| Entries |
| Document | Title | Date |
|---|
| 20080219009 | PROJECTOR TYPE LAMP - An projector type lamp includes a casing formed with a front open end and configured by connecting an upper casing member and a lower casing member to each other; a concave mirror formed on an inside face of the casing; a light source provided at the first focal point of the concave mirror; a convex lens configured to be held between the upper casing member and the lower casing member at the front open end of the casing and adapted to refract a reflected light that is emitted from the light source and reflected on the concave mirror so as to project a substantially parallel pencil beam forward from the project type lamp; provisional fixers provided on the upper casing member and the lower casing member respectively and configured to latch one another so as to provisionally fix the casing members to one another in place; and a fastener configured to fasten the provisionally-fixed casing members together. | 09-11-2008 |
| 20080225528 | Light-Conducting Pedestal Configuration for an Led Apparatus Which Collects Almost All and Distributes Subtantially All of the Light From the Led - An apparatus comprises a light source, preferably an LED, a reflector, a light-conducting element mounted on the light source for directing light from the light source to an end of the light-conducting element, and a lens mounted on the end of the light-conducting element for directing light into a central beam. Light from the light source is directed to the reflector into a peripheral beam. The central and peripheral beams comprise substantially all of the light generated by the light source. The lens is in effect mounted on a pedestal above the LED. The pedestal transmits all the light rays in the central solid angle to the lens without loss. | 09-18-2008 |
| 20080232110 | Illuminating device having enhanced light gathering effect - An illuminating device includes a main body, at least one light emitting member, a non-spherical light permeable lens, and a retaining ring. Thus, the convex face of the light permeable lens gathers the light emitted from the light emitting member to provide a light gathering effect to the light emitting member, thereby enhancing the lighting effect of the light emitting member. In addition, the reflective face of the main body reflects the light emitted from the light emitting member toward the light permeable lens to enhance the lighting effect of the light emitting member. | 09-25-2008 |
| 20080232111 | Low Up-Light Cutoff Acorn Style Luminaire - A low upright cutoff classification acorn style luminaire is described. The acorn style luminaire has a globe which has a top positioned thereon and which is mounted to a pole. Integrated within the luminaire is the lamp support and lamp, the lamp substantially surrounded and enclosed by a reflector. The interior surface of the globe has a plurality of substantially vertically extending prisms along a curved surface thereof, the prisms working in conjunction with the reflector to provide cutoff classification for the acorn style luminaire. | 09-25-2008 |
| 20080247172 | Light recycling illumination systems having restricted angular output - This invention is an illumination system that incorporates a light emitting diode and a partially reflecting optical element. The light emitting diode emits internally generated light having a first angular range and reflects incident light with high reflectivity. The partially reflecting optical element transmits a first portion of the internally generated light with a second angular range, smaller than the first angular range, and reflects a second portion of the internally generated light back to the light emitting diode, where the second portion is reflected by the light emitting diode. The partially reflecting optical element can be a pyramid, an array of pyramids, a first and second orthogonal arrays of prisms or a bandpass filter. Utilizing a partially reflecting optical element and light recycling can increase the effective brightness and the output efficiency of the illumination system. | 10-09-2008 |
| 20080298072 | LED LAMP ASSEMBLY - An exemplary LED lamp includes a housing having an opening, a printed circuit board, at least one LED, a light reflective element, at least one light-shielding sheet and a lamp cover. The printed circuit board is positioned on a bottom of the housing. The LED is electrically connected with the printed circuit board. The light reflective element defines at least one through hole, the LED passing through the corresponding through hole. The at least one light-shielding sheet corresponds to the at least one LED respectively. Each light-shielding sheet comprises a bottom reflective plate and a pair of opposite sidewalls extending from two opposite ends of the bottom reflective plate. A plurality of light holes is defined at ends of the bottom reflective plate adjacent to the two opposite sidewalls. The lamp cover is fixed on the opening of the housing. The LED lamp assembly has a uniform luminance. | 12-04-2008 |
| 20080298073 | LIGHTING SYSTEM - The invention discloses a lighting system which includes a light source ( | 12-04-2008 |
| 20090016066 | Package Structure for a High-Luminance Light Source - A package structure for a high-luminance light source comprises a circuit board, at least one light source and a resin coating covering the light source. A light refractive layer is formed on a surface of the circuit board and is located correspondingly to the light source, and the light refractive layer is provided for refracting the ineffective light of the light source, so as to turn the ineffective light into effective light, so that the light emitted at different angles from the light source are fully utilized to improve the luminescent efficiency of the light source. | 01-15-2009 |
| 20090168434 | Illuminating Device - An illuminating device includes a light-emitting unit and a light-reflecting unit. The light-emitting unit includes a housing and a light source disposed in the housing. The housing has one end formed with a light exit opening that is disposed along an optical path of light emitted by the light source. The light-reflecting unit is mounted detachably to the housing at the light exit opening, and includes a light-reflecting component for reflecting the light emitted by the light source. The housing is configured with a side light window disposed along a path of the light reflected by the light-reflecting component. The light emitted by the light source exits the housing via the light exit opening when the light-reflecting unit is detached from the housing, and exits the housing via the side light window when the light-reflecting unit is attached to the housing. | 07-02-2009 |
| 20090190358 | Electronic device with diffused backlit display - An electronic device comprises a housing having a panel with an opening extending therethrough, a light source disposed within the electronic device and configured to transmit light through the opening, an optically-transmissive layer located on a side of the panel opposite a side of the light source and extending over the opening, and a reflective element disposed on the optically-transmissive layer and located at least partially coincident with a location of the opening. | 07-30-2009 |
| 20090190359 | LED LIGHT STRING SYSTEM - The light emitting diode (LED) light string system includes a plurality of lamp systems. Each lamp system includes a single LED, a base, and a globe to cover the LED. The LED light string system appears similar to the conventional incandescent light string system, but instead illuminates via LEDs. Each LED is covered by the globe similar to those available in incandescent systems, which provides refraction of the illuminated LED to produce an LED light string that has the look of a conventional incandescent light string. | 07-30-2009 |
| 20090219720 | LIGHTING - Lighting assemblies with light sources are disclosed for use in place of fluorescent lights. A support member can be attached to brackets, which can snap into a spring lampholder brackets used for a fluorescent light. For holding a support member, an offset bracket can be used or alternatively, a bracket with a tab or set screw can be used. The disclosed lighting assemblies are particularly well suited for providing light from light emitting diodes. Methods for manufacturing light strip assemblies are also disclosed. Each support member can be positioned on a supporting surface so that a support surface of the light strip is substantially horizontal. A lens can be formed on each light source. Application to refrigerated cases is described. | 09-03-2009 |
| 20090219721 | LIGHT EMITTING DEVICE - The present invention is directed to a small-sized stroboscopic light emitting device that controls disorder in light distribution (orientation) characteristic caused by a shape of the reflector, and achieves a homogeneous light quantity distribution. The stroboscopic light emitting device includes an illuminator | 09-03-2009 |
| 20090237942 | Package structure for light emitting diode - A package structure for light emitting diode (LED) comprises a base, an LED die, an optical lens and a lens holder. The base comprises at least one holder cavity formed on its surface and at least one chase formed on its side surface. The lens holder comprises an opening, at least one holder stem and at least one wedge. The optical lens is arranged between the lens holder and the base, and also through the opening. The lens holder is fastened on the base by wedging the wedge with the chase and positioned on the base by embedding the holder stem into the holder cavity to enhance the positioning between the optical lens and the base, such that the optical lens can generate a desired light pattern. Therefore, the required time of a packaging process can be reduced, and the lens holder can be removed simply for replacing the optical lens, so the objective of changing the light pattern quickly can be achieved. | 09-24-2009 |
| 20090244903 | Illumination Assembly With Diffusive Reflector Cup - One embodiment of a method for configuring consumption of service includes identifying a service to be consumed by a user, identifying a plurality of bearer technologies across which at least one electronic device can access the service, selecting one of the plurality of bearer technologies for use in configuring the at least one electronic device, and configuring the at least one electronic device for the service using one of a plurality of management frameworks according to the selected bearer technology. | 10-01-2009 |
| 20090268469 | ILLUMINATION UNIT FOR PROJECTION SYSTEMS - An illumination unit for emitting light along an optic axis for a projection system includes an LED die and a collimator lens. The collimator lens includes a central part and a peripheral part. The central part has a first light transmission surface and a second light transmission surface opposite to the first light transmission surface. The peripheral part which is around the central part has an inner refraction wall coupled to the first light transmission surface to form a hollow for situating the LED die, an outer reflection wall opposite to the inner refraction wall, and a refraction surface connecting to the second light transmission surface and the outer reflection wall. Both the central part and the peripheral part of the collimator lens are rotationally asymmetrical corresponding to the optic axis. | 10-29-2009 |
| 20090296405 | SPREAD LENS AND LIGHTING DEVICE ASSEMBLY USING THE SAME - The present invention relates to a spread lens and a light emitting device assembly using the spread lens for miniaturization and improving a spread characteristic of a lens. | 12-03-2009 |
| 20100033974 | LAMP MODULE FOR PROJECTORS - A lamp module is disclosed, in particular for projectors for data or video projection, having at least one lamp ( | 02-11-2010 |
| 20100046234 | Illumination Systems Utilizing Wavelength Conversion Materials - A wavelength conversion material with an omni-directional reflector is utilized to enhance the optical efficiency of an illumination system. Light guides with restricted output apertures, micro-element plates and optical elements are utilized to enhance the brightness of delivered light through light recycling. In addition, micro-element plates may be used to provide control over the spatial distribution of light in terms of intensity and angle. Efficient and compact illumination systems are also disclosed. | 02-25-2010 |
| 20100097809 | CONDENSING ELEMENT, ARRAY, AND METHODS THEREOF - A condensing element, array, and methods thereof include a bowl-shaped outer section and a lens-shaped inner section. The outer section provides substantially total internal reflection of light entering at an input surface of the outer section. The inner section is recessed within the outer section at a distance from the entering light that is within the focal position of the inner section. The outer and inner sections are configured in a preferred embodiment so that substantially all the light exiting the condensing element is substantially parallel to the optical axis of the entering light. In an alternate embodiment, the configuration of the condensing element can be modified to selectively adjust the desired degree of collimation of the exiting light. | 04-22-2010 |
| 20100165636 | LED UNIT - An LED unit includes an LED and an envelope receiving the LED therein. The envelope includes a bottom substrate fixing the LED thereon, a sidewall angling upwardly from the substrate and surrounding the LED, and a lens formed in the sidewall and located above the LED. The lens has two aspheric surfaces with different curvatures to collect light deflected at a small angle relative to an axis of the LED into a parallel pattern. The sidewall has upper and lower conical inner circumferences and a parabolic outer circumference to direct light deflected at a large angle relative to the axis of the LED into parallel pattern. The lower inner circumference of the sidewall has an angle of 2π/5 to 13π/30, and the upper inner circumference of the sidewall has an angle of 5π/36 to 7π/36. | 07-01-2010 |
| 20100165637 | ILLUMINATION LENSES INCLUDING LIGHT REDISTRIBUTING SURFACES - Illumination lenses ( | 07-01-2010 |
| 20100238666 | Prism and lighting device - A prism includes a light incident portion that has first and second convex portions, the first and second convex portions each are a convex portion that refracts rays of light incident to a prism body and reduces a spread angle after incidence to the prism body via the convex portion to be smaller than that before the incidence, the spread angle is an angle between a given two of the rays, a first reflecting surface, provided on the prism body, that can reflect a first ray of light that has entered the prism body via the first convex portion, a first emitting portion, provided on the prism body, that emits, to the outside, the first ray reflected by the first reflecting surface, and a second emitting portion that emits, to the outside, a second ray of light that has entered the prism body via the second convex portion. | 09-23-2010 |
| 20100271828 | LIGHT-EMITTING DEVICE AND METHOD FOR ITS DESIGN - A small and bright light-emitting device, comprising an outer boundary lens surface and at least one LED, is achieved by carefully choosing the inclination of each surface portion of the outer lens surface with respect to the chip size of the light source. The inclination of the surface portions are chosen such that the lens provides an optimal weighing between size and light efficiency. | 10-28-2010 |
| 20100271829 | ORIENTABLE LENS FOR A LED FIXTURE - A mounting surface for mounting a plurality of LEDs has a plurality of orientable lenses each individually affixed about a single LED. Each orientable lens may have a primary reflector and a refracting lens that direct light emitted from a single LED to a reflective surface of the orientable lens that reflects the light off a primary LED light output axis. | 10-28-2010 |
| 20100302782 | LIGHT-EMITTING DEVICE - A light-emitting device is obtained by disposing a reflective layer on a GaAs substrate, by disposing a light-emitting layer on the reflective layer, and by disposing a surface layer on the light-emitting layer. The surface layer is formed by alternately stacking a low refractive film and a high refractive film having a refractive index higher than that of the low refractive film. The surface layer may be formed by alternately stacking one low refractive film and one high refractive film. The outermost film in the surface layer may be the low refractive film. The film adjacent to the light-emitting layer in the surface layer may be the high refractive film. | 12-02-2010 |
| 20110007512 | Directional Light Source Using Refractive and Reflective Optics - A directional light source comprising refractive and reflective optics is disclosed. In one embodiment, the system comprises refracting apparatus which refracts light into a narrow cone, and reflecting apparatus which recycles light into a direction such that light will emanate from the refracting apparatus in the desired narrow cone. | 01-13-2011 |
| 20110110098 | LED UNIT - An LED unit includes an LED and a lens receiving the LED. The lens includes a first light-incident face confronting the LED to refract the light emitted from the LED with a small angle into the lens, a second light-incident face surrounding the LED to refract the light emitted from the LED with a large angle into the lens, a light-reflecting face to reflect the light from the second light-incident face towards a top of the LED, a first light-emergent face to refract the light from the first light-incident face out of the lens, and a second light-emergent face to refract the light from the light-reflecting face out of the lens. | 05-12-2011 |
| 20110110099 | GOBO SUPPORT ASSEMBLY FOR A STAGE LIGHTING FIXTURE, AND STAGE LIGHTING FIXTURE EQUIPPED WITH SUCH A GOBO SUPPORT ASSEMBLY - A gobo support assembly, for a stage lighting fixture, has a disk-shaped gobo; a gobo support having a first seat for housing the gobo; and a gobo carrier wheel rotating about an axis and having a second seat for housing the gobo support; the gobo carrier wheel and the gobo support being connectable in sliding manner in a direction substantially perpendicular to the axis, and being locked mutually by a reversible click-on locking mechanism to hold the gobo support in a given position inside the second seat. | 05-12-2011 |
| 20110170299 | LED LIGHT BULB - In an LED light bulb, an LED module and a lens are disposed on a fixing stage provided to a housing. The lens has a concave portion at its top end. The concave portion forms a reflecting surface which reflects part of outgoing light from the LED module to (i) first directions perpendicular to a front emission direction of the outgoing light or (ii) second directions leaning to a cap beyond the first directions. Due to diffusion effect of an optical cover, part of the light reflected by the lens is emitted backward (toward the cap). This realizes an LED light bulb that distributes light over an entire circumference and has high output as well as high light output ratio. | 07-14-2011 |
| 20110235337 | Fade Out Optical Light Masking Projector System - A light projector system, including a light projector device having a light source for producing a light beam, a light mask, an objective focal lens disposed within the path of the light beam, and a gate area. The light projector system also includes a diffusion element disposed within or forward of the gate area along the path of the light beam of the projector device. The diffusion element eliminates visible chromatic aberration from an illumination zone produced by the light projector system. | 09-29-2011 |
| 20110273891 | LIGHTING DEVICE - A lighting device includes a parabolic reflector, a light source and a lens. The parabolic reflector has an opening. The light source is substantially located at the focus of the parabolic reflector. The lens is disposed in front of the opening of the parabolic reflector. The lens includes a plurality of convex-lens portions. The convex-lens portions are connected to each other, wherein the convex-lens portions have different focal points. | 11-10-2011 |
| 20110305026 | LIGHT EMITTING DEVICE - To provide a light emitting device that realizes a similar light distribution state to that of a conventional incandescent light bulb even though the light emitting device has a structure with a light emitting element such as an LED placed on a substrate. In the light emitting device in which the LED is placed on the substrate, the light emitting device includes the light guiding member, into which light emitted from the LED enters, while the light guiding member having the launching surface (i.e., the facing-substrate launching surface and the side launching surface) from which the entered light is launched. Meanwhile, the launching surface has the facing-substrate launching surface including a total reflection surface for totally reflecting light incident in the launching surface at a critical angle, in a direction tilted toward a side of the substrate than a direction perpendicular to the optical axis of the light emitting device. Furthermore, the launching surface also has the side launching surface including a refractive surface for refracting and launching light, totally reflected by the facing-substrate launching surface, in a direction toward the side of the substrate. | 12-15-2011 |
| 20120014112 | HIGH EFFICIENCY REFRACTION BODY - A high efficiency refraction body includes a light source chamber and a main refraction surface opposite to the light source chamber. A first refraction surface and a second refraction surface for refracting the lights are formed to a peripheral of the high efficiency refraction body. A light source is received to the light source chamber. Lights from the light source will be total reflected because the incident angles of the lights exceed a critical angle of the main refraction surface. The reflected lights will be refracted through the first refraction surface and the second refraction surface so as to pass a lateral of the refraction body. A uniform lateral illumination of the refraction body will correct the poor lateral illumination of LED light devices. | 01-19-2012 |
| 20120039077 | AREA LIGHTING DEVICES AND METHODS - The present application discloses, among other things, optics and lighting devices, systems, and associated methods for delivering light asymmetrically onto a target surface so as to create a desired illumination pattern. Typically, the optics and lighting systems described herein include an optic that receives light from one or more light sources and redirects the light in a patterned or other controlled manner. In many cases, a central lens portion can generate a desired asymmetric illumination pattern while peripheral lens portions redirect light received from the light source to portions of the asymmetric illumination pattern generated by the central lens portion. In many embodiments, the central lens portion redirects light received from a source only via refraction, whereas the peripheral lens portions redirect the light received from the source via a combination of reflection and refraction. | 02-16-2012 |
| 20120057352 | LED Lighting Fixture - An LED lighting fixture comprising (a) a front-housing portion having a surrounding lateral wall defining a front cavity and extending to a front-housing forward edge at an open front-end, (b) a rear-housing portion having a backwall and a surrounding wall which define a rear cavity, the surrounding wall extending to a rear-housing forward edge, the rear-housing portion joined to the front-housing portion with the rear-housing surrounding wall substantially in alignment with the front-housing surrounding wall, (c) a cross-member secured with respect to the housing portions in a position at the juncture thereof and spanning the interior of the joined housing portions, the cross-member having a front surface facing the front cavity, and (d) an LED illuminator secured to the front surface of the cross-member. | 03-08-2012 |
| 20120063150 | LIGHT SOURCE DEVICE AND DISPLAY DEVICE PROVIDED WITH SAME - A light source device includes a circuit board having a LED mounted on a surface, a lens attached to the surface so as to diffuse light emitted from the LED, a reflecting sheet having a through hole in the inside of which the lens is disposed and reflecting light emitted from the LED at an opposite side of the surface, and a restricting member which is disposed at one of an edge of the through hole in the reflecting sheet and the lens, and restricts a deviation of the reflecting sheet in a direction departing from the surface. | 03-15-2012 |
| 20120081907 | LIGHT SOURCE MODULE - Disclosed is a light source module which does not require rigorous adjustments of the light direction and is free from luminance unevenness. Specifically disclosed is a light source module ( | 04-05-2012 |
| 20120087133 | Lighting Device - An illumination device, comprising a basic body ( | 04-12-2012 |
| 20120120666 | STREET LIGHTING DEVICE - A lighting device for streets, paths, and the like, includes a lighting unit containing a lighting element and a lens arranged in front of the lighting element in the main emission direction to produce a specified light distribution characteristic. The lens includes a light entrance surface on a light entrance side facing the lighting element and a light exit surface on a light exit side facing away from the lighting element, at which surfaces the light is refracted. The light entrance surface and/or the light exit surface of the lens is shaped in a direction transverse to the optical axis of the lighting element in such a way that the luminous intensity of the coupled out light, starting from a center plane that intersects with the optical axis, rises with an increasing emission angle from the optical axis at least partially according to a tangent function. | 05-17-2012 |
| 20120134159 | Illumination optical system - An illumination optical system includes a prism disposed on an incident optical axis and a lens that is disposed between the light source and an incident surface of the prism or between an emitting surface of the prism and an illuminated object, at least one of the reflection surfaces being a transmission/reflection surface. Additionally, an illumination optical system includes a prism having a surface that is disposed so as to obliquely intersect with an incident optical system, that transmits a part of the entering light to be emitted therefrom, and that deflects at least part of the rest of the light in a direction that intersects with the incident optical axis to be emitted therefrom. Furthermore, an illumination optical system has a rod lens that is disposed so that a longitudinal direction thereof is inclined with respect to an incident optical axis is provided. | 05-31-2012 |
| 20120140482 | LENS AND SEMICONDUCTOR LIGHT-EMITTING ELEMENT MODULE USING SAME - A lens has a light-incoming face, a light-outgoing face, and a side face. The light-incoming face is disposed near a light source or in contact with the light source. The light-outgoing face is provided opposite to the light-incoming face. The side face has a curved total reflection surface that totally reflects a light beam that has entered the light-incoming face. The total reflection surface is formed so that light beams that have reflected off the total reflection surface focus in a given angle from the light-outgoing face. | 06-07-2012 |
| 20120155091 | LIGHT EMITTING DEVICE AND ILLUMINATION DEVICE - A light emitting device that can reduce the illuminance unevenness on an illuminated surface. First light flux controlling member | 06-21-2012 |
| 20120206920 | IMAGE VIEWING DEVICE - A viewing device includes an interior assembly includes an interior frame having an exterior surface, an exterior assembly coupled to the interior assembly including an exterior lens, the exterior lens having an interior surface, wherein the interior surface of the exterior lens faces the exterior surface of the interior frame. The viewing device includes a reflective surface on the exterior lens, and an object located on the interior assembly adapted to project an image onto the reflective surface. The reflective surface is configured to reflect the projected image toward the interior assembly. | 08-16-2012 |
| 20120218765 | LIGHT EMITTING DEVICE - A light emitting device comprises: a surface light source for a surface-emission; a CPC lens having a light receiving surface, a side reflective surface, and a light emitting surface, the light receiving surface receiving a part of light from the surface light source, the side reflective surface reflecting the light from the light receiving surface, and the light emitting surface facing the light receiving surface and emitting the light; and a reflector containing the surface light source and the CPC lens, and having a concaved reflective surface for reflecting forward the light deviating the light receiving surface from the surface light source, wherein a ratio of a illumination area of the surface light source to an area of the light receiving surface of the CPC lens is not less than 0.63 and not more than 2.93. | 08-30-2012 |
| 20120218766 | LIGHT SIGNAL TRANSMITTER AND LIGHT RECEIVER FOR AN OPTICAL SENSOR - A light signal transmitter and a light receiver for an optical sensor may be used for an industrial automation system. The light signal transmitter has a semiconductor-based light source for generating light. The semiconductor-based light source is disposed in an installation space between outer layers of a multi-layer circuit board. The light emission direction of the semiconductor-based light source is oriented substantially parallel to the layers of the printed circuit board. A deflection unit deflects the light emitted by the semiconductor-based light source in a direction substantially perpendicular to the layers of the printed circuit board. In the case of the light receiver, a light sensor is provided in place of the light source. Such optical sensors can be designed in a particularly flat and installation-friendly manner. | 08-30-2012 |
| 20120243238 | OPTICAL DEVICE - An optical device includes a high pressure discharge lamp, a concave condensing mirror placed so as to surround the high pressure discharge lamp while an optical axis stays extended along a direction of an arc of the high pressure discharge lamp, and an aspherical lens that is placed forward the light exit direction of the concave condensing mirror and that is rotationally symmetrical with respect to the optical axis of the concave condensing mirror, in which a reflecting surface of the concave condensing mirror is configured so as to have a shape set in connection with the shape of a light incident surface and the shape of a light exit surface of the aspherical lens. | 09-27-2012 |
| 20120250330 | OPTICAL ELEMENT AND COLLIMATING OPTICAL ASSEMBLY - Designs for collimating optical elements and assemblies are provided which are fabricated by a subtractive process using lasers or other tools to create embedded void spaces that provide reflecting walls for internally reflective optical elements. The designs have advantages in cost, reduced development time, and performance. Light from multiple light sources can be mixed and collimated. Some embodiments provide the ability to integrate a large number of internally reflective optics into a single component and very large components can be made. Embodiments are designed for manufacturing and can be made without molding tooling. | 10-04-2012 |
| 20120307503 | Multi-Lens LED-Array Optic System - Lighting apparatus having a first lens over the LED emitter and a second lens over the first lens, and including: a first optical surface which is a first-lens outer surface configured to refract light from the emitter; a second optical surface which is a second-lens inner surface spaced from the first optical surface; and a third optical surface which is a second-lens outer surface configured to refract light from the second optical surface toward a preferential side. One embodiment includes asymmetric primary and secondary lenses. | 12-06-2012 |
| 20130021803 | LIGHT FIXTURE WITH CO-FORMED PLENUM COMPONENT - A light fixture with co-formed plenum component is disclosed. Embodiments of the invention provide troffer-style recessed solid state fixture using a highly reflective plastic reflector. In at least some embodiments, the plastic reflector can meet the additional requirements placed on mechanical components exposed to the space above the ceiling plane in plenum return ceiling applications. Example embodiments include a light fixture with an LED light source and a reflector that is coextruded from a plenum rated substrate and a reflective material, for example, a plenum rated plastic substrate and a diffuse, white reflective material. In some embodiments, the plenum rated substrate includes polyetherimide, a polyphenylene ether/polystyrene blend, polycarbonate, polycarbonate copolymer, or a combination of the foregoing. | 01-24-2013 |
| 20130033875 | ENERGY EFFICIENT SIGN - A light directing composite film includes a planar top major surface, a planar bottom major surface, a plurality of lenticular lens elements disposed between the top major surface and the bottom major surface, and a plurality of light reflection regions and light transmission regions disposed between the plurality of lenticular lens and the planar bottom major surface. | 02-07-2013 |
| 20130114268 | Light Emitting Device - A light emitting device which is substantially free from misrecognition occurring due to external light and is less conspicuous. The light emitting device includes an inner lens subjected to a half mirror treatment and provided around a light emitting member. The inner lens is tubular, and has a half mirror formed on an outer peripheral surface thereof by metal coating. The inner lens surrounds the light emitting member, and its lower portion is retained by a case. An engagement cover is attached to an upper portion of the inner lens. Thus, the inner lens is fixed to the outer cover, and prevents external light from intruding into the inner lens. | 05-09-2013 |
| 20130194810 | REFLECTIVE STREET LIGHT WITH WIDE DIVERGENCE ANGLE - A reflective street light with wide divergence angle includes a light device having a light emitter and a total reflection lens. The light rays from the light emitter are reflected to two sides of the total reflection lens and then are refracted outwardly via the refraction surfaces at a maximum angle. | 08-01-2013 |
| 20130235590 | Tube luminescent retrofit using light emitting diodes - The invention relates to a LED-based optical unit including a LED disposed on a surface and a monolithic module encompassing the LED and including a re-directing portion and a first diffusing portion. The first diffusing portion is configured to diffuse light incident thereon. The re-directing portion is configured to re-direct at least a first portion of light emitted by the LED to be incident on the first diffusing portion. | 09-12-2013 |
| 20130242566 | LIGHT EMITTING DIODE LAMP - A light emitting diode (LED) lamp is provided. The LED lamp may include a mounting housing including a printed circuit board (PCB) in the form of a circular or annular disc, at least one LED disposed on the PCB, and a preferably light-directing cover portion shaped corresponding to a shape of the PCB and connected to the mounting housing to cover the PCB to which the at least one LED is mounted, thereby covering the at least one LED. Since light emitted from the at least one LED is directional, a directional LED lamp may be implemented. In addition, the LED lamp may further include a reflector detachably connected to the mounting housing or the cover portion, and configured to reflect the light emitted from the at least one LED in directions including plural, lateral, e.g. radial, outward and/or downward directions from a central longitudinal axis of the mounting housing. | 09-19-2013 |
| 20130265772 | OPTICAL ELEMENT INCLUDING TEXTURING TO CONTROL BEAM WIDTH AND COLOR MIXING - A method for providing an optical element may include providing an optical feature in the optical element that spreads or distributes light passing through the optical element. The method may also include providing a texturing in at least a portion of the optical feature of the optical element. | 10-10-2013 |
| 20130286657 | OPTICAL LENS AND LIGHT SOURCE MODULE HAVING THE SAME - A lens for covering a light source to diverge light from the light source includes a light incident surface covering the light source, a light outputting surface positioned at lateral sides of the light incident surface; and a light reflecting surface positioned away from the light incident surface and interconnecting the light outputting surface. A reflectivity of the light reflecting surface is greater than a transmissivity thereof. Part of the light striking to the light reflecting surface is reflected by the light reflecting surface and traveling out of the lens via the light outputting surface. The other part of the light strikes to the light reflecting surface traveling out of the lens via the light reflecting surface. The light traveling through the lens has a viewing angle greater than 180 degrees. | 10-31-2013 |
| 20130286658 | LIGHT EMITTING DIODE - An exemplary lens includes a periphery acting as a light output surface of the lens, a light input surface surrounded by the light output surface, and a reflecting surface recessed downwardly towards the light input surface and surrounded by the light output surface. A top end of the reflecting surface connects with the light output surface. | 10-31-2013 |
| 20130301279 | DEVICE AND METHOD FOR CREATING A 3-D LIGHT EFFECT - The present invention relates to a display device for creating a 3-D effect. The display device comprises a substrate, a first layer attached to the substrate comprising glass beads and at least one pigment, and an LED light source for shining upon the first layer. | 11-14-2013 |
| 20130335976 | DARK FIELD ILLUMINATION METHOD AND A DARK FIELD ILLUMINATOR - A dark field illuminator that includes a light source adapted to provide a ring of light characterized by uniform intensity distribution; a collimating ring adapted to receive the ring of light and to direct collimated light beams towards an area of an inspected object such that different points within the area are illuminated by light beams that form substantially identical cones of light; and wherein the collimating ring and the light source are co-centric to an optical axis of the dark field illuminator. | 12-19-2013 |
| 20140003059 | LIGHT CONTROL LENS AND LIGHT SOURCE DEVICE USING THE SAME | 01-02-2014 |
| 20140016326 | ASYMMETRIC AREA LIGHTING LENS - A lens for distributing light from a light emitter in a desired asymmetric illumination profile includes a lens body having an input side and an output side. The input side receives light from an emitter, and the output side includes a major total internal reflection surface and a refractive surface. A primary emission axis associated with the emitter is defined through the lens body, and a transverse reference plane is positioned parallel to the primary emission axis. A desired illumination region is located on a first side of the reference plane, and a desired dark region is located on a second side of the reference plane. In some embodiments, the total internal reflection surface is entirely positioned on the second side of the reference plane. In additional embodiments, the total internal reflection surface includes a plurality of substantially planar adjacent longitudinal faces. | 01-16-2014 |
| 20140029265 | FADE OUT OPTICAL LIGHT MASKING PROJECTOR SYSTEM - A light projector system, including a light projector device having a light source for producing a light beam, a light mask, an objective focal lens disposed within the path of the light beam, and a gate area. The light projector system also includes a diffusion element disposed within or forward of the gate area along the path of the light beam of the projector device. The diffusion element eliminates visible chromatic aberration from an illumination zone produced by the light projector system. | 01-30-2014 |
| 20140056007 | LIGHT EMITTING APPARATUS - A light-emitting apparatus includes at least one light-emitting unit and a lens. The lens includes an accommodating portion, and at least a part of the light-emitting unit is disposed to the accommodating portion. The accommodating portion has a light incident surface, and the ratio of a distance from the light incident surface to the light-emitting unit to a side length of the light-emitting unit is less than 0.5. Thereby, a backlight module using the light-emitting diode (LED) as the light source can emit uniform light, and also the number of the required LED can be decreased. | 02-27-2014 |
| 20140063814 | ILLUMINATION SYSTEM - An illumination system may include a receiver which is mounted on a support surface, such as a heat sink, and a light module that may include a cover and an LED assembly. The LED assembly is rotateably attached to the cover and seats within the receiver. The receiver may have touch-safe terminals attached thereto for providing power to the LED assembly. The LED assembly may include a cup which enables potting material to be easily included in the assembly during manufacturing. When the LED assembly is attached to the receiver, blades on the LED assembly mate with the terminals on the receiver. | 03-06-2014 |
| 20140071691 | LIGHT SOURCE APPARATUS - A light source apparatus includes a primary light source that emits primary light, a diffusing member that diffuses and converts the primary light into diffused light, a reflection portion that regularly reflects or diffuse-reflects and converts the diffused light into reflected light, and an emission portion that emits the reflected light to an outside. A portion of the primary light is converted in an order of the diffused light and the reflected light and emitted to the outside from the emission portion in a state of the reflected light. | 03-13-2014 |
| 20140098544 | LIGHT EMITTING MODULE AND LIGHTING DEVICE USING THE SAME - A light emitting module includes a circuit board having a plurality of reflective portions arranged in one direction and connection portions connecting the plurality of reflective portions, light emitting devices mounted on the plurality of reflective portions, and lens units disposed to cover the light emitting devices within boundaries of surfaces, of the plurality of reflective portions, on which the light emitting devices are mounted. A width of each of the connection portions in the other direction, perpendicular to the one direction thereof, is smaller than a diameter of each of the lens units, thus reducing a generation of a dark portion. | 04-10-2014 |
| 20140098545 | OPTICS FOR AXIALLY-TRANSVERSE LIGHT EMISSION - Apparatus for injecting light into a light transmitting substrate or window, including an optical arrangement secured to one of the surfaces of the substrate or window for directing light into the substrate or window at an incident angle selected for propagation of light via total internal reflection (TIR) along the substrate or window. The optical arrangement comprises: (1) refractive media transmissive to light from a light source, the refractive media being bounded on a first end by coplanar exit and input surfaces and at a second end by a non-planar reflective surface, and (2) at least one coupling material to optically and physically couple the exit and input surfaces to the substrate or window, the refractive media and the at least one coupling material having a refractive index greater than air. | 04-10-2014 |
| 20140126217 | OPTIC SHIELDING - A lighting assembly includes a light source and a lens. The lens includes a light transmissive portion and an optic shield portion for blocking or redirecting at least a portion of light generated by the light source. The light source can include one or more light emitting diodes (LEDs). The optic shield can be painted on or otherwise applied to a portion of the lens. Alternatively, it can be integrally formed with the lens. The optic shield can be an opaque material for blocking light generated by the light source or can be a reflective material for reflecting light generated by the light source through the light transmissive portion of the lens. Methods for making an optic shield are also described. | 05-08-2014 |
| 20140140069 | LED ILLUMINATION ASSEMBLIES INCLUDING PARTIAL LENSES AND METAL REFLECTORS - An illumination assembly includes a planar or piecewise planar metal reflector positioned very close to an LED subtending a first azimuthal angle range Θ1 that is less than 360° about the LED and a partial lens positioned close to the LED and subtending a second azimuthal angle range (e.g., Θ2=360°−Θ1) less than 360° about the LED. The metal reflector forming one or more images of the LED that are close to the LED, thereby limiting optical source size growth and reflecting light into the partial lens. | 05-22-2014 |
| 20140160766 | LENS-REFLECTOR COMBINATION FOR BATWING LIGHT DISTRIBUTION - The present subject matter is directed to a system and method for producing a batwing light distribution. A lens is illuminated with a light source, preferably an LED, and the lens is configured to internally reflect a portion of the illuminating light back in a direction generally opposite to the initial illumination direction. Another portion of the light from the light source may pass through other lens surfaces but may also be reflected back past the light source with a reflector positioned on the other side of the lens from the light source. The light source may be mounted on a frame so as to obscure light therefrom from view. | 06-12-2014 |
| 20140160767 | OPTICAL LENS AND LIGHTING DEVICE HAVING SAME - An optical lens for adjusting lighting angle of a light emitting diode includes a bottom surface, a light incident surface and a light emitting surface. The light incident surface is formed in a middle portion of the bottom surface. The light incident surface is concaved from the bottom surface and forms a receiving chamber. The light incident surface has an ellipsoidal shape and a major axis of the light incident surface is coincided with an optical axis of the optical lens. The light emitting surface protrudes in a direction away from the bottom surface. The light emitting surface has an ellipsoidal shape and a major axis of the light emitting surface is perpendicular with the optical axis of the optical lens. A lighting device having the optical lens and the light emitting diode is also provided. | 06-12-2014 |
| 20140177231 | LIGHTING DEVICE - The present invention relates to a lighting device. Light flux controlling member | 06-26-2014 |
| 20140192538 | POLYMER LIGHT ARMATURE - An armature for an illuminant can comprise: walls formed by an armature composition. The armature composition can comprise an armature polymer, 10 wt % to 20 wt % coated titanium dioxide, and greater than zero to 0.001 wt % carbon black, wherein the weight percentages are based upon a total weight of the armature composition. The armature polymer can comprise polycarbonate. At a thickness of greater than or equal to 3 mm, the armature has a reflection at 700 nm of greater than or equal to 93%. A light fixture can comprise a light source in the armature. | 07-10-2014 |
| 20140192539 | LED-BASED LIGHT SOURCE REFLECTOR WITH SHELL ELEMENTS - An optical element that may be replaceably mounted to an LED based illumination device. The optical element includes a hollow shell reflector and a plurality of annular shell elements disposed within the hollow shell reflector at different distances from the input port of the optical element. An annular shell element that is closer to the input port of the optical element has a radius that is less than the radius of an annular shell element farther from the input port. | 07-10-2014 |
| 20140198507 | COMPACT LIGHT-MIXING LED LIGHT ENGINE AND WHITE LED LAMP WITH NARROW BEAM AND HIGH CRI USING SAME - A directional lamp comprises a light source, a beam forming optical system configured to form light from the light source into a light beam, and a light mixing diffuser arranged to diffuse the light beam. The light source, beam forming optical system, and light mixing diffuser are secured together as a unitary lamp. The beam forming optical system includes: a collecting reflector having an entrance aperture receiving light from the light source and an exit aperture that is larger than the entrance aperture, and a lens disposed at the exit aperture of the collecting reflector, the light source being positioned along an optical axis of the beam forming optical system at a distance from the lens that is within plus or minus ten percent of a focal length of the lens. | 07-17-2014 |
| 20140204587 | A LIGHT GUIDE - A light guide ( | 07-24-2014 |
| 20140204588 | LED LUMINOUS FLUX CONVERTING LENS AND LIGHTING APPARATUS INCLUDING THE SAME - A light emitting device (LED) luminous flux converting lens including a bonding portion that bonds the LED luminous flux converting lens to a supporting plate to fix the LED luminous flux converting lens. The LED luminous flux converting lens includes a bonding portion that protrudes from a boundary of an upper surface in a horizontal direction, and the bonding portion includes a first portion and a second portion having different thicknesses. The LED luminous flux converting lens includes a bonding portion that protrudes from a portion of a boundary of the upper surface in a horizontal direction. A luminous flux efficiency of the LED luminous flux converting lens may be increased by reducing loss in a luminous flux due to the bonding portion. | 07-24-2014 |
| 20140211481 | LIGHT-GUIDING COVER AND ILLUMINATION DEVICE HAVING THE SAME - A light-guiding cover includes a light input surface defining a central axis and a light output surface. The light-guiding cover has a reflecting portion formed therein and substantially symmetrical about the central axis. The reflecting portion surrounding the central axis has an outer reflecting surface and an inner reflecting surface. The light input surface is defined into two regions, an inner region and an outer region, by the reflecting portion. The outer reflecting surface of the reflecting portion is arranged away from the central axis, the inner reflecting surface of the reflecting portion is arranged near to the central axis. Thus, the light-guiding cover of the instant disclosure can guide the light beams emanated from a LED to travel in certain optical paths and provide uniformly distributed lighting. Moreover, the instant disclosure also provides an illumination device having the light-guiding cover that can omni-directionally illuminate. | 07-31-2014 |
| 20140233242 | LIGHT SOURCE MODULE AND LIGHTING APPARATUS HAVING THE SAME - A light source module including a light source, a first lens disposed above the light source and including a through hole penetrating through top and bottom surfaces thereof, and a second lens disposed to face the light source within the through hole and moving in an optical axis direction to adjust an amount of light incident to the first lens, the light generated by the light source, may be provided. | 08-21-2014 |
| 20140247602 | CYC ATTACHMENT FOR A LIGHT ENGINE - A luminaire including a light engine having a light source and a housing and a light-diffusing attachment that includes a frame secured to the housing of the light engine, a refracting lens supported by the frame, and a diffuser supported by the frame. | 09-04-2014 |
| 20140254171 | LIGHTING APPARATUS - The invention relates to alighting apparatus comprising a light emission unit ( | 09-11-2014 |
| 20140268810 | Optic for a Light Source - Certain embodiments of the present invention provide an optic over a light source, such as, but not limited to, an LED, whereby the optic does not entirely encapsulate the LED but rather includes an inner surface such that an air gap exists between the optic and the LED. | 09-18-2014 |
| 20140268811 | Led Assembly Having A Refractor That Provides Improved Light Control - An LED assembly that includes optics and optical arrangements for light emitting diodes (LEDs). In some embodiments, a reflector is provided within a void between the lens and the LED. This reflector can reflect light emitted by the LED in a non-preferred direction back toward the preferred direction. In other embodiments, an optical element is formed or otherwise provided in the lens cavity and shaped so that, when the lens is positioned above the LED, the refractor bends the emitted light in a preferred direction. In some embodiments, both a reflector and optical element are provided in the LED assembly to control the directionality of the emitted light. Such embodiments of the invention can be used to increase the efficiency of an LED by ensuring that generated light is being directed to the target area of choice. | 09-18-2014 |
| 20140268812 | Led Assembly Having a Reflector That Provides Improved Light Control - An LED assembly that includes optics and optical arrangements for light emitting diodes (LEDs). In some embodiments, a reflector is provided within a void between the lens and the LED. This reflector can reflect light emitted by the LED in a non-preferred direction back toward the preferred direction. In other embodiments, an optical element is formed or otherwise provided in the lens cavity and shaped so that, when the lens is positioned above the LED, the refractor bends the emitted light in a preferred direction. In some embodiments, both a reflector and optical element are provided in the LED assembly to control the directionality of the emitted light. Such embodiments of the invention can be used to increase the efficiency of an LED by ensuring that generated light is being directed to the target area of choice. | 09-18-2014 |
| 20140268813 | LIGHTING DEVICE WITH VIRTUAL LIGHT SOURCE - A lighting device includes a light source and an enclosure enclosing the light source wherein a portion of the enclosure has a focus-forming curvature such that when the light from the light source is reflected off the enclosure element the reflected light intersects at the focus of the curvature and creates a virtual light source at the focus. A reflective coating or a reflective material may be applied to the enclosure, or a ball lens may be used around the light source, to increase the intensity of the reflected light and of the virtual light source. A diffuser may be used to change the size and shape of the virtual light source. | 09-18-2014 |
| 20140286017 | ILLUMINATION PANEL - Illumination panel comprises: (1) a receiver substrate assembly including: (a) a rigid sheet of light transmissive material having a first surface, a second surface opposite the first surface, and a conductor pattern attached to the first surface; and (b) at least one receiver assembly affixed to the rigid sheet, each receiver assembly including a light source in electrical communication with the conductor pattern; and (2) at least one light-guide optic attached to and supported by the receiver substrate assembly, each light-guide optic in optical communication with the photovoltaic cell of an associated one of the at least one receiver assembly for guiding light for output via the rigid sheet. | 09-25-2014 |
| 20140301085 | LENS AND LIGHT EMITTING MODULE FOR SURFACE ILLUMINATION - Disclosed herein is a lens and light emitting module for surface illumination. The light emitting module includes a circuit board; a light emitting device mounted on the circuit board; and a lens dispersing light emitted from the light emitting device. The lens includes a lower surface formed with a concave section defining a light incident surface through which light enters the lens, an upper surface through which light exits the lens, and legs coupled to the circuit board and disposed farther outside the lens than an area of the upper surface. The light emitting device is disposed within the concave section of the lens. With this structure, the lens and the light emitting module can be reduced in thickness. | 10-09-2014 |
| 20140313740 | LED Illuminating Device - An LED illuminating device includes a printed circuit board, at least one LED chip group arranged on the printed circuit board, and a lens assembly, wherein the LED illuminating device further includes a reflector provided between the LED chip group and the lens assembly, wherein the reflector is configured to diffusely reflect light from the LED chip group so that the light is uniformized and emerges in a direction of the lens assembly. | 10-23-2014 |
| 20140321127 | LIGHT EMITTING DIODE MODULE FOR DIRECT-TYPE BACKLIGHT MODULE - An LED module for use in a direct-type backlight module includes a printed circuit board, an LED arrange on the printed circuit board and electrically connected to the printed circuit board, and a lens covering the LED and fixed on the printed circuit board. A reflective layer is arranged on the printed circuit board. A semi-transparent surface is recessed and tampered from a top of a column-shaped protrusion at a center of the lens towards the LED. Part of light beams emitted from a center of the LED is refracted and diffused by the semi-transparent surface to an outside, and another part of the light beams emitted from a center of the LED is reflected by the semi-transparent surface to the reflective layer, and then reflected by the reflective layer to the outside. | 10-30-2014 |
| 20140321128 | OPTICAL LENS AND LIGHT SOURCE DEVICE - An optical lens including a first light exit surface, a total internal reflection (TIR) surface, a second light exit surface and a third light exit surface connected in an order, and correspondingly has a first intersection, a second intersection and a third intersection therebetween. A first line between the first intersection and a reference point on an optical axis of the optical lens intersects with the optical axis to form a first angle between 30 degrees to 60 degrees, and a first direction of the reference point pointing toward a point on the TIR surface intersects with a normal of the first light exit surface at the point to form a reflecting angle larger than a critical angle of TIR. A second line between the second intersection and the reference point intersects with the first line to form a second angle between 10 degrees to 30 degrees. | 10-30-2014 |
| 20140355272 | LED Lighting Assembly and Method of Forming LED Lighting Assemblies for Retrofit into Flourescent Housing Fixtures - A lighting assembly has a light strip and a first reflector. The light strip includes a base with a ridged wall, a light engine with a plurality of LEDs disposed over the base, and a lens disposed over the light engine. The first reflector has an opening and a tab adjacent to the opening. The light strip is disposed over the first reflector with the ridged wall disposed through the opening in the first reflector. The tab is disposed over the ridged wall to secure the light strip to the first reflector. A power supply is disposed over the reflector and electrically coupled to the light strip. The base of the light strip includes a thermally conductive material. The lens is formed with a light-diffusing material. The first reflector has a stepped mounting portion. A housing fixture is disposed over the lighting assembly. | 12-04-2014 |
| 20140369050 | LED Light Assembly - A light assembly comprises an LED light source, a reflector, and an optical element assembly. The LED light source comprises a light emitting die and has an optical axis which extends from the light emitting die and perpendicular to a first plane. The reflector defines an optical cavity and has a reflective surface oriented to reflect light emitted by the light source incident to the reflective surface along a range of reflected angles. The optical element assembly comprises an optical element disposed in the path of the light emitted from the light source. The optical element is supported within the optical cavity by a connector arm, which has first and second ends. The first end is connected to the optical element and the second end supports the optical element assembly from behind the reflector. | 12-18-2014 |
| 20150009680 | LENS AND LIGHT EMITTING ELEMENT USING THE SAME - An exemplary lens includes a bottom surface, a first light exit surface extending upwardly from an outer periphery of the bottom surface, a second light exit surface extending upwardly from a top of the first light exit surface, and a reflecting surface extending inwardly and downwardly from a top of the second light exit surface towards the bottom surface to have a funnel-shaped configuration. A receiving space is defined in the bottom surface to receive a light source therein. The receiving space is defined by a top surface and a side surface interconnecting the top surface and the bottom surface. A pyramid surface is in the middle of the top surface and recessed upwardly and inwardly away from the bottom surface. | 01-08-2015 |
| 20150009681 | ILLUMINATION DEVICE AND DISPLAY DEVICE EQUIPPED WITH SAME - Provided is an illumination device capable of preventing a reflection sheet in the periphery of a light-emitting element from being raised while minimizing the instability in the fixture of a diffusion lens. The illumination device comprises a light-emitting element, a mounting substrate, a diffusion lens, and a reflection sheet having a through-hole. The diffusing lens includes a lens portion for diffusing light, and a fixed portion to be fixed to the mounting substrate. An engaging portion that sandwiches the reflection sheet between the engaging portion and the mounting substrate is formed in the fixed portion. | 01-08-2015 |
| 20150043217 | LIGHT EMITTING DIODE LIGHT SOURCE MODULE HAVING UNIFORM ILLUMINATION - An LED (light emitting diode) light source module includes a first optical lens, an LED light source received in a groove of the first optical lens and a second optical lens located at a light path of the LED light source and above the first optical lens. The first optical lens includes a first reflecting surface around the groove and a second reflecting surface. The second optical lens includes a reflecting surface facing the LED light source, and light which is incident to the reflecting surface of the second optical lens is reflected thereby to the first reflecting surface and the second reflecting surface of the first optical lens. A light diffusion plate is attached to the second optical lens at a position away from the reflecting surface of the second optical lens. | 02-12-2015 |
| 20150062916 | ILLUMINATING APPARATUS - An illuminating apparatus includes a light source and an optical member that controls light distribution of light emitted from the light source in a forward direction. A plurality of prisms extending in one direction are provided on one principal surface of the optical member in regions on both sides when divided at a virtual plane that includes a reference axis. The plurality of prisms include reflecting prisms that reflect light from a light source that is disposed virtually on the reference axis and emit this light from the optical member. The light source is disposed such that its optical axis is shifted in one direction relative to the reference axis. | 03-05-2015 |
| 20150070900 | CATADIOPTRIC SPOTLIGHT - The present disclosure describes a compact spotlight that can change the area which it illuminates. The spotlight incorporates a wide angle light source, a catadioptric lens, and a bearing system for moving the catadioptric lens, the light source, or both. Movement of the light source relative to the catadioptric lens along the optical axis can change the beam diameter of the spotlight, while providing an acceptable illumination pattern. | 03-12-2015 |
| 20150078006 | LENS UNIT AND LED MODULE USING THE SAME - A lens unit includes a lens and a reflector hung to the lens. The lens includes a bottom face, a light incident face formed in the bottom face, a light emerging face opposite to the bottom face and a lateral face connecting the bottom face with the light emerging face. A wire extends through the light incident face and the light emerging face. A top end of the wire is attached on a block disposed on the light emerging face, a bottom end of the wire is attached to the reflector. An LED module incorporating the lens unit is also disclosed. | 03-19-2015 |
| 20150109795 | LENS UNIT AND LED MODULE USING THE SAME - A lens unit includes a lens and a reflector received in the lens. The lens includes a light incident face and a light emerging face opposite to the light incident face. The reflector is enclosed by the light incident face. The reflector has a diameter gradually increasing and then decreasing along an optical axis of the lens. The reflector reflects light emitted from the LED divergently to enter the lens. An LED module incorporating the lens unit is also disclosed. | 04-23-2015 |
| 20150109796 | LENS AND LIGHT SOURCE MODULE WITH SAME - The present disclosure relates to a lens. The lens includes a bottom surface, a light input surface, a light output surface and reflective structure. The light input surface is a curved surface depressing from a center of the bottom surface. The light output surface is opposite to the bottom surface. The light output surface includes a concave surface located at a center thereof and a convex surface located at peripheral thereof and surrounding the concave surface. The reflective structure is received in the light input surface. The reflective structure includes a plurality of globoid reflective units. The present disclosure also relates to a light source module with the lens. | 04-23-2015 |
| 20150117024 | LIGHT EMITTING APPARATUS - Disclosed is a light emitting apparatus. The light emitting apparatus includes a package body; first and second electrodes; a light emitting device electrically connected to the first and second electrodes and including a first conductive semiconductor layer, a second conductive semiconductor layer, and an active layer between the first and second conductive semiconductor layers; and a lens supported on the package body and at least apart of the lens including a reflective structure. The package body includes a first cavity, one ends of the first and second electrodes are exposed in the first cavity and other ends of the first and second electrodes are exposed at lateral sides of the package body, and a second cavity is formed at a predetermined portion of the first electrode exposed in the first cavity. | 04-30-2015 |
| 20150124458 | LUMINAIRE WITH LEDS AND CYLINDRICAL LENS - A lamp is provided having at least one module that includes a plurality of LEDs distributed over a module surface. The plurality of LEDs are arranged in a row of a plurality of rows in a longitudinal direction of the at least one module. Each of the plurality of rows are arranged next to each other in a transverse direction of the at least one module that is perpendicular to the longitudinal direction. The lamp includes an optical system for bundling the light emitted by the plurality of LEDs. The optical system includes at least one cylinder lens that extends in the longitudinal direction. The light of at least some of the plurality of LEDs from a first row of the plurality of rows is bundled into a line on a target surface by the at least one cylinder lens. | 05-07-2015 |
| 20150124459 | Lens, LED Module and Illumination System Having Same - A lens, LED module and an illumination system includes an illuminated area; and at least an LED module for illuminating the illuminated area. The LED module includes an LED, and a lens mounted in the light path of the LED. The lens includes an optical axis, a light source recess arranged through the optical axis, a light emitting surface crossing through the optical axis, and a critical reflection surface arranged between the light source recess and the light emitting surface, wherein the light source recess is a rectangular hole in a section view which is vertical to the optical axis and has a center axis which overlaps with the optical axis, the light source recess has a wedge-shaped hole in a section view along the optical axis, the wedge-shaped hole has a top wall which crosses through the optical axis, the top wall has a convex surface. | 05-07-2015 |
| 20150308660 | LIGHT ENGINE DEVICE - A light Engine device includes a base, a light source module, a light reflecting element, an optical module and a sleeve. The light source module has a light-emitting diode unit and a substrate. The light reflecting element has a first opening, a cup body and a second opening. The optical module has an interface portion and a lens portion. The sleeve has a first port, a sleeve body and a second port. The light emitting diode unit generates a light beam, and the emitted light pattern and light intensity are regulated by the first optical effect and second optical effect. | 10-29-2015 |
| 20150308661 | DIRECTIONAL LIGHT SOURCE - At least one embodiment in the disclosure describes a high efficiency directional light engine. The light engine comprises a light emitter emitting light and a collimation lens. The collimation lens has a cone-shaped sidewall, a base surface and a curved top surface. The height of the cone-shaped sidewall is at least three times more than the diameter of the base surface. The light emitter is optically coupled to and disposed in close proximity to the base surface. One or more first reflection images of the light emitter result from first reflection of the light off a surface of the cone-shaped sidewall. The diameter of the light emitter is substantially close to the diameter of the base surface so that the light emitter and the first reflection images form a virtual point light source with minimal gap(s) or without any gap between the light emitter and the first reflection images. | 10-29-2015 |
| 20150345738 | LED Lens and Illumination System for LED Lamp - An illumination system for LED lamp includes at least one LED lens, and at least one illumination area arranged in lighting direction of the LED lens. The LED lens includes an optical axis, a first light emitting surface, a second light emitting surface which only has one intersecting line with the first light emitting surface, a light source recess, and a critical reflection surface. An emergent light of the first light emitting surface is separated from that of the second light emitting surface. Since the emergent light of the first light emitting surface is separated from that of the second light emitting surface, the light emitted from the first, second light emitting surfaces illuminate towards the direction which is far away from the optical axis. Therefore, the illumination system for LED lamp not only light up two rows of goods but also it has no light glaring people's eyes. | 12-03-2015 |
| 20150345749 | WALL WASH LIGHTING SYSTEM - An illumination system for illuminating a surface includes an optical source for generating light. An asymmetric optic device generates output light by total internal reflection (TIR) of the light from the optical source, intensity of the output light being asymmetric with respect to an axis of the asymmetric optic device. A diffuser receives and diffuses the output light from the asymmetric optic device to generate diffused light. A cover lens receives the diffused light from the diffuser. The cover lens has an etched portion for scattering a portion of the diffused light to generate an output light pattern, the output light pattern having an intensity profile that is asymmetric with respect to the axis of the asymmetric optic device. | 12-03-2015 |
| 20160003446 | LIGHT-EMITTING ASSEMBLY AND METHOD FOR MANUFACTURING THE SAME - A light-emitting assembly and a method for manufacturing the same are provided. The light-emitting assembly includes a circuit board with a light-emitting element and a plurality of optical microstructures disposed thereon. The optical microstructures adjacent to the light-emitting element absorb or guide a portion of light emitted from the light-emitting element. | 01-07-2016 |
| 20160003451 | AN ARRANGEMENT COMPRISING AN OPTICAL DEVICE AND A REFLECTOR - According to an embodiment of the present inventive concept there is provided an arrangement | 01-07-2016 |
| 20160010810 | ILLUMINATION DEVICE | 01-14-2016 |
| 20160033111 | ELECTRIC LIGHT FIXTURE - An electric light fixture has at least a housing with a light-emitting aperture, a glare ring surrounding the light-emitting aperture, LEDs positioned in the housing as light sources and a reflector for the reflection and, if necessary, focusing of the light produced by the LEDs, as well as a cable to the power supply. The LEDs are positioned at or on the side of the glare ring facing the housing, so that the beam of light from the LEDs is directed at the reflector that is positioned on or in the housing as a dome over the glare ring and the light-emitting aperture, such that the reflector is designed to be reflecting and substantially non-mirroring. | 02-04-2016 |
| 20160053971 | LIGHT FLUX CONTROLLING MEMBER, LIGHT EMITTING DEVICE AND ILLUMINATION APPARATUS - A light flux controlling member includes an incidence surface, a reflection surface and an emission surface. The incidence surface includes a top surface and a side surface. The top surface is divided by a first plane into a first top surface and a second top surface. In the cross-section taken along a second plane including the central axis and perpendicular to the first plane, an angle between the tangent to the first top surface and the central axis is larger than an average angle between the tangent to the second top surface and the central axis. The emission surface includes a first emission surface and a second emission surface. In the cross-section taken along the second plane, an average angle between the tangent to the first emission surface and the central axis is smaller than an average angle between the tangent to the second emission surface and the central axis. | 02-25-2016 |
| 20160053972 | LIGHTING SYSTEM AND SELECTIVE RETRO-REFLECTION APPARATUS - A lighting system and a selective retro-reflection apparatus are provided. The lighting system includes a lamp, a reflector configured to reflect light emitted by the lamp, a projection lens configured to emit the reflected light of the reflector in a predetermined direction, and a selective shield apparatus disposed between the projection lens and the reflector and provided on a path of light directed upward among the light reflected from the reflector to selectively shield the light directed upward, wherein the selective shield apparatus includes a panel and a selective shield portion supported by the panel, positions of the panel and the selective shield portion are fixed, and a state in which the selective shield portion transmits the light is changed according to whether power is supplied. | 02-25-2016 |
| 20160061421 | Lighting Fixture Housing - A heat dissipating housing for a lighting device includes a back wall comprising an upper section and a lower section. The housing further includes a sidewall extending down from the upper section of the back wall. The back wall and the sidewall define a cavity of the housing. The upper section of the back wall is elevated from the lower section of the back wall such that when a printed circuit board (PCB) is in contact with the lower section of the back wall within the cavity, an uninsulated electrical element on a back side of the PCB is separated by an air gap from a closest point on the housing by a distance that is at least 0.063 inch. The back side of the PCB faces the upper section of the back wall. | 03-03-2016 |
| 20160102841 | SILVER BASED REFLECTOR WITH HYBRID PROTECTION LAYERS - A silver-based reflector includes a hybrid protection layer that includes a thin Aluminum (Al) protection layer thermally deposited onto a Silver (Ag) reflective layer, which prevents yellowing or tarnishing of the Ag reflective layer. In an embodiment, a lamp reflector is formed by providing a substrate material in the shape of a reflector, thermally depositing an Ag reflective layer onto the an interior surface of the reflector having a sufficient thickness to reflect light, and thermally depositing an Al protective layer onto the Ag reflective layer to protect the Ag reflective layer from oxidation and sulfide formation. The Al protective layer has a thickness within the range of about 30 angstroms (Å) to about 100 Å. | 04-14-2016 |
| 20160116135 | MULTI-LENS LED-ARRAY OPTIC SYSTEM - A lighting apparatus including an LED light emitter having an axis. The apparatus comprising a first lens over the emitter a second lens spaced over the first lens. The first lens is configured to direct LED-emitted light primarily toward a preferential radial side with respect to the emitter axis. The first lens may be an asymmetric primary lens. The first lens may have a centerline which is offset from the emitter axis toward the preferential radial side. Alternatively or in addition, the first lens may have an outer surface configured to direct LED-emitted light primarily toward the preferential radial side. The second lens may be asymmetric and be configured to further direct the light primarily toward the preferential radial side. The secondary lens may include inner and outer surfaces each shaped to direct received light primarily toward the preferential side. | 04-28-2016 |
| 20160116139 | OPTICAL SYSTEM - The present disclosure provides an optical system including a TIR mother lens and a secondary output lens, preferably for efficiently distributing light out of an LED track lighting system. The optical system of the present disclosure is configured to create variant beam angles from a lens assembly using the same TIR lens. Preferably, by altering the dimensions and focal lengths of the secondary output lens in a single TIR lens, the optical system can create a variety of beam angles, including, but not limited to, Spot (“SP”), Narrow Flood (“NFL”), Flood (“FL”), or Wide Flood (“WFL”) beam angles. | 04-28-2016 |
| 20160131337 | ILLUMINATING APPARATUS - An illuminating apparatus includes a light source and an optical member that controls light distribution of light emitted from the light source in a forward direction. A plurality of prisms extending in one direction are provided on one principal surface of the optical member in regions on both sides when divided at a virtual plane that includes a reference axis. The plurality of prisms include reflecting prisms that reflect light from a light source that is disposed virtually on the reference axis and emit this light from the optical member. The light source is disposed such that its optical axis is shifted in one direction relative to the reference axis. | 05-12-2016 |
| 20160138777 | LENS AND LIGHTING DEVICE - Disclosed is a lens ( | 05-19-2016 |
| 20160146430 | LIGHT SOURCE MODULE AND LIGHT SOURCE UNIT - A light source module including at least one optical film and a light source unit is provided. The light source unit is disposed under the at least one optical film, and a space is formed between the light source unit and the at least one optical film. The light source unit includes a plurality of light emitting elements and a plurality of secondary lenses. The light emitting elements are arranged along a direction parallel to the at least one optical film. The secondary lenses are correspondingly disposed on the light emitting elements and each of the secondary lenses has a patterned reflective layer. Each of the secondary lenses has a light hole radius R, a distance between a distribution range of the patterned reflective layer and a bottom of the corresponding secondary lenses is H, and the distribution range of the patterned reflective layer satisfies 1/R| 05-26-2016 | |
| 20160161091 | SIGNALLING BEACON WITH DEFLECTOR - A light projector intended to produce a directional flat light beam includes an elongate cylindrical lens and a linear light source parallel to the generatrix direction, extending over all or part of the length of the lens to emit light in the direction of the lens. The lens is designed to generate a principal flat light beam by concentrating the light in a predefined elevation angular sector around the horizontal generatrix direction. The light projector also includes a deflector having a rectangular plate shape positioned on the side opposite the light source. A signalling beacon including such a projector is also described. | 06-09-2016 |
| 20160252233 | LIGHT DIFFUSING LENS AND LIGHT EMITTING DEVICE INCLUDING THE SAME | 09-01-2016 |
| 20160252241 | Lighting Fixture Housing | 09-01-2016 |
| 20220136677 | OPTICAL BEAM EXPANDER AND LUMINAIRE - An optical beam expander and a luminaire, including: a collimating lens configured for adjusting light emitted by a light source to parallel light; a condensing lens, the condensing lens including a plurality of inclined light-control surfaces, and any one of the light-control surfaces is not parallel to a plane in which the condensing lens is located, the condensing lens being configured for refracting the parallel light emitted from the collimating lens towards a direction of a center line of the condensing lens; and a fixing component, configured for fixing the collimating lens and the condensing lens, so that an optical axis of the collimating lens coincides with an optical axis of the condensing lens. | 05-05-2022 |
