to the lighting assembly. | 04-26-2012 |
20120099319 | LIGHT EMITTING DIODE LAMP - A light emitting diode lamp includes a lamp base, a lamp cover, and a number of illumination modules. Each illumination module includes a number of illumination units. Two opposite terminals of each illumination unit are secured to the lamp base near an edge of a corresponding opening. The illumination units are in the openings and apart from each other. Each illumination unit includes a hollow heat dissipating assembly, a lighting assembly, a printed circuit board, and two connection units connected to two opposite terminals of the hollow heat dissipating assembly. The printed circuit board controls a power supply through at least one of the connection units to the lighting assembly. The lamp cover has an inner wall surrounding the illumination modules. The inner wall defines a plurality of openings for receiving the terminals of the illumination units therein. | 04-26-2012 |
20120099320 | METHOD FOR UNIFORM, LARGE AREA FLOOD EXPOSURE WITH LEDs - A method for providing uniform flood exposure of LED light onto large area substrates is disclosed herein. The substrates can be up to several square meters in surface area. A method for providing uniform cooling of the LEDs within the apparatus is also disclosed. | 04-26-2012 |
20120099321 | AC LED ARRAY MODULE FOR STREET LIGHT APPLICATIONS - A street light includes a pole, arm and a head attached to the pole, wherein the head comprises a light source having a plurality of solid state light emitting devices and an optical element configured to produce a light distribution pattern from light emitted from the solid state light emitting devices, wherein the light source is configured to be powered directly from an AC source. | 04-26-2012 |
20120099322 | LED LIGHTING APPARATUS WITH SWIVEL CONNECTION - Disclosed is a LED lighting apparatus with one or more swivel connections. The LED lighting apparatus includes a housing with at least one end, at least one light emitting diode extending along the housing and at least one end cap. The end cap has an opening with a sidewall to cap the end of the housing and a surface opposite the opening and spanning the sidewall. At least two pin connectors extend from the surface and are connectable to a standard fluorescent or incandescent light fixture. Various configurations are described such that the housing will rotate within the end caps with application of a rotational force after connection of the pin connectors to the light fixture to adjust the light output direction of the LED lighting apparatus. | 04-26-2012 |
20120106152 | LED LAMP - An LED (light emitting diode) lamp includes a lamp body, a cap mounted on an end of the lamp body, a lamp holder mounted on an opposite end of the lamp body, and a plurality of fasteners. The lamp body includes two beams located at two opposite lateral sides thereof and a plurality of separated light emitting modules mounted on the beams side by side. Each of the fasteners extends through the lamp body, the light emitting modules and the cap in series to secure the lamp body, the light emitting modules, and the cap together. | 05-03-2012 |
20120106153 | LED ILLUMINATION DEVICE - The present invention provides an LED illumination device including a base, at least one flexible circuit board and a plurality of LEDs. The at least one flexible circuit board is used for covering the base. The LEDs are mounted on the flexible circuit board. The present invention utilizes a flexible circuit board that can conform to the base having a 360 degree curved surface and a 3D solid structure to efficiently change the viewing angle of the LEDs so as to provide 360 degree viewing angle. Furthermore, a single flexible circuit board can be utilized to cover the base to provide a 360 degree viewing angle. Therefore, the LED illumination device of the present invention can reduce manufacturing cost and simplify the manufacturing process. | 05-03-2012 |
20120106154 | LED LAMP WITH ADJUSTABLE LIGHT FIELD - An LED lamp includes a holder with a base, a first light module and a second light module. The first light module includes a first light cover and a first set of LEDs. The first light cover has a hollow conical configuration with a wide top end tapering to a small bottom end. The small bottom end of the first light cover is connected to the base. The first set of LEDs is received in a hollow space of the first light cover. The second light module includes a second light cover and a second set of LEDs received in the second light cover. The second light cover is capable of rotating relative to the first light module. | 05-03-2012 |
20120106155 | LIGHTING SYSTEM - There is provided a lighting system capable of suppressing a decrease in light output while preventing occurrence of glare. The lighting system of the present invention includes a light-emitting device and a jig for light control. The light-emitting device includes a plurality of light-emitting elements arranged so as to be distributed on a substrate, and the jig for light control is made up of a resin plate having a plurality of discrete openings for light-emitting surface partitioned by a louver. The light-emitting device and the jig for light control are overlaid so that a light-emitting portion is exposed from the plurality of discrete openings for light-emitting surface. | 05-03-2012 |
20120106156 | STREET LIGHT LED - A street light includes a pole and a head attached to the pole, wherein the head includes a light source comprising a plurality of solid state light emitting devices and an optical element configured to produce a light distribution pattern from the light emitted from the solid state light emitting devices. | 05-03-2012 |
20120113639 | LIGHT EMITTING DIODE DEVICE WITH EFFECTIVE HEAT DISSIPATION - The present disclosure relates to light emitting diode (LED) devices and methods for fabricating the same. An LED device includes a housing adapted to combine a heat sink with a vapor chamber to form an enclosed space interposed therebetween. The LED device includes light emitting diode modules attached to the housing adjacent to the vapor chamber. The vapor chamber is adapted to uniformly disperse heat generated from the LED modules within the enclosed space to form a uniform temperature field on the heat sink to thereby provide effective heat dissipation. | 05-10-2012 |
20120113640 | MULTI-CONFIGURABLE, HIGH LUMINOUS OUTPUT LIGHT FIXTURE SYSTEMS, DEVICES AND METHODS - Multi-configurable, high luminous output light fixture systems, devices, and methods are disclosed. Light fixtures can be configured to produce variable light emission outputs and patterns and can include LED packages wherein at least one can be movable with respect to another of the LED packages. In addition, a power supply can selectively dim or turn off at least one of the LED packages. The light fixtures disclosed herein can be used in both high bay and low bay light fixtures. | 05-10-2012 |
20120113641 | LIGHT MODULES CONNECTABLE USING HEAT PIPES - An illumination apparatus includes one or more solid state light emitting sources and a radiator thermally coupled to the one or more light emitting light sources, wherein the radiator is configured to be connectable to a second apparatus. The second apparatus may be a second solid state light emitting source or a second radiator. | 05-10-2012 |
20120113642 | RECESSED CAN DOWNLIGHT RETROFIT ILLUMINATION DEVICE - In various embodiments, an illumination device includes driver and LED lighting modules collectively sized to fit within a recessed-can lighting fixture constructed for use with incandescent or halogen bulbs, thereby facilitating LED changeover without removal and replacement of the fixture. | 05-10-2012 |
20120113643 | LED LAMP - An LED lamp includes a lamp body and a lamp cover. The lamp body includes a bottom plate, two side plates extending upwardly from the bottom plate and two end covers set at two opposite ends of the lamp body. The bottom plate, the side plates and the end cover together form a receiving space for receiving light sources. A pair of slots is defined in the two side plates respectively and the lamp cover is inserted into the slots. A baffle plate is set at one end of the lamp body and forms a pivotal connection with the lamp body for preventing the lamp cover from slipping out of the slot. The baffle plate is movable between a first position to engage with the lamp cover and a second position to expose the lamp cover. | 05-10-2012 |
20120113644 | PRINTED CIRCUIT BOARD FOR PROVIDING AMBIENT LIGHT - An oblong sized printed circuit board ( | 05-10-2012 |
20120120658 | LED lamp - LED lighting fixtures are provided, particularly “down” or recessed lighting fixtures and street lamp fixtures. A fan and a heat sink are provided with each fixture and the LED array is attached directly to the heat sink. The fans used preferably are computer cooling fans which are particularly small, efficient and inexpensive. The low-volume exhaust from the fans is released directly into the air space or housing in which the lamps are mounted without the need for special ducting. | 05-17-2012 |
20120120659 | BOARD ASSEMBLIES, LIGHT EMITTING DEVICE ASSEMBLIES, AND METHODS OF MAKING THE SAME - Board assemblies, light emitting device assemblies and related methods are provided. An assembly can include a board comprising a face surface, a rear surface opposite the face surface and side edges around a periphery of the board. The assembly can also include a heat sink for dissipating heat from the board. The assembly can also include a retainer configured to secure the board to the heat sink. One or more light-emitting diode packages can be secured to the board for creating a light-emitting device assembly. | 05-17-2012 |
20120120660 | Light Diode with Cooling Body - A light diode with a lighting body and connecting wires for operating a light diode are disclosed. The lighting body is connected with a separate cooling body associated to the light diode, wherein the light diode is maintained on the circuit board y means of a clamping mechanism | 05-17-2012 |
20120127719 | CONTROL NETWORK FOR LED-BASED LIGHTING SYSTEM IN A TRANSIT VEHICLE - A transit vehicle lighting system has a plurality of LED-based lighting fixtures for providing interior illumination. A control network comprises a plurality of slave nodes for controlling the LED-based lighting fixtures, and a master node for controlling the slave nodes. The master node may be connected to the slave nodes by a combined power/communication bus in a daisy chain fashion. The slave node may include a power regulator and a controller for providing a target current command to the power regulator, and may adjust the target current based upon temperature measurements or a recorded age of the LEDs. An optical sensor may provide automatic dimming. A reduced number of LEDs may be used in an emergency mode. The lighting fixture may include a ceiling panel fixture and a riser panel attachable by way of a hinge mechanism. | 05-24-2012 |
20120127720 | LIGHT EMITTING DEVICES AND METHODS - Light emitting devices and methods such as light emitting diodes (LEDs) are disclosed for use in higher voltage applications. Variable arrangements of LEDs are disclosed herein. Arrangements can include one or more LED chips connected in series, parallel, and/or a combination thereof. LED chips can be disposed in a package body having at least one thermal element and one or more electrical components. | 05-24-2012 |
20120127721 | LED MODULE AND PACKING METHOD OF THE SAME - A LED module and a packing method of the same include plural boards defined with a positive line and a negative line. The positive line connects to at least one positive joint, and the negative line connects to at least one negative joint. Some LEDs are respectively disposed on each board, and conducting ends of the LEDs are separately connected to the positive line and the negative line. A number of electronic elements are individually installed on each board, and conducting ends of the electronic elements are separately connected to the positive line and the negative line disposed on the board. A positive guiding line connects to the positive joint of each board, and a negative guiding line connects to the negative joint of each board. The LED module achieved in accordance with above-mentioned construction contributes to the flexibility. | 05-24-2012 |
20120134154 | Configuration of Multiple LED Module - A configuration of multiple LED modules having a plurality of LED modules that each contain a carrier that has a first main area, a second main area and at least one semiconductor layer. The first main area has a planar configuration. The LED modules also include a plurality of LED semiconductor bodies that applied on the first main area of the carrier. In addition, the multiple LED modules include a common heat sink, where the carrier of the LED modules in each case are connected to the common heat sink on the second main area. | 05-31-2012 |
20120140471 | LED LAMP - An LED Lamp is disclosed. The LED lamp comprises a hollow housing having a receiving space inside the hollow housing, the hollow housing further comprising a plurality of slots on a circumferential surface of the hollow housing; an LED module configured to fit inside the receiving space of the hollow housing; and a lamp cover configured to be securely fitted inside the hollow housing and provide coverage to the LED module. | 06-07-2012 |
20120140472 | Calibration Light Source - The invention relates to a calibration radiation source comprising the following: a housing ( | 06-07-2012 |
20120155085 | LED MODULE ASSEMBLING STRUCTURE - An LED module assembling structure includes an LED module, at least one connection seat and a conductive connection member. The LED module includes a circuit board and at least one light-emitting diode. The connection seat is soldered on the circuit board. The connection seat has two sidewalls defining a holding trough having an opening. The sidewalls are respectively formed with two corresponding recesses and two corresponding latch protrusion sections protruding from the sidewalls into the holding trough. The latch protrusion sections are positioned above the recesses near the opening. The conductive connection member is a bar-shaped conductor. At least one end of the conductive connection member is inserted in the holding trough of the connection seat and fixedly held between the recesses in the holding trough. Accordingly, multiple LED modules can be assembled and electrically connected with each other via the conductive connection member and the connection seats. | 06-21-2012 |
20120155086 | LED MODULE FOR LIGHTING - An object of the present invention is to provide a LED module, capable of protecting LED chips from an excessive voltage, at low cost. | 06-21-2012 |
20120162987 | LIGHT EMITTING DIODE LAMP - A light emitting diode lamp includes a lamp base defining a plurality of openings, at least one power module, and a number of illumination modules. Each illumination module includes a number of illumination units. Two opposite terminals of each illumination unit are secured to the lamp base near two opposite edges of a corresponding opening. The illumination units are in the openings and apart from each other. Each illumination unit includes a heat dissipating assembly, at least one lighting assembly, and two connection units connected to two opposite terminals of the heat dissipating assembly. The power module supplies electrical power to at least one illumination module, and controls a power supply through at least one of the two connection units to electrically connect the at least one lighting assembly. | 06-28-2012 |
20120162988 | CERAMIC ILLUMINATION DEVICE - The present invention provides an illumination device ( | 06-28-2012 |
20120162989 | LIGHTING DEVICE - A lighting device | 06-28-2012 |
20120170270 | LIGHTING DEVICE - A lighting device comprises at least a light source ( | 07-05-2012 |
20120170271 | LED SCREEN, PARTICULARLY FOR OUTDOOR ENVIRONMENTS - An LED screen, particularly for outdoor environments, comprising a main structure containing a printed circuit which defines a plurality of LEDs that protrude from a front opening defined by the main structure, the LED screen comprising an element for the outer covering of the printed circuit which defines a plurality of holes for the insertion of the LEDs and which can be fixed, by way of fixing means, to a perforated plate that can be fixed to the main structure at the lower base of the LEDs. | 07-05-2012 |
20120170272 | LIGHT SOURCE PACKAGE - A light source package includes a metal base adapted for engaging a suitable electrical socket; a transparent housing assembled with the base so as to form together with the base an accommodating space; and a light-emitting unit mounted within the accommodating space. The light-emitting unit has an LED die, and the LED die is operatively disposed in the accommodating space such that the light emitted from all of the six surfaces of the LED die is completely collected for illumination. | 07-05-2012 |
20120176795 | LED-BASED LUMINAIRE - An LED-based luminaire includes a driver configured to convert line voltage into a desired power configuration. Elongate fasteners attach one or more LED-based lighting modules to a mount member and also to energized poles of the power driver. The fasteners communicate electrical energy from the power driver to the lighting module. In one embodiment, the mount member functions as a heat sink, and it includes a bumpy surface coating having a texture with sufficient feature heights to enhance heat transfer between the heat sink and the surrounding environment. | 07-12-2012 |
20120176796 | Cooling Member for Semiconductor Light Emitting Elements - A cooling member ( | 07-12-2012 |
20120182736 | LIGHTING DEVICE - A lighting device includes a light source module and a housing mated to a heat sink and covered by a cover. The housing has a first shell portion encircled by an inner sidewall of the heat sink. Alternatively, the housing may further has a second shell portion arranged between the first shell portion and the inner sidewall of the heat sink. The respective ends of the first and second shell portions are covered by a first plate portion and a connecting portion. A cavity is defined by the first shell portion and the first plate portion for accommodating the light source module. A plurality of first thru-holes, second thru holes, third thru holes, fourth thru-holes, and fifth thru holes are formed on the circuit board, the connecting portion, the cover, the first shell portion, and the first plate portion, respectively. | 07-19-2012 |
20120182737 | LED LIGHT ENGINE/HEAT SINK ASSEMBLY - According to a first embodiment, a light emitting diode (LED) light engine is described. The light emitting diode includes one or more LED devices disposed on a front side of an LED light engine substrate. A heat sink having a mating receptacle for the LED light engine is also provided. The LED light engine substrate and the mating receptacle of the heat sink define a tapered fitting by which the LED light engine is retained in the mating receptacle of the heat sink. | 07-19-2012 |
20120182738 | LIGHT EMITTING DEVICE - A light emitting device includes a light emitting structure divided into a plurality of light emitting cells and a boundary region, the light emitting cells including a first conductive type semiconductor layer, an active layer and a second conductive type semiconductor layer, respectively; a first electrode disposed on each of the light emitting cells; first conductive layers disposed under the light emitting cells; at least one second conductive layer disposed under the first conductive layers; a first insulation layer disposed between each of the first conductive layers, and between the first conductive layers and the at least one second conductive layer; and a connecting electrode connecting the first electrode on one light emitting cell with the at least one second conductive layer under another light emitting cell. The at least one second conductive layer is connected with one of the first conductive layers through the first insulation layer. | 07-19-2012 |
20120188766 | LED LAMP - The LED lamp includes a heat dissipating base, an LED module, a hood and a sealant. The heat dissipating base has a mount board including a first surface and a second surface. The first and second surfaces are provided with an annular trough and fins, respectively. The LED module is fixed on the mount board and surrounded by the annular trough. The hood is formed with a flange which is embedded into the annular trough to cloak the LED module. The sealant is filled in the annular trough to seal up. | 07-26-2012 |
20120195041 | METHOD AND APPARATUS FOR A LIGHTING MODULE - A light source module that includes a light source and a housing, the housing having a top portion for receiving the light source and an upper portion extending from the top portion to form a recess. A first sealing material provided inside the recess to form a seal that at least partially encapsulates the light source. | 08-02-2012 |
20120195042 | NON-GLARE REFLECTIVE LED LIGHTING APPARATUS WITH HEAT SINK MOUNTING - A lighting apparatus contains a main housing; a reflector disposed within the main housing, and having a front side and a rear side; a heat conducting body comprising at least two heat pipes, wherein a first portion of the at least two heat pipes are parallel to a central axis of the lighting apparatus on the front side of the reflector, and a second portion of each of the at least two heat pipes is in the rear side of the reflector and is thermally coupled to the main housing; a heat conducting head located on the front side of the reflector, and is thermally coupled to the heat conducting body; at least two light-emitting diodes. (“LEDs”) thermally coupled to the heat conducting body, and being positioned to face the front side of the reflector so that light emitted from the LEDs are directed to said front side. | 08-02-2012 |
20120195043 | LIGHTING DEVICE - There is provided a lighting device excellent in mass productivity and capable of significantly reducing a production cost and allowing easy provision of a light-weight and large-size lighting device as well as improving a degree of freedom in choosing materials and exhibiting an adequate heat dissipation effect. A heat dissipation portion is obtained by press-working a metal plate. For example, the heat dissipation portion is configured by press-deforming the metal plate into a substantially dome-like shape having a vertically extending peak portion and a vertically extending valley portion that are peripherally and consecutively formed, by repeatedly bending the metal plate along a circumferential direction into a wave shape and concurrently warping the metal plate in an axial direction such that the outer peripheral side of the metal plate is positioned closer to the tip in the axial direction than the central side thereof. | 08-02-2012 |
20120201027 | EXPANDABLE LIQUID VOLUME IN AN LED BULB - An LED bulb includes a base, a shell connected to the base, an LED mount disposed within the shell, one or more LEDs, a thermally conductive liquid, and a liquid-volume compensator mechanism. The one or more LEDs are mounted on the LED mount. The thermally conductive liquid is held within the shell. The liquid-volume compensator mechanism moves from a first position to a second position to compensate for expansion of the thermally conductive liquid. | 08-09-2012 |
20120201028 | ILLUMINATION DEVICE WITH SEMICONDUCTOR LIGHT-EMITTING ELEMENTS - An illumination device includes a base board, an insulator, a conductor, a plurality of semiconductor light-emitting elements and a light-transmissive sealing member. The base board includes a surface and projection portions. The projection portion is formed to become gradually thicker from its end toward the surface of the base board. The insulator is formed on the surface. The conductor is formed on the insulator. The semiconductor light-emitting elements are mounted on the projection portions. The semiconductor light-emitting elements are electrically connected to the conductor via connection members. The sealing member covers the insulator, the projection portions, the semiconductor light-emitting elements and the connection members. | 08-09-2012 |
20120201029 | SUBSURFACE ORGANIC LIGHT EMITTING DIODE DISPLAY - A display for an ice rink, comprising a first layer of ice within a peripheral boundary of the ice rink. An array of hermetically sealed, multiple individual organic light emitting diodes are positioned within the peripheral boundary on top of the first layer of ice. A second layer of ice on top of the array has an internal side facing the array and an external surface on a side opposite the internal side. A power source operatively connected to the array provides power to the individual organic light emitting diodes in the array. The multiple individual organic light emitting diodes are selectively controllable such that graphic images can be displayed by using specific organic light emitting diodes selected from among the individual organic light emitting diodes in the array and the graphic images will be visible through the external surface of the second layer of ice. | 08-09-2012 |
20120206918 | LED LIGHTING APPARATUS HAVING BLOCK ASSEMBLING STRUCTURE - Provided is a light-emitting diode (LED) lighting device having a block assembly structure. The LED lighting device includes: a housing body whose bottom is open in which a number of assembly holes are respectively formed on assembly planes that are formed on a lateral surface of the housing body; a number of light source blocks including a number of LED modules, angle control portions each of which has a multistage slope plane on which each LED module is mounted, and a number of radiating fins that are provided at the rear surface of the multistage slope plane, in which the respective light source blocks are disposed and combined in the respective assembly holes of the housing body so as to realize a predetermined light distribution type; and a protective cover that covers the lower portion of the housing body. | 08-16-2012 |
20120212960 | COOLING SOLID STATE HIGH-BRIGHTNESS WHITE-LIGHT ILLUMINATION SOURCES - In one general aspect, an illumination source is disclosed that comprises a housing, which can be made of a non-conducting material, and includes a cooling air intake port and a cooling air exhaust port. A circuit board is supported with respect to the housing and includes at least one insulating layer, and at least a first, electrically conductive layer on a first side of the insulating layer, with the first layer defining a plurality of pads and a plurality of traces interconnecting at least some of the pads. A socket is supported with respect to the housing and has a pair of connector surfaces for receiving power, and has an axis of insertion. A plurality of LED chips are each electrically connected to a plurality of the pads and each have an axis of illumination that is at least generally aligned with the axis of insertion. A fan is positioned between the socket and the circuit board and has an air flow delivery sufficient to provide for the majority of the cooling of the LED chips to within a predetermined operating temperature to take place through surfaces of the board. Baffles can redirect the cooling air flow. | 08-23-2012 |
20120218760 | LED UNIT AND ILLUMINATION APPARATUS USING SAME - An LED unit includes a plate-shaped base; a light-emitting device placed on a surface of the base and having one or more LED chips; and a cover mounted to the base at a location above a front side of the light-emitting device and having a function to transmit light emitted from the light-emitting device. The base has on the surface thereof an annular groove for receiving a seal therein, and the cover has on a surface thereof directed to the base an annular protruding part, the annular protruding part being inserted into the annular groove to seal the base and the cover through the seal. A distance between the protruding part and the groove in a width direction of the groove is shorter in a section of the groove than the other sections of the groove. | 08-30-2012 |
20120224374 | LIGHT EMITTING DIODE LIGHT BULB AND INCANDESCENT LAMP CONVERSION APPARATUS - Apparatus and methods separate the functions of light emission, heat dissipation, and power conversion in LED lighting. Doing so may facilitate cost-effective LED lighting and enable the conversion of existing incandescent lamps to LED service. An LED light bulb includes a thermal path from LED dies to a thermal transfer contact having an externally available surface. The LED light bulb and an incandescent lamp adapter are consumer-installable in an incandescent lamp. A heat spreader component of the lamp adapter contacts the thermal transfer contact of the LED light bulb to dissipate heat originating at the LED dies. A lamp adaptable LED power supply plugs into a standard AC power outlet and includes a receptacle to accept insertion of a lamp cord plug to deliver power to the LED light bulb. A lock-in safety device prevents retraction of the lamp cord plug from the LED power supply once inserted. | 09-06-2012 |
20120224375 | LIGHT MODULE - An illumination module is provided that can be inserted into a receptacle that includes a wall and may be mounted on a support surface, such as a heat sink, and the illumination module include a cover and an LED assembly rotateably coupled to the cover. The LED assembly seats within the receptacle which causes terminals of the LED assembly to align with contacts on the receptacle. One of the cover and the receptacle can have a plurality of ramps and the other a plurality of shoulders. The cover can be rotated relative to the receptacle to cause the shoulders to slide relative to the ramps so as to direct the LED assembly into the receptacle. When the LED assembly is attached to the receptacle, the terminals on the LED assembly mate with the contacts on the receptacle. | 09-06-2012 |
20120236562 | LED Daylight Lamp Tube - The invention discloses an LED daylight lamp tube, comprising a tube body and caps fixedly connected to two ends of the tube body, wherein the tube body comprises: an axial bar-shaped radiator, a radiating face of which is fan-shaped and a heat conducting face of which is provided with at least two axial bar-shaped slots forming included angle; an illuminant, which comprises PCB aluminum substrates corresponding in amount to the bar-shaped slots of the radiator, wherein the front face of each of the PCB aluminum substrates is equipped with a plurality of LED illuminants and the PCB aluminum substrates are clamped in the bar-shaped slots of the radiator; a bar-shaped heat conducting gasket, which is adhered to the back face of the PCB aluminum substrate in a fitting manner and clamped between the PCB aluminum substrate and a heat conducting face of the bar-shaped slot; and a circular arc lampshade, which is in clamped connection with two sides of the radiator and forms the cylindrical tube body with the radiator together. According to the LED daylight lamp tube of the invention, the PCB aluminum substrates of the LED illuminants are installed on the fan-shaped radiator at an included angle of 210 degrees, and wide-angle illumination of the LED daylight lamp tube is realized through the two movable caps arranged at two ends of the tube, in addition, the LED daylight lamp tube has better radiating effect and longer service life. | 09-20-2012 |
20120236563 | Lighting Device and Attachment Element for Fixing to the Lighting Device - A lighting device, having at least one light outlet opening and at least two different fixing interfaces for the optional fixing of a respective attachment element optically upstream of the at least one light outlet opening. | 09-20-2012 |
20120243228 | LED SPHERICAL LIGHT FIXTURES WITH ENHANCED HEAT DISSIPATION - A deep submersible light fixture includes a substantially spherical exterior housing made of metal. The housing has a hollow interior and a first aperture extending through a front side of the housing. The first aperture communicates with the hollow interior of the housing. At least one LED is mounted inside the first aperture adjacent to the hollow interior of the housing. A transparent window extends across the first aperture. A seal is situated between a periphery of the window and the housing adjacent the first aperture for providing resistance to the entry of water into the hollow interior of the housing. An electrical connector extends through a second aperture in a rear side of the housing. | 09-27-2012 |
20120243229 | LIGHTING DEVICE - A lighting device includes a lighting unit, a base, a lighting trim, a connecting unit, at least one pull rope, and a plurality of resilient latching members and linking members. The base and the lighting trim are disposed on respective ends of the lighting unit. The base has a receiving hole formed thereon. At least one hole is formed on a flange portion of the lighting trim and is corresponding to the at least one pull rope. The connecting unit is received by the receiving hole and connected between one end of the pull rope and the resilient latching members. The other end of the pull rope is passed through the hole. The resilient latching members are disposed around the base and corresponding to the respective linking members. | 09-27-2012 |
20120243230 | HEAT TRANSFER ASSEMBLY FOR LED-BASED LIGHT BULB OR LAMP DEVICE - A LED-based light bulb or lamp device including a bulb body, an LED assembly, an LED heatsink, and a power conversion heatsink. The LED assembly includes a plurality of LEDs and circuitry. The circuitry includes power converting components adapted to modify applied power for powering the LEDs via conductive wiring. The LED heatsink is mounted to the bulb body in close proximity to at least one of the LEDs. The power conversion heatsink is provided apart from the LED heatsink and is mounted to the bulb body in close proximity to at least one of the power converting components. The LED heatsink dissipates heat from at least some of the light emitting diode lights whereas the separate power conversion heatsink dissipates heat from the power converting circuitry components, thereby separating the heat-generating components and their mounting zones, heat paths and heatsink surface areas. | 09-27-2012 |
20120243231 | EFFICIENT ILLUMINATION SYSTEM FOR LEGACY STREET LIGHTING SYSTEMS - An LED lamp for outdoor and large space lighting, particularly for streets, warehouses car parks and the like, is adapted for fitting into legacy light fittings designed for sodium bulbs and the like. The LED lamp comprises a plurality of light emitting diodes arranged over a surface of the lamp, is rotatably connected through a rotatable electrical connection to a screw-in adaptor for insertion into a legacy screw-in socket, such that the screw in adaptor is rotatable independently of the lamp, so that the legacy screw in socket can be used even though the light fitting is too small to allow rotation of the LED lamp. Additional embodiments provide for cooling airflow through the light fitting, for temperature control of the LEDs, and for failure protection, to ensure a longest possible lamp lifetime. | 09-27-2012 |
20120243232 | Lighting module - A lighting module may include a printed-circuit board which via its rear side is positioned on a cooling body and on its front side is fitted with at least one light source, and at least one electronic component; a cover for at least a partial region of the printed-circuit board, with the cover being seated upon the printed-circuit board; wherein the lighting module has at least one elastic fastening element which is secured to the cooling body and positioned against the cover. | 09-27-2012 |
20120250322 | PARTIALLY RECESSED LUMINAIRE - A luminaire includes a fixture, a light engine, and a heat flange. The fixture is configured to be received in a recess of a support surface and defines a cavity having a radius R. The light engine is disposed within the cavity and includes at least one light source. The heat flange is disposed about a distal end region of the fixture and includes a hollow, generally conical frustum shape extending radially outwardly from the fixture and extending away from the distal end region of the fixture. A distal-most end of the heat flange is configured to be disposed a distance D from the support surface when the fixture is received in the recess, the distance D being greater than or equal to 0.4R. Thermal energy is conductively transferred from the light engine, through the fixture, to the heat flange where the thermal energy is convectively transferred from the heat flange to surrounding air to create air currents flowing along the support surface thereby reducing the junction temperature. | 10-04-2012 |
20120250323 | ASSEMBLY OF LIGHT EMITTING DIODES - A light emitting diode (LED) array including an assembly of LED packages is provided. The LED packages are mounted to a face of a substructure including a circuit board and a heat transfer plate. Each LED package includes electrical connection terminals and a thermal connection pad, the electrical connection terminals are electrically connected to respective circuit conductors of the circuit board, the thermal pads are connected to the heat transfer plate by respective thermally conductive connections, and at least one of the LED packages is tilted at an angle relative to an adjacent portion of the face of the substructure. | 10-04-2012 |
20120250324 | LAMP DEVICE AND LUMINAIRE - According to one embodiment, a lamp device includes a main body, a light-emitting module, a lighting device and a support member. The main body includes an opening and a heat radiating part provided at an opposite side of the opening. The support member is thermally coupled to the light-emitting module and the heat radiating part. The support member holds the light-emitting module in the main body to cause the light-emitting module to be positioned in a direction closer to the opening than the lighting device. | 10-04-2012 |
20120250325 | LIGHTING APPARATUS - A lighting apparatus includes: a bulb; a heat sink unit disposed in an inner space of the bulb, and including an end wall portion and a sleeve portion; a light-emitting unit disposed on the heat sink unit and including a first circuit board disposed on the end wall portion, a second circuit board disposed around the sleeve portion, and a plurality of light-emitting elements; a heat insulating unit disposed at at least one of a position between the end wall portion and the first circuit board, and a position between the sleeve portion and the second circuit board; an annular seat coupled to the bulb; and an electrical connector coupled to the annular seat. | 10-04-2012 |
20120257389 | HEAT-DISSIPATING MODULE AND LAMP HAVING THE SAME - A heat-dissipating module includes a base plate and a plurality of fins. The base plate is made of sheet metal. The fins are formed by bending upwardly from the periphery of the base plate. Each of the fins has at least two bending sections. The region among the bending sections and the base plate is hollowed to form a plurality of airflow channels. By this structure, the airflow below the base plate can pass through the airflow channels to heat-exchange with the fins, thereby increasing the heat-dissipating effect. The present invention also relates to a lamp having the heat-dissipating module. | 10-11-2012 |
20120257390 | LIGHT CURING DEVICE AND METHOD OF USE THEREOF - A light curing device is provided including a housing having a light source provided therein or associated therewith and cooling means to dissipate heat associated with or generated by the light source in use. The cooling means includes one or more heat pipes and/or vapour cooling means. | 10-11-2012 |
20120262921 | LOW PROFILE LIGHT AND ACCESSORY KIT FOR THE SAME - A luminaire includes a heat spreader; a heat sink; an LED light source; a power supply; an electrical supply line having a first end connected to the power supply, and a second end connected to a plug-in connector; and, an optic securely retained relative to the heat spreader or heat sink. An accessory kit includes a first pre-wired jumper including a pair of insulated electrical wires having a first plug-in connector electrically connected at one end and an Edison base electrically connected at the other end; and/or, a second pre-wired jumper including a pair of insulated electrical wires having a second plug-in connector electrically connected at one end and unconnected wire ends at the other end. The plug-in connector of the first pre-wired jumper and the second pre-wired jumper are each configured to electrically engage with the plug-in connector of the electrical supply line. | 10-18-2012 |
20120268935 | LIGHT-EMITTING DIODE LIGHTING DEVICE - A light-emitting diode (LED) lighting device includes a base, which has an end forming a head portion and an opposite end forming a lighting body. The lighting body includes a support plate having an end coupled to the base and supporting multiple thermal conduction bars. Each thermal conduction bar carries one or more lighting assemblies. The lighting assembly includes a bracket and a light source unit. The light source unit is set to project light of uniform brightness in a given direction. The grating like three-dimensional lighting device features light weight and excellent air ventilation and heat dissipation and allows an LED lighting device to be adopted in an existing fixture. | 10-25-2012 |
20120268936 | HEAT SINK STRUCTURES, LIGHTING ELEMENTS AND LAMPS INCORPORATING SAME, AND METHODS OF MAKING SAME - In some embodiments, a lighting element comprising at least first and second solid state light emitters, a first heat sink structure with a fold region between first and second heat sink regions, and at least one light emitter on each of the heat sink regions, and methods of making. In some embodiments, a lighting element, comprising plural heat sink regions on respective regions of a flexible circuit board, and plural light emitters on respective regions of the flexible circuit board, and methods of making. In some embodiments, heat sink structures comprising plural heat sink regions and a circuit board with plural regions, and lighting elements comprising them. In some embodiments, a heat sink structure, comprising plural heat sink regions and an internal flow guide structure, and lighting elements comprising same. Also, other lighting elements, lamps and heat sink structures. | 10-25-2012 |
20120268937 | HEAT DISSIPATION UNIT FOR LED BULB - A heat dissipation unit for LED bulb includes a base seat formed with a receiving cavity and a base section, a first heat dissipation member having multiple heat dissipation sections and a perforation, a second heat dissipation member and a retainer member. The heat dissipation sections of the first heat dissipation section are arranged around the perforation. Each heat dissipation section has a first side attached to the base section and a second side. A first through hole is formed in the receiving cavity in communication with the receiving cavity and the perforation. The second heat dissipation member is formed with a second through hole and a spreading section attached to the second side of the heat dissipation section. The retainer member is fitted in the first and second through holes and the perforation to integrally connect the base seat with the first and second heat dissipation members. | 10-25-2012 |
20120275153 | FLAT PANEL LIGHT - A light for attachment to mining equipment. The light comprises a base, a plurality of PC boards coupled to the base, each of the plurality of PC boards including spaced apart LEDs, a heat sink in thermodynamic communication with the plurality of PC boards, a clear potting material encasing the plurality of PC boards, and a clear cover sealingly attached to the base and overlying the plurality of PC boards, the heat sink, and the potting material. | 11-01-2012 |
20120275154 | Dual sided linear light emitting device - In one embodiment, a light emitting device comprises two linear arrays of light emitting diodes positioned on opposite sides of a linear heat conducting member. In one embodiment, a light emitting device comprises a heat conducting member linear in a first linear direction with a first surface and a second surface opposite the first surface; a first linear array of light emitting diodes thermally coupled to the first surface; a second linear array of light emitting diodes thermally coupled to the second surface; a first light transmitting cover positioned to receive and transmit light from the first linear array of light emitting diodes; and a second light transmitting cover positioned to receive and transmit light from the second linear array of light emitting diodes. In another embodiment, a method of manufacturing a light emitting device comprises snapping or sliding extensions of the light transmitting covers into the grooves. | 11-01-2012 |
20120275155 | STREET LAMP - The street lamp comprises: a heat radiating body comprising top surface, a bottom surface and a plurality of heat radiating fins being formed on the top surface; an LED module comprising a substrate disposed on the bottom surface of the heat radiating body and a plurality of LEDs disposed on one side of the substrate; and a heat radiating body cover disposed on the top surface of the heat radiating body, wherein the heat radiating body cover comprises a plurality of heat radiating openings corresponding to the plurality of the heat radiating fins, and wherein the heat radiating body cover is disposed at positions higher or lower than positions of peaks of the plurality of the heat radiating fins. | 11-01-2012 |
20120275156 | HEAT DISSIPATION DEVICE FOR LED LAMP - The heat dissipation device for a LED lamp contains an upper piece, at least a lower piece, and a number of heat dissipation elements. The upper piece has a number of first, second, and third plug holes. The second plug holes are aligned with some first plug holes, and they are connected by conductive layers. The other first plug holes are connected by separate conductive layers. The third plug holes are configured on individual conductive layers. A number of LEDs have their leads threaded through the first plug holes, respectively. The heat dissipation elements have their two ends threaded through a second plug hole and a third plug hole, respectively. The leads and the heat dissipation elements are then soldered to their respective conductive layers. A number of tubular sleeves are sandwiched between the upper and lower pieces and the leads of the LEDs are threaded through the tubular sleeves. | 11-01-2012 |
20120281409 | Lighting Fixture with Flow-Through Cooling - A lighting fixture including a housing having an inner surface and open first and second ends formed by closed-perimeter first and second edges, respectively, and defining an elongate top-to-bottom open space. The first end forms a light opening. A light-emitting arrangement is positioned in the open space. The arrangement includes (a) at least one light emitter positioned for directing light toward the light opening and (b) a heat sink connected to the light emitter(s). The heat sink preferably has a plurality of heat-dissipation surfaces extending away from the light opening. The heat sink is configured and positioned in the open space to facilitate fluid-flow therealong and through the open space. | 11-08-2012 |
20120281410 | Illuminating Device and Structure with Illuminating Device - An illuminating device includes an illuminator with an illuminating mechanism. The illuminating mechanism includes several LEDs. The illuminating device is reversibly fixed by at least one holding device. The holding device includes a guiding device and a wing shaped unit. The wing shaped unit can be fixed and turned on the guiding device and can be guided along the guiding device. The holding device includes an unfolding mechanism. The wing shaped unit is oriented transverse to the guiding device by arranging the unfolding mechanism. The wing shaped unit is completely unfolded at a light emitting side. When the wing shaped unit is guided away from the light emitting side, the wing shaped unit is reversibly folded via a physical contact with a folding mechanism. The span of the light emitting side is greater than the span with the wing shaped unit being folded. | 11-08-2012 |
20120281411 | LIGHTING DEVICE AND MANUFACTURING METHOD THEREOF - A lighting device which can illuminate a large range with a simple configuration, and in which the LEDs or the mounting portions thereof are not likely to be damaged even when vibrations occur as a light source device which uses an LED as a light source, and a manufacturing method thereof are provided. The present invention includes a deformable flexible circuit board having an insulating film made of thermoplastic resin, a wiring layer formed on the insulating film, and an insulating layer formed on the wiring layer and made of thermoplastic resin, and in which a bent portion with a curvature radius “R” (mm) is formed at at least one position, and a plurality of LEDs mounted on the flexible circuit board. | 11-08-2012 |
20120281412 | LIGHTING DEVICE COMPRISING A PLURALITY OF LIGHT EMITTING TILES - The invention relates to alighting device comprising a plurality of light emitting tiles. Each light emitting tile has at least one interface, which is adapted for signal transmission. By adding a connection element in between two neighboring interfaces of two neighboring light emitting tiles, the two light emitting tiles are connected in a daisy chain bus system. The daisy chain bus system is adapted for transmitting signals, the signals being indicative of power and/or colour of each light emitting tile. | 11-08-2012 |
20120287636 | Light emitting diode lamp capability of increasing angle of illumination - A light emitting diode lamp capability of increasing angle of illumination includes a heat sink base, a polygonal solid LED illumination module and transparent cover. The heat sink base is formed with an LED illumination module. mounted region. The polygonal solid LED illumination module is located on the LED illumination module mounted region of the heat sink base, the polygonal solid LED illumination module has a solid print circuit board and a plurality or LED units the solid print circuit board are formed with a central top plane and at least three lateral plane sets, which are bended from the central top plane, the central top plane of the solid print circuit board is mounted on the LED illumination mounted region of the heat sink base, the LED units arc arranged on the central top plane and the lateral plane sets individually. The transparent cover is mounted at the heat sink base for cover the polygonal solid LED illumination module. | 11-15-2012 |
20120287637 | Thermal Management of LED-Based Illumination Devices With Synthetic Jet Ejectors - An illumination device (b | 11-15-2012 |
20120294007 | LIGHTING DEVICE AND LIGHTING INSTRUMENT - A lighting device includes a plurality of LED light sources, an LED substrate mounted with the LED light sources, and at least one protector element mounted on the LED substrate to protect the LED light sources. The LED light sources are divided into a plurality of LED light source groups. The protector element is arranged in at least one of the LED light source groups while being electrically connected to the LED light sources of each of the LED light source groups. | 11-22-2012 |
20120294008 | VERSATILE LIGHTING UNITS - Systems and methods which provide a versatile lighting module which may be utilized alone or in combination with other lighting modules to provide any number of lighting unit configurations are shown. Lighting modules of embodiments herein are adapted to facilitate electrical connection, whether to one or more power supply and/or to one or more other lighting module, along any portion of the entire periphery of the lighting module. Accordingly, lighting modules may be coupled together in any orientation, geometry, and topology to cooperate as a light source having various desired characteristics according to embodiments herein. | 11-22-2012 |
20120300459 | Systems, components, and methods for electronic candles with moving flames - An electronic candle ( | 11-29-2012 |
20120300460 | CONNECTOR AND LED LAMP HAVING THE SAME - An exemplary LED lamp includes a lamp base, an illumination unit and two connectors. The lamp base includes a main body and an extending portion extending from the main body. An opening is defined in the main body. The illumination unit with LED elements is received in the opening of the main body. The connectors respectively engage with opposite ends of the illumination unit and the main body to fix the illumination unit on the lamp base. Each connector includes a socket and an adjuster. The socket electrically connects the illumination unit. The adjuster includes a stator embed in the main body, and a rotator engaging with the stator and rotatable relative to the stator. The rotator surrounds an end of the socket and rotates with the socket to change an illumination angle of the illumination unit. | 11-29-2012 |
20120300461 | CUTTABLE ILLUMINATED PANEL - An illumination apparatus is provided having a panel including a plurality of circuit units on a dielectric surface. The circuit units include electrically conductive traces and at least one light emitting diode (LED). At least some of the circuit units have contacts for supplying power to the LED. The circuit units are preferably electrically interconnected so that power provided to one circuit unit also supplied power to at least a group of the circuit units. The apparatus with the circuit units may be cut or shaped to a predetermined or desired shape. Also provided are methods of manufacturing, assembling, and using the illumination apparatus. | 11-29-2012 |
20120300462 | CIRCUIT BOARD SUPPORT STRUCTURE HAVING FIXED CIRCUIT BOARD CONNECTION DEVICE - Disclosed herein is a circuit board support structure ( | 11-29-2012 |
20120307498 | LIGHT BULB WITH THERMALLY CONDUCTIVE GLASS GLOBE - An LED lighting device comprises: a base having a socket connector; a housing comprising a primary heat sink, the housing being coupled to the base and having an upper annular rim; a plate having a periphery, at least the periphery of the plate being thermally coupled to the upper annular rim of the housing; at least one LED lighting source, the at least one LED lighting source being thermally coupled to the plate; a globe having a body comprising an outer surface with a light transmittable surface configured to transmit light from the LED lighting source to outside the lighting device; and a secondary heat sink thermally coupled to the plate and the housing, and comprising heat conductors arranged to take the shape of the globe. The housing, plate and secondary heat sink cooperate to conduct heat from the at least one LED lighting source to the surrounding environment. | 12-06-2012 |
20120314414 | FLAT LED LAMP ASSEMBLY - An LED-based lamp assembly with a driver assembly having a base portion rotatably engageable with the socket of a light fixture to make a first electrical contact with the light fixture. The driver assembly makes electrical contact with the light fixture. A lamp housing assembly operably connected to the driver assembly has a lamp housing connected to the driver assembly. The lamp housing is coupled to an integrated circuitry arrangement with at least one LED light thereon. The integrated circuitry arrangement is connected to, or is an integral part of, a heat sink that carries heat away from the substrate and/or LED light. The heat sink and the integrated circuitry arrangement have apertures hat allows heated air from the heat sink to pass therethrough and away from the LED light. | 12-13-2012 |
20120314415 | LED LIGHTING APPARATUS - Disclosed is a light-emitting diode (LED) lighting apparatus. The LED lighting apparatus comprises: a light source module comprising an LED light source; a thermal base coupled to the light source module so as to receive heat generated by the light source module; and a heat-dissipating member comprising a ventilation unit coupled to an edge region of the thermal base so as to discharge heat transmitted from the thermal base and open a central area of the thermal base so as to facilitate air ventilation to the outside. The LED lighting apparatus can increase heat-dissipating efficiency by maximizing ventilation efficiency and enabling air around the heat-dissipating member to flow smoothly without stagnating. | 12-13-2012 |
20120320588 | EDGE-LIT LIGHT PANEL HAVING A DOWNLIGHT WITHIN A LINED INDENTATION IN THE PANEL - A light fixture and method for producing downward-propagating illumination are disclosed. A downward-facing panel may produce diffuse light. The panel may be generally flat and may have an indentation, where the indentation may have a lining that also produces diffuse light. The panel and the lining may have essentially the same luminance, so that the indentation may be less visible for orientations other than directly below the indentation. The fixture may have a downlight recessed into the indentation, which may produce a directional beam that emerges downward from within the indentation. The directional beam may have a brightness controllable separately from the diffuse light, such as a dedicated dimmer switch. The indentation may be at the center of the panel. The panel may be incorporated into a ceiling tile, and may be bundled as part of a kit that can also include ceiling tiles with panels that don't have a downlight. | 12-20-2012 |
20120320589 | HEAT DISSIPATOR AND LED ILLUMINATOR HAVING HEAT DISSIPATOR - A heat dissipator having a heat-conducting substrate and a plurality of heat-dissipating columns is disclosed. The heat-conducting substrate is opened with a plurality of through-holes. Each of the heat-dissipating columns is discretely set on a surface of the heat-conducting substrate. An illuminator having the heat dissipator and an LED illuminating module is also disclosed. The LED illuminating module is fixed on the heat-conducting substrate and includes a circuit board and a plurality of LEDs arranged on the circuit board. This arrangement can increase the surface area for heat exchange with surrounding air and enhance the heat-dissipating efficiency of the heat dissipator. | 12-20-2012 |
20120320590 | LIGHT-EMITTING DIODE LIGHTS CARRIER - A carrier that securely ties a plurality of LED lights. In addition, the present invention provides a carrier that allows the easy replacement of the LED lights. The carrier includes a first shell, a second shell and an interlocking device to interconnect the first shell to the second shell. The carrier is adapted to carry at least one LED light between the first shell and the second shell. | 12-20-2012 |
20120320591 | LIGHT BULB - The instant disclosure relates to a light bulb, which includes a base, a conducting cap arranged on one end of the base, a heat-dissipating member disposed on the opposite end of the base, and a lamp cover. The heat-dissipating member has a wedged structure, and a plurality of inclined surfaces are formed adjacently thereon. A plurality of LEDs is disposed on the inclined surfaces, and the lamp cover is arranged over the wedged structure and the LEDs. The instant disclosure uses the LEDs to replace tungsten filament as the light sources, and arranging the LEDs on the wedged structure of the heat-dissipating member. Thereby, the light bulb can have higher heat-dissipating rate. | 12-20-2012 |
20120320592 | MULTIUNIT AND MULTIFACETED LIGHTING LED LAMP - A multiunit and multifaceted LED lamp includes a lamp body with an end surface and side surface, on which LED bead groups are arranged respectively; on the lamp body a connecting apparatus which is able to connect to the power source is arranged, and through the different connection modes of the connecting apparatus, different LED bead groups are turned on or off under control, so as to obtain various luminous effects and light emitting ranges. A 180 degree light emitting angle is obtained while the LED bead group on the end surface lights up, and a 360 degree light emitting angle is obtained while the LED bead groups on the side surface light up. The LED lamp may be used in car as a headlight, a high beam light, an indicator light, and a low beam light. | 12-20-2012 |
20120320593 | Light Emitting Diode (LED) Bulb - A lighting device may include a substrate attached to one edge side of a radiator and a cover may be attached to cover the substrate. Heat-radiating fins may be provided on the other edge side of the radiator and an air-cooling unit may be rotatably provided inside the heat-radiating fins, thereby enabling freely rotation. In one or more examples, a case storing a circuit part is attached to the other edge side of the radiator and a cap is provided to the case. By the air flow from the air-cooling unit, the heat-radiating fins are caused to be a part of the ventilation path to allow for ventilation of the inside of the radiator. | 12-20-2012 |
20130003373 | LED LIGHTING APPARATUS, SYSTEMS AND METHODS OF MANUFACTURE - A light emitting diode (LED) lighting system including a lighting apparatus comprising at least one printed circuit board having an array of light emitting diode (LED) chips mounted thereto, the printed circuit board including a segmented conductor pathway configured to electrically couple at least a portion of the array of LED chips, and a portion of the printed circuit board forming a card edge connector, the card edge connector including a portion of the segmented conductor pathway which provides an electrical contact configured to electrically couple the segmented conductor pathway to a power source. | 01-03-2013 |
20130003374 | LIGHT EMITTING DEVICE AND COMPLEX LENS THEREOF - A light emitting device includes a light emitting module and a complex lens, which is disposed on the light emitting module and includes first to fourth lens portions. A first group of light beams emitted from the light emitting module and outputted from the first lens portion travels through the first lens portion with total internal reflection, a second group of light beams emitted from the light emitting module and outputted from the fourth lens portion travels through the second, third and fourth lens portions with total internal reflection, a third group of light beams emitted from the light emitting module and outputted from the fourth lens portion travels through the third and fourth lens portions with total internal reflection, and a fourth group of light beams emitted from the light emitting module is outputted from the fourth lens portion. | 01-03-2013 |
20130003375 | COMPONENTS AND METHODS FOR LIGHT EMITTING DIODE (LED) LIGHTING - Components and methods containing one or more light emitter devices, such as light emitting diodes (LEDs) or LED chips, are disclosed. In one aspect, a light emitter device component can include inner walls forming a recess defining an opening such that surface area outside of the opening of the recess is less than or equal to a threshold ratio of overall surface area. In one aspect, the light emitter device component can include a ceramic body mounted directly or indirectly on the ceramic body. Components disclosed herein can result in improved light extraction and thermal management. | 01-03-2013 |
20130003376 | SEMICONDUCTOR LAMP WITH THERMAL HANDLING SYSTEM - A lamp, for general lighting applications, utilizes solid state light emitting sources to produce and distribute white light. The exemplary lamp also includes elements to dissipate the heat generated by the solid state light emitting sources. The lamp includes a thermal handling system having a heat sink and a thermal core made of a thermally conductive material to dissipate the heat generated by the solid state light emitting sources to a point outside the lamp. | 01-03-2013 |
20130003377 | LIGHT-EMITTING DEVICE HAVING LIGHT-EMITTING ELEMENTS - A light-emitting device operating on a high drive voltage and a small drive current. LEDs ( | 01-03-2013 |
20130010472 | ILLUMINATION DEVICE AND ASSEMBLING METHOD THEREOF - An illumination device including a base, a heat dissipation member, at least one flexible printed circuit board (FPC), and a plurality of light-emitting elements is provided. The heat dissipation member disposed on the base has a central axis, a plurality of holding curvy surfaces and a plurality of heat dissipation channels extending along the central axis, wherein the holding curvy surfaces and the heat dissipation channels are staggered and arranged about the central axis, and each of the holding curvy surfaces radially extends along the central axis. The flexible printed circuit board is disposed on the holding curvy surfaces. The light-emitting elements are disposed on the flexible printed circuit board. An assembling method of the illumination device is also provided. | 01-10-2013 |
20130010473 | LED Lighting Device - An LED lighting device, in particular an LED retrofit lamp, comprising a light-emitting means ( | 01-10-2013 |
20130016513 | T-BAR LAMPAANM Sung; Yung-ChengAACI Hsinchu CityAACO TWAAGP Sung; Yung-Cheng Hsinchu City TWAANM Wu; Chung-PanAACI HsinchuAACO TWAAGP Wu; Chung-Pan Hsinchu TW - A T-bar lamp including a T-bar lamp housing and at least a light engine module is provided. The T-bar lamp housing has an opening. The light engine module is fixed in the T-BAR lamp housing, and the light engine module at least includes a chip on board (COB) type LED light source. | 01-17-2013 |
20130027938 | BULB-TYPE LED LAMP - An LED lamp includes an LED module, a base body and a cover. The base body includes a contact surface which is thermally coupled to the LED module, and a recess portion. The cover includes a base part that has a fitting tab which is positioned in the recess portion and sandwiched between an outer edge of the LED module and the base body. | 01-31-2013 |
20130027939 | BULB-TYPE LED LAMP - According to one embodiment, an LED lamp includes an LED module and a light guide. The LED module includes a plurality of LEDs annularly arranged and mounted on a front surface of a board, and an opening provided in the board at an inside surrounded by the LEDs. The light guide is engaged and fastened to the opening from the front surface side of the board. The light guide guides part of light emitted by the LEDs, and emits the light guided from the front surface side to a rear surface side over an outer edge part of the board. | 01-31-2013 |
20130033868 | DISSIPATION EQUIPMENT FOR LED LIGHTING SYSTEMS - Built-in LED illumination device, comprising an optic assembly, adapted to assume different positions and inclinations with respect to the body of said lighting device, and a thermal dissipation module comprising in turn a fan, a conveyor associated to said fan and a heat sink integral with the optical assembly of said lighting device. | 02-07-2013 |
20130039064 | LIGHT EMITTING DIODE BULB - A light emitting diode bulb includes a holder; a housing connected with the holder; an LED module arranged on the housing and electrically connected with the holder. The LED module comprises a base and LED units formed on the base. The base has an upper surface and lateral surfaces extending downwardly and slanted to the upper surface. The LED units are arranged on the upper surface and the lateral surfaces respectively. An envelope is formed on the housing opposite to the holder. Light from the LED units of the LED module passes through the envelope and transmits to an external environment along different directions. | 02-14-2013 |
20130039065 | SEMICONDUCTOR LIGHT-EMITTING ELEMENT MOUNTING MODULE, SEMICONDUCTOR LIGHT-EMITTING ELEMENT MODULE, MANUFACTURING METHOD OF SEMICONDUCTOR LIGHT-EMITTING ELEMENT MOUNTING MODULE, AND MANUFACTURING METHOD OF SEMICONDUCTOR LIGHT-EMITTING ELEMENT MODULE - A semiconductor light-emitting element mounting module includes a metal conductor plate including at least one connection surface formed on one side thereof, wherein a semiconductor light-emitting element is connectable to the connection surface; a pair of terminals provided away from the connection surface and which are connectable to the connection surface to be electrically conductive therewith; a surface-insulation portion formed from a resin material, wherein the surface-insulation portion covers the entire surface of the metal conductor plate except for the connection surface. The pair of terminals are connectable with a corresponding pair of terminals that are provided on another semiconductor light-emitting element mounting module. | 02-14-2013 |
20130039066 | T-BAR FOR SUSPENDED CEILING WITH HEAT DISSIPATION SYSTEM FOR LED LIGHTING - The T-bar includes an elongate rigid spine extending between terminal ends including either a fixed anchor or adjustable anchor for attachment to adjacent T-bars or other supports. An upper heat sink is provided on an upper portion of the spine to enhance heat transfer from the T-bar to air surrounding upper portions of the T-bar. A light housing is provided on a lower portion of the T-bar which is configured to support a lighting module therein, such as a light emitting diode (LED) light. A lower heat sink is provided above this light housing and integrated into a rest shelf which supports ceiling tiles adjacent the T-bar. A power supply is provided which can be removably attached to the T-bar and provide appropriately conditioned power for the lighting module. | 02-14-2013 |
20130044485 | LIGHT MODULE - An illumination module is provided that can be inserted into a receptacle with a ramp that includes a wall and may be mounted on a support surface, such as a heat sink, and the illumination module include a cover and an LED assembly rotateably coupled to the cover. The LED assembly seats within the receptacle which causes terminals of the LED assembly to align with contacts on the receptacle. Circuitry is provided in the module that accepts an input voltage and converts the input to a desired driving output. The cover can be rotated relative to the receptacle so as to engage ramps so as to direct the LED assembly into the receptacle. When the LED assembly is attached to the receptacle, the terminals on the LED assembly mate with the contacts on the receptacle. | 02-21-2013 |
20130051018 | METAL CLAD CIRCUIT BOARD - A metal clad circuit board includes a metal substrate. A dielectric layer is applied to the metal substrate. A conductive seed layer is printed on the dielectric layer. A conductive circuit layer is plated onto the conductive seed layer. Optionally, the conductive seed layer may be inkjet printed on the dielectric layer. Alternatively, the conductive seed layer may be pad printed on the dielectric layer. Optionally, the dielectric layer may be powder coated to the metal substrate. The dielectric layer may include polymers and fillers compression molded to the metal substrate. Optionally, the conductive circuit layer may be electroplated to the conductive seed layer. Optionally, a solder mask may be applied over the conductive circuit layer. | 02-28-2013 |
20130051019 | LAMPHOLDER-SOCKET-SUPPORTED ELECTRICAL APPLIANCE - An electrical appliance for a lampholder socket having a socket axis of rotation has a housing rotatable by an application of an applied torque thereto. A screw base is configured to be inserted in the lampholder socket and threadedly connected to the lampholder socket upon a rotation of the screw base in a first direction about the socket axis of rotation. A torque limiter is fixedly attached to the screw base for rotation therewith. The torque limiter couples the housing to the screw base for rotation therewith when the applied torque is less than a predetermined magnitude and couples the housing to the screw base for rotation relative thereto when the applied torque is greater than the predetermined magnitude. An electrical device is mounted in the housing and electrically connected to the screw base. | 02-28-2013 |
20130051020 | LED LIGHT EMITTING APPARATUS - An LED light emitting apparatus according to an embodiment of the present invention includes a plurality of LEDs, a case having the LEDs at its front side, and a plurality of bolts each having a threaded portion for fixing the case to outside. The case has a plurality of insertion portions each allows inserting a bolt from the front side through the back side of the case. Each of the insertion portions has at its inner portion an elastic member having a first inner diameter which is smaller than the outer diameter of the threaded portion, and the elastic member is fixed in the insertion portion. | 02-28-2013 |
20130051021 | LED Bulb - An LED bulb includes: a circuit board having opposite first and second surfaces; a plurality of LEDs disposed on the first surface; and a heat dissipating structure having a heat dissipating board, wherein the heat dissipating board has opposite third and fourth surfaces, the third surface is attached to the second surface of the circuit board, and a plurality of heat dissipating bumps is disposed on the fourth surface and gradually decreases in length from the center toward the periphery of the fourth surface to thereby facilitate air convection around the heat dissipating bumps, thus improving the overall heat dissipating efficiency so as to increase the light emitting efficiency and lifetime of the LED bulb. | 02-28-2013 |
20130058087 | LED MODULE FIXING STRUCUTRE - An LED module fixing structure includes an LED module and a threaded column. The LED module includes a circuit substrate, LED particles and an electric wire. A screw hole is formed at the center of the circuit substrate, and a thread is formed around the threaded column, so that the threaded column is secured into the screw hole of the circuit substrate through the thread, or the LED module is installed in a lamp casing, and a screw hole is formed at the center of the lamp casing and provided for securing the threaded column into the screw hole of the lamp casing through the thread. The LED module fixing structure comes with a simple thread fixing structure, and the thread of the threaded column can be installed to another object such as a heat dissipating element to achieve the effects of lowering cost, facilitating installation, and enhancing heat dissipation. | 03-07-2013 |
20130058088 | LED LIGHTING STRUCTURE - An LED lighting structure includes a main body and a filling body. The main body has a first side and a second side. The first side has multiple raised sections. The second side has multiple light incidence sections corresponding to the raised sections respectively. At least one recessed channel section is formed on the second side around the light incidence sections. The filling body is disposed in the channel section. The filling body provides waterproof effect to prevent humidity and alien particles from infiltrating into the channel section. Also, multiple main bodies can be quickly serially connected. | 03-07-2013 |
20130058089 | LINING BOARD USING OF MULTI-LAYER FIBER SHEET - A lining board includes: a plate-like support structure which is made of a multi-layered fiber sheet and has a plurality of hollows; and an upper plate which is attached to the top of the support structure and has a plurality of LED leading lightings formed on the top of the upper plate. The honeycomb-structured lining board including fiber sheets stacked with a predetermined thickness has advantages of lightness, high impact-resistance and high noise-proofing due to high sound absorptiveness. | 03-07-2013 |
20130058090 | ANGLED LIGHT BOX LIGHTING SYSTEM - A lighting system comprising a light box housing, a plurality of lighting units including a housing, a plurality of light emitting elements mounted on a PCB within the housing. The light emitting elements arranged on an angled surface such that the light emitting elements emit light in a sideways direction from the lighting units. The lighting units can also be interconnected in a daisy-chain configuration, such that the lighting units form a row of lighting units. The row of lighting units adapted to be mounted within the light box housing, wherein the light box housing comprises one or more rows of lighting units. | 03-07-2013 |
20130063944 | Tubular Light Emitting Diode Lamp - A tubular light-emitting diode (LED) lamp including a planar printed circuit board (PCB) with a first side and a second side, wherein the planar PCB is positioned within a tubular sheath; a first plurality of light-emitting diodes (LEDs) mounted on the first side, wherein at least one of the first plurality of LEDs is mounted substantially perpendicular to the first side; a second plurality of LEDs mounted on the second side, wherein at least one of the second plurality of LEDs is mounted substantially perpendicular to the second side; an electrical end cap coupled at a first end of the PCB; and a non-electrical end cap coupled at a second end of the PCB, wherein the first end and the second end are at opposite ends of the tubular sheath. In one example, the LED lamp includes a capacitor reactance ballasted power supply for supplying voltage to the LEDs. | 03-14-2013 |
20130063945 | BULB-TYPE LED LAMP HAVING REPLACEABLE LIGHT SOURCE MODULE - A bulb-type LED lamp having a replaceable light source module includes a lamp head module, a lamp casing module and a light source module. The lamp head module has an electrical-conductive connection portion. One end of the lamp casing module is connected to the lamp head module. The light source module comprises a substrate, a plurality of LEDs electrically connected to the substrate, and a sleeve disposed in the lamp casing module to be electrically connected to the substrate. The sleeve has an electrical-conductive insertion portion assembled with the electrical-conductive connection portion. By this structure, a damaged light source module can be replaced rapidly. A user needs not to by a new whole set lamp so as to save the cost maintenance. Further, a surface thermal contact is generated between the metallic pressing plate and the heat-conducting plate to increase the heat-conducting area and efficiency. | 03-14-2013 |
20130063946 | LIGHTING APPARATUS - A lighting apparatus may include: a light source substrate, to the front side of which at least one semiconductor light source is fitted and the rear side of which is fitted to an electrically conductive carrier; wherein alongside the light source substrate at least two electrically conductive contact pins are led through the carrier and the contact pins are electrically connected to the at least one semiconductor light source; wherein the contact pins are in each case introduced into an electrically insulating sleeve and the respective sleeve is inserted into an associated cutout of the carrier. | 03-14-2013 |
20130077310 | Light Emitting Element Lamp and Lighting Equipment - A light emitting element lamp and a lighting equipment for suppressing a temperature rising of a substrate on which a light emitting element is mounted by using a reflector is described. Aspects relate to a lamp including a heat-conductive reflector, a base connected to the reflector, a heat-conductive heat radiating member, a substrate having a light emitting element mounted thereon and attached to the heat radiating member and a lighting circuit housed in the cover to light the light emitting element. Other components and features may also be included. | 03-28-2013 |
20130077311 | LED Light Fixture - An LED light fixture includes a housing forming a chamber enclosing at least one drive and an extruded portion extending therefrom. In some embodiments, the housing has a dimension in the extruded direction no less than one-third of the fixture length, and the sides of the extruded portion and of the housing have substantially congruent profiles such that enclosure and heat-dissipation functions of the fixture are facilitated without substantial discontinuity in fixture configuration therealong viewed from positions below. A plurality of substantially rectangular LED-array modules are mounted to the LED-adjacent surface which has length and width dimensions accommodating multiple modules of predetermined width and lengths. | 03-28-2013 |
20130077312 | LIGHT EMITTING TUFTED CARPET - A light emitting tufted carpet including a primary backing layer, an optional secondary backing layer, an optional adhesive layer, a plurality of carpet integrated LEDs arranged to generate carpet light, and first and second electric conductors. The first electric conductor and the second electric conductor are arranged to provide power from a power source to the LEDs. At least one of primary backing layer and the optional secondary backing layer may include a felt layer. One or more of the first electric conductor and the second electric conductor may be at least partially integrated in one or more of the first felt layer and the second felt layer. | 03-28-2013 |
20130077313 | LIGHT EMITTING DIODE STREET LAMP - A light emitting diode (LED) street lamp includes an LED chip, a ceramic substrate, a lamp shade, a nano-enamel layer and a thermally radiative heat dissipation film. The nano-enamel layer is disposed on the ceramic substrate to provide electrical insulation and isolation for protection, is made from nano-particles to have a surface with the function of self-cleaning due to lotus effect. The thermally radiative heat dissipation film is disposed on the inner surface of the lamp shade and the surface of the ceramic substrate, and has a surface microscopic crystalline structure. The thermally radiative heat dissipation film fastly propagates the heat generated by the LED chip by thermal radiation in some specific direction so as to improve the efficiency of heat dissipation, reduce the total thickness, enhance the efficiency of light emitting and effectively prolong the lifetime of the LED street lamp. | 03-28-2013 |
20130083529 | METHOD, APPARATUS AND SYSTEM FOR CONNECTING A LIGHT EMITTING DIODE LIGHT FIXTURE TO A MAINS POWER CONDUCTOR - A method, apparatus and system for connecting a light fixture having a light emitting diode (LED) lighting element to a mains power conductor in an electrical junction box is disclosed. The apparatus includes a support configured to attach to the electrical junction box and an electrical converter operable to receive electrical power from the mains power conductor and to generate an output power suitable for powering the LED lighting element. The apparatus also includes an output connector disposed on the support and in electrical connection with the electrical converter for receiving the output power, the output connector being operable to receive a connector of the light fixture for powering the LED lighting element, the output connector being oriented to receive the connector of the light fixture when the support is attached to the electrical junction box. | 04-04-2013 |
20130083530 | ILLUMINATION DEVICE - An illumination device includes a housing defining a hole therethrogh; a plurality of light sources each is a light emitting diode is disposed in the housing; a lamp seat is securely positioned at one side of the housing. The lamp seat comprises a protrusion configured to receive electronic elements therein. The protrusion of the lamp seat is inserted into the hole of the housing. | 04-04-2013 |
20130083531 | LED LAMP WITH CHANGEABLE LIGHT INTENSITY - An LED lamp includes a first LED light module and a second LED light module. The first LED light module includes a frame, a beam mounted on the frame, a plurality of LEDs mounted on the frame and a cover fixed to the frame to cover the LEDs. The second LED light module includes a housing, a base mounted on the housing and an LED fixed to the housing. The base of the first LED light module defines two grooves. The base of the second LED light module forms two posts. The two posts can be locked in the two grooves to mount the first LED light module with the second LED light module and complete the electrical connection between the first and second LED light modules. | 04-04-2013 |
20130083532 | ALTERNATING CURRENT LIGHT-EMITTING DEVICE - An alternating current light-emitting diode (AC LED) device. In one embodiment, the AC LED device includes a primary light-emitting module and a secondary light-emitting module. Each of the primary light-emitting module and the secondary light-emitting module comprises a plurality of light-emitting diodes (LEDs). The secondary light-emitting module is disposed adjacent to the primary light-emitting module. A light-emitting area of each LED in the secondary light-emitting module is smaller than a light-emitting area of each LED in the primary light-emitting module. | 04-04-2013 |
20130083533 | High Intensity LED Replacement of Incandescent Lamps - A method of forming a light bulb core, and a light bulb or lamp incorporating the core. The method includes forming a heat sink having at least six working facets located equally on opposite sides of a central plane, and then mounting a light source on each of the working facets. The light sources are mounted on circuit boards, each circuit board corresponding to a respective one of the working facets. The boards are then applied to respective working facets. The bulb is composed of a screw base, an external heat sink mounted in the screw base, and the light bulb core mounted in and extending from the external heat sink. The light source comprises a plurality of light emitting diodes. | 04-04-2013 |
20130094212 | LIGHTING APPARATUS - There is disclosed a lighting that has an electronic module capable of repaired and replaced easily and efficiently and that can prevent foreign substances from being drawn therein, with enhanced spatial utilization. | 04-18-2013 |
20130094213 | Methods and Apparatus for LED Lighting with Heat Spreading in Illumination Gaps - Techniques for light emitting diode (LED) lighting with heat spreading in illumination gaps. Inexpensive structural aluminum may be suitably employed to form a passive heat spreading mount for plural LEDs whose illumination collectively combines to provide the light needed by a particular lighting fixture, such as a pendant chandelier, by way of example, by angling fins of the passive heat spreading mount to correspond to illumination gaps of the LEDs. | 04-18-2013 |
20130100670 | LIGHTING SYSTEM WITH A HEAT SINK HAVING PLURALITY OF HEAT CONDUITS - A lighting system includes a heat sink having an upper and a lower face, and a plurality of light engines. The heat sink includes a plurality of individual, enclosed heat conduits extending generally parallel to a longitudinal axis of the heat sink between the upper and the lower faces. Each heat conduit has an entrance proximate to the lower face and an exit proximate to the upper face. The light engines are each coupled to at least one heat conduit such that thermal energy generated by the light engines is transferred to the heat conduits to cause air to flow through each of the heat conduits due to convection. | 04-25-2013 |
20130100671 | ALUMINUM BASE BOARD WITH THE HEAT RELEASING PORTION - An aluminum base board with the heat releasing portion includes a base board made with aluminum and multiple holes are defined through the base board. At least one LED is connected to the base board and partially covers the holes. Therefore, the heat of the at least one LED is transferred to the base board and the heat of the base board is released to the air efficiently via the holes. | 04-25-2013 |
20130100672 | LIGHT-EMITTING DIODE (LED) STREET LIGHT APPARATUS HAVING A HEAT-DISSIPATION STRUCTURE - Provided is an LED streetlamp device including a body frame including a flat part and an inclined part extended from a rim of the flat part with a certain incline angle, inner surfaces of the flat part and the inclined part forming a hollow portion, a light emitting part installed on outer surfaces of the flat part and the inclined part, the light emitting part including a plurality of LED lamps, and a transmission plate covering an outer surface of the body frame where the light emitting part is provided, wherein, in a center of the outer surface of the flat part, there is formed a plurality of long holes for allowing air inflow into the hollow portion, the long holes formed circularly around a center point of the flat part. | 04-25-2013 |
20130107530 | High Efficiency LED Lighting System with Thermal Diffusion | 05-02-2013 |
20130107531 | HEAT SINK FOR A SEMICONDUCTOR LAMP AND A SEMICONDUCTOR LAMP | 05-02-2013 |
20130114260 | LED LIGHT WITH ACTIVE THERMAL MANAGEMENT - A lamp comprises an LED assembly comprising at least a first LED operable to emit light. A heat sink for dissipating heat from the LED assembly comprises an active element and a passive heat conductive element. The active element may comprise a fan that forces air over the passive heat conducting element. | 05-09-2013 |
20130114261 | LED Replacement of Directional Incandescent Lamps - An LED lamp for replacement of directional incandescent lamps. The lamp comprises a screw base, a plurality of LEDs located in a first position, and a driver for the LEDs located in a second position separate from the first position. A lamp housing is secured to the screw base, with the LEDs and the driver being located in the lamp housing. A heat spreader is mounted in the lamp housing in proximity to the LEDs to remove heat therefrom. The heat spreader can also remove heat from the driver, or the driver can be located in proximity to the screw base and in thermal connection therewith so that heat is transmitted through the screw base | 05-09-2013 |
20130120993 | Circuit Board Circuit Apparatus and Light Source Apparatus - A circuit board circuit apparatus and a light source apparatus including a substrate, a circuit layer, and at least one electronic component are disclosed. The circuit layer is formed on a surface of the substrate. The circuit layer includes a first circuit and a second circuit which are coplanar-disposed. The at least one electronic component is disposed on the circuit layer and connected with the circuit layer. Each electronic component has a first contact and a second contact. At least a part of the second circuit is disposed between the at least one electronic component and the first circuit. The at least one electronic component crosses over the second circuit, so that the second circuit penetrates through the bottom of the electronic component between the first contact and the second contact. | 05-16-2013 |
20130120994 | Assembly with LED Housing - An assembly includes an LED with two conductive leads, two conductive wires in which an insulator surrounds a conductor, and a housing. The two conductive wires are inserted into and held by a wire cavity of the housing. Each of the two conductive leads is inserted into a different LED lead hole of the housing. Electrical contact is made by each of the two conductive leads with the conductor of one of the two conductive wires and the LED is held by the housing. The conductive leads can have a sharp point that penetrates the insulator and the conductor when the LED is inserted into the housing. The LED can be seated in a LED cavity of the housing while insertion of the LED into the LED cavity creates an interference fit in which conductive portions of the wires opposite the exposed conductors are compressed against the housing. | 05-16-2013 |
20130120995 | SEMICONDUCTOR LIGHT-EMITTING ELEMENT MOUNTING MODULE AND SEMICONDUCTOR LIGHT-EMITTING ELEMENT MODULE - A semiconductor light-emitting element mounting module includes a metal conductor plate including anode and cathode terminal contacts on one side, wherein an anode and a cathode of a semiconductor light-emitting element is connectable to the anode and cathode terminal contacts, respectively; a metal thermal radiator member provided separate from the metal conductor plate; and a surface-insulation portion which covers the surfaces of the metal conductor plate and the thermal radiator member while exposing at least a part of the thermal radiator member and the anode and cathode terminal contacts. A clasping member is provided on the surface-insulation portion and projects from the one side of the metal conductor plate. The clasping member can come into contact with a light-receiving member, which receives light that is emitted from the semiconductor light-emitting element. | 05-16-2013 |
20130120996 | Thermal Transformer for LED Lighting Applications - A method of passively dissipating heat from a source of heat is described. A plurality of successive layers of thermally conductive materials is formed where each layer has a thermal conductivity less than a thermal conductivity of a preceding layer. The plurality of successive layers has a first layer, a second layer, and a third layer in stacked relationship. Thermal impedances of the plurality of successive layers from one layer to an adjacent layer in the plurality of successive layers are matched by controlling a volume of one layer relative to an adjacent layer in the plurality of successive layers. | 05-16-2013 |
20130128581 | ASSEMBLY LIGHT BAR STRUCTURE - An assembly light bar structure includes: a substrate, having at least one recess; a first conductive elastic element and a second conductive elastic element, disposed on the substrate and respectively located at two parallel sides of the recess; and at least one light-emitting element. The light-emitting element is compressed by the first and second conductive elastic elements to be removably fixed in the recess of the substrate. The light-emitting element is electrically connected to the first and second conductive elastic elements. | 05-23-2013 |
20130128582 | LED LIGHTING SYSTEMS AND METHODS - Embodiments of the invention include LED lighting systems and methods. For example, in some embodiments, an LED lighting system is included. The LED lighting system can include a flexible layered circuit structure that can include a top thermally conductive layer, a middle electrically insulating layer, a bottom thermally conductive layer, and a plurality of light emitting diodes mounted on the top layer. The LED lighting system can further include a housing substrate and a mounting structure. The mounting structure can be configured to suspend the layered circuit structure above the housing substrate with an air gap disposed in between the bottom thermally conductive layer of the flexible layered circuit structure and the housing substrate. The distance between the layered circuit structure and the support layer can be at least about 0.5 mm. Other embodiments are also included herein. | 05-23-2013 |
20130135864 | LED LAMP ASSEMBLY - A LED lamp assembly includes a rectangular electrical box formed of two symmetrical U-shaped frame panels that are detachably fastened together by a tongue-and-groove joint and holding therein a control circuit board that is affixed to two parallel mounting grooves in one U-shaped frame panel by screw nails, a back cover plate and a bracket affixed to the electrical box at two opposite sides for mounting, and an elongated, rectangular light source unit affixed to the bracket and controllable by the control circuit board to emit light. | 05-30-2013 |
20130135865 | HEAT SINK AND LED LAMP USING THE SAME - An LED lamp includes a heat sink and a plurality of LEDs. The heat sink includes a base and a plurality of fins. The base includes a first face and a second face opposite to the first face. The fins extend from the first face of the base. Each fin includes two streamline fin branches and a convex portion connecting the two fin branches. Each fin branch has a first end near a middle of the base, and a second end near an outer edge of the base. Each fin branch has a height gradually decreasing from the first end to the second end. The LEDs are attached to the second face of the base, and located corresponding to the convex portions, respectively. | 05-30-2013 |
20130135866 | HIGH POWERED LIGHT EMITTING DIODE LIGHTING UNIT - A lighting unit including a thermally conductive array housing for a light emitting diode array mounted on a first surface of a printed circuit board, a heat transfer element located on a second surface of the printed circuit board and forming a thermally conducting path between the array of light emitting diodes and a rear side of the array housing, and a power supply housing spaced apart from the read side of the array housing and including a power supply. Heat dissipating elements on the rear side of the array housing form convective circulation air passages and thermal isolation gaps between the heat dissipation elements and the power supply housing. | 05-30-2013 |
20130135867 | MODULARIZED STREET LAMP - The present invention provides a modularized street lamp, which includes a lamp holder, a first light emission module, and a second light emission module. The first light emission module and the second light emission module are mounted to the lamp holder so that each of the light emission modules covers a respective area of illumination to achieve an effective distribution of areas of illumination. When one of the light emission modules gets broken, the remaining one of the light emission modules is still staying in operation to give off light to allow pedestrians to watch out any situation occurring in roads or streets. Further, the present invention can be manufactured in an easy way and includes no special configuration so that any manufacturer in the industry can easily manufacture the lamp to thereby ensure fairness of maintenance operations. | 05-30-2013 |
20130135868 | LIGHTING DEVICE - The invention provides a lighting device comprising a light source unit ( | 05-30-2013 |
20130141910 | Method for assembling LEDs to a ceramic heat conductive piece and a structure produced by the method - A method for assembling LEDs to a ceramic heat conductive piece comprises: mixing ceramic materials together and subjecting the mixed ceramic materials to hot pressing to form the ceramic heat conductive piece, the ceramic heat conductive piece has a cold end; subjecting the cold end of the ceramic heat conductive piece to sliver printing, drying process and silver reduction process to form the silver layer; choosing conductive binders, and applying the conductive binders to the silver layer by coating process; attaching the LEDs between paired conductive binders by welding; getting a finished product. The structure produced by the method is such that the LEDs are located between the paired conductive binders, and each of the LEDs includes a LED wafer disposed on a substrate, so that the heat generated by the LEDs can be transmitted quickly to the ceramic heat conductive piece via the conductive binders and the silver layer. | 06-06-2013 |
20130141911 | LIGHT EMITTING DIODES CHANDERLIER - A Light Emitting Diodes chandelier includes a base board, a ventilation unit, a case and a cover. Multiple Light Emitting Diodes (LEDs) are located beneath the base board and the ventilation unit is located above the base board. The case is mounted to the base board and the cover is a transparent cover and located beneath the LEDs. The ventilation unit has multiple plates which contact the top of the ventilation unit. The plates and the case are made by heat-conductive material. The case has two openings defined in two ends thereof so as to provide better convection and brings heat away. | 06-06-2013 |
20130141912 | CIRCUIT BOARD FOR DISPLAY DEVICE AND DISPLAY DEVICE HAVING THE SAME - Disclosed is a circuit board for display device which includes a main circuit board and a flexible circuit board. The main circuit board has a power input pad and a power receiving pad that are exposed to the outside. A power supply voltage is applied to the power input pad. The flexible circuit board is coupled on one surface of the main circuit board. The flexible circuit board is configured to electrically connect the power input pad and the power receiving pad. A display device including the circuit board has a panel input pad receiving the power supply voltage from the main circuit board. | 06-06-2013 |
20130141913 | Printed Circuit Board having at Least One Semiconductor Light Source, Support for the Printed Circuit Board, System Comprising the Printed Circuit Board and the Support, and Method for Mounting the Printed Circuit Board on the Support - The printed circuit board ( | 06-06-2013 |
20130148354 | LOW BAY LIGHTING APPARATUS - There is provided a low bay lighting apparatus secured to an elevated horizontal surface, the low bay lighting apparatus including a light fixture, including a modular light source configured to illuminate areas disposed beneath the light fixture, a modular power supply configured to provide power to the modular light source, and a plurality of posts disposed on planes that are perpendicular to a long side of the modular light source and on opposite ends of opposing outer side surfaces of the light fixture, and a mounting bracket secured to the elevated horizontal surface, the mounting bracket including a plurality of slots configured to mate respectively with the plurality of posts to removably secure the light fixture to the mounting bracket. | 06-13-2013 |
20130148355 | LED BULB WITH LIQUID-COOLED DRIVE ELECTRONICS - A liquid-filled light emitting diode (LED) bulb including a stem body, a shell connected to the stem body to form an enclosed volume, and one or more LEDs attached to a support structure and disposed between the shell and the stem body. The LED bulb also includes a driver circuit configured to electrically drive the one or more LEDs. A thermally conductive liquid and a liquid-volume compensation mechanism are also disposed with the enclosed volume. The one or more LEDs and the driver circuit are thermally coupled to the thermally conductive liquid. | 06-13-2013 |
20130155679 | HANDRAIL SYSTEM - A handrail system (10) is disclosed having an elongated handrail rod (11) coupled to handrail mounts (12) that are adapted to be mounted to a support surface. The handrail system also includes accessory devices (13) coupled to the elongated handrail. The elongated handrail rod includes a casing (16) and an internal frame (17) to form a channel (22). The accessory device includes a mounting flange (43) configured to mate with the handrail rod and an accessory holder (44). The mounting flange includes an elongated neck (45) extending to a curved top portion (46) configured to overlay the top of the handrail. The mounting flange also includes a locking member (47) configured to be received within the channel of the handrail rod. | 06-20-2013 |
20130155680 | Low Form Factor Synthetic Jet Thermal Management System - A combination of a synthetic jet ejector with a host device is provided. The combination comprises (a) a chamber having an aperture disposed in a wall thereof; (b) a diaphragm disposed in said chamber; and (c) an actuator adapted to vibrate said diaphragm so as to create a synthetic jet in a flow of fluid exiting said chamber through said aperture; wherein said chamber has at least one interior surface which is formed by an element of the host device. | 06-20-2013 |
20130155681 | LED LIGHTING ASSEMBLIES WITH THERMAL OVERMOLDING - One or more light emitting diode diodes (LEDs) are attached to a printed circuit board. The attached LEDs are connectable with a power source via circuitry of the printed circuit board. An overmolding material is insert molded an over at least portions of the printed circuit board proximate to the LEDs to form a free standing high thermal conductivity material overmolding that covers at least portions of the printed circuit board proximate to the LEDs. The free standing high thermal conductivity material has a melting temperature greater than about 100° C. and has a thermal conductivity greater than or about 1 W/m·K. In some embodiments, the free standing high thermal conductivity material is a thermoplastic material. | 06-20-2013 |
20130155682 | HIGH-POWER LED LAMP - A high-power LED lamp set is provided in the present invention. The high-power LED lamp set comprises: a power converting module; a power supply casing ( | 06-20-2013 |
20130155683 | LIGHT BULB SHAPED LAMP AND LIGHTING APPARATUS - A light bulb shaped lamp includes: a hollow globe having an opening; an LED module having a base platform and an LED chip mounted on the base platform, the LED module being housed in the globe; a stem extending from the opening of the globe to the vicinity of the LED module; and a regulating component which regulates movement of the LED module with respect to the stem. | 06-20-2013 |
20130163248 | LED-BASED LIGHT ENGINE - An LED-based luminaire employs an LED module mounted to a housing. The LED module is advantageously configured to transmit heat generated by the LEDs across and/or through the module and to the housing for dispersal to the environment. LED modules can be configured with conductive or non-conductive cores, and may be configured to evacuate heat from one or both faces of the LED module. Further, multiple heat paths can be defined from components on an LED module to the housing and to the environment. | 06-27-2013 |
20130163249 | LED WIRING BOARD AND LIGHT IRRADIATION APPARATUS - It is an object of the present invention to permit division of an LED wiring board into various sizes to permit its use before and after the division, and also simplify operation of this division and simplify circuit design. More specifically, in the present invention, wiring patterns and for energizing LEDs are formed in a planar direction of the LED wiring board. Division grooves for dividing the LED wiring board into a plurality of sub-boards are formed on the front surface of the LED wiring board in a perpendicular direction and are provided in a manner such as to cross the wiring patterns in the planar direction. Use with the entire board before the division by the division grooves is possible, and use with division elements divided along any of the division grooves is also possible. | 06-27-2013 |
20130170210 | LED FIXTURE WITH HEAT PIPE - A light assembly fixture comprising a heat pipe to dissipate heat from the light emitting device, such as but not limited to a light emitting diode (LED). The assembly further comprises a housing including a front surface, a light emitting device on a first heat spreader remote from the front surface, a first end of a heat pipe in thermal contact with the first heat spreader and the heat pipe extending towards the front surface such that a second end of the heat pipe is in thermal contact with a second heat spreader that is disposed on the housing, wherein the first heat spreader, heat pipe and second heat spreader are configured to provide a thermal path to dissipate heat from the light emitting device. | 07-04-2013 |
20130170211 | ASSEMBLED TYPE LAMP WALL - An assembled type lamp wall comprises a base, at least one fastening holder and at least one lamp panel, wherein the fastening holder has a fitting portion provided for joining the base and a bottom portion that is stably in contact with ground. The fitting portion of the fastening holder is disposed with at least one screw through hole. The base has a plurality of screw holes aligning the at least one screw through hole and respectively and circularly disposed at a location of joining the fastening holder so that the several lamp panels can be horizontally extended and arranged on the base, and other screw holes align the screw through holes on the fastening holder, and a purpose of easily regulating the lamp panels | 07-04-2013 |
20130170212 | Underwater LED Lights - Underwater LED lights with enhanced cooling to allow the use of substantial numbers of high power LEDs. In all embodiments, the majority of the heat given off by the LEDs is transferred to the housing of the underwater light by heat transfer techniques other than by convection of the air or other gases within the enclosure, providing direct heat conveyance from the LEDs to or through the light enclosure walls, by conduction through a thermal conductor or by or as augmented by heat pipes to the inside wall of the enclosure or through the wall of the enclosure to the water. Various embodiments are disclosed. | 07-04-2013 |
20130176731 | LED Lamp - An LED lamp includes a housing, a base plate combined with the housing, and a plurality of LED crystals combined with the base plate. The LED crystals are connected serially, and a total allowable voltage of the LED crystals is equal to or greater than a voltage of an external power supply. The base plate is integrally combined with the housing completely by injection molding so that the base plate and the housing are combined closely and solidly and will not detach from each other. In addition, the LED lamp does not need provision of a drive device. | 07-11-2013 |
20130176732 | HOLDER AND LED MODULE USING SAME - A holder is provided that include a base with an aperture. An LED array with an LED emitter can be positioned so that the LED emitter is in the aperture. The holder includes pads that can be soldered to surface contacts on the LED array. The holder further includes contacts that are electrically connected to the pads. The pads and contacts can be provided by terminals that insert molded into the base. The base can include an integrated connector that has the contacts of the terminals extend therein. | 07-11-2013 |
20130176733 | LED LAMP - The LED lamp includes a heat dissipating base, an LED module, a hood and a sealant. The heat dissipating base has a mount board including a first surface and a second surface. The first and second surfaces are provided with an annular trough and fins, respectively. The LED module is fixed on the mount board and surrounded by the annular trough. The hood is formed with a flange which is embedded into the annular trough to cloak the LED module. The sealant is filled in the annular trough to seal up. | 07-11-2013 |
20130176734 | LIGHT HEAD - A light head ( | 07-11-2013 |
20130176735 | LIGHTING APPARATUS - A lighting apparatus using light-emitting diodes as the light source, which has light-dispersible property, heat dissipation property, excellent waterproof property, durability and shock resistance, giving no local glares, giving soft illumination, and can be used as a guiding light and a garden light, is provided. | 07-11-2013 |
20130182438 | LED LIGHTING FIXTURE - A light emitting diode (LED) populated circuit board is defined by a regular polygonal shaped circuit board. A channel is provided through the circuit board to form a first side diametrically opposed to a second side with a plurality of first and second legs extending from one side towards the other. A plurality of bridges are positioned along the channel to physically connect two portions of the circuit board together. LEDs are then electrically populated along the first side and first legs and along the second side and second legs. When the bridges are broken the two portions can be separated and then re-aligned along the ends of the legs to form a larger circuit board. | 07-18-2013 |
20130188359 | RADIANT HEAT CIRCUIT BOARD, METHOD OF MANUFACTURING THE SAME, HEAT GENERATING DEVICE PACKAGE HAVING THE SAME, AND BACKLIGHT - Provided is a radiant heat circuit board for mounting a plurality of heat generating devices. The radiant heat circuit board includes a metal plate comprising an integrated metal projection to which the plurality of heat generating devices are attached, an insulation member exposing the integrated metal projection, the insulation member comprising a plurality of insulation layers disposed on the metal plate, and first and second electrode pads disposed on the insulation member, the first and second electrode pads disposed being electrically separated from each other. The first and second electrode pads receives a voltage from circuit wires disposed on the insulation layers different from each other of the insulation member. Thus, a radiant projection may be disposed between the heat generating devices to improve heat radiation. | 07-25-2013 |
20130194804 | LIGHTING MODULE AND LIGHTING APPARATUS COMPRISING THE SAME - A lighting module may be provided that includes a light emitting device module including at least one light emitting diode; a heat sink radiating heat generated from the light emitting device module and including at least one partition wall formed on a base; and a cover accommodating the light emitting device module disposed therein and including a connector which is formed in one side of the cover and is connected to a power supplier for driving the light emitting device module, wherein the connector comprises a depression allowing the terminal of the power supplier to be directly inserted into the connector. | 08-01-2013 |
20130208474 | LED LIGHT BULB PROVIDIG HIGH HEAT DISSIPATION EFFICIENCY - An LED light bulb includes a lamp shell, a light emitting assembly and a power receiving base. The lamp shell includes a light transmissive portion and a holding portion. The light emitting assembly includes a light source baseboard located in the light transmissive portion and a circuit board connecting to the light source baseboard. The circuit board is surrounded by a heat sink. The heat sink includes a heat collecting section and a holding section extended from the heat collecting section into the power receiving base such that the power receiving base fully encases the heat sink without exposing. The inner surface of the power receiving base connects to the outer surface of the holding section so that heat generated by the light source baseboard is absorbed by the heat collecting section and transmitted via the holding section to the power receiving base for dissipating. | 08-15-2013 |
20130208475 | LUMINAIRE SYSTEM AND METHOD - A device, kit, and method for a luminaire having a first LED module with a first length and a plurality of LEDs, said LEDs disposed at predetermined pitch. A second LED module having a second length and a plurality of LEDs, said LEDs disposed at the same pitch as the first module. Wherein said first LED module and said second LED module have at least one LED disposed one half of the pitch from an edge of the LED module which when combined provide for uniform lighting across multiple LED modules. Certain embodiments may include one or more hubs for mounting the luminaire on predetermined centers. | 08-15-2013 |
20130208476 | Profile Rail, Connecting Element, Illuminating Module, Lighting System and Light Box - A DIN rail with at least one bottom wall ( | 08-15-2013 |
20130215613 | LED PACKAGING STRUCTURE HAVING IMPROVED THERMAL DISSIPATION AND MECHANICAL STRENGTH - The present disclosure involves a lighting apparatus. The lighting apparatus includes a thermally-conductive substrate. The thermally-conductive substrate may include a substrate. The lighting apparatus also includes a printed circuit board (PCB). The PCB is located besides the thermally-conductive substrate. The PCB and the thermally-conductive substrate have different material compositions. The lighting apparatus also includes a photonic device located over the thermally-conductive substrate. The photonic device may include a light-emitting diode (LED) die. The photonic device is thermally coupled to the thermally-conductive substrate. The photonic device is electrically coupled to the printed circuit board. The lighting apparatus also includes a thermal dissipation structure. The thermal dissipation structure is thermally coupled to the thermally-conductive substrate. | 08-22-2013 |
20130215614 | MODULAR LIGHT EMITTING DIODE SYSTEMS AND DEVICES - The present invention relates to devices, systems and methods comprising light emitting diodes. Some embodiments include a module comprising a light emitting diode, an electrical circuit, and a connector. In various embodiments a module provides an extensible conductive circuit containing light emitting diodes and/or other electric circuitry. Some embodiments comprise a method for constructing a luminary from modules comprising a light emitting diode. | 08-22-2013 |
20130223073 | Lighting Fixture - A lighting fixture | 08-29-2013 |
20130235583 | LIGHT FIXTURE AND LIGHTING MODULE HAVING THE SAME - The instant disclosure relates to a lighting module, which includes at least a pair of light fixtures. Each of the light fixtures has a frame, a light source assembly, and a cover. The frame has a base plate, a first side plate, and a second side plate. The first side plate has a first engaging portion, and the second side plate has a second engaging portion and a plurality of third engaging portions. The two light fixtures are interlocked to one another by the following means: the first engaging portion and the first side plate of one light fixture are engaged to the second engaging portion and the third engaging portions of the other light fixture, respectively. | 09-12-2013 |
20130235584 | SYSTEMS AND METHODS FOR PROVIDING A FIELD REPAIRABLE LIGHT FIXTURE WITH A HOUSING THAT DISSIPATES HEAT - Systems and methods disclosed herein provide one or more light emitting diode (LED) lighting fixture, which effectively dissipate heat. Embodiments include one or more printed circuit board (PCB) each having a front surface and a back surface, wherein the front surface may comprise strategically spaced LEDs and one or more thermal heat dissipaters, which draw heat away from the LEDs. The back surface may comprise one or more thermal heat dissipaters, covering a substantial portion of the back surface, wherein the back surface thermal heat dissipaters are thermally connected to the front surface thermal heat dissipaters. The LED fixture may also comprise one or more drivers which drive the PCB. The PCB and driver may be housed within a PCB chamber and a driver chamber, respectively, of a housing fixture, which may provide heat dissipation, structural support, and environmental protection for the components housed therein. | 09-12-2013 |
20130242557 | Heat Sink Assembly and Light - A heat sink for a light emitting diode (LED) lamp assembly includes a core region having a lower end, an upper end, a first region configured to receive an electrical connector, a second region configured to receive at least one LED, and a plurality of longitudinal vanes extending outwardly from the core region, and an upper thermal ring intersecting with and supported by the vanes. The heat sink further includes webs formed between adjacent pairs of the longitudinal vanes, the webs collectively defining an auxiliary thermal ring, the auxiliary thermal ring substantially circumferentially surrounding in spaced relation the core region and disposed, as viewed in the longitudinal direction, between the upper thermal ring and the lower rim. Each of the longitudinal vanes defines a respective thermal notch formed on a vane surface facing an adjacent longitudinal vane, the thermal notch being in confronting relationship to a respective air low aperture. | 09-19-2013 |
20130242558 | LUMINAIRE AND METHOD OF MANUFACTURING THE SAME - A luminaire according to one embodiment includes a light-emitting portion including a light-emitting element, a power control unit configured to supply power to the light-emitting portion, an external terminal connecting the power control unit and an external power source, and a ceramic housing having the power control unit housed therein, including the light-emitting portion mounted on one end side thereof and the external terminal mounted on the other end side thereof and configured to allow at least part of light radiated from the light emitting element to pass therethrough. | 09-19-2013 |
20130242559 | Light Emitting Diode Lamp - The present invention provides a light-emitting diode (LED) lamp ( | 09-19-2013 |
20130258667 | MOUNT FOR REPLACEABLE OPTICS IN LED LIGHTING MODULE - Systems and methods for mounting optics to an LED lighting module include a retainer engageable with the lighting module and a removable upper plate for securing the optics in the retainer. | 10-03-2013 |
20130258668 | PROCESS FOR PRODUCING AN LED LAMP AND A CORRESPONDING LED LAMP - A method for producing an LED lamp includes a lamp housing wherein at least one carrier circuit board equipped with LEDs is inserted into the lamp housing in such a way that at least a subregion of the lamp housing protrudes beyond the carrier circuit board with a projection, and the projection is at least partially deformed after insertion in such a way that the lamp housing is pressed with the carrier circuit board. | 10-03-2013 |
20130258669 | LED Light Module and LED Chip - An LED light module and an LED chip are provided. LED wafers ( | 10-03-2013 |
20130265764 | LIGHTING DEVICE - This disclosure provides systems, methods and apparatus for lighting devices. In one aspect, a lighting device includes a light engine and a connection portion. The connection portion can include a first end coupled to the light engine and a base connector disposed at the second end of the connection portion. In some implementations, the connection portion has a length dimension that is adjustable between at least a first length that positions the base connector at a first position relative to the light engine and a second length that positions the base connector at a second position relative to the light engine. | 10-10-2013 |
20130265765 | QUICK INSTALLATION MULTIFUNCTIONAL DISPLAY - The invention relates to a quick installation multifunctional display comprising at least two display units, connecting pieces for connecting the display units together; said display unit comprises a frame formed by four side walls, and through-holes are formed in the side walls of the frame, said connecting pieces connect the display units together by the through-holes in the side walls of the frame. The quick installation multifunctional display of the present invention could be formed by connecting the display units together through the connecting pieces, which makes the installation very convenient; furthermore, the workload and time for installation of the quick installation multifunctional display could be decreased, which lowers the installation costs. | 10-10-2013 |
20130265766 | LIGHT MODULE AND LIGHT STAND ASSEMBLY - A light stand assembly with a base having pivoting legs and a power supply circuit. An adjustable post detachably connects to the base. The adjustable post is configured for telescoping movement between a lower position and a raised position, and secures at a selected position with latches. An adjustable post connector moveably connects to the adjustable post. A pair of light modules detachably connect to the adjustable post connector and operatively connects to the power supply circuit. | 10-10-2013 |
20130265767 | Systems, Methods and/or Devices for Providing LED Lighting - A lighting device comprising a plurality of LEDs; a plurality of optic devices corresponding to the plurality of LEDs; at least one optical separator for substantially preventing the light emitted from one LED from effecting the other LEDs; a thermoelectric device configured to harvest heat generated by the LEDs and convert the harvested heat into electrical energy; and a low temperature material for creating a temperature difference across the thermoelectric device. | 10-10-2013 |
20130271986 | COMPOSITE LIGHTING SYSTEMS AND METHODS OF MAKING SAME - A method for retrofitting a lighting system includes providing a lighting assembly with a screw-terminal-base connector disposed in a lamp housing. A power-supply conductive wire includes a second length coupling the screw-terminal-base connector to a transformer and a first length coupled to the transformer and coupleable to a power supply. The first and second lengths of the power-supply conductive wire are severed and the transformer is removed. The severed first and second lengths are spliced together. An Edison-base receptacle is mounted to the lamp housing. The second length of the power-supply conductive wire is electrically coupled to the Edison-base receptacle. | 10-17-2013 |
20130271987 | GAS COOLED LED LAMP - A gas cooled LED lamp and submount is disclosed. The centralized nature of the LEDs allows the LEDs to be configured near the central portion of the optical envelope of the lamp. In example embodiments, the LEDs can be cooled and/or cushioned by a gas in thermal communication with the LED array to enable the LEDs to maintain an appropriate operating temperature for efficient operation and long life. In some embodiments, the LED assembly is mounted on a glass stem. In some embodiments a thermal resistant path is created that prevents overtemperature of the LED array during the making of the lamp. In some embodiments the LED assembly comprises a lead frame and/or metal core board that is bent into a three-dimensional shape to create a desired light pattern in the enclosure or an extruded submount formed into a three-dimensional shape. | 10-17-2013 |
20130271988 | HEAT SINK AND LED LAMP USING THE SAME - An LED lamp includes a heat sink. The heat sink includes a base, a number of fins and two fixing elements for fixing the heat sink. The base includes a first face and a second face opposite to the first face. The fins extend from the first face of the base. The two fixing elements are detachably fixed on two ends of the base, respectively. Each fixing element includes a mounting plate, a fixing plate fixed on the first face of the base, and a connecting member connecting the fixing plate with the mounting plate. | 10-17-2013 |
20130271989 | GAS COOLED LED LAMP - In one embodiment, a lamp comprises an optically transmissive enclosure. An LED array is disposed in the optically transmissive enclosure operable to emit light when energized through an electrical connection. A gas is contained in the enclosure to provide thermal coupling to the LED array. The gas may include oxygen. | 10-17-2013 |
20130271990 | GAS COOLED LED LAMP - In one embodiment, a lamp comprises an optically transmissive enclosure. An LED array is disposed in the optically transmissive enclosure operable to emit light when energized through an electrical connection. A gas is contained in the enclosure to provide thermal coupling to the LED array. The gas may include oxygen. | 10-17-2013 |
20130271991 | LED LAMP - A lamp has an optically transmissive enclosure and a base. A tower extends from the base into the enclosure and supports an LED assembly in the enclosure. The LED assembly comprises a plurality of LEDs operable to emit light when energized through an electrical path from the base. The tower and the LED assembly are arranged such that the plurality of LEDs are disposed about the periphery of the tower in a band and face outwardly toward the enclosure to create a source of the light that appears as a glowing filament. The tower forms part of a heat sink that transmits heat from the LED assembly to the ambient environment. The LED assembly has a three-dimensional shape. An electrical interconnect connects a conductor to the heat sink where the conductor is in the electrical path between the LED assembly and the base. | 10-17-2013 |
20130271992 | LED ARRAY MODULE AND MANUFACTURING METHOD THEREOF - The present invention provides an LED array module having an improved heat-dissipating effect, and a manufacturing method thereof. To this end, an LED array module includes one or more LED unit modules, the LED unit module comprising: an LED; a heat conductive heat-dissipating slug attached to the lower portion of the LED; and leads connected to the cathode and anode of the LED, respectively, wherein the LED array module comprises: a heat-dissipating plate; a heat conductive solder layer disposed and bonded between the upper surface of the heat-dissipating plate and the lower surface of the heat-dissipating slug; a first insulating layer formed on the upper surface of the heat-dissipating plate; and array electrodes which are formed on the upper surface of the insulating layer and are electrically connected to the leads to drive the LED. | 10-17-2013 |
20130279168 | LIGHT-EMITTING DIODE LUMINOUS DEVICE - An LED luminous device comprises a fin assembly, heat pipes, a printed circuit board located on the fin assembly and LEDs arranged on the printed circuit board. The fin assembly defines elongated through holes therein. Each heat pipe comprises a first pipe and a plurality of second pipes communicated with the first pipe. The first pipe comprises a straight pipe and two extending pipes extending from two ends of the straight pipe, and the plurality of second pipes are located between the two extending pipes and parallel to the extending pipes. The plurality of second pipes is communicated with the straight pipe. The extending pipes and the second pipes are inserted into the elongated through holes of the fin assembly. | 10-24-2013 |
20130279169 | LIGHT EMITTER COMPONENTS AND METHODS HAVING IMPROVED ELECTRICAL CONTACTS - Light emitter components and methods having improved electrical contacts and related methods are disclosed. In one embodiment, a light emitter component can include a submount, at least one light emitter chip on the submount, and at least one electrical contact disposed along portions of at least three external surfaces of the submount. The at least one electrical contact can be electrically connected to the at least one light emitter chip. | 10-24-2013 |
20130286650 | WRAP-AROUND WINDOW FOR LIGHTING MODULE - Lighting modules include a housing, a window attached to the housing, and an array of light-emitting elements that are positioned within the housing and emit light through the window. The window has a first surface and a second surface. The light from the array of light-emitting elements is emitted through the first surface and the second surface of the window. In some examples, the first surface and the second surface of the window are angled with respect to each other. | 10-31-2013 |
20130286651 | ILLUMINATION APPARATUS FOR SHOWCASE - An illumination apparatus ( | 10-31-2013 |
20130294078 | MODULAR LED ILLUMINATING DEVICE - The invention relates to a modular LED illuminating device that includes a case, multiple LED units and a power wire. The case has a front cover and a rear cover. Multiple holding holes are formed through the front cover, and a wire groove is formed on the rear cover. The multiple LED units are held by the multiple holding holes. The power wire is partially mounted in the wire groove and electrically connected to the multiple LED units. Compared with conventional fluorescent lamps, the modular LED illuminating device has long lifetime and saves more energy. | 11-07-2013 |
20130301268 | SOLID STATE LIGHT WITH ALIGNED LIGHT GUIDE AND INTEGRATED VENTED THERMAL GUIDE - A light with integrated light and thermal guides, and having solid state light sources such as LEDs. The light guide includes a material having a first surface and a second surface opposite the first surface and forming an interior volume. The light guide is coupled to the LEDs for receiving and distributing light from them through the first surface, and the light is transported through the light guide until the light is extracted from the first or second surface. The light guide can include alignment features such as fiducials that mate with a base. The thermal guide is contained within the interior volume and integrated with the light guide for providing thermal conduction from the LEDs for cooling the light. The thermal guide can be vented to provide for internal cross flow of air for the cooling. | 11-14-2013 |
20130301269 | LED LAMP - An LED lamp A | 11-14-2013 |
20130308314 | LED LAMP - An exemplary LED lamp includes a heat sink, and an LED module mounted on the heat sink. The heat sink includes a base, a receiving tube extending upwardly from a first face of the base, and a plurality of fins extending outwardly from an outer circumference of the receiving tube. The LED module is mounted a second face of the base. A plurality of through tunnels are defined in the base. The through tunnels extend through the base from the first face to the second face of the base. Each through tunnel communicates with an air passage between two neighboring fins. | 11-21-2013 |
20130314920 | Direct Heat Sink Technology for LEDs and Driving Circuits - Thermally radiating heat sinks are soldered directly beneath individual LEDs and other heat generating electronic components on the opposite side of an FR | 11-28-2013 |
20130314921 | EXPLOSION-PROOF LAMP WITH HEAT DISSIPATION MECHANISM - An explosion-proof lamp with a heat dissipation mechanism includes a lamp base, a heat dissipater and a lighting module. The heat dissipater further includes a heat dissipation body having a foundation and a column block extended from the foundation; wherein the cross-sectional size of the foundation is greater than the one of the column block. A fastening means is provided between the foundation and the lamp base such that the foundation is fastened onto the lamp base via the fastening means. The lighting module is secured onto the column block. With such novel design, the heat dissipation effect of the explosion-proof lamp is advantageously improved. | 11-28-2013 |
20130322080 | LED LIGHTING DEVICE - An LED lighting device at least comprises a base made of metal materials; a substrate which is disposed on a surface of the base and has one electrode and at least one LED chip; and an insulation sheet which is disposed between the base and the substrate. The insulation sheet and the substrate satisfy the correlations L | 12-05-2013 |
20130322081 | LIGHT EMITTING ELEMENT AND ILLUMINATION DEVICE THEREOF - A light emitting element includes a transparent substrate and a plurality of light emitting diode (LED) chips. The transparent substrate has a support surface and a second main surface disposed opposite to each other. At least some of the LED chips are disposed on the support surface and form a first main surface where light emitted from with a part of the support surface without the LED chips. Each of the LED chips includes a first electrode and a second electrode. Light emitted from at least one of the LED chips passes through the transparent substrate and emerges from the second main surface. An illumination device includes the light emitting element and a supporting base. The light emitting element is disposed on the supporting base, and an angle is formed between the light emitting element and the supporting base. | 12-05-2013 |
20130322082 | MODULAR LIGHT EMITTING DIODE (LED) LIGHTING FIXTURES - A lighting fixture include a printed circuit board (PCB) and multiple light emitting diodes. Multiple connection terminals are electrically connected to the printed circuit board including alternating current (AC mains) connection terminals and communications connection terminals. A communications interface is electrically connectible to the communications connection terminals adapted to provide communications addressable to the control circuit. A communications signal for controlling the operating parameter is transferable to the communications interface via the other lighting fixture through the communications connection terminals. | 12-05-2013 |
20130343056 | High-Power Light Emitting Diode Illumination System - Disclosed herein are systems for removing heat from LED illumination equipment. Such systems typically include a heat dissipater formed as a monolithic box-shaped structure having six faces, with no protuberances extending from any of the six faces. The heat dissipater may be fabricated from carbon foam. Some embodiments include a heat sink, and holes are drilled through the system to provide convection cooling. | 12-26-2013 |
20140003051 | PEDESTAL LIGHT ASSEMBLY | 01-02-2014 |
20140003052 | DISPLAY MODULE MOUNTING | 01-02-2014 |
20140022788 | Novel LED Light Bulb - The invention discloses a novel LED (light-emitting diode) light bulb which comprises a light holder, a light cover and an LED light-emitting body, wherein the LED light-emitting body is composed of an LED light and a driving circuit board; the LED light is electrically connected with the driving circuit board; the driving circuit board is electrically connected with the light holder; the LED light-emitting body is installed in the light cover; and the light cover is installed on the light holder. The LED light bulb is simple in structure, has high universality, is energy saving and electricity saving, is convenient to maintain, has a long service life, is economical and practical, and is suitable for popularization and using. | 01-23-2014 |
20140022789 | LIGHT CORE STRUCTURE AND MANUFACTURING PROCESS THEREOF - The present invention provides a light core structure and a manufacturing process thereof Firstly, an insulation material that is temperature resistant and has high thermal conductivity is provided to serve as a base material and the base material is used to form a thermal conductive body that has a cylindrical shape, a circular tubular shape, a spherical pillar shape, or a conical pillar shape. Printing techniques are then applied to print solderable conductive metal wiring on a surface of the thermal conductive body and heat is applied to cure the wiring to form a curved surface circuit. Afterwards, SMD bonding technique is applied, together with a fixture, to mount SMD LED elements to the curved surface of the thermal conductive body through soldering. The thermal conductive body is then coupled to an adaptor element through threading or other suitable machining or being used in combination with other thermally conductive bar. | 01-23-2014 |
20140022790 | LED LAMP STRUCTURE - A LED lamp structure includes a circuit board carrying multiple spaced LEDs and provided with a power cable, a single-piece housing cut from an integral tubular bar subject to the length of the circuit board and adapted to accommodate the circuit board, two end plugs respectively plugged into the two ends of the single-piece housing, and two end caps respectively capped on the two ends of the single-piece housing for enabling the power cable to extend to the outside of the single-piece housing for connection to an external power source. | 01-23-2014 |
20140022791 | LIGHT BAR AND LIGHT EMITTING MODULE USING THE SAME - A light bar is disclosed which includes a substrate, plural LEDs disposed on the substrate, a first connector and a second connector disposed on opposite sides of the substrate, a first wire, a second wire, a third wire, and a fourth wire. The first connector sequentially includes a first pin, a second pin, a third pin, and a fourth pin. The second connector sequential includes a fifth pin, a sixth pin, a seventh pin, and an eighth pin. The first wire connects the first pin to the second pin. The second wire connects the third pin to the fifth pin. The third wire connects the sixth pin to the seventh pin. The fourth wire connects the fourth pin to the eighth pin. A light emitting module using the light bar is also disclosed. | 01-23-2014 |
20140029258 | DEVICE FOR SECURING A SOURCE OF LED LIGHT TO A HEAT SINK SURFACE - A device for securing a source of LED light to a heat sink includes an LED light source engaging surface that is arranged and configured to engage at least a portion of the source of LED light and which is provided with an integrated force applying spring. Further, the device may include a continuous metallic path extending between the sources of LED light and the surface. | 01-30-2014 |
20140029259 | HEAT SINK FOR LED LIGHT SOURCE - A back panel for use in a light emitting diode (LED) lighting assembly is disclosed. An extruded substrate formed of a thermally conductive material is provided, the substrate having a plurality of fins extending from a first side of the substrate, each of the fins having a substantially rectangular shape oriented so that a longitudinal axis of the fin is substantially parallel to a longitudinal axis of the substrate. At least some of the fins include a hole formed through the fin to enable heated air to rise through the fins. A plurality of LEDs are mounted on a second side of the substrate, and oriented in a longitudinal orientation with the fins oriented parallel to the bottom edge of a surface to be illuminated, such that heat rises perpendicular to the surface of the fin. | 01-30-2014 |
20140029260 | LIGHTING DEVICE - A lighting device includes a lighting unit and a frame. The lighting unit has at least one light emitting unit with light emitting elements. The frame sandwiches outer edges of the lighting unit to support the lighting unit. | 01-30-2014 |
20140036503 | DROP CEILING LIGHTING TECHNIQUES - Techniques and architecture are disclosed for integrating lighting into a dropped/suspended ceiling. In some cases, a light source (e.g., light emitting diodes, laser diodes, etc) can be operatively coupled with the support grid/matrix of a drop ceiling. In some instances, the light source can be mounted on the underside of a drop ceiling T-frame and configured to emit/direct light sideways and/or downward from the ceiling. In some other instances, the light source can be mounted on an interior portion of a T-frame and configured to emit/direct light: (1) into an adjacent lightguide configured to direct the light downward from the ceiling; and/or (2) onto an adjacent reflective ceiling tile configured to direct the light downward from the ceiling. Some such lighting fixtures can be configured to be substituted for a standard or custom drop ceiling tile. | 02-06-2014 |
20140036504 | OPTICAL SEMICONDUCTOR ILLUMINATING APPARATUS - Embodiments of the invention provide an optical semiconductor illuminating apparatus, which includes a heat dissipating base; a light emitting module comprising at least one semiconductor light emitting device and mounted on a lower side of the heat dissipating base; and a plurality of heat dissipating fins each having opposite edges protruding from opposite sides of the heat dissipating base and being mounted on an upper surface of the heat dissipating base. | 02-06-2014 |
20140043815 | LIGHT EMITTING DIODE BULB STRUCTURE FOR ENHANCING HEAT DISSIPATION EFFICIENCY - A light emitting diode (LED) bulb structure includes a lamp shell, a light emitting assembly, a heat conducting body and a heat dissipating body. The light emitting assembly includes a light source substrate carrying at least one light emitting element. The heat conducting body includes a heat collecting portion contacting the light source substrate, a heat conducting portion connecting to the heat collecting portion, and multiple heat conducting fins extended radially and outwardly from the heat conducting portion. The heat dissipating body is formed on the heat conducting body through injection molding and includes multiple heat dissipating fins disposed on the surface thereof correspondingly to the heat conducting fins such that the heat conducting fins are encased therein. Accordingly, heat generated by the light source substrate is absorbed by the heat collecting portion and then conducted from the heat conducting fins to the heat dissipating fins for dissipation. | 02-13-2014 |
20140043816 | LED LAMP BULB WITH A RETAINER RIM - An LED lamp bulb includes a heat sink carrying LEDs, a radiation fin set including multiple radiation fins radially arranged around the heat sink, an insulative lamp bulb base affixed to the bottom side of the radiation fin set, a light-transmission bulb shell having retaining lugs equiangularly spaced around the bottom open side thereof, and a retainer rim set between the radiation fin set and the light-transmission bulb shell and having protruding strips equiangularly spaced around an inner perimeter of a front wall thereof and respectively plugged into the gaps between each two adjacent ones of the radiation fins and retaining notches equiangularly spaced around an outer perimeter of a back wall thereof and respectively forced into engagement with respective retaining lugs of the light transmission bulb shell. | 02-13-2014 |
20140043817 | Method And Device For Constructing High-Power LED Lighting Fixture - A method and a device for constructing a high-power LED lighting fixture are disclosed, wherein a high power LED lighting fixture is constructed by assembling one or more standard-interface LED lamp heads, in which an LED optical module and a separate power source are integrated, onto a lamp base ( | 02-13-2014 |
20140043818 | LIGHTING DEVICE AND METHOD FOR PRODUCING A LIGHTING DEVICE - The lighting device ( | 02-13-2014 |
20140056001 | LED LIGHT BULB MODULE - A light emitting diode (LED) light bulb module includes an LED light bulb unit having a first connector; an LED supporting device unit having a second connector which is configured to electrically coupled to the first connector, and a third connector which is configured to electrically coupled to a power supply source; and a thermal insulating structure configured to thermally decouple the LED light bulb unit and the LED supporting device unit. The LED light bulb unit and the LED supporting device unit can be either physically joined or detached from each other, and ideally, two separated heat sink apparatuses, each dedicated to the LED light bulb unit and the LED supporting device unit, respectively may be used. | 02-27-2014 |
20140056002 | THREE DIMENSIONAL LIGHT EMITTING DIODE SYSTEMS, AND COMPOSITIONS AND METHODS RELATING THERETO - A flexible layered structure is disclosed having a flexible top conductive layer, a flexible bottom heat sink layer and a flexible dielectric middle layer. The combination has a longitudinal axis and a plurality of defined positions spaced along the longitudinal axis. The defined positions can be used for aligning a circuit and/or for the placement of LED lights. The flexible layered structure can be easily bent to form a LED substrate for shining light in more than one direction while efficiently removing heat arising from the LEDs. | 02-27-2014 |
20140063806 | Heat-Dissipating Structure for an LED Lamp - A heat-dissipating structure for LED lamp has a lamp cover, and a power conversion device and a ceramic substrate mounted inside the lamp cover. The lamp cover has multiple heat-dissipating holes and multiple mounting ears. Each mounting ear is formed on an edge of one of the heat-dissipating holes and is bent inwardly with the heat-dissipating hole uncovered. The ceramic substrate is mounted on the mounting ears. The ceramic substrate has multiple LEDs mounted thereon, absorbs heat generated when the LEDs emit light and conducts the heat to the lamp cover through the mounting ears. The heat generated when the LEDs are lit and the power conversion converts a mains power is transferred to a heat convection space between the ceramic substrate and the lamp cover, and is further dissipated to an ambient environment, thereby achieving fast heat dissipation and a light LED lamp without additional heat sink thereon. | 03-06-2014 |
20140063807 | LIGHT EMITTING STRUCTURE AND LIGHTING UNITS THEREOF - A lighting unit includes a base and light emitting elements. At least a pin is disposed at the top of the base, and the light emitting units are provided on and electrically connected to the pin. At least a conductive hole is formed at a location in the base corresponding to the pin for communicating with the top and the bottom of the base. Also, a plurality of the lighting units are integrally arranged to form a light emitting structure. | 03-06-2014 |
20140071677 | MULTI-TIERED LIGHTING SYSTEM - The present disclosure relates to a multi-tiered lighting system that has a pole and at least two light sources. A first light source is mounted to the pole at a first height, and a second light source is mounted to the pole at a second height that is substantially different than the first height. The first light source is configured to project a first beam of light that primarily lights up a first portion of a target coverage area, and the second light source is configured to project a beam of light that primarily lights up a second portion of the target coverage area, which is different from the first target coverage area. The first beam of light may spill onto the second target area, and the second beam of light may spill onto the first target area. | 03-13-2014 |
20140071678 | LED LIGHT BULB STRUCTURE - A LED light bulb structure has a base body, a control circuit board, a housing, at least a LED light source and a cover body. The base body is connected to the housing to form a containing space for disposing the control circuit board. The housing is disposed with a mounting portion that is inclined toward the housing to dispose the LED light source. Since the mounting potion is inclined, the illumination range of light beam of the LED light source is increased to provide wider illumination range without affecting the brightness of the LED light bulb structure, wherein the housing is integrally formed and disposed with a plurality of gutters at its outer surface to enhance heat dissipation effect, and integrated formation can also simplify the manufacture process and save the assembly time. | 03-13-2014 |
20140071679 | System, Method, and Apparatus for Dissipating Heat from a LED - A lighting system includes a base that is made of a thermally conductive material. Mounted within a cavity in the base and thermally interfaced to the base is a device that produces light (LED or LED array). Heat produced by the device that produces light conducts from the device to the base. A removable bezel is connected to the base along a conical frustum interface. The interface is formed at an angle with respect to a lengthwise axis of the bezel such that heat from the base conducts through the conical frustum interface and to the bezel from which the heat is radiated into the room ambient environment. An extension of the bezel includes an optional trim preferably made of the same or a similar material. | 03-13-2014 |
20140078736 | High power LED apparatus attaches to heat conductive object - This is a high power LED apparatus comprised of high power LED that attach to heat conductive object or Plate. Apparatus has luminary and electrodes on base and away from heat conductive object. Apparatus has underbelly thermal stub to make contact with heat conductive object to dissipate heat. Apparatus also has attaching means to anchor to heat conductive object, said attaching mean maybe a bulge thermal stub locked into cavity of heat conductive object. | 03-20-2014 |
20140078737 | ACTIVE HEAT DISSIPATING LIGHT EMITTING DIODE ILLUMINATION LAMP - An active heat dissipating LED illumination lamp includes a substrate holder, at least one LED illumination assembly, a plurality of heat pipes and a heat sink module. The LED illumination assembly is installed on a side of the substrate holder, and the heat pipes and the heat sink module are installed on the other side of the substrate holder, and a plurality of first diversion channels is formed between the heat pipes, and each heat dissipating fin has at least one ventilation hole occupying 12%˜60% of the total area to form a second diversion channel, and a second interval is defined between the bottom of the heat sink module and the substrate holder. When the heat generated by the LED illumination assembly is provided for performing heat conduction, the heat is guided actively to the second diversion channel to perform heat convection. | 03-20-2014 |
20140078738 | LIGHT-EMITTING MODULE AND LAMP USING SAME - A light-emitting module includes a substrate, an LED chip arranged on a main surface of the substrate, a sealing member covering the LED chip on the main surface of the substrate and converting a wavelength of the light produced by the LED chip, and a heat transfer member thermally connecting the sides of the LED chip to the main surface of the substrate and dissipating heat produced by the LED chip to the substrate. The heat transfer member is made up of a silicone resin having particles dispersed therein, the particles being nanoparticles of ZrO | 03-20-2014 |
20140078739 | Microchannel Cooler for Light Emitting Diode Light Fixtures - A lighting module has an array of light emitters, a heat sink having a first surface, the array of light emitters being mounted to the first surface, a microchannel cooler arranged on a second surface of the heat sink on an opposite side of the heat sink from the first surface, the microchannel cooler arranged to transport a liquid through a channel on the second surface of the heat sink, and a cooling unit thermally coupled to a microchannel cooler and arranged to remove heat from the liquid. | 03-20-2014 |
20140078740 | LED Light Fixture - An LED light fixture a housing, a heat sink secured with respect to the housing, the heat sink has a base with front and back surfaces, and an LED arrangement mounted at the front surface of the heat sink The back surface of the heat sink is open to water/air flow thereover. The LED light fixture also includes at least one closed channel extending along the base and spaced therefrom for receiving wire connections for the LED arrangement. The at least one closed channel receives wiring extending to/from the second LED module. The LED arrangement may include at least first and second LED modules, the first LED module being proximal to the housing with the at least one closed channel receiving wiring extending to/from the second LED module. The first and second LED modules may be in end-to-end relationship to one another such that the second LED module is distal from the housing. | 03-20-2014 |
20140085893 | Thermally-Managed Electronic Device - A thermally-managed electronic device, such as a heat-generating lamp or microelectronic assembly, takes advantage of the latent heat of phase-change within a heat pipe and functions in cooperation with a plurality of heat-radiating elements to enhance heat removal capacity from a heat source. The device, which may be provided in a natural convection or forced air convection embodiment, improves the heat removal on the cold side of the heat pipe by providing a much larger heat-radiating surface area in the form of a plurality of heat-radiating elements that are each thermally connected by means of one or more thermal connecting elements. | 03-27-2014 |
20140085894 | LIGHTING APPARATUS WITH A BOOST - Lighting apparatus and structures are described to space electrical drivers from a light panel. In this way, a driver box housing the driver can be spaced from the light panel to communicate with pre-existing facilities (e.g. electrical wiring) and can serve the additional advantage of keeping the driver box out of standing water that may accumulate on the structure. | 03-27-2014 |
20140092598 | METHOD FOR EMBEDDING A LED NETWORK - The invention relates to a method for embedding a non-embedded or bare LED network. To this end, the method of embedding a non-embedded LED network comprises the steps of: •(a) providing said non-embedded LED network associated with a continuous flexible support; •(b) applying in a continuous manner a flexible insulation layer on a liquid basis onto said non-embedded LED network associated with said continuous flexible support. | 04-03-2014 |
20140098538 | COOLING OF SEMICONDUCTOR DEVICES - A semiconductor device such as an LED illumination device includes a substrate sheet ( | 04-10-2014 |
20140104834 | Luminaire With Modular Cooling System and Associated Methods - A luminaire comprising a base, a heat sink modularly connected to the base, and a heat-generating element in thermal communication with the modular heat sink. The heat sink may include a heat-generating element contacting portion, and a plurality of heat sink segments connected to and extending outwardly therefrom. Each of the heat sink assemblies segments may comprise at least one fin assembly. Each heat sink segment may pass through a respective plurality of passageways in the top portion of the base so that the heat sink segments may matingly engage the medial portion of the base. A method for forming a heat sink comprises fabricating a heat-generating element contacting portion, constructing a plurality of heat sink segments, and assembling the plurality of heat sink segments to connect to and extend outwardly from the bottom surface of the heat-generating element contacting portion. | 04-17-2014 |
20140104835 | LED Lighting Fixture - An LED lighting fixture including a housing and an LED assembly secured with respect to the housing to permit air/water-flow over the LED assembly. The LED assembly includes a plurality of LED-array modules on an equal plurality of individual heat sinks. The housing defines an air gap permitting air/water-flow to and from the heat sinks. | 04-17-2014 |
20140104836 | High-Output LED Light Fixture - An LED floodlight fixture LED light fixture including a plurality of heat-sink-mounted LED-array modules, each module engaging an LED-adjacent surface of a heat-sink base for transfer of heat from the module, and at least one venting aperture through the heat-sink base to provide air ingress to the heat-dissipating surfaces adjacent to the aperture. The LED light fixture may include a plurality of heat sinks, each heat sink with its own heat-dissipating surfaces and heat-sink base which has one of the LED-array modules engaged thereon. The heat-sink base is wider than the module thereon such that the heat-sink base includes a beyond-module portion. The venting aperture(s) is/are through the beyond-module portion of the heat-sink base. The inventive light fixture may include a housing and an LED assembly which includes the heat-sink-mounted LED-array modules. The LED assembly and the housing form a venting gap therebetween to provide air ingress along the heat-sink base to the heat-dissipating surfaces. | 04-17-2014 |
20140104837 | Lamp Having Outer Shell to Radiate Heat of Light Source - A lamp includes an outer shell having heat conductivity, a base provided in the outer shell, and a cover provided in the outer shell. The outer shell has a light source support, and a heat radiating surface exposed to the outside of the outer shell. The light source support is formed integral with the heat radiating surface. A light source is supported on the light source support. The light source is heated during lighting, and thermally connected to the light source support. The light source is covered with the cover. | 04-17-2014 |
20140111992 | LEADFRAME-BASED SURFACE MOUNT TECHNOLOGY SEGMENTED DISPLAY DESIGN AND METHOD OF MANUFACTURE - A multi-segment display is disclosed. The multi-segment display includes substantially no hotspots and is substantially free of color discoloration that accompanies hotspots. The multi-segment display is configured for surface mounting. The multi-segment display is provided with a leadframe that fits into a package body thereby placing the light sources mounted on the leadframe in closer proximity to the encapsulant that fills vias of each segment. | 04-24-2014 |
20140111993 | SURFACE MOUNTING LAMP - An air intake device for a submarine comprises a first fixed member connected to the submarine hull and a second member which is telescopically movable relative to the first member to rise up with an upper end of it above the waters surface to allow air to be taken in from the atmosphere during navigation of the submarine at periscope depth, the movable member mounting at its upper end a radar device designed to emerge from the water together with the selfsame movable member. | 04-24-2014 |
20140111994 | LIGHTING MODULE FOR A MODULAR LIGHTING SYSTEM - The present invention relates to a lighting module ( | 04-24-2014 |
20140111995 | HEAT SINK FOR LED LIGHT SOURCE - A back panel for use in a light emitting diode (LED) lighting assembly is disclosed. An extruded substrate formed of a thermally conductive material is provided, the substrate having a plurality of fins extending from a first side of the substrate, each of the fins having a substantially rectangular shape oriented so that a longitudinal axis of the fin is substantially parallel to a longitudinal axis of the substrate. At least some of the fins include a hole formed through the fin to enable heated air to rise through the fins. A plurality of LEDs are mounted on a second side of the substrate, and oriented in a longitudinal orientation with the fins oriented parallel to the bottom edge of a surface to be illuminated, such that heat rises perpendicular to the surface of the fin. | 04-24-2014 |
20140119014 | LABELING OF HARDWARE MODULES - A housing for electronic components comprising at least one hardware module and a frame. The hardware module comprises a mounting element, wherein the frame connects the at least one hardware module through the mounting element mechanically stable to the housing. A labeling element is attached to the mounting element and the housing has at least one viewing opening so that at least one part of the labeling element can be seen from the outside of the housing. | 05-01-2014 |
20140126208 | MODULAR LIGHTING TECHNIQUES - Techniques and architecture are disclosed for providing a modular lighting system/luminaire having an integrated heat sink assembly. In some cases, the system/luminaire may comprise a plurality of individual modular light sources which have been operatively coupled with one another. In some instances, a modular light source may include one or more light engines (e.g., light emitting diodes or LEDs) which have been operatively coupled with an individual heat sink module. When assembled, the plurality of heat sink modules may define, in the aggregate, a plurality of heat conduits which dissipate thermal energy from the light engines by convective heat transfer. Also, in some cases, the heat sink modules may be electrically isolated from one another, allowing for the heat sink assembly itself, in part or in whole, to function as part of the desired circuit. | 05-08-2014 |
20140126209 | LED LAMP STRIP AND MANUFACTURING PROCESS THEREOF - A process of manufacturing an LED lamp strip includes the steps of forming a plurality of through holes on an adhesive tape, mounting the adhesive tape to a top side of a scrollable lead frame, bonding a plurality of LED chips to the top side of the scrollable lead frame according to the positions of the through holes, packaging the LED chips respectively, and finally cutting the scrollable lead frame. In light of this, the LED lamp strip can be produced under the circumstances of low production cost and less production time. | 05-08-2014 |
20140133150 | LINEAR LED LIGHT MOUNTING SYSTEM - In various embodiments, a system for providing an LED illumination source on a surface includes a light module comprising (i) an illumination area for receiving one or more light-emitting diodes (LEDs) and (ii) slip joints at first and second ends of the light module, each slip joint comprising a slip joint slot, and at least one bracket for mounting the light module to the surface, the at least one bracket having (i) a fitting frictionally receivable within one of the slip joint slots and (ii) a mounting region engageable to the surface. | 05-15-2014 |
20140146534 | LED LAMP - A light emitting diode (LED) lamp includes a holding assembly, at least one LED and a heat pipe. The holding assembly includes a thermal-conductive base and at least one fixing component connected to the thermal-conductive base. The LED is mounted on one side of the thermal-conductive base. The heat pipe is inserted in the fixing component, such that a passageway is formed and communicating with an inside of the heat pipe. As this result, a plurality of airflow passages are formed on the thermal-conductive base, and the LED lamp can achieve good thermal-conductive efficiency. | 05-29-2014 |
20140146535 | FLOODLIGHT COMPRISING LIGHT-EMITTING DIODES - A floodlight having a plurality of light-emitting diode arrangements which are arranged on a light-emitting surface on the front face of a support plate so as to be laterally spaced from one another. The light-emitting diode arrangements are retained directly or indirectly on the support plate by mechanically releasable retaining elements which can be actuated without tools. The retaining elements are designed such that the retaining elements can be actuated from the front face of the support plate, and the light-emitting diode arrangements can be removed from the front face of the support plate when the retaining elements are in the released position. At the same time, the retaining means press the light-emitting diode arrangements onto a heat sink arrangement in a retaining position in order to ensure a good heat transfer between the light-emitting diode arrangements and the heat sink arrangement. | 05-29-2014 |
20140146536 | LED COMPONENT, LED MODULE AND METHOD FOR MANUFACTURING THE LED COMPONENT - A light emitting diode (LED) component includes a base having a main body and a wiring pattern. The main body defines an axis and includes two connecting surfaces respectively located at two opposite sides thereof, and a plurality of interconnected mounting surfaces surrounding the axis and connected between the connecting surfaces. The wiring pattern is at least disposed on the mounting surfaces and includes electrically insulated anode and cathode. A plurality of light emitting diode (LED) chips are disposed on the mounting surfaces. Each LED chip is electrically connected to the anode and the cathode. | 05-29-2014 |
20140153241 | DISPLAY BOARD AND DISPLAY BOARD COMPONENTS - A display board is disclosed for displaying video or still images using light emitting diodes as pixels. The connections of one or more of the light emitting diodes to a carrying circuit board, for example by terminal legs, such that the connections of each light emitting diode are encased in separate pools of potting. Alternatively, each pool of potting could encase the connections of multiple light emitting diodes. The circuit board is associated with a frame and a louver. The louver has a panel and a flange about its perimeter and the flange extends to attach to the frame with a snap-fit attachment. The louver also provides one or more barbs extend from the louver panel through an aperture defined in the circuit board and snap-fits to the frame. The display board also provides a power supply having a power supply case that defines a mounting slot having an insert aperture with a width sized to allow a distal end of a mounting tab extending from the frame to pass through the power supply case. The power supply case further defines a retention slot having a width sized to prevent the frame mounting tab distal end from passing through the base plate. | 06-05-2014 |
20140153242 | Aerodynamic LED Light Fixture - An LED light fixture having a light-emitting region and a perimetrical structure therearound. The light-emitting region includes at least one LED-array module supported by an LED heat sink open for air/water-flow. The perimetrical structure has first and second opposite substantially-aligned edge-adjacent portions each extending along the light-emitting region and meeting each other at a perimetrical edge. The first and second edge-adjacent portions converge toward each other at positions progressively closer to the perimetrical edge to form aerodynamic-drag-reducing cross-sectional profiles transverse to the fixture plane and extending in substantially all fixture-plane directions from the intersection of its two major principal axes. | 06-05-2014 |
20140153243 | ORNAMENTAL LIGHT SET - An ornamental light set for use with a decorative pumpkin, in which the pumpkin defines an interior pumpkin space and a pumpkin top, includes a mounting assembly having a mounting face and a support member extending from the mounting face for mounting to the pumpkin top. A control assembly is coupled to the mounting assembly and includes a control circuit and one or more lights coupled to the control circuit. The one or more lights are suspended from the control circuit into the interior pumpkin space. | 06-05-2014 |
20140160757 | LIGHT ENGINE - An LED-based high power uniform light engine including an array of LEDs having a common anode and a fill factor which exceeds 0.85, the common anode having heat spreading functionality and an active heat sink which is thermally connected to the common anode. | 06-12-2014 |
20140160758 | LED LAMP - An LED lamp includes a lamp body and a plurality of LED modules. The lamp body defines a pair of inserting holes in each of two opposite sides thereof. The LED modules each have a pair of inserting pins at a side thereof and a pair of inserting holes in an opposite side thereof. In assembly, the LED modules are electrically connected to the lamp body via inserting the inserting pins of the LED modules into the inserting holes of the lamp body and into the inserting holes of adjacent LED modules. In disassembly, the LED modules are detached from the lamp body and the adjacent LED modules via pulling the inserting pins of the LED modules out of the inserting holes of the lamp body and the adjacent LED modules. | 06-12-2014 |
20140168977 | 360-degree Projection LED Bulb Structure - A 360-degree projection LED bulb includes a bulb holder, a transparent bulb seat, a transparent bulb shell, an upper luminosity module, a heat dissipating seat, and a plurality of sidelight luminosity modules. The upper luminosity module includes upper LEDs supported within an upper end of the transparent bulb seat and can be driven to project light beams towards the transparent bulb shell. The heat dissipating seat is engaged on a lower end face of an upper LED substrate of the upper luminosity module and includes side walls formed as an annular polygon. Each sidelight luminosity module is mounted on an associated side wall and includes a lateral LED substrate and at least one lateral LED disposed on the lateral LED substrate. Each lateral LED can be driven to radiate horizontally and downward via the transparent bulb seat. As such, the LED bulb realizes wide-angle radiation effect and superior cooling effect. | 06-19-2014 |
20140168978 | Full-Beam-Angle LED Bulb Structure - A full-beam-angle LED bulb includes a bulb holder, a bulb socket, an actuator mounted in the bulb socket, a transparent bulb shell coupled with the bulb socket, two conductive poles, and a luminosity module. A retainer is provided on the actuator. Lower ends of the conductive poles are coupled with the retainer and electrically connected to the actuator. The luminosity module is installed in the transparent bulb shell and includes an LED substrate and at least one downward-light LED on a lower end face of the LED substrate. The LED substrate can be further provided with at least one upward-light LED on an upper end face thereof which is electrically connected to downward-light LED. The LED substrate is electrically connected to upper ends of the two conductive poles. The upward-light and downward-light LEDs are respectively activated to project upward light or downward light through the transparent bulb shell. | 06-19-2014 |
20140168979 | LIGHT EMITTING DIODE MODULE WITH HEAT-CONDUCTING POLES - An exemplary light-emitting diode (LED) module includes a base, a substrate arranged on the base, and LED chips mounted on the substrate. Through holes are defined in the substrate. The through holes are spaced from each other. Heat-conducting poles extend through the through holes, and a top end of each heat-conducting pole connects the LED chip and a bottom end of each heat-conducting pole connects the base. Heat generated from the LED chips is absorbed by the heat-conducting poles, and then transferred to the base for dissipation from the base. | 06-19-2014 |
20140168980 | ARRANGEMENT OF A HEAT SINK AND HEAT-GENERATING ELECTRONIC COMPONENTS HOUSED THEREON - The invention concerns an arrangement of a heat sink and heat-generating electronic components housed thereon, in which the heat sink comprises a main part ( | 06-19-2014 |
20140168981 | Cover Assembly - A cover assembly includes a bottom surface that supports deflecting terminals and a connector and further includes a controller mounted on the bottom surface that receives power from the connector and directs the power to the deflecting terminals. Traces formed on the bottom surface can electrically couple the connector to the controller and the controller to the deflecting terminals. | 06-19-2014 |
20140185292 | HOUSING FOR ELECTRONIC DEVICE - A housing of an electronic device includes a frame having a plurality of first opposite and second opposite sets of, a front cover, and a rear cover. The front cover and the rear cover are attached to two opposite sides of the frame to define a receiving space. The frame is made of wood. At least one sidewall defines at least one through groove. A transparent plastic article is engaged in each through groove. At least one LED lamp is located in the receiving space, and each LED lamp faces the one transparent plastic article. | 07-03-2014 |
20140185293 | INTERCHANGEABLE MOLDING DESIGNS AND LIGHTING PANELS - A molding member may include at least one interchangeable panel that may be interchanged after the molding member has been installed to a support structure. The molding member may allow the molding design to be replaced to match the desired appearance of the room in which the molding is attached. Thus, the molding design may be interchanged without having to remove and reinstall new molding members. The molding design may include interchangeable lighting elements. | 07-03-2014 |
20140185294 | LIGHT EMITTING DEVICE - In a light emitting device, one of at least one reinforcing portion is disposed on a site for joining regions of two wiring portions. The site for joining regions is provided for at least a first joining region where the first groove portion and the third groove portion join, and a second joining region where the second groove portion and the third groove portion join. A light emitting element is disposed over the third groove portion. In a plan view of the substrate member, the reinforcing portion surrounds the light emitting element. The upper surface of the reinforcing portion is lower than the upper surface of the light emitting element. | 07-03-2014 |
20140192530 | FREELY-FOLDABLE FLEXIBLE LED SCREEN - A freely-foldable flexible LED screen includes multiple LED sub-screens, PCBs disposed inside casings of the LED sub-screens, LEDs disposed on the PCB, and conducting wires electrically connecting the PCBs. Adjacent LED sub-screens are connected using a connection mechanism capable of freely rotating, which includes a rotation rod, and rotation shafts disposed at two ends of the rotation rod; the casing of the LED sub-screen includes a front casing and a rear casing; where grooves are symmetrically disposed at edges of the front and rear casings, the rotation shafts at two ends of the rotation rod are respectively installed in grooves in the casings of two adjacent LED sub-screens, the grooves of the front and rear casings are further provided with close covers connecting the rotation shafts, where the close cover corresponding to the rotation shaft is provided with a rotation shaft groove that is rotatably connected to the rotation shaft. | 07-10-2014 |
20140198501 | LIGHTING BASE OF THE LED LAMP AND ITS STAMPING MOLD - The present invention provides the LED Lamp a new lighting base and its stamped molds to prevent the LED Lamp from electric leakage problems caused by the circuit board's loosening and damage from long continued use. | 07-17-2014 |
20140198502 | HIGH-POWER LED LAMP - A high-power LED lamp set is provided in the present invention. The high-power LED lamp set comprises: a power converting module; a power supply casing ( | 07-17-2014 |
20140198503 | LIGHTING DEVICES COMPRISING SOLID STATE LIGHT EMITTERS - A lighting device comprising a trim element, an electrical connector and at least one solid state light emitter, the lighting device weighing less than one kilogram. If current of about 12 watts (or in some cases about 15 watts, or in some cases not more than about 15 watts) is supplied to the electrical connector, the at least one solid state light emitter will illuminate so that the lighting device will emit white light of at least 500 lumens. Also, a lighting device that weighs less than one kilogram and can generate white light of at least 500 lumens using a current of not more than about 15 watts. Also, a lighting device for mounting in a recessed housing, comprising a unitary structure trim element that conducts heat away from at least one solid state light emitter and dissipates at least some of the heat outside of the recessed housing. | 07-17-2014 |
20140204582 | ILLUMINATING APPARATUS - An illuminating apparatus includes a lamp member, a lighting member, a waterproof member, and cooling liquid. The lamp member has a closed chamber, in which the cooling liquid is filled. The lamp member has at least a metal heat sink in the chamber, and the heat sink has at least a slot. The lighting member is isolated from the cooling liquid by the waterproof member. Therefore, the heat of the light emitting diode may be dissipated quickly through the cooling liquid. | 07-24-2014 |
20140211470 | LED Lighting Fixture - An LED light fixture including a frame defining a forward open region and a rearward region with a rearmost portion adapted for securement to a support member. An LED assembly is secured with respect to the frame and positioned within the open forward region with open spaces remaining therebetween. The LED assembly includes an LED illuminator secured with respect to the LED-supporting region of a heat sink with an LED-supporting region and heat-dissipating surfaces extending therefrom. Another aspect of the invention is a non-metallic frame defining a forward open region and having a rearward region having a rearmost portion adapted for securement to a support member. An LED assembly is secured with respect to the frame and positioned within the open forward region with open spaces remaining therebetween. | 07-31-2014 |
20140211471 | ELECTRIC CANDLE - An electric candle has a candle body and at least two lighting devices which are arranged in the candle body. In order to develop the electric candle further in such a way that the user perceives it in a more aesthetically pleasing fashion, the candle wick is made of a transparent or translucent material and the candle body constitutes a casing. The interior of the candle is embodied as a cavity in which the lighting devices are arranged. | 07-31-2014 |
20140218922 | LIGHTING METHOD FOR AN LED LIGHTING APPARATUS - The present invention relates to a lighting method for an LED lighting apparatus, in which e.g. an LED for illuminating an edge of a light distribution pattern far away from a street lamp has a relatively larger illumination angle and a smaller radiation angle, and an LED for illuminating the center of a light distribution pattern near the street lamp and an edge of a light distribution pattern adjacent to the street lamp has a relatively smaller illumination angle and a smaller radiation angle. Thus, each LED illuminates different areas of the road, thereby ensuring the uniformity of illumination of an overall light distribution pattern. | 08-07-2014 |
20140233233 | LED ILLUMINATION DEVICE - Disclosed is an LED illumination device of a simple configuration, capable of suppressing thermal resistance to a low level, and of effectively dissipating heat generated from LED elements. Rigidity of a mounting plate is ensured by a wall of a certain height, and thereby the mounting plate now becomes possible to endure saturation vapor pressure of a coolant liquid possibly exerted thereon, and vacuum state or near-vacuum state when the coolant liquid is injected, without being deformed. Since the rigidity of the mounting plate is ensured by the wall, a wall composing a bottom face of recesses may now be thinned, and this is advantageous in view of allowing the heat generated from the LED elements to effectively conduct to the coolant liquid, and of effectively cooling the LED elements. | 08-21-2014 |
20140240983 | LED STREET LAMP - An LED street structures includes a pair of frames, a plurality of LED modules, an electrical box, a side cover and a back cover. Each frame has a cover plate, a supporting plate and a blocking plate. The LED modules are arranged between the frames. Two sides of the LED modules are fixed on the supporting plate. The electrical box disposed by a lateral side of the LED modules covers one side of the frames. The side cover covers another side of the frames. The back cover positioned between the frames covers the LED modules. | 08-28-2014 |
20140240984 | LIGHT EMITTING DIODE LIGHT BULB AND INCANDESCENT LAMP CONVERSION APPARATUS - Apparatus and methods separate the functions of light emission, heat dissipation, and power conversion in LED lighting. Doing so may facilitate cost-effective LED lighting and enable the conversion of existing incandescent lamps to LED service. An LED light bulb includes a thermal path from LED dies to a thermal transfer contact having an externally available surface. The LED light bulb and an incandescent lamp adapter are consumer-installable in an incandescent lamp. A heat spreader component of the lamp adapter contacts the thermal transfer contact of the LED light bulb to dissipate heat originating at the LED dies. A lamp adaptable LED power supply plugs into a standard AC power outlet and includes a receptacle to accept insertion of a lamp cord plug to deliver power to the LED light bulb. A lock-in safety device prevents retraction of the lamp cord plug from the LED power supply once inserted. | 08-28-2014 |
20140247593 | Connector And Led Light Bar - The present invention discloses a connector and an LED light bar. The connector includes an input module and an output module, wherein the input module and the output module being electrically connected; the input module comprising at least two input interfaces, the input interface being for connecting to an external power supply, the output module being for electrical connection to all LEDs in at least two external areas. As such, the present invention realizes the use of a connector to control LEDs in a plurality of areas to increase the utilization of the connector and simplify the LED light bar structure. In the mean time, the improvement of the connector utilization results in the reduction in the number of connectors used so as to reduce the cost of LED light bar. | 09-04-2014 |
20140247594 | LED LIGHTING APPARATUS - The present invention relates to an LED lighting apparatus. The LED lighting apparatus includes: a power source housing provided with a power supply unit therein and having a plurality of connection parts disposed on a bottom surface thereof; a ring-shaped frame on which a connection frame coupled to the connection parts of the power source housing is disposed, with the ring-shaped frame accommodating a transmission line through which power from the power supply unit is supplied; and a plurality of lighting part housings coupled to a lower portion of the frame to receive the power through the transmission line, thereby applying the power to the accommodated LED to emit light. Thus, the lighting part housings of the LED lighting apparatus may be changed in quantity and position to vary light distribution and luminance. | 09-04-2014 |
20140268767 | Recessed LED Lighting Fixture - A recessed LED light fixture is provided. The fixture includes a housing assembly, a power supply, and a light source. The power supply is positioned below the light source relative to an opening of the housing from which light from the light source is emitted. The power supply is positioned on an exterior side of the housing and proximate a lower-most extent of the housing. | 09-18-2014 |
20140268768 | MAGNETICALLY-MOUNTABLE LIGHTING DEVICE AND ASSOCIATED SYSTEMS AND METHODS - A lighting device comprising a heat sink, a light source in thermal communication with the heat sink, and a power source operably coupled with the light source. The heat sink, light source, and power source are positioned in a cavity defined by an enclosure and an optic which present a puck-like shape when assembled. A magnetic attachment member installed in the cavity of the enclosure magnetically binds the lighting device to a ferromagnetic material external to the lighting device. The power source receives an AC input voltage through inductive and/or conductive coupling, and converts the voltage to DC to support light-emitting diodes (LEDs). A controller may operate the light source based on instructions transmitted by a beam adjustment device and/or an occupancy sensor. A method aspect of the invention details steps for assembling the lighting device. | 09-18-2014 |
20140268769 | LIQUID COOLED LIGHT BULB - Systems and methods are disclosed for making a light segment by forming a sealed body having an interior chamber; creating a boiling enhancement surface positioned in a predetermined location on the interior chamber; filling the interior chamber with a liquid portion and thermally coupled to the liquid portion at all orientations of the light blade; and boiling the liquid portion with a light source located on the predetermined location on an exterior portion of the sealed body. | 09-18-2014 |
20140268770 | DEVICE FOR SECURING A SOURCE OF LED LIGHT TO A HEAT SINK SURFACE - A device for securing a source of LED light to a heat sink includes an LED light source engaging surface that is arranged and configured to engage at least a portion of the source of LED light and which is provided with an integrated force applying spring. Further, the device may include a continuous metallic path extending between the sources of LED light and the surface. | 09-18-2014 |
20140268771 | LED LUMINAIRE WITH IMPROVED THERMAL MANAGEMENT AND NOVEL LED INTERCONNECTING ARCHITECTURE - A LED lamp includes an optically transmissive enclosure and a base connected to the enclosure. LEDs are mounted on a ribbon for emitting light when energized though an electrical path from the base. The mounting ribbon for the LEDs has a surface that is positioned adjacent an interior surface of the enclosure for transmitting heat from the plurality of LEDs to the enclosure. | 09-18-2014 |
20140268772 | LED LAMP - A LED lamp has a base and an at least partially optically transmissive enclosure connected to the base. A heat sink is partially disposed in the enclosure and supports a plurality of LEDs. The heat sink comprising a mounting portion positioned in the enclosure for supporting the LEDs and a heat dissipating portion exposed to the ambient environment where the interior of the enclosure is exposed to the ambient environment. The heat sink have a plurality of separate heat sink structures that are mounted to the lamp independently of one another. Each heat sink structure may have a thickness of approximately 1-5 mm. Each heat sink structure may in some embodiments weigh approximately 3.8 to 7.7 grams and in other embodiments weigh approximately 27 grams. | 09-18-2014 |
20140268773 | MODULAR INTERCONNECT SYSTEM FOR LED LIGHTING - A modular system of LED lighting provides for the use of LED lighting modules that are connectable using a interconnect module that provides structural rigidity. The LED lighting modules provide a sealed connection between adjoining LED modules, allowing their use under environmental conditions that may involve transient exposure to liquids such as water. Variants of the module allow using interconnect modules that allow flexible connections where rigidity is of less concern. Mounting features integrated into the interconnect modules allow mounting the interconnected lighting units to an installation site as desired. | 09-18-2014 |
20140268774 | LED WALL LIGHT FIXTURE - A light fixture includes a lamp assembly having a housing containing a plurality of light sources. The light fixture further includes a lamp holder having a substantially flat body, a flange extending in a substantially diagonal orientation out of the plane of said substantially flat body, and a pair of side attaching members. The light fixture further includes a skirt having a face plate and a pair of stop members extending substantially perpendicular to the face plate. | 09-18-2014 |
20140286009 | MODULAR SOLID STATE ELECTRONIC DISPLAY PANELS WITH ELECTROMAGNETIC RADIATION SHIELDING - A display module having electromagnetic interference shielding is disclosed. The display module has a mask circuit board disposed immediately above a first circuit board. One or more light emitting elements are disposed on a top surface of the first circuit board. The mask circuit board has one or more apertures which enable the light from the light emitting elements to radiate outward. The mask circuit board has one or more metalized layers electrically connected to ground which receive and reduces the electromagnetic radiation emitted from the first circuit board. The display module employs one or more shield strips disposed near the perimeter of the mask circuit board and first circuit board to receive and reduce the electromagnetic radiation which would otherwise radiate laterally from the circuit boards. | 09-25-2014 |
20140286010 | Luma Lights - The invention provides an all in one self contained system of electrically powered Christmas luminaries that are produced in a clear or translucent plastic container that provides the visual effect of a glass lantern. These luminary lights are installed and displayed along sidewalks and curbs. | 09-25-2014 |
20140301081 | Lamp with Enhanced Lighting Angle - A lamp includes a mounting frame, at least one supporting member, and a plurality of light emitting members. The mounting frame is provided with a connecting face. The supporting member is provided with a support portion and a connecting portion. The connecting portion of the supporting member is combined with the connecting face of the mounting frame. Each of the light emitting members is a light emitting diode (LED). Thus, the support portion of the supporting member has a convex arcuate shape to provide a wide-angle feature, and the light emitting members are arranged on the support portion of the supporting member in different angles and at different positions, so that the lighting angles of the light emitting members are complementary mutually to increase the whole lighting angle of the lamp. | 10-09-2014 |
20140301082 | HOUSING HAVING AIR VALVE - Disclosed is a housing includes a housing body and a cap assembly. The cap assembly includes an inner member, an outer member and a resilient compression gasket disposed between the inner and outer members. The inner member has a first valve aperture, the outer member has a second valve aperture and the resilient, compression gasket has a third valve aperture which together form an air valve in the cap assembly. | 10-09-2014 |
20140307437 | LED SURFACE LIGHT-EMITTING DEVICE FOR EASY SHIELDING AND MANUFACTURING METHOD THEREOF - The present invention relates to an LED surface light-emitting device for easy shielding, and a manufacturing method thereof, and includes: an integrated type rear-surface case part having an accommodation space portion open toward the front surface portion thereof, wherein a substrate equipped with LEDs is accommodated in the accommodation space portion; a diffusion panel which covers the open front surface portion of the rear-surface case part, and diffuses light of the LEDs to be a surface light source; and a front-surface window frame, the rear surface of which is coupled to the boundary of the front surface portion of the rear-surface case part, with the diffusion panel located on the rear-surface case part. The present invention is configured as a single body without openings to prevent dust and insects from coming therein, and thus can prevent brightness from decreasing according to use. | 10-16-2014 |
20140313720 | LIGHTING DEVICE - The invention relates to a method and a lighting device ( | 10-23-2014 |
20140321119 | ELECTRIC CANDLE - The invention relates to an electric candle ( | 10-30-2014 |
20140334150 | LIGHT EMITTING DIODE TRAFFIC LIGHT - An LED (light emitting diode) traffic light includes a circuit board, a plurality of LEDs, and a masking plate. The masking plate has a plurality of through-holes. The masking plate is provided such that a back side of the masking plate faces a front side of the circuit board and the plurality of through-holes corresponds to the plurality of LEDs. The masking plate has a plurality of protruding ridges on a front side of the masking plate. Each of the plurality of protruding ridges has an upward facing inclined surface that slants downward at a first angle and a downward facing inclined surface that slants upward at a second angle larger than the first angle. The plurality of protruding ridges include a first ridge and a second ridge. The first angle of the first ridge is different from the first angle of the second ridge. | 11-13-2014 |
20140334151 | LIGHTING DEVICE - The invention relates to a lighting device, comprising a housing having a cover ( | 11-13-2014 |
20140334152 | ILLUMINATION DEVICE - An illumination device includes a supporting base, at least two supports and at least two semiconductor light emitting elements. The supports are disposed on the supporting base and coupled to each other. The semiconductor light emitting elements are respectively coupled to the supports. The semiconductor light emitting element includes a transparent substrate and a light emitting diode (LED) structure. The transparent substrate has a support surface and a second main surface disposed opposite to each other. The LED structure is disposed on the support surface. At least a part of the light emitted from the LED structure may pass through the transparent substrate and emerge from the second main surface. | 11-13-2014 |
20140334153 | Solid state lighting module with improved heat spreader - A solid state lighting module ( | 11-13-2014 |
20140334154 | DEVICE FOR LIGHTING A SUBJACENT AREA - This device ( | 11-13-2014 |
20140340900 | STABILIZATION STRUCTURE INCLUDING SHEAR RELEASE POSTS - A stabilization structure includes a stabilization layer on a carrier substrate. The stabilization layer includes an array of staging cavities. An array of micro devices are within the array of staging cavities. Each micro device is laterally attached to a shear release post laterally extending from a sidewall of a staging cavity. A pressure is applied to the array of micro devices from the array of transfer heads to shear the array of micro devices off the shear release posts. The sheared off micro devices are picked up from the carrier substrate using the array of transfer heads. | 11-20-2014 |
20140340901 | MACRO-IMAGE OLED LIGHTING SYSTEM - Techniques to fabricate and assemble a lighting system including multiple patterned OLED lighting panels to form a high-resolution macro image are provided. An image to be displayed is determined and divided into multiple portions. Patterned static OLED lighting panels that display each portion of the image are fabricated and assembled into a fixture to form a macro-image lighting system. The fixture may removably receive and hold individual panels, such that each panel may be replaced if any malfunction occurs. Each of the patterned OLED panels may be individually driven through an electrical connection within the fixture so as to be operated at substantially the same brightness and/or same chromaticity. | 11-20-2014 |
20140347856 | OUTDOOR LUMINAIRE - The invention discloses an outdoor luminaire. The outdoor luminaire comprises a light module comprising at least one LED unit; wherein said light module is configured such that the light emitted by the light module has a first luminous intensity value no less than 10 cd/klm at a first angle (γi), which is a vertical angle of 90 degrees above a direction pointing directly downward from the luminaire. In this way, the luminous intensity of the outdoor luminaire at a vertical angle of 90 degrees is guaranteed to be no less than 10 cd/klm Since the end user sees the light 710 emitted at a vertical angle of 90 degrees no matter how far away he is from the outdoor luminaire, the end user always perceives a certain level of brightness. Such “certain level of brightness” is helpful in increasing the adaptation level of the end user, and can effectively reduce the end user's perception of glare. | 11-27-2014 |
20140355265 | Lamp Device and Luminaire - According to one embodiment, a housing of a lamp device a cylindrical shape, and includes an opening part at one end side, a closing part at the other end side, and an insertion part formed at a center of the closing part. A thermal radiator includes a support part which is inserted through the insertion part, a light-emitting module connection part which is provided at one end side of the support part and to which the light-emitting module is connected to enable heat conduction, and an external thermal radiation part provided at the other end side of the support part. An area of the light-emitting module connection part is smaller than a cross-sectional area of the support part, and the support part, the light-emitting module connection part and the external thermal radiation part are integrally formed. | 12-04-2014 |
20140369044 | LIGHT EMITTING MODULE AND LIGHT EMITTING DEVICE HAVING THE SAME - Disclosed are a light emitting module and a light emitting device. The disclosed light emitting module includes a plurality of light emitting devices and a wire connecting the light emitting devices with each other and having at least a first end portion coupled with each light emitting device. The wire has a length longer than a distance between the light emitting devices, and is located higher than bottom surfaces of the light emitting devices. Each light emitting device includes a body including an insulating material, a first lead frame making contact with the body and having a first coupling part, a second lead frame making contact with the body and having a second coupling part, and a light emitting chip on at least one of the first and second lead frames. The first and second coupling parts are located higher than the bottom surfaces of the light emitting devices, and the wire is coupled with the first and second coupling parts of the light emitting devices. | 12-18-2014 |
20140369045 | Lighting Assembly, a Light Source and a Luminaire - A lighting assembly, a light source and a luminaire are provided. The lighting assembly | 12-18-2014 |
20140376227 | LUMINAIRE WITH LONG CHAINS OF LOWER POWER LEDS AND MULTIPLE ON-BOARD LED DRIVERS - A luminaire may include an input connection that receives AC line voltage, one or more chains of LEDs, and one or more drivers for driving each chain of LEDs, all within a housing, which may be in the form of a canopy. Each chain of LEDs may contain at least 36 LEDs connected in series. Each LED may have a power rating of no more than 1 watt and may be oriented to direct light outside of the housing when illuminated. Each driver may receive power that is extracted from AC line voltage connected to the input connection and provide one or more outputs that drive at least one of the chains of LEDs. | 12-25-2014 |
20140376228 | SECURITY LIGHTING SYSTEMS FOR PERIMETER FENCES - A security light for a fence includes a light module having an LED unit and a junction box. The junction box contains electrical components for operating the LED unit, and has a rear end with a rear wall and a front end having a front opening that opposes the rear wall. A clamp assembly is coupled with the junction box and opposes the rear end of the junction box to define an opening for a fence post. The front opening of the junction box provides access to the interior of the junction box for conducting electrical wiring operations. A front cover plate is assembled with the junction box for covering the front opening of the junction box. When the junction box is clamped to the fence post, the front cover plate is removable for providing access to the interior of the junction box. | 12-25-2014 |
20150009670 | LIGHTING DEVICES THAT COMPRISE ONE OR MORE SOLID STATE LIGHT EMITTERS - Light engine modules comprise a support member and a solid state light emitter, in which (1) the emitter is mounted on the support member, (2) a region of the support member has a surface with a curved cross-section, (3) the emitter and a compensation circuit are mounted on the support member, (4) an electrical contact element extends to at least two surfaces of the support member, and/or (5) a substantial entirety of the module is located on one side of a plane and the emitter emits light into another side of the plane. Also, a module comprising means for supporting a light emitter and a light emitter. Also, a lighting device comprising a housing member and a light emitter mounted on a removable support member. Also, a lighting device comprising a module mounted in a lighting device element. Also, a method comprising mounting a module to a lighting device element. | 01-08-2015 |
20150009671 | FLAT LED LAMP ASSEMBLY - An LED-based lamp assembly for use with a light fixture having a socket portion including a driver assembly having a base portion rotateably engageable with the socket portion to make a first electrical contact with the light fixture. The base portion is coupled to a driver housing. The driver assembly includes an electrically conductive tip portion coupled to the base portion. The tip portion is engageable with the socket portion to make a second electrical contact with the light fixture wherein the tip portion and driver housing are moveable relative to each other when the tip portion is in the second electrical contact with the socket portion. The driver assembly includes first electrical contacts. A lamp housing assembly is operably connected to the driver assembly. The lamp housing assembly includes second electrical contacts operatively connected to the first electrical contacts of the driver assembly. | 01-08-2015 |
20150016109 | LIGHT-EMITTING DEVICE AND LIGHTING APPARATUS USING THE SAME - A light-emitting device includes a substrate, first LEDs and second LEDs mounted on the substrate, multiple wirings separately formed on the substrate, and a conductive member for connecting adjacent two wirings in multiple wirings for establishing series connection, parallel connection, or a combination of series and parallel connections of the first LEDs and the second LEDs. This achieves the light-emitting device that can support multiple different specifications, using a single type of substrate. | 01-15-2015 |
20150029721 | LED LIGHTING MODULE AND LIGHTING DEVICE USING SAID MODULE - The present invention relates to an LED lighting module and to a lighting device using said module. The LED lighting module comprises: a body frame, the base of which has an accommodation groove; a substrate fixed at an inner installation surface of the accommodation groove of the body frame and having multiple LED packages mounted thereon; multiple heat-dissipating fins arranged on an upper surface and a side surface of the body frame and spaced apart from each other; and a fixing unit protruding from the upper surface of the body fame and having a base surface with a coupling hole for coupling the substrate by means of a bolt. The LED lighting module of the present invention is provided with the protruding fixing unit having an inner surface with the coupling hole for fixing the substrate to the body frame by means of a bolt, and therefore, the overall thickness of the body frame is reduced in order to reduce the weight of the module and improve heat-dissipating characteristics of the module. | 01-29-2015 |
20150036345 | LED LIGHT STRUCTURE - The disclosed embodiments relate to a light structure ( | 02-05-2015 |
20150062899 | Power Cord - A power cord is provided, including at least one light-emitting device provided with two first terminals and two second terminals; at least two first lead wires, in which one end of each of the two first lead wires is connected to each of the two first terminals and the other end of each of the two first lead wires is electrically connected to an external power source; and at least two second lead wires, in which one end of each of the two second lead wires is connected to each of the second terminals and the other ends of each of the two second lead wires are connected to each other, thereby the first lead wires, the second lead wires, and the light-emitting device being connected to form a loop. | 03-05-2015 |
20150062900 | LIGHTING MODULE FOR LED-BASED LIGHTING - A lighting module including an electronic board adapted to accommodate a plurality of light emitting diodes (LEDs) is provided. The lighting module includes a metallic base having cavities adapted to receive adapters. The adapters include a connector body provided with: a) means adapted to accommodate electrical contacts for interconnection to the electronic board; b) means adapted to accommodate gaskets for shielding the contacts; and c) means for the mechanical locking of the adapters on the module. | 03-05-2015 |
20150070891 | MULTIPLE USE LED LIGHT FIXTURE - An LED light fixture is provided and includes a housing with a circular main body portion with a rear wall. A plurality of fins integrally extends from an outer surface of the rear wall of the main body portion. A spindle with an internal bore integrally extends from the outer surface of the rear wall of the main body portion wherein the spindle is positioned among the fins. A light engine assembly is positioned within the main body portion and includes a plurality of LED light modules mounted to a printed circuit board. Each module comprises a LED and a lens extending from the printed circuit board, wherein the printed circuit board resides against an inner surface of the rear wall. An external enclosure configured to enclose power management components is connected to a rear portion of the housing proximate the fins. The enclosure includes a housing wall arrangement and leads that extend through both an opening in the housing wall and the internal bore of the spindle, past the rear wall of the main body portion and to the printed circuit board. | 03-12-2015 |
20150077996 | HEAT SINK FOR ELECTRICAL ELEMENTS AND LIGHT-EMITTING DEVICE CONTAINING THEREOF - The disclosure provides a heat sink for electrical elements and a light-emitting device containing thereof. The heat sink includes a radiating substrate and at least one hollow radiating channel. In which, the hollow radiating channel is horizontally embedded in the radiating substrate, and has two openings disposed on the same site or the opposite sites of the radiating substrate, so that gas may flow in the hollow radiating channel and remove heat of the radiating substrate. And a light-emitting device containing the heat sink is also provided. | 03-19-2015 |
20150077997 | LED LIGHTING DEVICE - The present disclosure provides an LED lighting device comprising a heat dissipation body, a driver module and a lighting module. The heat dissipation body includes a base, a heat dissipation wall, heat dissipation fins and a top face. The heat dissipation wall defines a heat dissipation channel therein and is formed with first through holes. The heat dissipation fins are formed on and encircle the heat dissipation wall. The top face is formed with a first opening The driver module is disposed inside the heat dissipation body. The lighting module includes a tube body and LED light sources. The tube body has two end openings in fluid communication with each other and one of the end openings is connected to the first opening The LED light sources are arranged on the tube body and are electrically connected to the driver module. | 03-19-2015 |
20150085488 | SYSTEM FOR LIGHTING APPARATUS UTILIZING LIGHT ACTIVE SHEET MATERIAL WITH INTEGRATED LIGHT EMITTING DIODE, WINDOW WITH LIGHTING APPARATUS, CONVEYANCE WITH LIGHTING APPARATUS, AND METHOD OF PROVIDING LIGHTING APPARATUS - A dual lighting apparatus includes a principal substrate, a first lighting device and a second lighting device. The first lighting device is integrated into a first plane of the principal substrate, the first lighting device having one or more first light emitting diode (LED) chips embedded therein. The second lighting device is integrated into a second plane of the principal substrate, the second lighting device having one or more second light emitting diode (LED) chips embedded therein. The first LED chip(s) emit light photons having a different wavelength than light photons emitted from the second LED chip(s). | 03-26-2015 |
20150092412 | LED LIGHTBULB - An LED light bulb system that has a socket base and a contactor arranged in the socket base. The light bulb system also has a support circuit board secured to the socket base and a plurality of circuit boards connected to the support circuit board in a vertical direction. The light bulb also uses at least one resistor on each of the plurality of circuit boards to operate the LED. | 04-02-2015 |
20150098222 | Heat Sink - A heat sink comprises skived fins and a base. The base has a first side and a second side. The skived fins are disposed on the first side, and at least one semiconductor device is mounted on the second side. The base has at least one channel for gas flow between the first side and the second side. The skived fins are formed by skiving segments from at least one layer of an alloy. The skived fins have one or more of the following patterns: a wavy skived pattern; a triangular skived pattern; and a block skived pattern. | 04-09-2015 |
20150098223 | Omnidirectional LED bulb - An omnidirectional LED bulb has a base, a light-transmitting shell, a heat-dissipating pillar and an LED module. The light-transmitting shell is mounted on the base and has a lateral surface and a top surface. The heat-dissipating pillar is mounted on the base and has multiple mounting surfaces facing toward the lateral surface and the top surface of the light-transmitting shell. The LED module is mounted on the mounting surfaces of the heat-dissipating pillar. The LED module emits light through the lateral surface and the top surface of the light-transmitting shell to form an omnidirectional illumination. | 04-09-2015 |
20150103524 | Lighted ornaments - An illuminated ornament is provided having an internally disposed support structure for mounting lighting elements within the ornament. In one aspect, the structure is a rod, hub and spoke arrangement in which the rod extends along an axis of the ornament with lighting elements being disposed at numerous locations along the axial positions on the rod and radial positions on the spokes. In another aspect, the ornament is divided into separate illuminated segments, each having its own lighting elements placed appropriately within each segment. In any arrangement, the goal of uniform ornament illumination and overall ornament color control is provided by proper placement of the LEDs on the support structures, possibly in combination with coloration of the ornament shell, color enhancement apparatus contained on the shell and/or in combination with external, electronic controlled access to the color display of the LEDs. | 04-16-2015 |
20150109782 | LED LUMINAIRE - An LED luminaire includes a thermal management system and features minimal glare while allowing for use of traditional luminaire housing. The luminaire of the depicted embodiments comprises a luminaire housing, an LED light module, an LED driver, a diffuser, and reflectors. The LED light module comprises at least one LED array, a primary thermal interface, and a secondary thermal interface. These thermal interfaces, particularly when used in conjunction with a conductive housing, allow for optimal thermal management by utilizing both natural convection and conduction to remove the heat from inside the luminaire into the surrounding air. Additionally, in certain embodiments, the position of the LED arrays within the housing in combination with the reflector design creates an optical path resulting in an indirect light source that minimizes glare, while providing a uniform distribution of light, unlike traditional LED luminaires. | 04-23-2015 |
20150117006 | LED Matrix Display Screen - The embodiment of the utility patent discloses a LED matrix display screen, which comprises multiple horizontal circuit board and vertical circuit board. The multiple horizontal circuit board, equidistantly welded with LED beads, are equidistantly welded on the vertical circuit board. And the vertical circuit board is equipped with the controller which can control the LED lamps welded on the horizontal circuit board. The embodiment of the utility patent LED matrix display screen, through multiple arranged LED lamp, can better display different graphics. Moreover, each row of the LED lamps are equipped on the horizontal circuit board. Result from that it not only will be better to decrease the distance between every LED lamps and reduce the weight whole display screen, but also make it be easily partitioned in order to replace the parts of it and repair it. | 04-30-2015 |
20150117007 | LED LEAD FRAME AND LAMP THEREOF - An LED lead frame mounted on a platform of a lightbulb includes a metal polarity substrate, a metal retaining substrate and a casing for partially covering the metal polarity substrate and the metal retaining substrate. The metal retaining substrate is a sheet bent into a disposing portion and a carrying portion, and an included angle θ | 04-30-2015 |
20150124451 | MOUNTING SUPPORT FOR SOLID-STATE LIGHT RADIATION SOURCES AND LIGHT SOURCE THEREFOR - A mounting support for solid-state light radiation sources and for drive circuitry associated therewith may include a printed circuit board having a mounting surface for the light radiation sources, the printed circuit board having at least one through hole extending through it, and at least one electrical component of the drive circuitry inserted in the at least one hole. | 05-07-2015 |
20150131282 | SOLID STATE OUTDOOR OVERHEAD LAMP ASSEMBLY - An outdoor overhead lamp assembly uses light emitting diodes to provide illumination for an area to be illuminated. The lamp assembly includes a unitary housing, which may be formed from a single casting. The housing includes mechanical mounting structure for mounting the housing to a mast arm. The housing includes an electrical compartment for housing electrical components and connections. Heat sink fins are formed on the integral housing that provide for thermal control of the electronic components and LED modules within the lamp assembly. The LED modules are mounted to aiming platforms within an optical compartment for the assembly. An external lens provides environmental protection for the LEDs and their individual lenses. The housing may also include structures for mounting decorative coverings or “skins” to accommodate different aesthetic requirements. | 05-14-2015 |
20150131283 | Manufacturing Method for Support Substrate, and LED Display Device - Disclosed are a manufacturing method for a support substrate ( | 05-14-2015 |
20150138771 | Sealed LED Light Module - A sealed LED light module comprises a base plate, having at least one LED, and a cover providing a base plate support. The base plate is located on the cover to define an inner space which is sealed against the environment. For sealing the cover has at least one sidewall, which defines a trench together with at least one base plate support, and the trench holds a seal which interacts with at least one edge of the base plate and the surface of the trench to seal the inner space against the environment. | 05-21-2015 |
20150146425 | LED BASE MODULE AND LED LIGHTING DEVICE - An LED base module includes a substrate and several driving units disposed on the substrate. Each driving unit includes a circuit layer, a separating wall, an LED driving component, a packaging member, and two electrodes. The circuit layer, the separating wall, and the electrodes are disposed on the substrate. A portion of the substrate corresponding to each driving unit is provided with an LED area and an electronic component area defined by the separating wall. The LED driving component is disposed on a portion of the circuit layer arranged in the electronic component area. The packaging member is formed on the electronic component area to entirely cover the LED driving component. A portion of the circuit layer arranged in the LED bonding area is used to bond to an LED chip, and the separating wall is configured to separate the LED chip and the LED driving component. | 05-28-2015 |
20150292725 | LIGHTING DEVICE - Various embodiments may relate to a lighting device, including an electronic device housing, an electrical connecting part mounted at one side of the electronic device housing, a heat sink mounted at the other side of the electronic device housing, and a plurality of light sources arranged on the heat sink. The heat sink is made of a transparent material and forms at least a part of a light emergent surface for the light from the light sources. | 10-15-2015 |
20150292727 | LED LAMP - An LED lamp includes a light source, a lamp holder and a lamp body. The lamp body is connected between the light source and the lamp holder. The lamp body comprises a hollow main body, a plurality of fins, a cup, a tube and a plurality of ridges. The hollow main body is connected to the lamp holder. The fins are connected between the hollow main body and the cup. A plurality of channels are defined between the fins. A hole is defined in the cup, and the tube is connected to the hole of the cup. The ridges are formed on the cup and around the tube. The light source is formed on the ridges. The light source comprises a plurality of LED elements and a plurality of circuit printed boards. | 10-15-2015 |
20150300579 | LED Bulb Lamp Capable of Realizing Wide-Angle Luminescence - An LED (Light-Emitting Diode) bulb lamp realizing wide-angle luminescence includes LEDs, a heat sink and a lampshade. The heat sink is divided into a lower part which is connected with a lamp cap of a lighting fixture, and an upper part which takes a shape of a small-top big-bottom multi-surface prismoid. An included angle between each ridge surface of the prismoid and a vertical center line of the lighting fixture is θ, wherein 10°≦θ≦25°. The upper part and the lower part of the heat sink are communicated to each other. At least one LED is arranged on each ridge surface, and the upper part of the heat sink is covering in the lampshade. The LED bulb lamp enlarges light rays in a small-angle irradiation range to the most of region of a bulb, achieves an entire light distribution effect and satisfies requirements on characteristics of luminescence and heat dissipation efficiency. | 10-22-2015 |
20150300613 | LAMP FIXTURE AND LED MODULE FOR SAME - A luminaire and LED module combination is disclosed. The luminaire can include a rail with powered contacts on a top and bottom surface. The LED module can be attached to the rail via a magnetic force and the rail can have upper and lower surfaces that both support LED modules so as to allow greater flexibility in illumination patterns. | 10-22-2015 |
20150300619 | LED LAMP WITH LED ASSEMBLY RETENTION MEMBER - A LED lamp includes an at least partially optically transmissive enclosure and a base. A LED assembly having a plurality of LEDs is located in the enclosure where the LEDs are operable to emit light when energized through an electrical path from the base. A heat sink has a heat dissipating portion that is at least partially exposed to the ambient environment and a heat conducting portion that is thermally coupled to the at least one LED assembly. The LED assembly is mounted on the heat conducting portion under radial tension. A retention member restrains the LED assembly from moving in an axial direction relative to the heat conducting portion. | 10-22-2015 |
20150300623 | OPTICAL SEMICONDUCTOR ILLUMINATING APPARATUS - An optical semiconductor illuminating apparatus includes a heat dissipating base having a first side, a second side opposed to the first side, and at least one edge therebetween, a light emitting module connected to the first side of the heat dissipating base and heat dissipating fins protruding from the second side of the heat dissipating base. The heat dissipating fins extend beyond at least one edge of the heat dissipating base. | 10-22-2015 |
20150308673 | Explosion-Proof Lamp - An explosion-proof luminaire comprises a plurality of light-emitting diodes. These are assigned to a ballast for electrical power supply. A contactless power transmission device is formed between at least a group of LEDs and the ballast. This yields an explosion-proof luminaire which is simplified and improved in terms of structure and light output while permitting many possible arrangements of the LEDs in the corresponding luminaire at the same time. | 10-29-2015 |
20150331444 | Electronic Devices With Cover Layers Mounted to Displays - An electronic device may be provided with a display cover layer mounted to the device using an adhesive bond with a display. The display may be a flexible display. The flexible display may include Organic Light Emitting Diode display technology. The display may be mounted to a rigid support structure. The rigid support structure may be mounted to a device housing member. Mounting the display cover layer to the display may eliminate the need to mount the display cover layer to the device housing and may allow active display pixels to be visible under the display cover layer closer to the device housing than in conventional devices. Providing the electronic device with active display pixels closer to the device housing may reduce the need for an inactive border around the display and may improve the aesthetic appeal of the electronic device. | 11-19-2015 |
20150338028 | LIGHT EMITTING DIODE BULB WITH CENTRAL AXIS BIDIRECTIONAL CONVECTION HEAT DISSIPATION STRUCTURE - An LED bulb includes a lower cover having ventilation holes formed at outer periphery thereof, and a first coupling opening formed at top side thereof; a separating unit provided within the lower cover at a position between lower edges of the ventilation holes and bottom side of the lower cover, and having a convection pathway formed at top side thereof; a heat sink having bottom end positioned on top side of the separating unit; and an upper cover having top side formed with convection hole corresponding to top end of the heat sink, and a second coupling opening formed at bottom side thereof. When the second and first coupling openings are coupled with each other, the upper and lower covers are assembled together to form a central axis bidirectional convection heat dissipation pathway sequentially through the ventilation hole, the convection pathway, the heat sink and the ventilation hole accordingly. | 11-26-2015 |
20150345767 | OPTICAL SEMICONDUCTOR ILLUMINATING APPARATUS - An optical semiconductor illuminating apparatus includes a housing configured to receive power from one side thereof and comprising a first area, a heat dissipation base extending from the housing and comprising a second area smaller than the first area, and a light emitting module comprising at least one optical semiconductor device disposed on a portion of the housing and the heat dissipation base, and comprising a third area smaller than the first area and larger than the second area, in which the housing forms an overlap region comprising a fourth area overlapping the light emitting module, and the light emitting module is electrically connected to a power source through the overlap region. | 12-03-2015 |
20150345769 | LED Replacement of Directional Incandescent Lamps - An LED lamp for replacement of directional incandescent lamps. The lamp comprises a screw base, a plurality of LEDs located in a first position, and a driver for the LEDs located in a second position separate from the first position. A lamp housing is secured to the screw base, with the LEDs and the driver being located in the lamp housing. A heat spreader is mounted in the lamp housing in proximity to the LEDs to remove heat therefrom. The heat spreader can also remove heat from the driver, or the driver can be located in proximity to the screw base and in thermal connection therewith so that heat is transmitted through the screw base. | 12-03-2015 |
20150369432 | ELECTRIC CANDLE WITH ILLUMINATING PANEL - The present disclosure, in one embodiment, relates to an electric flameless candle, comprising a body configured in shape and size to simulate a true flame candle. The electric flameless candle further comprising a light source operably connected to the body and positioned to be generally protruding from an exterior surface of the body, the light source comprising a plurality of illuminators electrically operated to illuminate in a way that simulates the movement of a real candle's flame. | 12-24-2015 |
20150369466 | LED LIGHTING FIXTURE AND HEAT SINK THEREFOR - A heatsink is formed at least partly from a foamed metal. The heatsink may comprise a plurality of foamed metal plates that are supported in one or more arrays of substantially parallel plates. Curved or helically generated fins are not required. The heatsink may further include a base plate on which the foamed metal plates are supported. A bridge may be mounted to sides of the array of foamed metal plates opposite the base plate to maintain a desired spacing between the foamed metal plates. One or more LEDs may be mounted to a surface of the base plate opposite the foamed metal plates. Reflectors may be mounted to the sides of the LED modules opposite the baseplate of the heatsink to direct the light in an appropriate manner for the desired illumination effect. | 12-24-2015 |
20160003461 | LUMINARE HAVING MULTIPLE SENSORS AND INDEPENDENTLY-CONTROLLABLE LIGHT SOURCES - A lighting device includes a first light source having a first light source switch and a first light element array, and a second light source having a second light source switch and a second light element array. The lighting device also includes a light sensor and a motion sensor. The lighting device includes light sensor control circuitry that receives input from the light sensor and provides a first enable signal to the first light source based at least in part on the input from the light sensor. The lighting device also includes motion sensor control circuitry that receives input from the motion sensor and provides a second enable signal to the second light source based at least in part on the input from the motion sensor. | 01-07-2016 |
20160003463 | LED LIGHT - An LED bulb comprises a structural shell formed by folding a flat PCB into a three-dimensional polyhedron shape and a fitting for removably coupling the bulb to a light socket. The PCB comprises a plurality of LEDs, at least one LED mounted electronically on a plurality of faces of the polyhedron, and a driver circuit for driving each LED. The perimeter of the PCB is shaped to join adjacent faces. Each LED produces minimal excess heat, which is partially conducted by a metallic heat sink bridge to the PCB and dissipated to the air through the PCB and through a plurality of spaces in the shell. | 01-07-2016 |
20160010834 | PRINTED CIRCUIT BOARD FOR A LAMP | 01-14-2016 |
20160018097 | LED Lamp Assembly - There is provided a LED (light emitting diode) lamp assembly including a heat sink having a cooling structure with an outer circumference part and a centre part that supports a plurality of LEDs, and wherein a material thickness of the cooling structure increases inwards from the outer circumference part to the centre of the heat sink. There is also provided a LED lamp assembly including a heat sink having a centre, an outer circumference part supporting a plurality of LEDs, and a cooling structure with a number of vent-holes allowing passage of air, where the cooling structure is supported by the outer circumference part and extending inwards towards the centre from the outer circumference part, and where a material thickness of the cooling structure may decrease inwards from the outer circumference part to the centre of the heat sink. | 01-21-2016 |
20160021855 | AQUACULTURE LIGHTING DEVICES AND METHODS - Lighting assemblies that provide spectrum specific underwater lighting to aquatic life. Each assembly has a vessel that receives a substrate secured to a heatsink and is enclosed by an end cap that provides a water tight seal. The end cap is sealingly secured to the vessel by a sealing element and has opening disposed therethrough for receiving an electrical connector that electrically connects lighting elements on the substrate to an exterior power source. The connector is sealingly disposed through the opening in the end cap to prevent the ingress of water within the vessel. | 01-28-2016 |
20160025324 | WATERPROOF LED LUMINAIRE - A waterproof LED luminaire is provided, which mainly comprises a lamp holder, a light emitting diode module, a cover plate, a first side cover and a second side cover. Each of the first side cover and the second side cover has a waterproof groove provided on its inner wall surface. When both side covers are respectively assembled on both sides of the lamp holder, both the side edges of both sides of the lamp holder are fitted respectively with the waterproof grooves in such a manner that liquid can be prevented from infiltrating into the interior of the lamp holder. Therefore, the overall waterproof performance of the present invention can be enhanced. | 01-28-2016 |
20160033105 | LINEAR LED MODULE - Various aspects of a light emitting apparatus include a substrate having at least one angled portion. Some aspects of the light emitting apparatus include at least one light emitting device arranged on the substrate. Some aspects of the light emitting apparatus include a plurality of conductors arranged on the substrate. In some aspects of the light emitting apparatus, the conductors are electrically coupled to the at least one light emitting device. | 02-04-2016 |
20160040838 | LED ASSEMBLY - An LED assembly is provided that includes a plurality of LEDs placed along a frame. The plurality of LEDs can include red LEDs, green LEDs and blue LEDs. In an embodiment, the frame can include a common ground and a separate power trace for each color so that the output of each color can be controlled separately. A connector can be integrated into the frame. Terminals can be molded into the frame. Traces can be connected to the terminals so as to provide a three-dimensional circuit. | 02-11-2016 |
20160043292 | LIGHT EMITTING DEVICE, LIGHT EMITTING MODULE, AND ILLUMINATING APPARATUS - A light emitting device includes a substrate, a first group of light emitting diode (LED) structures, a second group of LED structures, and a connection port is provided. The substrate has a first surface and a second surface opposite to the first surface. The first group of LED structures is disposed on one side of the first surface. The second group of LED structures is disposed on another side of the first surface opposite to the first group of LED structures. The connection portion includes at least an opening, and a first connection pad and a second connection pad electrically coupled to at least a part of the LED structures. The connection port is adapted to be coupled to other device through the opening. A light emitting module and an illuminating apparatus are also provided. | 02-11-2016 |
20160047538 | LED LIGHTING APPARATUS WITH AN OPEN FRAME NETWORK OF LIGHT MODULES - The present disclosure is directed to a light emitting diode (LED) light module. In one embodiment, the LED light module includes a plurality of light sections and a plurality of open sections formed by a plurality of heat sink fins between the plurality of light sections, wherein each one of the plurality of light sections is adjacent to two different light sections of the plurality of light sections. | 02-18-2016 |
20160069517 | LED LIGHTING APPARATUS - An LED lighting apparatus is disclosed. The LED lighting apparatus includes a board having a principal surface, a plurality of LED chips mounted on the principal surface of the board, and a wiring pattern which is formed on the principal surface of the board and makes electrical conduction with the plurality of LED chips. Further, the LED lighting apparatus includes a frame-like bank which is provided on the principal surface of the board and surrounds the plurality of LED chips. In this case, the wiring pattern has one or more pads having a first portion interposed between the bank and the plurality of LED chips. The LED lighting apparatus further includes a protective layer covering at least a portion of the pads. | 03-10-2016 |
20160084480 | THROWABLE TACTICAL LIGHT - A tactical illumination device comprises an optically transparent and impact resistant housing, one or more high intensity light sources positioned within the housing, and a controller positioned within the housing, the controller being arranged and programmed to direct the light sources to emit light according to one or more modes after being thrown by a user against a hard surface. | 03-24-2016 |
20160097509 | LIGHT EMITTING APPARATUS - A light emitting apparatus comprises a housing having a light transmitting member provided on a side surface thereof, and at least one light emitting unit housed in the housing. | 04-07-2016 |
20160109377 | LIGHT-EMITTING STRUCTURE - A light-emitting structure includes a base, a light-emitting assembly arranged on the base, a cover configured to be covered over the light-emitting assembly, and a coupling member configured to couple the cover to the base. The light-emitting assembly emits light onto a workpiece to be inspected by an image inspection device. The light-emitting assembly is circular, and a lens of the image inspection device is rotationally coupled to the base. | 04-21-2016 |
20160123569 | MODULAR LUMINAIRE SYSTEM - A modular cube shaped light emitting diode (LED) luminaire that can be cascaded, or interconnected, to create a larger, higher power LED luminaire that produces more light than the modular LED luminaire is disclosed. Each modular LED luminaire comprises a housing, a heat sink, a power/control circuit board (PCB-A) and an LED circuit board (PCB-B). An optional fan and a metallic heat sink are also enclosed inside the modular LED luminaire housing/shell. The modular LED luminaire provides optical expansion across interconnected modular LED luminaires. The LEDs and heat sinks are easily removable for defect replacement, LED light replacement and upgrade, without uninstalling the entire luminaire. Secondary side processor control of the feedback regulator allows sensor, radio module, user inputs etc. to reside on the “safe” isolated (low voltage) secondary side of the supply can then be used to safely make changes (an allowable UL approval) in the regulated output drive to the LEDs. | 05-05-2016 |
20160131352 | APPARATUS AND METHOD FOR SOLID STATE SOURCE ARRAY DESIGN AND FABRICATION - Apparatus for providing pulsed or continuous energy in a process chamber are provided herein. The apparatus may include a base having a plurality of vias formed in a bottom surface of the base, and wherein an electrical connector is disposed in each via, a first metallic layer disposed on a top surface of the base and electrically coupled to the electrical connectors disposed in the plurality of via, and a plurality of solid state light sources disposed on a top surface of the metallic layer and electrically coupled to the metallic layer. | 05-12-2016 |
20160138763 | LED LAMP - The present invention relates to an LED lamp comprising a bulb-shaped outer shell, a lamp plate assembly and a lamp socket. The bulb-shaped outer shell is formed of two half shells which can be bonded with each other in a left-right direction. Each of the two half shells has a groove on an inner surface thereof. The lamp plate assembly comprises a substrate, a plurality of first LEDs, a plurality of second LEDs and a conductive wire. The substrate comprises driving circuit elements and is inserted into an annular groove that is defined by the grooves of the two half shells. The substrate has a first surface and a second surface opposite to the first surface. The plurality of first LEDs and the plurality of second LEDs are respectively mounted on the first surface and the second surface of the substrate along a periphery of the substrate. An end of the conductive wire is electrically connected to the substrate. The lamp socket is connected to the bulb-shaped outer shell from a lower side of the bulb-shaped outer shell and is electrically connected to another end of the conductive wire. | 05-19-2016 |
20160138765 | LED LIGHTING DEVICE WITH IMPROVED LIGHT DISTRIBUTION - A lighting device and a lighting unit comprising a reflector and a lighting device, or LED lamp are described. The LED lamp have a first and a second LED assembly. Each LED assembly comprises at least one LED element with an LED chip and a carrier with a flat surface for carrying the LED chip. The LED chip emits light with a main optical direction. The first and second LED assembly are mounted relative to each other so that at least a first LED element from the first LED assembly and a second LED element from the second LED assembly enclose a rotating angle (γ) between their respective flat surfaces with respect to an axis of rotation (A) so as to involve light angle between the first and second main optical directions. The axis of rotation (A) is parallel to a plane of a flat carrier surface of at least one LED element. The first and second LED assemblies are arranged offset from each other parallel to the axis of rotation (A). Thus, a lighting device with small dimensions and advantageous light distribution is obtained. | 05-19-2016 |
20160138787 | LIGHT-EMITTING COMPONENTS CONTAINING BODY, MANUFACTURING METHOD OF LIGHT-EMITTING COMPONENTS CONTAINING BODY, COMPONENTS MOUNTING APPARATUS, COMPONENTS MOUNTING METHOD, AND COMPONENTS MOUNTING SYSTEM - A light-emitting components containing body includes plural light-emitting components, a containing body which contains the plural light-emitting components. The containing body contains the plural light-emitting components of the same rank among light-emitting components that are classified into plural ranks according to positional deviations of their light emission portions from their light emission portion reference position. | 05-19-2016 |
20160146405 | OPTICAL SEMICONDUCTOR LIGHTING APPARATUS - An optical semiconductor lighting apparatus includes: an upper body open at a lower side thereof to define an interior space therein and formed on an outer surface thereof with an upper protrusion; a lower body open at an upper side thereof to define an interior space therein and formed on an outer surface thereof with a lower protrusion placed collinear with the upper protrusion; one or more heat sinks each including a fastening assembly into which the upper protrusion and the lower protrusion are inserted; and a light emitting module including one or more optical semiconductor devices placed on one side surface of each of the heat sinks, wherein the heat sinks surround outer surfaces of the upper body and the lower body. | 05-26-2016 |
20160161102 | LED Bulb - An LED bulb contains: a first shell, a second shell, a heat dissipating element fixed between the first shell and the second shell. The dissipating element includes a first substrate and a second substrate which correspond to the first shell and the second shell, wherein the first substrate includes at least one first LED lighting element, and the second substrate includes at least one second LED lighting element, such that lights illuminate out of the second shell and the first shell via a plurality of heat dissipation fins, thus having omnidirectional illumination. The at least one first LED lighting element of the first substrate illuminates the lights at 180 degrees. Preferably, the second shell is a sphere-shaped shell, a semi-arcuate shell or a flat shell to satisfy different using requirements. | 06-09-2016 |
20160161103 | LED LAMPS FOR RETROFIT ON HIGH WATTAGE METAL HALIDE BALLASTS - According to some embodiments, a system and housing provide a lamp including a heat sink including: an annular tube including a first end and a second end, a plurality of fins extending radially from an exterior surface of the annular tube, wherein a length of each fin extends from the first end of the annular tube to the second end of the annular tube; a plurality of light sources in thermal contact with the heat sink; a driver circuit operative to provide the input voltage and current for the plurality of light sources; and a capper positioned at the second end of the annular tube, wherein the capper is operative to be received in a socket. Numerous other aspects are provided. | 06-09-2016 |
20160169456 | LED DISPLAY DEVICE | 06-16-2016 |
20160178179 | LED Grow Light System | 06-23-2016 |
20160183359 | FLEXIBLE ELECTRICAL CONDUCTOR DEVICE | 06-23-2016 |
20160190735 | LOW VOLTAGE BUSS SYSTEM - An electrical buss has a carrier and at least a pair of electrically conductive elements. The at least a pair of electrically conductive elements extend linearly along a length of the carrier and at least a portion of each of the least a pair of electrically conductive elements is exposed at a surface of the carrier. A connector is releasably couplable to the electrical buss adjacent to the surface of the carrier. The connector has at least a pair of electrically conductive contacts for engaging with the electrically conductive elements at any desired location along the length of the carrier. | 06-30-2016 |
20160201892 | Lamp Base with Heat Dissipation Structure and Lamp Thereof, and Illumination Device | 07-14-2016 |
20160377236 | RETROFIT ILLUMINATION DEVICE - An illumination device and method are disclosed. The device may have a discrete driver module comprising circuitry for supplying power to and controlling at least one light source. The device may also have a connector for electrically connecting to a source of power. The device may also have a discrete lighting module for electrical connection to but otherwise physically separate from the driver module. The lighting module may be configured to receive the light source. The lighting module may have (i) a mechanism for mounting the lighting module to a lighting fixture, and (ii) a temperature sensor for measuring a temperature of the light source. | 12-29-2016 |
20160377277 | FLUID COOLED LAMP - A fluid cooled lamp includes: a heat conductive pipe has multiple heat conductive surfaces and a hollow channel; multiple illumination modules arranged at each heat conductive surface; a junction assembly for inlet and outlet of fluid including an inlet joint and an outlet joint, the inlet joint and the outlet joint are respectively communicated with both ends of the hollow channel; a flow guiding inner tube communicated with inlet joint and located in the hollow channel, multiple spray holes are disposed in the flow guiding inner tube, the fluid is sprayed from each spray hole and impacts an inner wall of the heat conductive pipe to remove heat. | 12-29-2016 |
20160377281 | LED LAMP FORMING MATERIAL AND LIGHT-PERVIOUS WATERPROOF LED LAMP - The present invention relates to an LED lamp forming material with an outstanding weather resistance performance and a reliable seal performance, and also relates to a light-pervious waterproof LED lamp manufactured by the LED lamp forming material. A lamp forming mold is prepared according to a shape of the light-pervious waterproof damp required by a user, a circuit board including a driving circuit and an LED light source is suspended within a molding cavity of the LED lamp forming mold, a PVC paste or a modified PVC paste is injected into the molding cavity, heating is performed for 15 to 30 minutes, the PVC paste or the modified PVC paste within the molding cavity of the LED lamp is solidified, the solidified LED waterproof lamp is taken out of the molding cavity, so as to obtain the light-pervious waterproof LED lamp. | 12-29-2016 |
20180023795 | LED LAMP WITH A FLEXIBLE HEAT SINK | 01-25-2018 |
20180023796 | LED LAMP | 01-25-2018 |
20190146275 | IMAGE DISPLAY APPARATUS AND CONNECTING PIN | 05-16-2019 |
20220136684 | MOUNTING BRACKET FOR FLUSH MOUNT LIGHTING FIXTURE - A mounting bracket for flush mounting a lighting device is provided. The mounting bracket comprises: a first planar member and a second planar member, at least one of the first and second planar members having a center, and one or two transverse members disposed at opposite ends of at least one of the first and second planar members, wherein at least one of the first and second planar members includes two adjacent openings and a receiving member offset from the center of the at least one of the first and second planar members, the receiving member being positioned intermediate the two openings. | 05-05-2022 |