Entries |
Document | Title | Date |
20080223558 | COOLING DEVICE - A cooling device includes a fan, a heat sink, and an attaching portion arranged to attach the fan to the heat sink. The fan includes an impeller rotating about a center axis, a motor arranged to rotate the impeller, and a base portion supporting the motor. The attaching portion includes a frame surrounding a portion of the impeller opposed to the heat sink, a plurality of supports projecting from the frame to a side opposite to the heat sink, and a plurality of supporting ribs connecting the supports and the base portion to each other, arranged about the center axis, and extending from the base portion away from the center axis. Each supporting rib has a first primary surface and a second primary surface arranged opposite to the impeller. The first and second primary surfaces are inclined with respect to a plane substantially perpendicular to the center axis. | 09-18-2008 |
20080296001 | Cooling device for CPU - A cooling device includes a base connected on a CPU and a pipe unit | 12-04-2008 |
20080302516 | Compressor Cooling System and Method of Use - A compressor cooling system for an air compressor includes an air compressor including an external surface; an enclosure for enclosing the air compressor inside the enclosure; an air passage formed on the inside of the enclosure between the enclosure and the external surface of the air compressor; multiple holes in the enclosure; and a negative pressure source coupled to the air passage for drawing air through the multiple holes and into the enclosure for cooling the compressor. | 12-11-2008 |
20080308261 | Fan System, Heat Exchanger Module, Method for Manufacturing a Fan System and/or a Heat Exchanger Module - Fan system, in particular for a heat exchanger, which fan system has at least one receptacle for a fan drive unit, at least one housing wall, and at least one strut, in particular a number of struts which connect the receptacle to the housing wall, wherein the struts are arranged between at least one heat exchanger and at least one fan wheel, wherein at least one strut has a strut end section which is configured as a flow guiding face and has an angle α with respect to a fan-wheel axis direction. | 12-18-2008 |
20090008067 | HEAT DISSIPATION DEVICE - A heat dissipation device includes a heat sink ( | 01-08-2009 |
20090014160 | HEAT DISSIPATION MODULE - A heat dissipation module including a fan and a first heat dissipation unit is provided. The fan has a frame and a blade set provided in the frame. The frame has an air inlet and an air outlet, and a flow channel communicating the air inlet and the air outlet is formed between the blade set and the frame. The first heat dissipation unit includes a first heat dissipation base, a first radiating fin assembly located inside the frame wall of the fan on the flow channel, and a first heat pipe which is connected between the first heat dissipation base and the first radiating fin assembly. | 01-15-2009 |
20090056920 | Cooling Apparatus and Electronic Device Comprising Same - A cooling apparatus comprises cover | 03-05-2009 |
20090126914 | Isolated Gas Cooling System for Cooling Electrical Components of an Electronic Display - A preferred embodiment relates to a cooling system and a method for cooling an electronic display and its electronic components. An exemplary embodiment includes a transparent gas cooling chamber. The electronic components which operate the system are preferably housed both within the electronic display housing and within the cooling chamber. The cooling system defines a gas compartment that is anterior and posterior to the electronic display surface. Fans may be used to propel the isolated gas through the cooling system. The circulating gas removes heat directly from the electronic display surface as well as the electronic components which operate the display. The isolated gas is transparent or at least semi-transparent. The image quality of an exemplary embodiment remains essentially unchanged, even though the gas is flowing through a narrow channel over the visible face of the electronic display surface. | 05-21-2009 |
20090133859 | COOLING SYSTEM, MOTOR VEHICLE EQUIPPED WITH COOLING SYSTEM, AND CONTROL METHOD OF COOLING SYSTEM - A cooling system of the invention used to cool down a battery switches over an effective air blow mode between an inside air intake mode of taking in the inside air (the air in a passenger compartment) and directly blowing the intake air to the battery and an A/C intake mode of taking in the air cooled down by an air conditioner and blowing the cooled intake air to the battery. Upon the requirement for accelerated cooling of the battery (requirement for the A/C intake mode), the cooling system estimates a battery cooling power W | 05-28-2009 |
20090145583 | Blower and air conditioner having the same - A blower having a divergence guide portion to reduce flow loss and discharge noise and an air conditioner having the same are provided. The blower includes a scroll casing, suction holes provided at opposite positions of the scroll casing, a discharge hole provided at a top position of the scroll casing, a centrifugal fan received in the scroll casing, and a divergence guide portion gently diverging air to the discharge hole after passing through the centrifugal fan to diffuse the air to both sides of the discharge hole. | 06-11-2009 |
20090151910 | COMBINATION RACK SYSTEM FOR DISCHARGING HOT AIR SEPARATELY, AND SYSTEM AND METHOD FOR COOLING DATA CENTER USING THE COMBINATION RACK SYSTEM - Provided are a combination rack system for discharging hot air separately, and system and method for cooling a data center. The cooling system includes a combination rack system, a discharge pipe connected to the combination rack system, a docking part for connecting the combination rack system and the discharge pipe, a discharge fan for discharging air from the combination rack system to the discharge pipe, an inlet at one side of the discharge pipe for introducing outside air into the discharge pipe, and an outlet at the other side of the discharge pipe for discharging air from the discharge pipe. The combination rack system includes racks and cooling fans. The racks are spaced with their rear sides facing each other, and the cooling fans are disposed between the racks. Therefore, air heated in the combination rack system can be discharged from the combination rack system separately from inner cold air. | 06-18-2009 |
20090159245 | HEAT DISSIPATION DEVICE HAVING A FAN HOLDER - A heat dissipation device includes a heat sink, a fan holder and a fan secured on a front side of the fan holder. The heat sink comprises a base and a plurality of fins on the base. An engaging groove is defined in top ends of the fins. The fan holder comprises a top panel and two sidewalls extending downwardly from two lateral edges of the top panel. The top panel has an inserting protrusion at a bottom surface thereof. The two sidewalls have two latching legs at lower ends thereof. The top panel is partially placed on front portion of the top ends of the fins and the inserting protrusion is inserted into the engaging groove of the fins, the two sidewalls abut against two lateral sides of the heat sink and the two latching legs fasten to two lateral sides of the base of the heat sink. | 06-25-2009 |
20090166010 | HEAT DISSIPATION DEVICE HAVING A FAN HOLDER - A heat dissipation device includes a heat sink, a fan holder and a fan secured on a front side of the fan holder. The heat sink includes a base having two first fixing ears at its two lateral sides and a plurality of fins on the base. At least an engaging notch is defined in top ends of the fins. The fan holder includes a top panel and two sidewalls extending downwardly from two lateral edges of the top panel. The top panel has at least an inserting protrusion at a bottom surface thereof. The two sidewalls have two fixing flanges at lower ends thereof. The top panel is partially placed on front portion of the top ends of the fins and the inserting protrusion is inserted into the engaging notch of the fins, the two sidewalls abut against two lateral sides of the heat sink and the two fixing flanges are disposed on the two first fixing ears. | 07-02-2009 |
20090166011 | HEAT DISSIPATION DEVICE HAVING A MOUNTING BRACKET - A heat dissipation device includes a heat sink, a plurality of mounting brackets and a fan. The heat sink comprises a central core, a plurality of branches at a circumference of the core and a plurality of fins extending outwardly from the core and branches. Each of the branches has a locking part at a distal end thereof. Each of the mounting brackets comprises a mounting plate engaging with the locking part, a supporting part extending outwardly from a top end of the mounting part and a fixing part extending outwardly from a bottom end of the mounting plate. The fan is supported and secured on the supporting part. | 07-02-2009 |
20090183858 | Venturi for Heat Transfer - Heat pumps consume power in order to transfer heat from a source to a higher-temperature sink. This invention enables spontaneous heat transfer from a heat source to a small portion of the generally warmer working fluid that is cooled locally by the Bernoulli effect to a temperature below that of the heat source. The Bernoulli effect occurs in a Venturi shaped duct shaped to maintain attached flow. Heat-transfer efficiency is improved by restriction of the heat transfer to a small portion of the Venturi in which the flow temperature, velocity, pressure gradient and the Nusselt effect enhance heat transfer. Within this region, heat transfer is maximized by a thermally conducting grid extending across the Venturi neck. | 07-23-2009 |
20090200001 | ELECTRIC APPARATUS - An electric apparatus includes a centrifugal fan that includes an impeller in a casing, and is configured to draw air when the impeller rotates in the casing, and to have a blowoff channel of the air from the impeller in the casing, which spreads in a rotating direction of the impeller, and a first cooled part and a second cooled part that has a necessary cooling air capacity larger than that of the first cooled part, the first cooled part and the second cooled part being cooled by the air drawn by the centrifugal fan, wherein a drawing surface of the centrifugal fan has a first drawing area and a second drawing area that has a drawing speed higher than that of the first drawing area when the impeller rotates. | 08-13-2009 |
20090218079 | HEAT-EMITTING ELEMENT COOLING APPARATUS - There is provided a heat-emitting element cooling apparatus capable of enhancing cooling effect on a heat-emitting element as well as reducing noise. A heat sink includes a core portion and a plurality of radiation fins fixed to the core portion. Dimensions of the core portion and the radiation fins are defined in such a manner that the diameter L | 09-03-2009 |
20090266525 | AIR BLOWING DEVICE FOR COOLING THE INTERNAL COMBUSTION ENGINE OF A VEHICLE TESTED ON A ROLLER BENCH - An air blowing device for cooling an internal combustion engine of a vehicle tested on a roller bench, including an air blowing fan configured to blow air towards the air intake opening provided on the vehicle to direct an air stream towards members cooling the engine, including a nozzle arranged between the outlet opening of the air blowing fan and the opening provided on the vehicle. The nozzle has a cross-section relative to the air stream gradually tapering between the outlet opening of the fan and the inlet opening of the vehicle. The nozzle includes two side walls each having an opening allowing a strap to pass, wherein one of the ends is configured to be attached to the vehicle and the other end is configured to be attached to a fixed vertical wall arranged proximate the outlet of the fan. | 10-29-2009 |
20090272514 | POWER SUPPLY AND HEAT-DISSIPATING METHOD OF THE POWER SUPPLY - A power supply is mounted in a case for a computer and has a shell, a blower assembly and multiple electrical components. The shell has a rear surface, a heat sink chamber, an electrical component chamber, an air inlet and an air outlet. The chambers have front end communicating with each other. The air inlet and the air outlet are formed through the rear surface of the shell. The blower assembly is mounted in the shell and is adjacent to the rear surface of the shell. The electrical components are mounted in the electrical component chamber and generate heat when the computer operates. The heat-dissipating method of the power supply is to extract air from outside the computer case into the shell to dissipate the heat generated by the electrical components. Using air at room temperature from outside the case is much more efficient to cool down the power supply. | 11-05-2009 |
20090277619 | AIR CONDITIONING UNIT AND AIR CONDITIONING SYSTEM COMPRISING THE SAME - An air conditioning system is provided. Air is pulled-in/exhausted from/into an indoor space or indoor and outdoor spaces using one fan. Thus, a configuration of the air conditioning system can be further simplified. | 11-12-2009 |
20090277620 | HEAT DISSIPATION DEVICE - A heat dissipation device for dissipating heat from a plug-in electronic component, such as a memory is provided. The heat dissipation device includes a base frame, a moving frame, and a retaining cover. The base frame is disposed at one side of the electronic component. The moving frame is movably mounted on the base frame. A heat dissipation fan is mounted on the retaining cover, and the retaining cover is also movably mounted on the moving frame. In this manner, the heat dissipation fan has at least a retraction position where the heat dissipation fan is not overlaid above the electronic components so as to plug or remove the electronic component, and a heat dissipation position where the heat dissipation fan dissipates heat from the corresponding electronic component. Furthermore, the heat dissipation position changes in accordance with actual heat dissipation requirements, thereby providing an optimal heat dissipation mode. | 11-12-2009 |
20090308581 | HEAT SINK - The heat sink include a conductive heat dissipation portion for dissipating heat of an electronic component into the air, and a current limitation portion arranged on the heat dissipation surface of the heat dissipation portion and limiting a discharge current flowing between a material object located in proximity to the heat dissipation surface and the heat dissipation portion when discharge phenomenon takes place between the material object and the heat dissipation portion. | 12-17-2009 |
20090314476 | Heat radiating component - The present invention relates to a heat radiating component that includes plural heat radiating fins which are arranged with spaces therebetween and radiate heat from the plural heat radiating fins to air flowing through the spaces between the plural heat radiating fins. Air inflow ends of the plural heat radiating fins have such notch shapes in that alternately or cyclically different portions in an arrangement direction where the plural heat radiating fins are arranged are notched. | 12-24-2009 |
20090321058 | HEAT SINK PROVIDED WITH CENTRIFUGAL FAN - The present invention is to provide a heat sink withheat pipe, which is limited in height, not so noisy, compact and highly efficient in radiation, and can lower the temperature inside a casing as a whole more effectively even when it is used in an electronic appliance limited in height such as a personal computer, a game machine or the like. | 12-31-2009 |
20100006271 | Cooling fan - A cooling fan includes a stator formed of an outer sleeve and an inner sleeve that suspends in the outer sleeve and has a middle part fixedly connected to a middle part of the outer sleeve and a plurality of crevices equiangularly spaced around the top end thereof, a hollow axle bearing inserted into the inner sleeve of the stator and having top and bottom hook blocks respectively hooked on the top and bottom ends of the outer sleeve of the stator and a plurality of crevices equiangularly spaced around the bottom end, a steel ball rotatably supported inside the axle bearing, and a fan blade that has a center axle inserted into the axle bearing and stopped against the steel ball. | 01-14-2010 |
20100006272 | Regulator Having a Cooling Body for an Electric Machine - A cooling body for the regulator of an electric machine, especially for a voltage regulator of a DC generator of a vehicle including a heat exchange surface, that is able to have applied to it a cooling air flow during the operation of the electric machine, having an inflow region, in which the cooling air stream impinges on the heat exchange surface, and an outflow region from where the cooling air stream leaves the heat exchange surface. The heat exchange surface is shaped differently in the inflow region and in the outflow region and is able to have flow of the cooling air applied to it in a different manner. | 01-14-2010 |
20100025022 | FAN ASSEMBLY - A fan assembly for use in an electronic device is provided. The fan assembly includes a housing, a fan, a throttle valve, and a regulator. The housing has an outlet. The fan is disposed in the housing and adapted to provide an air current. The air current generates an air volume through the outlet. The throttle valve is movably disposed in the housing at the outlet. The regulator is connected to the throttle valve to control the movement of the throttle valve to adjust the size of the outlet. | 02-04-2010 |
20100032144 | HEAT DISSIPATION DEVICE - A heat dissipation device comprises a heat sink, a fan located over the heat sink, a fan holder sandwiched between the heat sink and the fan and a plurality of fasteners fixing the fan holder on the heat sink and the heat sink on a printed circuit board. The fan holder comprises a square plate defining a ventilating hole in a center thereof, four locating plates extending downwardly from four outer edges of the plate and four locating portions extending upwardly at four corners of the plate. Each locating portion partially encircles a corresponding fastener. The fan holder is made of plastic. | 02-11-2010 |
20100044017 | EXHAUST FAN - An exhaust fan includes a fan frame, a fan, and a shielding plate. The fan frame defines a hollow shell, the hollow shell defines an air flow passage with an air inlet and an air outlet. The fan is received in the hollow shell, the fan includes a hub and a plurality of fan blades extending outward in a radial direction from circumference of the hub. The shielding plate is disposed at the air inlet side of the hub and covers an end surface of the hub facing the air inlet side. The shielding plate is separated from the hub. | 02-25-2010 |
20100059209 | HEAT DISSIPATING DEVICE - A heat dissipating device includes a fan, a heat sink, and a heat conductive member. The heat sink includes a base having opposite first and second faces. The first face includes a plurality of fins extending from a peripheral area thereof. The fins define a compartment in which the fan is mounted. The second face includes a central section corresponding to the compartment receiving the fan. The second face further includes a peripheral section corresponding to the peripheral area from which the fins extend. The heat conductive member is mounted to the second face of the base and adapted to be in contact with a heat-generating member. The heat conductive member includes at least one heat pipe extending from the central section to the peripheral section. | 03-11-2010 |
20100059210 | FAN IMPELLER AND HEAT DISSIPATING DEVICE HAVING THE SAME - A heat dissipation device includes an electric fan having a fan impeller with a hub and a heat sink. A plurality of main blades and subsidiary blades extend radially and outwardly from the hub and alternate with each other. The electric fan forms an air inlet and an air outlet. The main blades have connecting portions on the hub which are extended towards a center of the hub at the air outlet. The subsidiary blades have a smaller radial length than the main blades. The subsidiary blades each have a connecting edge on the hub which is extended toward the center of the hub adjacent to the air outlet. The fan impeller drives more air to the center of the air outlet, whereby more air can flow to a center of the heat sink. | 03-11-2010 |
20100059211 | COOLING FAN AND HEAT DISSIPATION DEVICE HAVING THE SAME - A heat dissipation device includes a heat sink and a cooling fan. The heat sink includes a substrate and a plurality of fins. The cooling fan includes a fan housing defining an air inlet and an air outlet at two opposite sides thereof, and an impeller received in the fan housing and mounted to a supporting base provided at the air inlet. The air outlet is positioned adjacent to the heat sink. The impeller includes a hub, a plurality of main blades and auxiliary blades. The hub includes a top wall located at the air outlet and a sidewall extending from the top wall. The main blades extend radially and outwardly from the sidewall. The auxiliary blades located on the top wall extend from a center of the top wall towards an outer periphery of the top wall. | 03-11-2010 |
20100065260 | VIBRATION GENERATING AND COOLING APPARATUS - There is provided an energy-saving vibration generating and cooling apparatus with a small volume in which convection is created inside and outside its cabinet and which can effectively transfer heat. It includes a motor | 03-18-2010 |
20100071883 | Heat transfer device - The invention is for an apparatus and method for removal of waste heat from heat-generating components including high-power solid-state analog electronics such as being developed for hybrid-electric vehicles, solid-state digital electronics, light-emitting diodes for solid-state lighting, semiconductor laser diodes, photo-voltaic cells, anodes for x-ray tubes, and solids-state laser crystals. Liquid coolant is flowed in one or more closed channels having a substantially constant radius of curvature. Suitable coolants include liquid metals and ferrofluids. The former may be flowed by magneto-hydrodynamic effect or by electromagnetic induction. The latter may be flowed by magnetic forces. Alternatively, an arbitrary liquid coolant may be used and flowed by an impeller operated by electromagnetic induction or by magnetic forces. The coolant may be flowed at very high velocity to produce very high heat transfer rates and allow for heat removal at very high flux. | 03-25-2010 |
20100096112 | CENTRIFUGAL FAN AND THERMAL MODULE HAVING THE SAME - A centrifugal fan includes a housing and an impeller rotatably received in the housing. The housing defines an air inlet in a top plate thereof and an air outlet in a sidewall thereof. The air inlet is perpendicular to the air outlet. The impeller includes a hub and a plurality of blades extending outwardly from a sidewall of the hub. Each of the blades includes an inner blade section connected with the sidewall of the hub and an outer blade section extending outwardly from the inner blade section. An upper portion of the inner blade section is curved upwardly and forwardly from a curved lower portion of the inner blade section towards an adjacent front blade. The curved lower portion has a curvature smaller than that of the upper portion. | 04-22-2010 |
20100101766 | ELECTRONIC APPARATUS - An electronic apparatus includes a heat sink for mounting a heating element, a cooling fan for supplying an airstream to the heat sink, and a housing for storing the heat sink and the cooling fan. The housing and the heat sink are equipped with a projection engaged with a hole of a flange of the cooling fan, and the cooling fan is sandwiched by the housing and the heat sink. | 04-29-2010 |
20100108302 | Heat Dissipating Module - A heat dissipating module includes a rotational member, a stationary member and a driving member. The rotational member is provided with a first air outlet and connected to the driving member. The stationary member is provided with a second air outlet and has plural flow passages. Each of flow passages has an air inlet at an end thereof and a third air outlet at another end thereof. When the driving member actuates the rotational member to rotate, air enters the flow passages of the stationary member via the air inlets to gather at the third outlets. Then, the air is guided outward via the first and the second air outlet for concentrating the air to cool the heat-producing object. | 05-06-2010 |
20100116470 | Screw-Driven Fan Device - A screw-driven fan device includes a screw, a screw nut, a fan, and a connecting unit. An external edge of the screw has a rolling groove formed thereon and a groove formed alternately with the rolling groove. The screw nut, disposed on the screw, has a linking portion located on one end of the screw nut. The fan has a rotary axle with a hole formed thereon for screw passing through. The fan further has blades surrounding the rotary axle. The hole has a flange formed on an interior side thereof, and the flange is engaged with the groove. When the screw rotates, the coordination of the flange and the groove causes the fan rotates simultaneously. The connecting unit has one side mounted on the linking portion of the screw nut. The connecting unit has a space therein such that the fan can be placed in the space, thereby the fan and the screw nut move together. | 05-13-2010 |
20100147495 | HEAT DISSIPATION APPARATUS - A heat dissipation apparatus includes a heat sink configured to contact a heat source, and a fan mounted to the heat sink. The heat sink includes a base with a bottom surface for contacting the heat source, and a plurality of radial fins angling upwardly from a top surface of the base to form a truncated conical space in the middle of the heat sink. A cross section area of the truncated conical space gradually increases from the top surface of the base to top of the fins. | 06-17-2010 |
20100181050 | VEHICLE HEAT EXCHANGER ARRANGEMENT - A vehicle heat exchanger arrangement is provided basically with a heat exchanger, a pusher fan and a power recovery device. The heat exchanger has a first side and a second side. The pusher fan is disposed on the first side of the heat exchanger to push air through the heat exchanger to the second side. The power recovery device is disposed on the second side of the heat exchanger to receive the air pushed through the heat exchanger by the pusher fan such that the power recovery device generates electricity. | 07-22-2010 |
20100186933 | HEAT DISPERSING MODULE - The present invention is related to a heat dispersing module which is designed based on the property of heat convection of the heat dispersing tube set, wherein plural fixing pieces around the heat conductor are used to fix the heat dispersing module, so that the heat conductor can absorb heat from heat source and then transmit to the heat dispersing tube set, and a fan engaged at the tube ends of the heat dispersing tube set can enhance the air convection inside the heat dispersing tube set. | 07-29-2010 |
20100193163 | Integrated Fan Drive System For Air-Cooled Heat Exchanger (ACHE) - An integrated fan drive system for air-cooled heat exchangers. The integrated fan drive system has a high-torque, low speed permanent magnet motor having a rotatable shaft, a fan that is directly connected to the rotatable shaft, and a variable frequency drive device in electrical signal communication with the permanent magnet motor to control the rotational speed of the permanent magnet motor. The high-torque, permanent magnet motor comprises no more than two bearings in operative association with the shaft. The variable frequency drive device has a variable frequency controller that has an input for receiving AC power and an output for providing electrical signals that control the operational speed of high-torque, permanent magnet motor. The variable frequency drive device also includes a user interface in electronic data signal communication with the variable frequency controller to allow a user to input motor speed control data. Other embodiments of the invention are described herein. | 08-05-2010 |
20100193164 | OUTDOOR UNIT OF AIR CONDITIONER - The inside of an outdoor unit body is partitioned, by a partitioning wall, into a heat exchange chamber in which a heat exchanger and a blower are accommodated and a machine chamber in which a compressor and pipes are accommodated. An electronic component box is mounted between the outdoor unit body and the upper end of the partitioning wall. A control board is accommodated in the electronic component box in a horizontal posture so that a surface mounted with electronic components faces downward. An opening used for a lead wiring operation is opened in the bottom surface of the electronic component box. A wire cover is slidably attached to the bottom surface of the electronic component box to allow the opening for the lead wiring operation to freely open and close. According to this constitution, the electronic components can be prevented from falling to outside when electronic problems occur. | 08-05-2010 |
20100206525 | COOLING DEVICE AND CONSTRUCTION MACHINE OR WORKING MACHINE EQUIPPED WITH THE SAME - A cooling device includes: a cooling fan; a shroud provided at an outer circumferential side of the cooling fan; an inner circumferential wall provided on the shroud and adjacent to the outer circumference of the cooling fan so as to surround the cooling fan; an outer circumferential wall provided to surround the inner circumferential wall. An air-flow-direction downstream side end of the outer circumferential wall is positioned at a further downstream position in an air flow direction than an air-flow-direction downstream side end of the inner circumferential wall. The cooling fan is rotatable within a space provided on a radially inner side of the inner circumferential wall. The air-flow-direction downstream side end of the outer circumferential wall is provided at a further upstream position in the air flow direction than an air-flow-direction downstream side end of the cooling fan. | 08-19-2010 |
20100206526 | COOLING DEVICE AND CONSTRUCTION MACHINE OR WORKING MACHINE EQUIPPED WITH THE SAME - A cooling device includes: a cooling fan; a shroud provided at an outer circumferential side of the cooling fan; an inner circumferential wall provided on the shroud and adjacent to the outer circumference of the cooling fan; and an outer circumferential wall provided to surround the inner circumferential wall. An air-flow-direction downstream side end of an outer circumferential edge of the cooling fan is positioned at a further downstream position in an air flow direction than an air-flow-direction downstream side end of the inner circumferential wall. An angle between: an line connecting the air-flow-direction downstream side end of the inner circumferential wall to the air-flow-direction downstream side end of the outer circumferential wall in cross section along the air flow direction of the inner circumferential wall and the outer circumferential wall; and a line orthogonal to the air flow direction, is 9 degrees or more and 45 degrees or less. | 08-19-2010 |
20100212873 | Heat pump - A heating or cooling device comprising a closed circuit wherein a fluid is continuously or intermittently circulated in one direction by a pump, the system including a body of macroporous, microporous or mesoporous solid through which the fluid circulates to create a temperature gradient. | 08-26-2010 |
20100230077 | FASTENER AND HEAT DISSIPATION DEVICE USING THE SAME - A fastener includes an upper mounting portion, a lower mounting portion, a connecting portion extending through the upper mounting portion and connecting the lower mounting portion, a resilient portion set on the connecting portion and pressing the upper mounting portion, at least a supporting portion with a first end thereof connecting the upper mounting portion, and an operating portion pivotally connecting a second end of the at least a supporting portion. The operating portion includes a cam abutting against the connecting portion. The cam is rotatable relative to the at least a supporting portion, to bring the upper mounting portion to move up and down, and make the fastener shift between a locked state in which a fan is securely sandwiched between the upper and lower mounting portions and a released state in which the upper mounting portion is disengaged from the fan. | 09-16-2010 |
20100236763 | THERMAL OUTER COVER WITH GAS BARRIERS - This invention is describing a procedure for building constructions, tanks, technological installations, etc., characterized by constructing around the building an additional supra-structures (FIG. | 09-23-2010 |
20100236764 | HEAT DISSIPATION DEVICE - A heat dissipation device includes a heat sink, a fan placed on the heat sink and two wire clips securing the fan on the heat sink. The heat sink has two grooves defined in two flanks thereof. The fan has a frame with a plurality of holes defined therein. Each clip includes an engaging arm received in a corresponding groove of the heat sink, two tensile parts extending upwardly from two opposite ends of the engaging arm, two hooks formed at free ends of the tensile parts and inserted into the holes of the fan, and a handle protruding from a middle of the engaging arm. | 09-23-2010 |
20100243218 | Heat-Dissipating Fan - A heat-dissipating fan includes a housing, a stator, a rotor and at least one retaining member. The stator and rotor are received inside the housing. The rotor includes an impeller having a plurality of blades. The at least one retaining member is removably mounted to the housing and includes a retaining plate. In an axial direction of the rotor, the retaining plate extends to be above and within a rotational area of the blades to retain the rotor to avoid departure of the rotor from the housing, even if the heat-dissipating fan is hit hard while it is packed, moved, transported or operating. Besides, the arrangement of the retaining member won't result in reduction of air input. Consequently, the retaining member can be quickly mounted to the housing at a predetermined position to enhance convenience of assembly. | 09-30-2010 |
20100258281 | HEAT DISSIPATION DEVICE HAVING A FAN HOLDER THEREON - A heat dissipation device includes a heat sink forming an engaging portion along an outer periphery thereof, a fan holder attached to the heat sink and a fan secured to the heat sink via the fan holder. The fan holder includes an elastic main body, a first clip pivotally connected to a free end of the elastic main body and a second clip connected with the first clip and engaging with an opposite free end of the elastic main body. The elastic main body includes a pair of fixing portions formed at upper and lower sides thereof. The lower fixing portion of the fan holder is tightly engaged with the engaging portion of the heat sink and the upper fixing portion presses the fan towards the heat sink when the second clip is tightly locked to the opposite free end of the elastic main body. | 10-14-2010 |
20100258282 | HEAT DISSIPATION DEVICE HAVING FAN HOLDERS - A heat dissipation device includes a heat sink, a fan and two fan holders securing the fan on a top of the heat sink. Two locking parts are defined at two opposite lateral sides of the heat sink. Each fan holder includes an operating plate and a wire clip. The operating plate has first fastening parts formed at an upper edge of the operating plate and second fastening parts formed at a lower edge of the operating plate. The wire clip has a tensile part pivotally connected to the first fastening parts of the operating plate and two latching arms extending upwardly from two opposite ends of the tensile part. Upper ends of the latching arms of the wire clips are fastened to the fan. The second fastening parts of the operating plate engage with one of the two locking parts of the heat sink. | 10-14-2010 |
20100258283 | ELECTRONIC DEVICE - An electronic device includes a housing, a module, a main board, and a fan. The module, the main board and the fan are all installed in the housing. The main board divides the interior of the housing into a first space and a second space, and there exists a channel opening between the main board and the module so as to communicate the first space with the second space. The fan is electrically connected to the main board, has a fan outlet and is capable of outputting airflow through the fan outlet to the outside of the housing. | 10-14-2010 |
20100282447 | HEAT SINK ASSEMBLY - A heat sink assembly includes a fan and two sets of fin modules. The fan generates airflow along a first direction. The two sets of fin modules are fixed on opposite sides of the fan. Each set of fin module has a plurality of parallel fins. The fins extend parallel to the first direction. | 11-11-2010 |
20100288475 | HEAT DISSIPATION ASSEMBLY - A heat dissipation assembly for dissipating heat from a first heat source and a second heat source includes a heat sink, a fan, a supporting member, and a deflecting panel. The heat sink includes a base and a plurality of heat dissipation fins disposed on the base. The base contacts with the first heat source for thermally conducting the heat generated by the first heat source. The fan and the supporting member are attached at opposite sides of the heat dissipation fins. The supporting member a pivotable rod. The deflecting plate is attached to the pivotable rod and pivotable relative to the heat dissipation fins. The deflecting plate is capable of deflecting airflow from the fan towards the second heat source and dissipating the heat generated by the second heat source. | 11-18-2010 |
20100288476 | HEAT DISSIPATION APPARATUS - A heat dissipation apparatus for dissipating heat from two heat sources includes a heat sink, and a fan mounted on the heat sink. The heat sink includes a base and a plurality of parallel fins positioned on the base, the base contacts with one of the two heat sources for thermally conducting the heat generated by the one of the two heat sources. A slantwise slot is formed in the fins, an edge of the slot bent to form a slantwise deflecting portion. The fan is configured to generate airflow through the fins in such a manner that some of the airflow is deflected by the deflecting portion towards the second of the two heat sources. | 11-18-2010 |
20100294469 | HEAT DISSIPATING DEVICE FOR MEMORY CARD - A heat dissipating device is provided for a memory card which facing airflow blown rearward. The heat dissipating device includes a first heat spreader to be mounted to a front end of the memory card, and a second heat spreader to be mounted to a rear end of the memory card. The heat dissipating device will enhance the heat dissipating efficiency around the memory card. | 11-25-2010 |
20100300662 | HEAT DISSIPATING DEVICE AND FIXING BRACKET THEREOF - A heat dissipating device includes a heat sink, a fan, and a fixing bracket. The fixing bracket includes a first fixing element and a second fixing element mounted to the first fixing element. An airflow opening is defined in each of the first and second fixing elements. A receiving space communicating with the airflow openings is bounded by the first and second fixing elements, to receive the heat sink. The first and second fixing elements are used to selectively mount the fan. | 12-02-2010 |
20100307724 | HEAT EXCHANGER - A heat exchanger ( | 12-09-2010 |
20100314080 | HEAT DISSIPATION DEVICE - A heat dissipation device includes a heat conducting board for being attached to an electronic component mounted on a printed circuit board, a fin unit disposed on the heat conducting board, a fixing module and a fan secured on the fixing module. The fixing module includes two supporting frames located at two opposite lateral sides of the fin unit respectively, a fan holder spanning over the fin unit and pivotally fixed to the two supporting frames, and a fastening member extending through the fan holder and a corresponding supporting frame and being capable of fixing the fan holder at different positions relative to the fin unit of the heat sink. The fan is fixed to the fan holder of the fixing module and provides airflow towards the fin unit. | 12-16-2010 |
20110000653 | AIR DELIVERY UNIT - An air delivery unit includes a casing, an air delivery device arranged in a fan passage in the casing, and a fan guard that is arranged at an air outlet of the casing and has an air blowing surface having a grill structure and a hollow frame wall portion. An air blowing opening is formed in the frame wall portion of the fan guard. This structure allows the air to be blown also from the opening of the frame wall portion of the fan guard. This reduces the amount and the speed of the air blown from the air blowing surface of the fan guard having the grill structure. As a result, rise of static pressure of the air delivery device is suppressed and noise caused by interference between bars of an air blowing grill and the air is reduced. | 01-06-2011 |
20110000654 | FAN AND COOLING DEVICE - A cooling device having a first fan, a second fan upstream of the first fan, and a flow conditioner element that includes a housing with a first side having a flow-conditioner plate, a second side opposite the first side that defines an opening, and a duct between the first side and the second side, wherein the flow-conditioner plate is attached to a side of the first fan proximal to the second fan and the second side of the housing is attached to a side of the second fan proximal to the first fan. A method for cooling electronic components and a fan assembly are also disclosed. | 01-06-2011 |
20110005730 | VEHICULAR AIR CONDITIONING APPARATUS - In a vehicular air conditioning apparatus, an evaporator is retained in an inclined position in a casing including air passages. Due to air blown upward through a first front passage and a first rear passage, which are separated from each other, moisture is generated at a lower portion of the evaporator. The moisture is discharged to first drain ports by a first guide panel and to a second drain port by a second guide panel. | 01-13-2011 |
20110005731 | VEHICULAR AIR CONDITIONING APPARATUS - A casing comprises substantially symmetrical first and second divided casings. A second blower unit is provided at a joined region of the first divided casing and the second divided casing. Air is supplied from a first blower unit into the casing, and then, the air cooled by an evaporator and the air heated by a heater core are mixed and supplied to front seats in the vehicle. Air supplied from the second blower unit into the casing is directed toward the front seats and adjusted at a given temperature by a second cooling section of the evaporator and a second heating section of the heater core, and thereafter, supplied to rear seats in the vehicle from a third rear passage which extends so as to surround a first rear passage. | 01-13-2011 |
20110005732 | VEHICULAR AIR CONDITIONING APPARATUS - In a vehicular air conditioning apparatus, a first blower unit is connected by a connection duct to a side portion of a casing, and a second blower unit is connected to another side portion of the casing. A rotation control device for the first blower unit and a rotation control device for the second blower unit are arranged on an exterior side of the connection duct, at a location where a flow passage cross sectional area of the connection duct is maximal. Cooling devices made up of heat radiation fins are disposed on an inner side of the connection duct corresponding to the arranged positions of the rotation control devices. | 01-13-2011 |
20110005733 | PIEZOELECTRIC FAN AND COOLING DEVICE USING PIEZOELECTRIC FAN - A piezoelectric fan includes a piezoelectric vibrator that vibrates in a bending mode when a voltage is applied thereto and a plurality of parallel or substantially parallel blades connected to or integrated with the piezoelectric vibrator. The blades are arranged between heat-radiating fins of a heat sink such that the blades bend parallel or substantially parallel to side surfaces of the heat-radiating fins. A joint that connects the blades to each other is disposed at free ends in a longitudinal direction of the blades. When the blades are excited by the piezoelectric vibrator and warm air between the heat-radiating fins is blown, the joint prevents the blades from twisting. | 01-13-2011 |
20110011567 | FRONT-TO-BACK COOLING SYSTEM FOR MODULAR SYSTEMS WITH ORTHOGONAL MIDPLANE CONFIGURATION - A front-to-back cooling system allows cooling of an apparatus containing two orthogonal sets of modules. Each set of modules is independently cooled. A vertical set of modules is cooled with vertical air flow across the modules that enters from a front of the apparatus and exhausts from a back of the apparatus. A horizontal set of modules is cooled with horizontal front-to-back air flow. When the horizontal set of modules is at the front of the apparatus, a plenum extending exterior to the vertical set of modules allows exhausting horizontally flowing air to the rear of the apparatus. When the horizontal set of modules is at the rear of the apparatus, a plenum extending exterior to the vertical set of modules allows moving air from the front of the apparatus to a chamber holding the horizontal modules. | 01-20-2011 |
20110030929 | SELF-POWERED HEAT EXCHANGER - A heat transferring apparatus may employ a heat exchanger with a fluid inlet and a fluid outlet and be coupled to a power exchange unit, which employs a driving fan fluid inlet, a series of inner fan blades to receive the fluid from the driving fan fluid inlet, and a rotable driving fan unit. The inner fan blades are attached to the rotable driving fan unit along with driving magnets. A rotatable driven fan unit has numerous outer fan blades and a series of imbedded driven magnets. The fluid drives the inner fan blades and flows into the heat exchanger. The outer fan blades force air through the heat exchanger and cools the fluid. A power transfer wall located between the inner magnets and the outer magnets transfers magnetic fields from the inner magnets to the outer magnets to impart rotation in the driven fan unit and outer fan blades. | 02-10-2011 |
20110030930 | HEAT DISSIPATION DEVICE - A heat dissipation device includes a heat sink, an axial fan and a fan cover. The heat sink includes a plurality of fins defining a plurality of longitudinal airflow channels therebetween. The axial fan is mounted on a top side of the heat sink. The axial fan defines an air inlet located adjacent to and communicating with the airflow channels of the heat sink. The fan cover is between the heat sink and the axial fan. The fan cover includes a side plate surrounding a top end of the heat sink to make the axial fan just draw cooling air into the heat sink from a position around a bottom end of the heat sink. The cooling air flows upwardly through the heat sink to the air inlet of the axial fan to thereby take heat away from the heat sink. | 02-10-2011 |
20110030931 | HEAT EXCHANGER AIR PATH FORMING PLATE AND HEAT EXCHANGER EMPLOYING THE SAME - The present invention provides an air path forming plate used for heat exchangers having an intake air path between an outdoor intake port for capturing outdoor air and an indoor flow-in port and having an exhaust air path between an indoor intake port for capturing indoor air and an outdoor exhaust port. Each of the intake air path and the exhaust air path is made of a metal plate having a bend section on which press marks aligned like a perforation line are formed. | 02-10-2011 |
20110067845 | FAN SHROUD ASSEMBLY - A fan shroud assembly for use with a cooling system of a vehicle, the cooling system comprising at least one of a radiator and a fan, the fan shroud assembly comprising: a shroud having a first surface, a second surface, and a sidewall extending therebetween, the first surface connected to at least a portion of the vehicle such that the shroud is at least partially positioned behind the radiator; a shroud nozzle extending from the second surface of the shroud, wherein the shroud nozzle houses at least a portion of the fan; and wherein the fan shroud assembly provides fluid communication between the fan and the radiator, and further wherein the fluid communicated through the fan shroud assembly is substantially evenly distributed over the radiator. | 03-24-2011 |
20110079374 | Heat Dissipating System - A heat dissipating system includes a housing having a compartment divided into first and second air channels by a partitioning board. The partitioning board includes an opening through which the first air channel is in communication with the second air channel. A driving unit is mounted in the first air channel. The driving unit includes a rotating shaft extending through the opening into the second air channel. A first impeller is mounted in the first air channel, coupled to the rotating shaft, and aligned with the opening. A second impeller is mounted in the second air channel, coupled to the rotating shaft, and aligned with the opening. The first and second impellers mounted in the first and second air channels are driven by the driving unit to simultaneously dissipate heat generated by electronic elements in the first and second air channels while having a simplified structure. | 04-07-2011 |
20110083832 | HEAT DISSIPATING BLOWER - A heat dissipating blower includes a main body and a cover. The main body includes a shell and a fan. An outlet and a first gap are defined in the shell. A connecting portion is set at one end of the first gap away from the outlet. Two sliding grooves are formed on inner surfaces of a first wall and a second wall and a plurality of locating holes is set on the two sliding grooves. The cover includes two parallel side plates and a middle plate. A plurality of positioning pins is set on outer surfaces of the two side plates. Some of the positioning pins are located in corresponding ones of the locating holes to change an area of the outlet. | 04-14-2011 |
20110094713 | HEAT DISSIPATION ASSEMBLY - A heat dissipation assembly includes a fixing board defining a fixing groove, a heat sink device fixed to the fixing board, a fan housing assembly fixed to the heat sink device, and a heat dissipation pipe. The heat sink device defines a first receiving groove aligning with the fixing groove, and a second receiving groove opposite to the first receiving groove. The fan housing assembly includes a frame defining a slot aligning with the second receiving groove, and a fan received in the frame. The dissipation pipe includes a first pipe portion, a second pipe portion, and an arc-shaped connecting portion connecting the first and second pipe portions. The first pipe portion is accommodated in the fixing groove and the first receiving groove. The second pipe portion is accommodated in the second receiving groove and the slot. | 04-28-2011 |
20110094714 | DATA CENTER COOLING - A system includes a substantially sealed, substantially airtight cabinet sized for housing a vertical array of heat-producing units, the cabinet having an exterior shell and the system including an interior divider wall disposed inside the cabinet, the shell and divider wall providing an equipment chamber adapted to support the array such that the array cooperates with the shell and divider wall in use to define a first plenum, the first plenum having a first inlet defined by the divider wall for receiving a flow of cooling gas and having a first outlet defined by a plurality of openings through the array whereby the first plenum communicates with the openings in use to exhaust substantially all of the flow of cooling fluid through the openings and hence through the array, wherein the divider wall is configured to allow the first inlet to admit the gas to the first plenum in a substantially horizontal direction. | 04-28-2011 |
20110108250 | Heat Dissipating device - A heat dissipating device includes a casing having a compartment. At least one heat conducting board is mounted in the compartment and divides the compartment into first and second chambers. The first chamber includes a plurality of openings. At least one fan unit is mounted in the first chamber and includes at least one air inlet and at least one air outlet. The air inlet is in communication with a first one of the plurality of openings. The air outlet is in communication with a second one of the plurality of openings. By utilizing the heat conducting board to absorb the heat generated by electronic elements in the second chamber and by creating airflow in the first chamber with the fan unit, the temperature of the second chamber and the electronic elements is lowered while preventing moisture or dust from entering the first chamber. | 05-12-2011 |
20110108251 | Fan Housing and Heat Dissipating Fan with Fan Housing - A fan housing includes a plastic casing having a skirt-board and a lateral wall. The skirt-board includes inner and outer peripheries spaced in a radial direction while the plastic casing further includes a first coupling portion formed along the inner periphery of the skirt-board. The lateral wall extends from a face of the skirt-board along the outer periphery of the skirt-board in an axial direction perpendicular to the radial direction. The fan housing includes a metal frame having a shaft coupling member and a second coupling portion. The second coupling portion of the metal frame is coupled to the first coupling portion of the plastic casing. A motor can be mounted to the metal frame of the fan housing, and an impeller can be rotatably coupled to the motor to form a heat dissipating fan. | 05-12-2011 |
20110114297 | HEAT-DISSIPATING DEVICE - A heat-dissipating device comprises a heat-dissipating member, at least one heat-dissipating fan, and a rotation control unit. The heat-dissipating member has an airflow chamber inside and includes a plurality of air-guiding holes in communication with the airflow chamber. Each of the at least one heat-dissipating fan has two air-guiding portions, wherein one of the air-guiding portions is aligned with one of the air-guiding holes of the heat-dissipating member. The rotation control unit communicates with and controls the at least one heat-dissipating fan. Accordingly, the heat-dissipating device with a dust auto-removing function can provide a balanced heat-dissipating effect. | 05-19-2011 |
20110120679 | PIEZOELECTRIC FAN AND COOLING DEVICE - A piezoelectric element is attached to a vibrating plate. By expanding and contracting the piezoelectric element, the vibrating plate is bent. The vibrating plate includes removed regions on both sides of a portion to which the piezoelectric element is attached. The vibrating plate includes a plurality of the blades provided at one end thereof. By bending the vibrating plate, the blades swing. The blades are bent toward grooves between heat dissipating fins of a heat sink. The other end of the vibrating plate is fixed with screws to an upper portion of the heat sink with a supporting plate disposed therebetween such that the each of the blades are located in a groove between the heat dissipating fins of the heat sink and the removed regions are located over the grooves between the heat dissipating fins. | 05-26-2011 |
20110127017 | HEAT DISSIPATION DEVICE AND FAN MODULE THEREOF - An exemplary fan module includes a main fan and an assist fan. The main and assist fans each include a rotor which includes a hub and a plurality of blades around the hub. The assist fan is located below the hub of the main fan. Inner sides of the blades of the assist fan adjacent to the hub of the assist fan are located within a range of a radius of the hub of the main fan along a radial direction of the rotor of the main fan. Outer sides of the blades of the assist fan away from the hub of the assist fan are located beyond the hub of the main fan along the radial direction of the rotor of the main fan. The blades of the assist fan are pushed to rotate by airflow from the main fan to produce airflow towards a heat sink. | 06-02-2011 |
20110127018 | Self-Contained Electrochemical Heat Transfer System - A self-contained heat transfer system conveys heat from a first heat reservoir at a relatively low temperature to a second heat reservoir at relatively high temperature, the heat transfer system defining a closed loop that contains a working fluid. The self-contained heat transfer system includes a hermetically-sealed housing that defines an enclosure; a first heat transfer device having an exposed surface configured to be in thermal communication with the first heat reservoir; a second heat transfer device having an exposed surface configured to be in thermal communication with the second heat reservoir; and an electrochemical compressor within the enclosure and between the first and second heat transfer devices, wherein the electrochemical compressor includes one or more electrochemical cells, each electrochemical cell including a gas pervious anode, a gas pervious cathode, and an electrolytic membrane disposed between and in intimate electrical contact with the cathode and the anode. | 06-02-2011 |
20110127019 | BELL-MOUTH STRUCTURE OF AIR BLOWER - A bell-mouth structure of an air blower provided around a blade wheel of an axial-flow air blower for guiding air from an air suction side of the blade wheel to an air blow-out side including an air blow-out wall portion that intercommunicates with an air blow-out opening and extends substantially along an axial direction of the blade wheel, and a slope wall portion that intercommunicates with the air blow-out wall portion and slopes to an air suction opening so as to expand in diameter. When the overall height of the bell-mouth is represented by H, the height of the slope wall portion is represented by h and a slope angle of the slope wall portion is represented by β, the bell mouth structure is configured so as to satisfy 0.33≦h/H≦0.42 and 60°≦β≦70°. | 06-02-2011 |
20110132582 | FAN MODULE AND HEAT DISSIPATION DEVICE INCORPORATING THE SAME - An exemplary fan module a main fan and an assist fan. The main fan includes a rotor. The rotor of the main fan includes a hub and a plurality of blades around the hub. The assist fan is located below the hub of the main fan. The assist fan includes a rotor. The rotor of the assist fan includes a shaft and a plurality of blades around the shaft. The shaft of the assist fan is fixed on the hub of the main fan. The rotor of the assist fan is driven to rotate by the main fan, and therefore produces airflow towards a central portion of a heat sink. | 06-09-2011 |
20110132583 | DOUBLE FLOW HEAT EXCHANGER DEVICE - The invention relates to a device ( | 06-09-2011 |
20110139410 | Floating Coil Heat Exchanger - The present application provides a heat exchanger assembly. The heat exchanger assembly may include a microchannel coil and a frame. The frame may include a slot to position the microchannel coil therein. A coil attachment may connect the microchannel coil at a first end of the frame. | 06-16-2011 |
20110139411 | Heat Transfer Surface for Electronic Cooling - A cooling surface for cooling an electronic component, the surface having two sets of fins, each set of fins defining a set of channels, and a number of passageways connecting the sets of channels. The cooling surface can be attached to an electronic component, such as a chip, and refrigerant supplied to at least one of the sets of channels. When the temperature of the electronic component rises, the heat is transferred to the refrigerant in the cooling surface, at least some of which vaporizes to carry heat away from, and facilitate cooling of, the component. | 06-16-2011 |
20110139412 | MOTOR DRIVE DEVICE - In the motor drive apparatus, a Hall element outputs a first sinusoidal signal and a second sinusoidal signal, of mutually opposite phases, in accordance with rotor position. A hysteresis comparator compares the first sinusoidal signal and the second sinusoidal signal outputted from the Hall element, and outputs a rectangular wave signal. A pulse width modulation signal generation circuit detects timing at which phase switches, based on the first sinusoidal signal and the second sinusoidal signal outputted from the Hall element, and outputs a pulse width modulation signal in which duty ratio gradually changes, in a predetermined time-period in which the phase switches. A drive circuit combines the rectangular wave signal and the pulse width modulation signal by a logical operation, and drives the fan motor. | 06-16-2011 |
20110146960 | FAN HOLDER AND HEAT DISSIPATION DEVICE USING THE SAME - A fan holder adapted for fixing a fan onto a heat sink includes a frame, a fastener pivotedly connected with the frame, and a first resilient member disposed between the frame and the fastener. When the fastener is located at a first position, the first resilient member exerts a resilient force on and keeps the fastener at the first position, and the fan is sandwiched between the fastener and the frame. When an external force is applied on the fastener, the fastener rotates from the first position to a second position in which the fan can no longer be sandwiched between the fastener and the frame, and when the external force is removed, the first resilient member drives the fastener from the second position back to the first position. | 06-23-2011 |
20110155354 | HVAC SYSTEM AND ZONE CONTROL UNIT - HVAC systems, zone control units, and control systems are provided. An HVAC system employs distributed zone control units that provides for localized air recirculation. A zone control unit can include a return air section that receives return air from serviced building zones and can mix the return air with a supply of outside air. The mixed air can be heated and/or cooled by the zone control unit and discharged to serviced building zones in a controlled manner. An exhaust air system can be used to extract air from serviced building zones. An HVAC zone control unit can include a local control unit with an Internet protocol address. The local control unit can include a memory and a processor for storing and executing a control program for the zone control unit. The control program can control of the zone control unit in response to commands received via the Internet. | 06-30-2011 |
20110168361 | HEAT DISSIPATION DEVICE AND AIRFLOW GENERATOR THEREOF - An exemplary heat dissipation device includes a heat sink defining a plurality of air passages therein, and an airflow generator disposed at a side of the heat sink. The airflow generator includes airflow-generating units stacked together. Each airflow-generating unit includes a casing in which two spaced vibration diaphragms are received, and a nozzle connected to the casing. A chamber is defined between the two vibration diaphragms within the casing. The nozzle defines an air channel therein for communicating the chamber with an exterior of the casing. Two piezoelectric elements are respectively attached to the two vibration diaphragms. When the two piezoelectric elements drive the two vibration diaphragms towards each other, the two vibration diaphragms compress the air in the chamber and drive the air towards the air channel of the nozzle, thereby generating an airflow from the nozzle towards the air passages of the heat sink. | 07-14-2011 |
20110168362 | COOLING SYSTEM WITH MICROCHANNEL HEAT EXCHANGER - A heat exchange system including at least one first heat exchanger having a closed circuit for cooling fluid, a least one fan arrangement operable to cause air to pass through the first heat exchanger, and, at least one air cooler located upstream of the first heat exchanger, wherein the first heat exchanger includes a microchannel heat exchanger. | 07-14-2011 |
20110180240 | CENTRIFUGAL BLOWER AND HEAT DISSIPATION DEVICE INCORPORATING THE SAME - A heat dissipation device includes a centrifugal blower and fins. The centrifugal blower includes a housing defining a space therein, and an impeller rotatably disposed in the space of the housing. The housing includes a bottom plate, an opposite top plate defining an air inlet therein, and a sidewall disposed between the bottom plate and the top plate. The sidewall defines an air outlet therein. The top plate further defines an opening therein between the air inlet and the air outlet. The opening is spaced from the air inlet via a partition rib. The impeller is located corresponding to the air inlet of the top plate, for driving air to enter the housing via the air inlet and the opening and to leave the housing via the air outlet. The fins are disposed on the bottom plate and located at the air outlet of the centrifugal blower. | 07-28-2011 |
20110192579 | TOTAL HEAT EXCHANGE ELEMENT AND TOTAL HEAT EXCHANGER - A total heat exchange element, includes: a first flow passage through which a first airflow passes; a second flow passage through which a second airflow passes; and a partition plate that is arranged to separate the first flow passage and the second flow passage from each other and conduct total heat exchange between the first airflow and the second airflow. The partition plate has a layered structure of sandwiching a first film on both surfaces thereof with second films, the first film is a non-aqueous film having a gas shielding property and vapor-permeable property, and each of the second films is waterproof vapor-permeable film. | 08-11-2011 |
20110192580 | HEAT EXCHANGE DEVICE AND HEAT GENERATING ELEMENT CONTAINING DEVICE USING SAME - The invention is provided with main body case ( | 08-11-2011 |
20110198064 | COOLING STRUCTURE FOR ELECTRONIC DEVICE, AND A METHOD - This disclosure relates to a cooling structure for an electronic device including an inlet for conveying a flow in a first flow direction towards a first component and an outlet for conveying the flow further. To deter dirt particles from proceeding to electronic components, the cooling structure can include a second flow channel, which starts from a port oriented transversely to the first flow direction or away therefrom and receives part of the flow from the inlet, and which conveys the part of the flow to an electronic component located in the second flow channel. | 08-18-2011 |
20110203779 | UNINTERRUPTIBLE COOLING SYSTEM AND APPARATUS - A cooling system and power control apparatus provides an uninterruptible power supply. In one embodiment, the uninterruptible power supply provides power to an air conditioning system for cooling telecommunications equipment in the case of an AC power failure. Embodiments of the present invention include a first port configured for coupling with a primary power supply; a second port configured for coupling with a secondary power supply, wherein the secondary power supply is a backup power source that allows the cooling system to operate when the primary power supply exceeds predetermined operating conditions. A power circuit including a DC bus delivers power from the first port and the second port to a plurality of switches for controlling cooling equipment. A control circuit is configured to control power flow from the first port and power flow from the second port to the DC bus and the first plurality of switches. | 08-25-2011 |
20110214845 | METHOD FOR IMPROVING COOLING CAPACITY OF A POWER STATION DIRECT AIR-COOLING SYSTEM AND THE COOLING SYSTEM THEREOF - The present invention belongs to power generation field. It relates to a method for improving cooling capacity of a power station direct air-cooling system and the cooling system thereof. According to the present invention, a transformer in a cooling system is connected to a voltage of the power grid and outputs a voltage to an electric motor, so that its working voltage reaches 380-390V; a frequency of 40-47 HZ is output from a frequency converter in the cooling system to the electric motor; a fan is driven by the electric motor working under 380-390V and 40-47 HZ to rotate according to a set velocity ratio with the aid of a speed reducer, and cooling wind is delivered by the rotating fan head-on to a heat radiator. The present invention can be widely applied in rebuilding of existing direct air-cooling units, or designing of new power station direct air-cooling systems. | 09-08-2011 |
20110220330 | CAPACITIVE DEVICE AND METHOD FOR THE ELECTROSTATIC TRANSPORT OF DIELECTRIC AND FERROELECTRIC FUILDS - In a method for conveying at least one heat exchange medium which includes at least one first fluid having a first permittivity and at least one second fluid which does not mix with the first fluid and has a second permittivity that differs from the first permittivity, at least one dielectric boundary surface is formed between the first and the second fluid, which boundary surface is exposed to a progressively excited electric displacement field which exerts a displacement force on the at least one dielectric boundary surface. | 09-15-2011 |
20110226451 | COOLING DEVICE AND ELECTRONIC DEVICE INCLUDING THE SAME - A cooling device includes: a heat sink including a plurality of fins formed to be plate shaped, which are arranged in parallel to one another; and a cooling fan arranged in a direction from the heat sink, the direction being perpendicular to perpendicular lines of the fins. A plurality of fins of a side heat sink constituting the heat sink include edges aligned on an oblique line with respect to perpendicular lines of the fins and formed on the outer periphery of the cooling fan. With this structure, it is possible to improve usage efficiency of an air flow generated by the cooling fan. | 09-22-2011 |
20110232880 | HEAT DISSIPATION DEVICE - A heat dissipation device mounted on a circuit board includes an electronic fan, a fin group connected to the electronic fin, and a guide plate arranged near the connection of the electronic fan and the fin group. Airflow from the electronic fan reaches the fin group and the guide plate. The guide plate can divert the direction of the airflow. | 09-29-2011 |
20110240268 | Super low noise fan blades, axial flow fans incorporating the same, and commercial air cooled apparatuses incorporating such axial flow fans - Large diameter axial Super Low Noise flow fans and commercial air cooled apparatuses incorporating such fans are provided. The large diameter axial flow fan is mounted on the air cooled apparatus for generating an axial air flow in the air cooled apparatus for accomplishing the cooling. The fan has a diameter of at least four feet. The fan has plurality of blades. Each blade includes a leading edge opposite a trailing edge. The entire of the leading edge of each of the blades is linear and forward swept, and each blade includes a metallic outer surface. | 10-06-2011 |
20110247789 | HEAT DISSIPATION DEVICE AND CENTRIFUGAL FAN THEREOF - A centrifugal fan includes a casing and an impeller received in the casing. The casing defines an air outlet at one side thereof. An air channel is defined in the casing between a sidewall of the casing and outermost free ends of blades of the impeller. The air channel has an upstream end and a downstream end along a rotation direction of the impeller. A plurality of air guide plates is formed in the casing and disposed at a junction between the downstream end of the air channel and an area of the air outlet directly communicating with the downstream end of the air channel. The air guide plates are structured and arranged in a streamlined manner and pattern with respect to air flowing from the downstream end of the air channel towards the air outlet. | 10-13-2011 |
20110259557 | HEAT DISSIPATION APPARATUS INCORPORATING AIRFLOW GENERATOR - A heat dissipation apparatus includes a heat sink defining a plurality of air passages therein, and an airflow generator arranged on the heat sink and including a plurality of airflow-generating units. Each airflow-generating unit includes a casing, and a vibration diaphragm and a driving member arranged in the casing. The vibration diaphragm divides an inner space of the casing into first and second chamber isolated from each other. The second chamber communicates with the exterior via an orifice defined in a bottom wall of the casing. The driving member is capable of vibrating the vibration diaphragm when alternating voltage is applied thereto. When the driving member vibrates the vibration diaphragm towards the bottom wall of the casing, the vibration diaphragm compresses the air inside the second chamber of the casing towards the orifice, generating airflow from the orifice to the air passages of the heat sink. | 10-27-2011 |
20110259558 | HEAT EXCHANGE DEVICE - A heat exchanger having a heat exchange surface comprising a plurality of tubes, a pair of tanks, an end plate, and a shroud disposed to cover the heat exchange surface, wherein, the shroud provides a first hook and a second hook at it's a vertical wall, and the end plate is held in place either between the first hook and the second hook, or between the second hook and the vertical wall. With the above structure, the fan shroud assembly can hold two types of heat exchangers having different thickness. | 10-27-2011 |
20110259559 | BUILDING HEATING AND COOLING SYSTEM - A system for heating and cooling a main floor of a building, including:
| 10-27-2011 |
20110277969 | Heat dissipation device which is pre-built with an air vent structure - A heat dissipation device which is pre-built with an air vent structure uses primarily a plurality of cooling fins, which are formed into different lengths, to assemble into the heat dissipation devices of different shapes, for shunning away from other elements inside a computer host. In addition, diversion baffles of a different angle can be arranged and assembled, so as to form air ducts following an angle of wind direction, allowing an air flow to be smoothly guided in by a fan, and to quickly flow into a heat transmission zone in a gap between the cooling fins, such that a heat source can be dissipated more quickly. | 11-17-2011 |
20110277970 | HEAT EXCHANGER DEVICE AND HEATING ELEMENT HOLDER USING SAME - A heat exchanger device of the invention having a body case provided with a first air intake port and a first discharge port for a first environment in a front surface thereof, and a second air intake port and a second discharge port for a second environment in a back surface thereof, an air-blow fan for the first environment provided in the body case, and a heat exchanger inside the body case for exchanging heat between the air in the first environment and the air in the second environment, and is configured such that opposed two surfaces are provided with an air suction port for a first environment and an air suction port for a second environment, respectively, and the other surface is provided with an air blow-off port for the first environment and an air blow-off port for the second environment, respectively. A surface provided with the air suction port for the first environment is directed to the air-blow fan, and a chamber is formed between the second air intake port and the air suction port for the second environment. | 11-17-2011 |
20110284190 | CENTRIFUGAL AIR BLOWER AND AIR CONDITIONER - There is provided a centrifugal air blower that can reduce driving force (consumed driving force) when an air blower is rotated, and also increase an airflow amount of air to be blown out from the air blower. | 11-24-2011 |
20110290455 | HEAT DISSIPATING APPARATUS - A heat dissipating apparatus includes a heat sink, a fan, and an airflow guide. The heat sink includes a conducting base board and a number of parallel fins vertically extending from the conducting base board. An air intake and an air outlet are defined in opposite ends of the heat sink. The airflow guide includes a mounting cover accommodating the heat sink, and a guiding element connected to the mounting cover. The fan is mounted to the mounting cover and at the air intake of the heat sink. The guiding element is arranged at the air outlet of the heat sink. The guiding element includes a guiding board. An angle between the guiding board and the fins at the air outlet is less than 90 degrees and more than 0 degrees. | 12-01-2011 |
20110290456 | MICRO COOLING FAN - A micro cooling fan includes a housing, a fan wheel, and a main circuit board. The main circuit board has a stator and a driving circuit. The stator is electrically connected to the driving circuit. The stator is disposed on a first inner surface, and the driving circuit is disposed on a first outer surface, so that the housing and the driving circuit of the micro fan motor form an integral structure. The first outer surface is opposite to the first inner surface, or the first outer surface is located on a side surface of the housing. Therefore, by disposing the driving circuit on the first outer surface, the wind resistance of the fan blades is reduced, and the air volume of the micro cooling fan is increased accordingly, so that the cooling effect of the micro cooling fan is improved. | 12-01-2011 |
20110303396 | HEAT EXCHANGER, OUTDOOR UNIT AND REFRIGERATION APPARATUS - A heat pump chiller includes a casing having a compressor, etc. inside thereof and four flat-plate shaped air heat exchangers disposed on side surfaces of the casing and extending vertically. Two air heat exchangers constitute a first heat exchanger body and a second heat exchanger body. Respective heat exchanger bodies are positioned with end parts extending toward outside of the air heat exchangers to be close to each other. | 12-15-2011 |
20110308776 | DUST-DISPOSAL HEAT-DISSIPATION DEVICE WITH DOUBLE COOLING FANS - A heat dissipation device includes a fin set, a cover, a first fan, a second fan and a control module. The fin set includes a plurality of cooling fins transversely spaced apart and has a substantially flat section at a bottom thereof for contacting a heat source. The cover includes a plate which covers a top surface of the fin set and has two inlets longitudinally spaced apart. The first and second fans are mounted in the two inlets of the cover for generating airflow toward front and rear top sections of the fin set respectively. Additionally, the control module is configured to either actuate the first and second fans upon receiving a working signal or execute the following steps upon receiving a dust-disposal signal: (a). turning on the first cooling fan and turn off the second cooling fan simultaneously for a period of time; and (b). turning on the second cooling fan and turn off the first cooling fan simultaneously for a period of time. | 12-22-2011 |
20110308777 | Cooling Module with Multiple Parallel Blowers - A cooling fan module for motivating air flow through an electronics chassis includes an enclosure having an air inlet through which cooling air flow is motivated by at least two centrifugal blowers disposed within the enclosure. The centrifugal blowers operate in parallel to motivate the cooling air flow along a first direction vector, while the respective axes of rotation of the centrifugal blower impellers are in substantial axial alignment with one another, and parallel to the first direction vector. | 12-22-2011 |
20110315356 | HEAT-DISSIPATING BODY HAVING RADIAL FIN ASSEMBLY AND HEAT-DISSIPATING DEVICE HAVING THE SAME - A heat-dissipating device includes a heat-dissipating body, a vapor chamber and a fan assembly. The heat-dissipating body includes a thermal-conductive element and a radial fin assembly. The thermal-conductive element includes a solid post and extending arms extending therefrom. The radial fin assembly includes radially-arranged heat-dissipating fins that form a central hole to enclose the sold post, engaging troughs inserted by the extending arms, and an airflow space. An air channel is formed between any two heat-dissipating fins. The vapor chamber is provided at one end of the solid post, while the fan assembly is arranged on the other end and received in the airflow space to correspond to the respective air channels. Thus, the mobility of air and the heat-dissipating efficiency can be increased, thereby conforming to the requirements for compact design. | 12-29-2011 |
20110315357 | HEAT SINK WIND GUIDE STRUCTURE AND THERMAL MODULE THEREOF - A heat sink wind guide structure and a thermal module thereof. The heat sink wind guide structure includes a heat sink having multiple radiating fins and a wind incoming side. Each two adjacent radiating fins define therebetween a heat dissipation flow way in communication with the wind incoming side. The radiating fins include a first radiating fin and a second radiating fin, which are respectively positioned on two opposite outer sides of the heat sink. The first radiating fin has a first extension end and the second radiating fin has a second extension end. The heat sink is assembled with a fan to form the thermal module. By means of the first and second extension ends, the heat of the heat sink can be dissipated quickly and the heat dissipation airflow can be exhausted from many sides of the heat sink to greatly enhance heat dissipation efficiency. | 12-29-2011 |
20110315358 | FINNED AIR-GUIDING HEAT-DISSIPATING STRUCTURE AND HEAT-DISSIPATING MODULE HAVING THE SAME - A finned air-guiding heat-dissipating structure includes a heat sink having heat-dissipating fins arranged at intervals. At least one heat-dissipating channel is formed between the heat-dissipating fins. The heat-dissipating fins form an intake side and a first exhaust side and a second exhaust side in communication with the intake side through the heat-dissipating channels. The first exhaust side and the second exhaust side are located on both ends of the intake side and on both sides of the heat sink. A first exhaust trough and a second exhaust trough are provided on the other two sides of the heat sink and in communication with the intake side through the heat-dissipating channels. The heat sink is connected to a fan to form a heat-dissipating module. With this arrangement, the heat sink can guide airflow toward plural sides, so that the heat can be dissipated outside rapidly to achieve an excellent heat-dissipating effect. | 12-29-2011 |
20110315359 | RADIATOR FAN MODULE - A radiator fan module has a fan assembly, cooling fin and heat conductor. The fan assembly has a shell seat and fan blade, an air outlet is set at one side of the shell seat, the cooling fin is set correspondingly to the outlet, and the cooling end of the conductor is mated with the fin. The outlet forms an inward extended wall, an outward extended wall and an extended inner space set between the outlet and fan blade. The outlet has a width-reducing pattern. A notched space is formed externally between the inward extended wall and shell seat. An inward extended heat conductor is formed by the extension of the inner end of the cooling fin and is located within the range of the extended inner space, and provided with a blade corresponding side that is located correspondingly to a peripheral position of the blade. | 12-29-2011 |
20110315360 | COATING COMPOSITION, COATING METHOD, AIR CONDITIONER, VENTILATION FAN, AND ELECTRICAL EQUIPMENT - A coating composition having high dirt prevention properties and improved adhesiveness to hydrophobic surfaces such as those made of a plastic, and a coating method are provided. More specifically, provided is a coating composition, including: hydrophobic resin particles dispersed in an aqueous medium; hydrophilic inorganic fine particles; and an oxidizing agent containing at least one of a peroxide, a perchloric acid, a chlorate, a persulfuric acid, a superphosphoric acid, and a periodate, and also provided is a coating method including the steps of: preparing a first agent having hydrophilic inorganic fine particles and hydrophobic resin particles dispersed in an aqueous medium; preparing a second agent by adding, to the first agent, an oxidizing agent containing at least one of a peroxide, a perchloric acid, a chlorate, a persulfuric acid, a superphosphoric acid, and a periodate; applying the second agent onto a member to be coated; and drying the second agent on the member to be coated. | 12-29-2011 |
20120006512 | Asymmetric Dimple Tube for Gas Heat - A heat exchanger tube for a gas furnace is provided. The heat exchanger tube may include an inlet, an outlet and one or more asymmetric dimple pairs disposed between the inlet and the outlet. The inlet and the outlet may form a passageway through the heat exchanger tube for receiving a heated combustion gas. Each asymmetric dimple pair may provide a first dimple and an opposing second dimple. The first and second dimples may be configured to at least partially constrict flow of the gas therethrough. Together, the first and second dimples may form an upstream section, a downstream section and a merge point. | 01-12-2012 |
20120006513 | DEVICE FOR COOLING AN ELECTRICAL CABINET - Device for cooling an electrical cabinet including a hollow upright beam having a lower end, an upper end and a cavity inside, the upright beam having an air inlet at the lower end and an air outlet at the upper end, the upright beam supporting the electrical cabinet on a side of the upright beam. The device further includes a first flow connection formed between the interior of the electrical cabinet and the cavity of the upright beam at a level of the lower end of the electrical cabinet; a second flow connection formed between the interior of the electrical cabinet and the cavity of the upright beam at a level of the upper end of the electrical cabinet; and a sealing element at an intermediate level between the first and second flow connections to block the cavity of the upright beam. | 01-12-2012 |
20120006514 | GRID HEAT SINK - A grid heat sink includes primary fins extending from a base and cross fins which intersect the primary fins and form a number of channels. A fan moves cooling air through the channels to remove heat from the primary and cross fins. In one illustrative embodiment, the grid heat sink includes a base, a plurality of intersecting fins, and a plurality of channels formed by the intersecting fins. Each of the channels accept cooling air at an input side of the grid heat sink and direct the cooling air to exit an output side of the grid heat sink. | 01-12-2012 |
20120012287 | FAN APPARATUS WITH FAN MOUNTING FRAME - An exemplary fan apparatus adapted for dissipating heat from an electronic component mounted in an enclosure includes a centrifugal blower, a mounting frame, a number of first fasteners and a number of second fasteners. A number of engaging portions are formed on the enclosure. The centrifugal blower defines an air outlet at one side thereof. A number of fixing portions are formed on the centrifugal blower. The mounting frame includes a number of connecting portions and a number of mounting portions formed thereon. The first fasteners fix the connecting portions of the mounting frame to the engaging portions of the enclosure, and the second fasteners fix the fixing portions of the centrifugal blower to the mounting portions of the mounting frame. | 01-19-2012 |
20120012288 | DYNAMOELECTRIC MACHINE ASSEMBLIES OPERABLE WITH SERIAL COMMUNICATION SIGNALS AND WM CONTROL SIGNALS - A dynamoelectric machine assembly for connection to a system controller. The assembly includes at least one input contact for receiving a control signal from the system controller and a processor coupled to the input contact. The processor is configured to operate the assembly in a pulse width modulation (PWM) mode when the control signal is a PWM control signal and to operate the assembly in a serial mode when the control signal is a serial communication signal. | 01-19-2012 |
20120024504 | HEAT EXCHANGER UNIT - The invention relates to a heat exchanger unit ( | 02-02-2012 |
20120031590 | INDOOR UNIT OF AIR CONDITIONING APPARATUS - An indoor unit of an air conditioning apparatus includes a casing, a heat exchanger, a fan, a first airflow direction adjusting plate adjusting a direction of airflow blown out from an air outlet by rotation about a first axial direction, a plurality of second airflow direction adjusting plates adjusting the direction of the airflow blown out from the air outlet by rotation about a second direction substantially perpendicular to the first direction, and a support member rotatably supporting the first airflow direction adjusting plate in the air outlet other than at both end portions. The second airflow direction adjusting plates include a third airflow direction adjusting plate and a fourth airflow direction adjusting plate placed in a location such that a distance to the support member from the fourth airflow direction adjusting plate is smaller than a distance to the support member from the third airflow direction adjusting plate. | 02-09-2012 |
20120031591 | VEHICLE HEAT-EXCHANGE MODULE - In a vehicle heat-exchange module in which a fan unit is provided at the downstream side of a rectangular heat exchanger, and the fan unit is provided with a shroud having a bell-mouth and an annular opening, a propeller fan that is disposed in the annular opening, and a fan motor that rotationally drives the propeller fan, the fan unit is a unit having a single-fan configuration in which motor input power is at a predetermined level or less, and the propeller fan is provided with two sets of winglets that are respectively constructed upright, with a prescribed gap therebetween in the radial direction, along the circumferential direction on both a pressure surface and a suction surface of the root side of the blades. | 02-09-2012 |
20120055653 | Heat Dissipating Unit And Heat Dissipating Device Having The Heat Dissipating Unit - A heat dissipating unit includes a plurality of heat dissipating fins arranged in an annular array and each including a flow guide plate extending from an inner side to an outer side of the annular array, two connecting plates respectively connected to and forming an angle with two opposite sides of the flow guide plate, and an air inlet and an air channel communicating fluidly with each other. Each connecting plate includes a connecting hole, a slanting edge opposite to the flow guide plate, and a connecting portion projecting from the slanting edge. The connecting portions of the connecting plates of each heat dissipating fin engage respectively the connecting holes in the connecting plates of an adjacent heat dissipating fin. The heat dissipating fins overlap each other so that the air inlets of the heat dissipating fins are arranged in a staggered manner. | 03-08-2012 |
20120055654 | Radiator and electronic apparatus having coolant pathway - A radiator includes a core unit, which includes a flow inlet which coolant enters, a flow outlet from which the coolant exits, a plurality of coolant pathways including at least an outer coolant pathway, an inner coolant pathway, a branching point, and a merging point, the outer coolant pathway being disposed to surround the inner coolant pathway, the coolant being divided at the branching point and merging at the merging point, and a connecting pathway to connect between the merging point of the outer coolant pathway and the branching point of the inner coolant pathway, wherein the flow inlet is in communication with a branching point of an outermost one of the plurality of coolant pathways, and the flow output is in communication with a merging point of an innermost one of the plurality of coolant pathways. | 03-08-2012 |
20120055655 | HEAT SINK, LIQUID COOLING UNIT, AND ELECTRONIC APPARATUS - A heat sink for absorbing heat which is generated by an electronic module by a coolant which flows through its internal portion, provided with a first heat sink part which is contiguous with the electronic module, a second heat sink part which is contiguous with the electronic module, and a heat discharger which is arranged spaced from the first heat sink part and second heat sink part at an opposite side from the electronic module and which is arranged in a flow path between the first heat sink part and second heat sink part. | 03-08-2012 |
20120097375 | FAN SYSTEM FOR ELECTRONIC DEVICE - A fan system for dissipating heat generated in an electronic device includes a processor unit, a speedometer unit connected to the processor unit, a governor unit connected to the processor unit, and a fan group including at least two fans. Each fan is connected to the speedometer unit and the governor unit and has at least two motors. The processor unit controls all the motors to rotate and thereby drives all the fans to rotate through the governor unit, and detects rotation speeds of all the motors through the speedometer unit. When a motor malfunctions, the processor unit adjusts the rotation speeds of all other motors to ensure that the fan having the malfunctioning motor and other fans are respectively provided with equal power and then rotate in equal speeds. | 04-26-2012 |
20120097376 | HEAT DISSIPATION MODULE FOR OPTICAL PROJECTION SYSTEM - A heat dissipation module for an optical projection system includes a flow channel, a fan and an air filter. The flow channel is disposed in the optical projection system and has an air intake and an air vent. The fan is disposed in the flow channel to induce an air flow and has an air inlet and an air outlet. The air flow enters the flow channel via the air intake, passes through the air inlet and the air outlet in succession and leaves the flow channel via the air vent. A color wheel and a photo sensor are disposed in the flow channel and positioned between the air intake of the flow channel and the air inlet of the fan, and an integration rod is disposed in the flow channel and positioned between the air outlet of the fan and the air vent of the flow channel. The air filter is disposed in the air intake of the flow channel. | 04-26-2012 |
20120103577 | COOLING SYSTEM FOR A COMBUSTION ENGINE - The invention relates to a cooling system for a combustion engine, comprising an inlet for cooling fluid, which is connectable to cooling channels of the combustion engine, and an outlet for cooling fluid, which is also connectable to the cooling channels of the combustion engine, a pump for pumping the cooling fluid through the inlet and outlet, a cooler for cooling the cooling fluid, which is connected to the outlet, on the one hand, and the inlet, on the other hand, and a bypass line, which connects the outlet to the inlet without passing through the cooler, and a valve assembly comprising a valve element and an actuation device for actuating the valve element, characterized in that the valve element is arranged in the outlet and comprises at least three fluid connections, wherein a first fluid connection is connected to a section of the outlet coming from a cooling fluid discharge of the combustion engine, a second fluid connection is connected to a section of the outlet leading to the cooler and a third fluid connection is connected to the bypass line leading to the inlet, and the actuation device comprises an expansion element, which is arranged in the inlet downstream of the connection of the bypass line to the inlet, and with which expansion element the valve element is actuatable such that the first fluid connection is connected to the second and/or third fluid connection. | 05-03-2012 |
20120111544 | AUTOMATIC SHUTTER IN A MULTIPLE EXHAUST PORT DEVICE - A fan circulates air inside a device. A first exhaust port vents the circulated air out of the computing device. A second exhaust port also vents circulated air out of the computing device. A shutter automatically blocks one of the exhaust ports based on the physical orientation of the computing device. | 05-10-2012 |
20120118539 | VEHICLE HEAT-EXCHANGE MODULE - An object is to provide a vehicle heat-exchange module that is capable of reducing abnormal sound generated by interference between rotor blades of a propeller fan and high-static-pressure regions generated at leading edges of stator blades, while decreasing the input power of a fan motor by providing the stator blades on the downstream side of the propeller fan. In a vehicle heat-exchange module including a fan motor that drives a propeller fan, the fan motor is supported to the fan shroud at a downstream side of the propeller fan via motor support struts formed into stator blades in a radiating pattern, and a distance between stator blades formed of the motor support struts and rotor blades of the propeller fan for a narrowest portion at the same position in the radial direction is at least 0.018D 05-17-2012 | |
20120145363 | FAN DUCT AND HEAT DISSIPATION DEVICE USING THE SAME - A fan duct includes a fan duct body and an airflow guiding plate connecting with the fan duct body. The fan duct has an air inlet for airflow flowing into the fan duct, and an air outlet for airflow exhausting out of the fan duct. One end of the airflow guiding plate connects the fan duct body near the air inlet, and the other end of the airflow guiding plate can be fixed at different positions of the fan duct body. | 06-14-2012 |
20120145364 | HEAT EXCHANGER AND INDOOR UNIT PROVIDED WITH THE SAME - A heat exchanger is provided in which a large number of plate-shaped fins are attached to outer peripheries of heat transfer tubes through which refrigerant flows. Three rows of heat transfer tubes are arranged along an air flow direction. An inlet side heat transfer tube in a case of using as an evaporator or an outlet side heat transfer tube in a case of using as a condenser has the smallest diameter. In a case where the most windward side heat transfer tube has the smallest diameter, a tube diameter of the most windward side heat transfer tube is D | 06-14-2012 |
20120152502 | EVAPORATOR WITH REPLACEABLE FAN VENTURI RING - The present application provides an evaporator. The evaporator may include a housing, a coil assembly mounted within the housing, and a fan housing positioned within the housing. The fan housing may include a fan and a replaceable venturi ring sized to accommodate the fan. | 06-21-2012 |
20120152503 | HEAT EXCHANGER - A heat exchanger includes an apparatus body, a motor, an air-exhaust fan casing, an air-supply fan casing, heat exchanging devices, an air-supply air-flow path, and an air-exhaust air-flow path. A first stacking pitch of heat transfer plates in the heat exchanging devices placed at positions other than that immediately after an outdoor suction port in the air-supply air-flow path and at positions other than that immediately after a indoor suction port in the air-exhaust air-flow path is smaller than a second stacking pitch of heat transfer plates in the heat exchanging devices immediately after the outdoor suction port in the air-supply air-flow path and immediately after the indoor suction port in the air-exhaust air-flow path. | 06-21-2012 |
20120160462 | HEAT DISSIPATION DEVICE - A heat dissipation device for dissipating heat from an electronic component, includes a heat sink, a centrifugal fan disposed on the heat sink, and a cover board covering the heat sink and located above the centrifugal fan. The cover board defines a plurality of through holes acting as air-intakes of the centrifugal fan. | 06-28-2012 |
20120160463 | AIR GUIDING DEVICE AND HEAT DISSIPATION SYSTEM HAVING SAME - An air guiding device is mounted on a main board. The air guiding device and the main board cooperatively form an air passage therebetween for allowing cooling air to pass therethrough. The air passage includes an inlet at a first end of the air guiding device, a first outlet at an opposite second end of the air guiding device, and a second outlet. The air guiding device includes a top wall, two sidewalls, and a shielding assembly. The top wall includes the second outlet therein at an intermediate portion thereof. The second outlet opens toward the second end. The sidewalls extend downwardly from opposite sides of the top wall. The shielding assembly is positioned on the top wall for regulating a size of the second outlet. | 06-28-2012 |
20120160464 | AIR CONDENSER - An air condenser with upward oriented tube bundles for condensing steam, wherein the tube bundles form sidewalls of a cell in form of a circumferentially closed, vertically extending polygon, wherein a fan is arranged above the polygon. Two of the circumferential sidewalls of the cell are formed by tube bundles, wherein these sidewalls enclose an angle smaller than 90° and wherein the at least one further side wall is impermeable to air. | 06-28-2012 |
20120168133 | COMPACT AIR HANDLER SYSTEM - An air handler system comprising a cabinet housing a blower unit and a heat exchange unit. The blower unit and the heat exchange unit are located in a substantially same lateral dimension in the cabinet. The blower unit and the heat exchange unit are separated by a distance that provides for a substantially uniform flow of air through a vertically-orientated plane of the heat exchange unit when the blower unit is in operation. | 07-05-2012 |
20120168134 | HEAT DISSIPATION DEVICE - A heat dissipation device includes an axial-flow fan and an air guider. The axial-flow fan has an air inlet and air outlet. The air guider is connected to the air outlet and includes an air input section, an air output section, at least an air divider and at least an arc air divider. The air input section has an area smaller than that of the air outlet. The air output section has an area smaller than that of the air input section. The air divider is located within the air output section to divide the air output section into a plurality of air output channels. The arc air divider is located within the air guider. | 07-05-2012 |
20120181000 | HEAT DISSIPATION ASSEMBLY - A heat dissipation assembly includes a heat sink and a fan. The heat sink includes a plurality of fins. The plurality of fins is parallel with each other. Each of the plurality of fins includes two side faces. Each side face is waved. An air channel is located between two adjacent side faces of two adjacent fins. The air channel includes a plurality of wide portions and a plurality of narrow portions interlaced with the plurality of wide portions. The fan is located on a side of the air channel. The fan is adapted to drive air flowing fast in the plurality of narrow portions of the air channel and flowing slow in the plurality of wide portions of the air channel. | 07-19-2012 |
20120181001 | THERMAL MANAGEMENT SYSTEMS AND METHODS - Thermal management assemblies and systems related to controlling temperature of internal combustion engines are provided. In one embodiment, a multi-stage cooling assembly, includes a body forming an air inlet and an air outlet, a plurality of exterior fins extending outward from an exterior of the body, the plurality of exterior fins differing in fin type, fin density, or both fin type and fin density as a function of the location of the plurality of exterior fins relative to the exterior of the body, and an air-to-coolant intercooler positioned in an interior of the body and adjacent the air inlet. | 07-19-2012 |
20120181002 | HEAT EXCHANGER - A heat exchanger is provided. The heat exchanger includes a heat dissipation module, an inner heat-dissipating device and an outer heat-dissipating device. The heat dissipation module includes a body, a plurality of first inlets, a plurality of first outlets, a plurality of second inlets, a plurality of second outlets, a plurality of first flow paths and a plurality of second flow paths, wherein the first flow paths are staggered with the second flow paths, and the first inlets and the first outlets are communicated with the first flow paths, the second inlets and the second outlets are communicated with the second flow paths, the body includes a first surface and a second surface opposite to the first surface, the first inlets and the first outlets are formed on the first surface, and the second inlets and the second outlets are formed on the second surface. | 07-19-2012 |
20120181003 | CLOSED AND INTERNAL COOLING SYSTEM FOR CAR RADIO - A vehicle audio apparatus such as a car radio includes a casing defined by external walls and electrical components mounted on a printed circuit board. The radio also includes a cooling system having a fan arranged in a first external wall of the casing, an opening arranged in a second opposite external wall, and a cooling plate which forms a heat sink and which is adjacent to at least one electrical component producing heat. The cooling plate and an associated internal cover plate have a combined shape optimized for guiding the air flow between the fan and the cooling opening. | 07-19-2012 |
20120211205 | MULTI-BLADE CENTRIFUGAL FAN AND AIR CONDITIONER EMPLOYING THE SAME - In a multi-blade centrifugal fan in which an impeller is provided in a scroll casing in a freely rotatable manner, the scroll casing is provided with an axially expanded portion that forms an air channel at a bottom surface thereof which is expanded in a rotation-axis direction at a radially outer side of an annular flange portion which supports the impeller; and is provided, in a region of an outlet between a tongue portion and a spiral-end portion of the scroll casing in the axially expanded portion, with a protrusion that protrudes radially outward from a radially inner side surface by a predetermined amount so as to directly face an airflow in a circumferential direction. | 08-23-2012 |
20120216993 | HEAT DISSIPATION DEVICE - A heat dissipation device includes a frame and a number of fans mounted to the frame. The frame includes a base and a number of rods extending from a center of the base in a same direction. The base defines a through hole in each of four corners. Each rod defines a slot adjacent to a distal end of the rod away from the base. Each fan includes a board defining a through hole in each of four corners. The rods extend through the corresponding through holes of the fans. A fixing member is engaged in the slots of the posts, to sandwich the fans together with the base. | 08-30-2012 |
20120222844 | ROTATING MACHINE APPARATUS - A rotating machine apparatus is provided and includes a rotating machine to drive rotation of a shaft, at least one air flow generator mounted on the shaft, a heat exchanger disposed in thermal communication with the rotating machine and being formed to define a plurality of pathways displaced from and extending transversely with respect to the at least one air flow generator and a duct having first and second transverse sections by which the at least one air flow generator and the heat exchanger are coupled. | 09-06-2012 |
20120227941 | EXTERNAL HEAT EXCHANGER FOR STOVES - A heat exchanger takes existing hot gases from a stove exit and removes heat from these hot exhaust gases. The heat exchanger makes the stove more efficient. The exhaust gases may go through a conductive material core, such as an aluminum core, where forced air passing through pipes through the heat exchanger warms up by radiation, conduction and convection. | 09-13-2012 |
20120227942 | FLOW GUIDE STRUCTURE AND THERMAL MODULE THEREOF - A flow guide structure includes a support body including a hollow frame body. At least one first flow way and at least one flow guide assembly are disposed in the hollow frame body. The flow guide assembly has multiple flow guide plates arranged at intervals. At least one second flow way is formed between the flow guide plates. When a cooling fan creates airflow and blows the airflow to a heat sink and a circuit board, the flow guide plates of the flow guide assembly can also guide the airflow to those areas with high heat so as to lower the temperature of the electronic components in the areas. | 09-13-2012 |
20120227943 | COOLING APPARATUS FOR CONSTRUCTION MACHINE - The present invention is directed to a cooling apparatus comprising a plural number of (e.g., first to third) heat exchangers arranged in widthwise side-by-side relation to each other, and designed to optimize an air-volume distribution of cooling air passing through cores of the heat exchangers to thereby improve cooling efficiency. Each of the cores | 09-13-2012 |
20120234519 | Low-Profile Heat Sink with Fine-Structure Patterned Fins for Increased Heat Transfer - In one embodiment, a device for transferring heat comprises a base member and a first array of pin fins supported by the base member, the pin fins having an aspect ratio of not less than about 10, and the pin fins being not more than about 0.3 mm in equivalent diameter and not more than about 3 mm in length, either one or both of the base member and pin fins comprising a metallic or semiconductor material. To form this device, a substrate is provided. A pattern is formed on the substrate, the pattern having holes therein or in the form of dots with cross-sectional dimensions of not more than about 0.3 mm. Pin fins supported by the substrate are formed, where the pin fins have an aspect ratio of not less than about 10, and not more than about 0.3 mm in equivalent diameter and not more than about 3 mm in length. Either one or both of the base member and pin fins comprise a metallic or semiconductor material. The pattern is then removed. | 09-20-2012 |
20120234520 | TRANSFORMER ASSEMBLY WITH ENHANCED AIR COOLING - A cooling system for a transformer comprises a fan duct and a housing which together enclose an interior space. A transformer located in the interior space is mounted on the fan duct, and has a plurality of core sections surrounded by windings and separated by gaps. An air channeling structure is located between the transformer and the fan duct. A cooling airflow path extends through the air channeling structure, and between core sections of the transformer. | 09-20-2012 |
20120234521 | SILICON CARBIDE CLADDING SLAB BASED LASER COOLING DEVICE - A silicon carbide cladding slab based laser cooling device is disclosed. The cooling device includes two silicon carbide slabs, two heat sinks and two fans. The first and the second silicon carbide slabs are respectively diffusion bonded to both sides of a Nd:YVO | 09-20-2012 |
20120241136 | COOLING DEVICE - A cooling device for cooling an electronic component is disclosed. The cooling device comprises a cooler comprising a base, a plurality of first fins and a plurality of second fins. The plurality of first fins extends substantially perpendicular from the base, and the plurality of second fins are secured to the base. Each of the plurality of second fins is between adjacent two of the plurality of first fins. Each of the plurality of second fins comprises a plurality of body portions and a plurality of connecting pieces. Each of the plurality of connecting pieces connects adjacent two of the plurality of body portions. | 09-27-2012 |
20120247739 | ELECTRONIC DEVICE AND FAN - According to one embodiment, a fan includes a fan case comprising a first wall in which a first air inlet is formed, a second wall facing the first wall in which a second air inlet is formed, and a side wall which connects the first wall to the second wall and in which an air outlet is formed; a rotor comprising a shaft, an impeller fixed to the shaft, and an abutment portion, and contained in the fan case between the first and second walls and configured to rotate about the shaft; a bearing in the second wall and configured to support the shaft; and a prevention portion that disposed in the fan case and that the abutment portion can contact or separate from and that is configured to prevent the rotor from moving in a direction away from the bearing when the abutment portion contacts the prevention portion. | 10-04-2012 |
20120255713 | Cooling System Equipped with an Advection-Type Fan - A cooling system equipped with an advection-type fan is disclosed. The cooling system includes a casing and an advection-type fan. The casing has a compartment receiving a heat-emitting source or a heat-conducting element. The casing further includes two radial air-guiding openings communicating with the compartment. The advection-type fan has a frame disposed in the compartment. The frame has an air-guiding lateral wall defining a radial air channel. The frame has radial air inlet and a radial air outlet. Both the radial air inlet and the radial air outlet communicate with the radial air channel. The radial air inlet and the radial air outlet face the two radial air-guiding openings of the casing respectively. The radial air channel receives an impeller that causes air advection to dissipate the heat of the heat-emitting source or the heat-conducting element. The frame has two sides that are completely laid open. | 10-11-2012 |
20120255714 | HYBRID FAN DRIVE WITH ELECTRIC MOTOR - Thermal management systems for vehicle engines which include hybrid fan drives with viscous clutches and electronic motors, particularly brushless DC motors (BLDC). One embodiment incorporates a pulley driven, electronically controlled viscous clutch mechanism and an internal rotor BLDC motor. Another embodiment includes an engine crank mounted electronically controlled viscous clutch mechanism with a tethered electric motor, particularly a BLDC motor. A further embodiment is an engine block mounted electronically controlled viscous clutch mechanism with an integrated external rotor BLDC motor. | 10-11-2012 |
20120267082 | COOLING SYSTEM ASSEMBLY FOR A CROP SPRAYER - The crop sprayer includes a cooling system that comprises a plurality of heat exchange units attached to a housing. The housing defines an air chamber. The heat exchange units are mounted over openings defined in the walls of the housing surrounding the chamber. A fan is mounted over fan opening defined in the housing to draw air from the chamber and create a pressure drop in front of the coolers. The pressure drop causes air to be drawn through the heat exchange units into the chamber. | 10-25-2012 |
20120273171 | EARTHEN EVAPORATIVE HEAT EXCHANGER - A heat exchanger with earthen material for cooling ambient air may serve as an energy efficient alternative to air conditioning. The heat exchanger may take in ambient air and cool the air through evaporative heat exchange, which may be very useful during summer months in areas where the day temperatures can be very high. A fan may be used to provide airflow through an evaporating heat exchanger, which results in an airflow that is much cooler than the ambient temperature. The heat exchanger may be made from an earthen material, such as fired clay, for example, with a large surface area coming into contact with the airflow. One or more cavities may be present in the heat exchanger to hold water and allow the water to percolate through the porous earthen material. | 11-01-2012 |
20120273172 | HEAT DISSIPATION DEVICE - A heat dissipation device for a computer case is positioned over a hole of the computer case. The heat dissipation device includes a fan, two motors, two plates, and a controller. The fan is fixed in the computer case, and covers the hole. The two motors are positioned at two opposite sides of the fan. Each motor has a motor shaft parallel to a fan shaft of the fan. The two plates are respectively fixed on the two motor shafts. A distance between the two plates along the direction parallel to the motor rotor is greater than or equal to the thickness of the board. A controller is electrically connected to the fan and the two motors. The controller controls the two motors rotate the two boards for exposing or blocking the hole as the fan is on or off. | 11-01-2012 |
20120279688 | HEAT DISSIPATING MODULE AND HEAT DISSIPATING METHOD THEREOF - A heat dissipating module disposed between a plurality of heating elements is provided. The heat dissipating module includes a plurality of heat conducting units, a set of heat dissipating fins, a plurality of fans, a plurality of sensing units and a control unit. The heat conducting units are connected to the set of the heat dissipating fins and the heating elements. A gap exists between the heat conducting units. The fans are disposed at the same side of the set of the heat dissipating fins. The sensing units are coupled to the heating elements, respectively, to detect the heat generated by the heating elements. The control unit is electrically connected to the fans and the sensing units. The heat generated by the heating elements is different from each other, and the control unit adjusts the speed of the fans according to the heat generated by the heating elements. | 11-08-2012 |
20120285667 | SOUND BAFFLING COOLING SYSTEM FOR LED THERMAL MANAGEMENT AND ASSOCIATED METHODS - A cooling system for light emitting diodes (LEDs) is provided that may comprise acoustic baffle members, a micro-channel heatsink that includes fins adjacent to the LEDs, and a fluid flow generator adjacent to the micro-channel heatsink that directs a fluid in a flow direction. The fluid flow generator may include an input to receive the fluid and an exit to exhaust the fluid, which may contact a surface area of the fins. The sound emitted by the fluid flow generator may be substantially cancelled by the acoustic baffle members, which may reflect the sound to a source location as reflected sound waves defined by a substantially inverted phase. | 11-15-2012 |
20120298341 | System and Method for Isolating Components in an Enclosure - A system and method for isolating equipment within a cabinet. The system comprising an internal fan disposed within an internal chamber and an external fan disposed outside the internal chamber. The internal fan and the external fan are driven by a corresponding motor disposed within the internal chamber, wherein each motor independently rotates the internal fan and the external fan. | 11-29-2012 |
20120305225 | Air Heat Exchanging Device, Manufacturing Method Thereof, and Integrated Heat-Exchanging Air-Conditioning Device - An air heat exchanging device is provided, which includes an upper flow divider, a heat exchanging core, and a lower flow divider. An indoor wind channel and an outdoor wind channel are disposed in the upper flow divider, the heat exchanging core, and the lower flow divider respectively, and an air inducing pipe communicating with indoor heat generating equipment is disposed at an air inlet of the indoor wind channel. An integrated heat-exchanging air-conditioning device including the air heat exchanging device is also provided, in which an air conditioning evaporator is disposed at one side of the indoor wind channel near the air inducing pipe. Therefore, the air heat exchanging device and the integrated heat-exchanging air-conditioning device perform direct heat exchange with high-temperature air generated by the indoor equipment, thereby greatly increasing the energy efficiency ratio of the air heat exchanging device and the integrated heat-exchanging air-conditioning device, further saving the energy and reducing consumption, enlarging the climate application range of the air heat exchanging device and integrated heat-exchanging air-conditioning device, and preventing air at hot spots in the machine room from spreading. A manufacturing method of an air heat exchanging device having an air inducing pipe is further provided. | 12-06-2012 |
20120305226 | ELECTRIC MACHINE MODULE COOLING SYSTEM AND METHOD - Embodiments of the invention provide an electric machine module. The module can include a housing that can define a machine cavity. The housing can include a coolant jacket that contains a first coolant. A coolant sump can be in fluid communication with the machine cavity and can contain a second coolant that is different than the first coolant. The coolant sump can be in thermal communication with the coolant jacket. An electric machine can be positioned within the machine cavity. The electric machine can include a stator assembly, a rotor assembly, and a shaft. The module can also include at least one coolant channel, at least one shaft channel, and at least one rotor channel. | 12-06-2012 |
20130014921 | AIR FLOW GUIDING STRUCTUREAANM Chen; Chih-PengAACI New Taipei CityAACO TWAAGP Chen; Chih-Peng New Taipei City TWAANM Huang; Jhao-YingAACI New Taipei CityAACO TWAAGP Huang; Jhao-Ying New Taipei City TW - An air flow guiding structure includes a plurality of straight radiating fins being parallelly spaced to define an air flow passage between any two adjacent ones of the straight radiating fins; a plurality of first oblique sections extended from first ends of at least some of the straight radiating fins, such that a first air flow guiding passage communicating with the air flow passage is defined between any two adjacent ones of the first oblique sections; and a plurality of second oblique sections extended from opposite second ends of at least some of the straight radiating fins, such that a second air flow guiding passage communicating with the air flow passage is defined between any two adjacent ones of the second oblique sections. With these arrangements, air flows can be quickly guided into and out of the air flow passages to improve flow field and achieve best heat dissipation effect. | 01-17-2013 |
20130037245 | PIEZOELECTRIC FAN AND AIR COOLING APPARATUS USING THE PIEZOELECTRIC FAN - A piezoelectric fan includes a vibration plate one end of which in a length direction is supported in a fixed manner and the other end of which in the length direction is a free end; and piezoelectric elements, attached on at least one of front and back surfaces of the vibration plate. In an intermediate portion of the vibration plate in the length direction, a right-angle bent portion is provided, and a plurality of divided blades are defined by slits in an area of the vibration plate extending from the free end to a position located a predetermined distance from the bent portion toward the free end. The piezoelectric element is attached on the portion of the vibration plate between the fixed end and the bent portion. Hence, variations in resonant frequency among the blades are reduced and the blades are efficiently excited using a common piezoelectric element. | 02-14-2013 |
20130043011 | BUILDINGS HAVING THERMALLY ACTUATED AND PUMPED SECONDARY FLUID AS REFLUX - The present invention, without utilizing external mechanical rotary kinetic energy or the power of an electric motor, directly utilizes the fluid passing through the heat exchanger having thermal energy fluid pipelines to drive one or more than one fluid actuation device, and through direct or non-contact type transmission means to respectively drive the fluid pump set installed at the side of heat exchanger having thermal energy fluid pipelines, and then to further drive the external fluid to pass through the heat exchanger, so as to improve the efficiency of the heat exchange of the heat exchanger. | 02-21-2013 |
20130048255 | HEAT DISSIPATION DEVICE - A heat dissipation device includes a housing, a fan mounted within the housing, a fin assembly fixed to the housing and heat pipes attached on the fin assembly. The housing includes a panel and a sidewall extending upwardly from a periphery of the panel. The fin assembly includes first fins and second fins alternately arranged on the panel. The first fins and the second fins each include a plate, an upper flange and a lower flange extending from a top side and a bottom side of the plate, respectively. Each second fin defines a slot in a lateral side of the plate thereof adjacent to the fan. Every two adjacent first fin and second fin define a channel therebetween. Two adjacent channels communicate with each other at inlets thereof via the slot, and separated from each other at outlets thereof via a second fin. | 02-28-2013 |
20130048256 | HEAT DISSIPATION DEVICE - A heat dissipation device includes a fan and a heat sink located at the air outlet of the fan. The heat sink includes a first fin set arranged on a side portion of the air outlet, a second fin set arranged on a central portion of the air outlet and a third fin set. The first fin set includes a plurality of first fins with a first passage is defined between each two neighboring first fins. The second fin set includes a plurality of second fins with a second passage defined between each two neighboring second fins, a width of the second passage is less than that of the first passage. The third fin set includes a plurality of third fins. Each third fin is arranged between two neighboring first fins and divides an outer portion of the first passage away from the outlet of the fan into two third passages. | 02-28-2013 |
20130062040 | System for Extracting Heat from Outside Air - The present invention relates to a system for extracting heat from outside air. The system comprises a feed connecting to outside air, a heat exchanger connected to the feed and a discharge connecting to the heat exchanger and outside air, and a channel connecting the feed, the heat exchanger and the discharge. The system herein further comprises an impeller associated with the channel for providing a volume flow of outside air sufficient for the heat exchanger via the feed and along or through the heat exchanger. The system according the invention is distinguished from existing systems, which make use of noisy fans as impellers, in that the channel comprises an upright ascent pipe, an upright descent pipe and a connecting pipe between the ascent pipe and the descent pipe. The heat exchanger is connected here to the descent pipe. A sufficient airflow can thus be initiated/maintained for an effective operation of for instance the evaporator of or at a heat pump. | 03-14-2013 |
20130068426 | FIN ASSMEBLY AND HEAT DISSIPATION DEVICE USING THE SAME - A heat dissipation device includes a centrifugal fan and a fin assembly aside the centrifugal fan. The centrifugal fan includes a casing and an impeller received in the casing, the casing defines an air outlet at one side thereof. The fin assembly is located at the air outlet of the centrifugal fan. The fin assembly includes a plurality of fins parallel to and spaced from each other. Each of the fins includes a main body and an extending portion extending form the main body toward the air outlet of the centrifugal fan. Each extending portion includes a side edge facing the air outlet of the centrifugal fan, the side edge is arc shaped and inwardly concaved toward the main body. | 03-21-2013 |
20130068427 | Synthetic Jet Actuators and Ejectors and Methods For Using The Same - A thermal management system is provided which comprises (a) a synthetic jet actuator; and (b) a frame having at least one element therein which pressingly engages said synthetic jet actuator. | 03-21-2013 |
20130075065 | SCULPTED FAN HOUSING - The described embodiments relate generally to optimizing airflow in a computer system. By modifying the external surface of centrifugal cooling fan enclosures the pressure drop associated with airflow moving around the enclosures can be reduced. This is generally accomplished by rounding off hard edges from the outside of the cooling fan enclosure as well as forming cover surfaces rather than simply using flat cover surfaces. In some cases this can also involve modifying the shape of the fan inlet, or even contouring the shape of the cooling fan blades to allow air to flow more easily through the computer enclosure. | 03-28-2013 |
20130075066 | Advanced Multi-Purpose, Multi-stage Evaporative Cold Water/Cold Air Generating and Supply System - This discloses apparatuses for industrial or commercial cooling (or any other cooling) using staged cooling towers to evaporatively reach temperatures below the wet bulb temperature of the ambient air. Methods for using such apparatuses are disclosed as well. | 03-28-2013 |
20130092357 | MULTIBLADE CENTRIFUGAL FAN AND AIR CONDITIONER EQUIPPED WITH THE SAME - Provided are a low-noise, high-performance multiblade centrifugal fan that suppresses interference between rotational flows generated within extension sections that are extended in a rotation-axis direction at upper and lower end surfaces of a scroll casing, and an air conditioner equipped with the same. In a multiblade centrifugal fan having an impeller disposed in a rotatable manner about a rotation shaft within a scroll casing having a flow path whose cross section gradually increases in a rotational direction, at least one of upper and lower end surfaces of the scroll casing serves as an inclined end surface that is extended in the extending direction of the rotation shaft such that an extended height thereof gradually increases in the rotational direction from a scroll start position, and a stepped section extending in the rotational direction is provided between the inclined end surface and an inner-peripheral side surface of an extension section. | 04-18-2013 |
20130092358 | CERAMIC RADIATION HEAT DISSIPATION STRUCTURE - A ceramic radiation heat dissipation structure for heat dissipation from a heat source includes a ceramic substrate, a first radiation heat dissipation film and a porous heat dissipation plate. One surface of the ceramic substrate is attached to the heat source and the other surface of the ceramic substrate is provided with a first radiation heat dissipation film. The porous heat dissipation plate is attached to the first radiation heat dissipation film. The porous heat dissipation plate has at least one heat dissipation hole, and an inner sidewall of the at least one heat dissipation hole is provided with a second radiation heat dissipation film. The heat generated by the heat source is fast propagated outwards because of the high efficiency of thermal radiation provided by the first and second radiation heat dissipation films. | 04-18-2013 |
20130105124 | HEAT DISSIPATION FAN | 05-02-2013 |
20130105125 | INDOOR UNIT OF AIR-CONDITIONING APPARATUS | 05-02-2013 |
20130112378 | System and Method for Cooling Information Handling Resources - In accordance with an embodiment of the present disclosure, at least one of one or more pumps and a heat exchanger of a fluidic network may be fluidically coupled to its respective adjacent fluidic conduits such that it may be removed from and replaced in the chassis without discharging cooling fluid present in other fluidic components of the chassis. | 05-09-2013 |
20130118719 | Dual-Chamber Heat Exchanger - The invention is a heat exchanger that transfers heat from one medium to another by pulling a heated medium through a series of expansion chambers and water-immersed tubes that transfers the heat from one medium to another, including a secondary set of coils to increase the efficiency. | 05-16-2013 |
20130126134 | CROSS FLOW FAN AND AIR CONDITIONER HAVING THE SAME - A cross flow fan and an air conditioner having the same are provided. The cross flow fan may include a fixing member having a plate shape, and a plurality of blades fixed to one surface of the fixing member. The plurality of blades may be arranged spaced apart from each other in a circumferential direction. An inner edge may define an end of a side of each of the plurality of blades, the inner edge extending toward a rotational shaft of the plurality of blades, and an outer edge may define an end opposite to the inner edge. A protrusion may protrude from the outer edge in one direction. | 05-23-2013 |
20130153180 | Cooling System With Dual Reversing Fans - A cooling system comprises a first cooling package, a second cooling package, and a fan control system. The first cooling package comprises a first fan and at least one heat exchanger to cool at least one fluid associated with the machine. The first fan is configured to rotate in a cooling direction and an opposite cleaning direction. The second cooling package comprises a second fan and at least one heat exchanger to cool at least one fluid associated with the machine. The second fan is configured to rotate in a cooling direction and an opposite cleaning direction. The fan control system is configured to alternate the first and second fans between a first cleaning mode and a second cleaning mode. | 06-20-2013 |
20130153181 | FAN UNIT FOR A HEAT EXCHANGER - A fan unit for a heat exchanger, has a plate-like support structure or shroud with a main opening defining an air passage for ventilation of the heat exchanger. An electric drive motor is fixed to the support structure or shroud. An impeller is arranged inside the main opening and driven by the drive motor. A spray protection screen associated with a side of the motor remote from the impeller is fixed to the support structure or shroud in such a way that, during use, it is substantially vertical and defines an inlet opening for an air flow for cooling the motor. The spray protection screen has an outwardly projecting deviating formation designed to deflect outside of the inlet opening, water which may flow over the outer surface of the screen during operation of the fan unit. | 06-20-2013 |
20130168063 | ELECTRONIC DEVICE WITH THERMAL STRUCTURE - An electronic device includes a chassis, a cooler, and a fan assembly. The chassis includes a bottom plate and defines an air inlet and an air outlet. The cooler is secured to the bottom plate. The fan assembly is secured to the bottom plate and defines a case and a roller received in the case. The roller includes a shaft and a number of blades secured to the shaft. An area of the air inlet is greater than an area of the air outlet. The fan assembly is capable of drawing in air into the roller. The air flows into the air inlet along a first direction. The air flows out of the air outlet along a second direction. The first direction is substantially parallel to the second direction. The first direction is substantially perpendicular to the shaft. | 07-04-2013 |
20130168064 | AIR-CONDITIONING APPARATUS - An air-conditioning apparatus includes a casing having an air inlet and an air outlet and having therein an air passage, and a heat exchanger and an air-sending fan which are arranged in the air passage in the casing. The air passage is divided into a plurality of air passage sections by, for example, a partition. The air-conditioning apparatus can reduce pressure loss in an indoor unit. | 07-04-2013 |
20130175012 | POWER CONVERSION DEVICE, MOTOR INCLUDING THE SAME, AIR CONDITIONER HAVING THE MOTOR INCORPORATED THEREIN, AND VENTILATION FAN HAVING THE MOTOR INCORPORATED THEREIN - A power conversion device includes a printed circuit board, whose mounting surface is opposite to an annular surface formed by an annular stator that constitutes a motor, arranged to be separated from the annular surface with a predetermined distance, and mounted with a Hall element that detects a rotation position of a rotor of the motor on a mounting surface on a side of the stator; an inverter IC that is mounted on the mounting surface on the side of the stator of the printed circuit board to supply a high-frequency current to the stator; and an overheat detection unit that is mounted on the mounting surface on the side of the stator of the printed circuit board and detects an overheated state of the inverter IC. When the overheat detection unit detects an overheated state, the inverter IC restricts or stops a current to be supplied to the stator. | 07-11-2013 |
20130180690 | OUTDOOR UNIT OF REFRIGERATION DEVICE - An outdoor unit of a refrigeration apparatus includes an outdoor heat exchanger, first and second outdoor fans generating an air flow passing through the outdoor heat exchanger, and a fan controller configured to transition from a first operating state to a second operating state during low blow rate demand in which a low blow rate is desired. The first and second outdoor fans operate in the first operating state. The first outdoor fan continues to operate and power supply to the second outdoor fan is cut off in the second operating state. After transitioning to the second operating state, fan on/off control is performed to turn power supply to the first and second outdoor fans on and off based on one of a timer, observation of an electric current value relating to fan motors, and observation of the fan rotational speeds. | 07-18-2013 |
20130199759 | THERMAL MODULE WITH AIRFLOW GUIDING FUNCTION - A thermal module includes a fan device having a fan and a fan housing for covering the fan. A vent is disposed on the fan housing. The thermal module further includes an airflow guiding device integrated with the fan housing monolithically and disposed on a side of the vent for guiding airflow into the vent. | 08-08-2013 |
20130206373 | SYNTHETIC JET EMBEDDED HEAT SINK - A system and method for cooling heat-producing devices using synthetic jet embedded heat sinks is disclosed. The cooling system includes a heat sink comprising a base portion and a plurality of fins disposed on the base portion and extending vertically out therefrom, the plurality of fins spaced to define a channel between adjacent fins. The cooling system also includes at least one synthetic jet actuator attached to the heat sink, with each of the at least one synthetic jet actuators comprising a plurality of orifices therein and being configured to generate and project a series of fluid vortices out from the plurality of orifices and toward at least a portion of the channels of the heat sink. | 08-15-2013 |
20130213617 | HEAT DISSIPATING MECHANISM ADAPTED TO AN ELECTRONIC DEVICE AND ELECTRONIC DEVICE THEREWITH - A heat dissipating mechanism includes a first housing, a second housing and a tributary hole structure. The first housing is installed on a host casing. At least one inlet and at least one outlet are formed on two sides of the first housing. The second housing combines with the first housing, and the second housing and the host casing form a flow channel for communicating with the at least one inlet and the at least one outlet, so as to guide liquid from the at least one inlet to the at least one outlet. The tributary hole structure is formed on the flow channel and located in a position between the at least one inlet and the at least one outlet. The tributary hole structure is higher than the at least one outlet for guiding air from the at least one inlet to a fan. | 08-22-2013 |
20130213618 | SYNTHETIC JET EMBEDDED HEAT SINK - A system and method for cooling heat-producing devices using synthetic jet embedded heat sinks is disclosed. The cooling system includes a heat sink comprising a base portion and a plurality of fins disposed on the base portion and extending vertically out therefrom, the plurality of fins spaced to define a channel between adjacent fins. The cooling system also includes at least one synthetic jet actuator attached to the heat sink, with each of the at least one synthetic jet actuators comprising a plurality of orifices therein and being configured to generate and project a series of fluid vortices out from the plurality of orifices and toward at least a portion of the channels of the heat sink. | 08-22-2013 |
20130228316 | Heat Dissipation Structure of Tire Repair Machine - The present invention discloses a heat dissipation structure of the tire repair machine, wherein, a positioning pedestal having at least one channel is provided inside the body, a channel inlet and a channel outlet are provided at the two ends of the channel respectively; a gas supply unit arranged inside the body comprises a motor and an air compressor driven by the motor, the motor is arranged at the rear of the positioning pedestal, such that the radial direction of a centrifugal fan connected with the drive shaft of the motor is directed to the channel inlet, while the air compressor is corresponding to the channel outlet; when the motor drives the air compressor to run, the air drawn in by the centrifugal fan can blow the air compressor via the channel, so as to perform heat dissipation for the air compressor. | 09-05-2013 |
20130233524 | Refrigeration Unit With Corrosion Durable Heat Exchanger - A transport refrigeration unit is provided which having a refrigerant heat rejection heat exchanger (condenser/gas cooler) that promotes adequate water drainage and corrosion durability. A wraparound finned tube coil has a plurality of heat exchange tube loops and a plurality of plate fins mounted to the plurality of heat exchange tube loops. Each heat exchange tube loop is formed by a plurality of linear tube segments or hairpin tube segments connected by return bends, with each linear tube segment or hairpin segment extending longitudinally at an inclination angle with respect to vertical of at least 20 degrees. | 09-12-2013 |
20130240183 | ELECTRONIC DEVICE AND FAN MODULE - A fan module is detachably mounted in a chassis. The chassis includes a sidewall defining a locking slot. The fan module includes a bracket including a base plate defining a first through slot, a fan fixed to the base plate, a fan duct fixed to the base plate beside the fan, and a locking member. The fan duct includes a side plate defining a second through slot. The locking member is fixed to the fan duct. The locking member includes a locking portion extending through the second through slot of the fan duct and the first through slot of the bracket to lock into the locking slot of the chassis. | 09-19-2013 |
20130248154 | ENERGY RECOVERY HEAT EXCHANGER AND METHOD - Condensate accumulating in the incoming outside air flow passages of a heat exchanger is fed back into the exhaust flow passages of the heat exchanger to provide improved heat transfer in the heat exchanger, and to avoid the necessity for drainage of the condensate from the heat exchanger. The heat exchanger includes a plastic multi-tube panel core and a solid plastic housing, with opposed-flow heat exchange and inlet-outlet extensions from only one side of the core. | 09-26-2013 |
20130248155 | BEARING CUP STRUCTURE AND THERMAL MODULE THEREOF - A bearing cup structure and a thermal module thereof. The bearing cup structure includes a cup body, a base seat, an assembling member and a retainer ring. The cup body has a receiving space and a fixing section formed at one end of the cup body. The base seat is received in the receiving space. The base seat has a first shoulder section, a second shoulder section and a receiving section. The assembling member is disposed in the receiving section and passes through the receiving section. The retainer ring is attached to the first shoulder section. With the bearing cup structure, the heat dissipation performance of the thermal module is greatly promoted and the assembling time is shortened to lower the manufacturing cost. | 09-26-2013 |
20130284410 | AIR CONDITIONER - An air conditioner includes a main unit having an enclosure defining an air outlet. The enclosure contains a heat exchanger generating a cool air or a warm air forming airflow running out of the air outlet. A pair of fan units are disposed on the opposite sides of the air outlet. The fan units are configured to suck a room air and to blow the room air. The airflow of the room air can be utilized to control the direction and/or movement of the airflow of the cool air or the warm air. The cool air or the warm air can be conveyed to desired locations. | 10-31-2013 |
20130284411 | AIR CONDITIONER - An air conditioner includes a main unit having an enclosure defining an air outlet. The enclosure contains a heat exchanger generating a cool air or a warm air forming airflow running out of the air outlet. A pair of fan units are disposed on the opposite sides of the air outlet. The fan units are configured to suck a room air and to blow the room air. The heat exchanger includes a rear section having a length larger than that of a front section in the longitudinal direction of the air outlet. The rear section extends into at least one of spaces respectively defined behind the fan units. | 10-31-2013 |
20130292096 | HEAT DISSIPATING FAN AND FAN WHEEL - A fan wheel comprises an axial line, a radial line perpendicular to the axial line, a first vane and a second vane, and the first vane and the second vane are extended from the axial line, and included angles between chord lines of the first and second vanes and the axial line of the fan wheel are unequal angles. A heat dissipating fan comprises a fan hub, a plurality of first vanes and a plurality of second vanes, and the first vanes and the second vanes are extended outwardly from the fan hub, and excluded angles between their chord lines and the axial line of the fan hub are unequal angles. | 11-07-2013 |
20130292097 | COOLING APPARATUS - There is provided a cooling apparatus capable of efficiently cooling a plurality of heat-generating devices. The cooling apparatus is a cooling apparatus for cooling a plurality of heat-generating devices mounted on a vehicle, the vehicle having a hollow space that can accommodate a spare tire. The cooling apparatus includes: a cooling-air passage disposed adjacent to the hollow space; a battery disposed in the cooling-air passage; an inverter disposed in the hollow space; and a fan for supplying air to the cooling-air passage. A communicating portion that provides communication between the cooling-air passage and the hollow space is fowled in a wall portion of the cooling-air passage that faces the hollow space. | 11-07-2013 |
20130306281 | Plate - The present disclosure relates to a plate for use with a heatsink. The plate is adapted to engage with the heatsink and a fan subassembly, and comprises a first substantially planar section which is adapted to engage with the heatsink and a second substantially planar section which is adapted to engage with the fan subassembly. | 11-21-2013 |
20130306282 | HEAT EXCHANGER - This invention provides a heat exchanger ( | 11-21-2013 |
20130319640 | METHODS, APPARATUSES, AND SYSTEMS FOR THERMAL MANAGEMENT BETWEEN DEVICES - A peripheral electronic device ( | 12-05-2013 |
20130340982 | MOUNTING CLAMP - During a manufacturing process of an air conditioning system, different components of the air conditioning system may be mounted to a frame or an attachment panel of the air conditioning system. A mounting clamp that is configured to facilitate mounting of a component of the air conditioning system is described. The mounting clamp may have an “E” shaped profile that includes a plurality of finger grips to latch onto an edge of the components. It may also have ribs and wall structures to help enhance the structural strength of the mounting clamp while maintaining a relatively small profile and/or weight of the mounting clamp. | 12-26-2013 |
20140000852 | INDOOR UNIT OF AIR CONDITIONER AND METHOD OF CONTROLLING THE AIR CONDITIONER | 01-02-2014 |
20140069618 | PORTABLE INTEGRATED POWER SUPPLY AND HVAC UNIT - An integrated portable power unit including a power pack and a generator mounted within a first compartment and including a second isolated air handling compartment. The air handling compartment may include a fan for moving air through ductwork, a radiator for receiving heated cooling water from the power pack and a heat exchanger connected to a compressor for generating cooled water, the compressor and the fan connected to the power pack. | 03-13-2014 |
20140083655 | ELECTRONIC DEVICE - An electronic device includes a case, a heat source, a radiator, and an air stream generator. The case has an air ventilation hole and an opening. The radiator is disposed in the case and in thermal contact with the heat source. The radiator includes a main body having a first, a second, and a third side surface. A first air inlet, an air outlet, and a second air inlet are disposed on the first side surface, the second side surface, and the third side surface, respectively. The third side surface and the case are separated by a distance from each other. The second air inlet is disposed between a geometric middle plane of fins of the main body and the second side surface. The distance between the second air inlet and the first side surface is greater than that between the air ventilation hole and the first side surface. | 03-27-2014 |
20140083656 | HVAC SYSTEM HAVING KINETIC ENERGY STORAGE DEVICE - According to the present invention an HVAC system is provided. The HVAC system includes a heat exchanger containing a cooling fluid to be circulated, a blower assembly configured to generate an inlet air stream through said heat exchanger, and a kinetic energy storage device. The blower assembly is powered by an external electrical power supply. The kinetic energy storage device is configured to provide auxiliary power to the blower assembly in the event of an interruption of the external electrical power supply. | 03-27-2014 |
20140083657 | FIN OF HEAT EXCHANGER, HEAT EXCHANGER, AND AIR CONDITIONING APPARATUS - A fin for a heat exchanger of an air conditioning apparatus includes a base material, a hydrophilic layer, and a corrosion-resistant layer provided between the base material and the hydrophilic layer. A contact angle of a surface of the hydrophilic layer with water is no more than 50 degrees. A water content of the hydrophilic layer per dm | 03-27-2014 |
20140090819 | HEAT DISSIPATION DEVICE - A heat dissipation device includes a fan module, a first plate structure and a fin assembly. The fan module includes a fan outlet. The first plate structure is disposed at the fan outlet. The thermal conductance of the first plate structure is above 100 W/(m·K). The first plate structure includes a heat-absorbing and a heat-dissipation surface. The heat-absorbing surface includes a heat-absorbing region in thermal contact with a heat source. The heat-dissipation surface includes a heat-dissipation region. The fin assembly is disposed on the heat-dissipation surface and in thermal contact with the heat-dissipation surface. The fan module is adapted to exhaust an air flow flowing above the heat-dissipation surface via the fan outlet. The air flow flows through the heat-dissipation region before through the fin assembly. The distance between the fan outlet and the heat-dissipation region is greater than the distance between the fan outlet and the fin assembly. | 04-03-2014 |
20140090820 | SYSTEM AND METHOD FOR COOLING A HOVER-CAPABLE AIRCRAFT TRANSMISSION - A system for cooling a transmission of a hover-capable aircraft, the system having: a stator; a heat exchanger connectable thermally to the transmission; a fan for creating a current of a first heat-carrying fluid from the heat exchanger to the fan itself, to remove heat from the heat exchanger; a rotary member, which rotates about an axis to rotate an impeller of the fan about the axis; and a bearing supporting the rotary member for rotation about the axis; the system also having cooling means for cooling the bearing, and in turn having conducting means for conducting a current of a second heat-carrying fluid along a path from an outside environment, external to the bearing, to and to cool the bearing itself. | 04-03-2014 |
20140096941 | INDOOR UNIT OF AIR CONDITIONER AND METHOD OF CONTROLLING THE SAME - An indoor unit of an air conditioner has an improved discharge structure of air. The indoor unit of an air conditioner includes a panel which defines an external appearance thereof and has an opening, a mixed flow fan which is located within the panel, a heat exchanger unit which is located rearward of the mixed flow fan, an inlet port which is located rearward of the heat exchanger unit so that air is suctioned from rearward of the heat exchanger unit to be introduced into the mixed flow fan, an outlet port which is exposed forward of the panel through the opening so that the air passing though the mixed flow fan is discharged through a front portion of the panel, and a plurality of circular louvers to open and close the outlet port by moving outwards from a center of the outlet port. | 04-10-2014 |
20140102674 | RADIALLY EMBEDDED PERMANENT MAGNET ROTOR AND METHODS THEREOF - In one embodiment, a permanent magnet rotor for use with a stator is provided. The permanent magnet rotor includes at least one permanent magnet and a substantially cylindrical rotor core including an outer edge, a hub having an inner edge defining a central opening, and a plurality of independent pole pieces spaced from the hub radially about the central opening. The rotor core further includes at least one radial aperture extending radially from the outer edge through the rotor core between adjacent independent pole pieces, the at least one aperture configured to receive the at least one permanent magnet. | 04-17-2014 |
20140102675 | FAN SHROUD - A cooling system is provided for use in a machine. The cooling system includes a fan having a hub and a plurality of evenly spaced blades connected with the hub, and a shroud partially surrounding the fan. The shroud includes a flat surface having an opening of a predetermined diameter is centrally disposed on the flat surface. Further, the shroud includes a circular sidewall having of a predetermined width extending in a substantially perpendicular direction from the flat surface and encompasses the opening. | 04-17-2014 |
20140102676 | AIR-CONDITIONING APPARATUS - The length of a cross flow fan in the rotational axis direction is longer than the length of an air outlet in the longitudinal direction, and the cross flow fan has a fan extension positioned beyond each end of the air outlet in the rotational axis direction. Deflectors are provided in the air-conditioning apparatus main body. An outlet airflow blown from each fan extension of the cross flow fan impinges upon a corresponding one of the deflector. Furthermore, the shape of blade portions of the fan extensions of the cross flow fan and the shape of blade portions opposing the air outlet are different from each other. The wind speed of the outlet airflow blown from the blade portion is lower than the wind speed of an outlet airflow blown from the blade portion. | 04-17-2014 |
20140110088 | Evaporator with Service Clip Configurations - The present application provides an evaporator. The evaporator may include a housing, a fan module removably positioned within the housing, a number of retainer clips positioned on the fan module, and a number of retainer clip slots positioned on the housing. The retainer clips and the retainer clips slots may include a clip attachment configuration and a service clip configuration. | 04-24-2014 |
20140110089 | AIR DUCT AND HEAT DISSIPATION SYSTEM HAVING THE SAME - An air duct includes two spaced sidewalls, a top wall connected between tops of the sidewalls, an extension plate pivotably mounted between tops of the sidewalls in front of the top wall, and a deformable portion to maintain the extension plate coplanar with the top wall. | 04-24-2014 |
20140110090 | HEAT DISSIPATION DEVICE - A heat dissipation device is provided. The heat dissipation device is applied to an electronic device with a first heat source and a second heat source. The heat dissipation device includes a housing, an impeller, a first heat conductive assembly, a second heat conductive assembly and an switch. The housing includes an accommodating space, a first outlet and a second outlet. The first outlet and the second outlet are connected to and through the accommodating space. The impeller is disposed in the accommodating space. The first heat conductive assembly is connected to the first outlet and the first heat source. The second heat conductive assembly is connected to the second outlet and the second heat source. The switch is disposed at the first outlet to open or dose the first outlet. | 04-24-2014 |
20140116657 | INTERCOOLER HEAT EXCHANGER FOR EVAPORATIVE AIR CONDITIONER SYSTEM - A heat exchanger assembly includes a hollow housing having a first horizontally-extending section and a second vertically-extending section. A perforated support tube is positioned in the first section and has an inlet for receiving water and air from an intermixing assembly and a series of holes for expelling the water and air. A heat transfer coil is wound around the perforated support tube for carrying a cooling medium. A vacuum source is coupled with the second housing section for drawing the water and air from the inlet in the perforated support tube, through and out the support tube, over the heat transfer coil, and toward the outlet in the second housing section to cool the heat transfer coil through evaporative cooling. | 05-01-2014 |
20140116658 | VEHICLE COOLING SYSTEM - A vehicle cooling system includes a fan, a first heat exchanger, an upper heat exchanger and a lower heat exchanger. The first heat exchanger is spaced apart in front of the fan. The upper heat exchanger is positioned between a top portion of the fan and a top portion of the first heat exchanger. The lower heat exchanger is positioned between a bottom portion of the fan and a bottom portion of the first heat exchanger. A structural frame supports the first, top and lower heat exchangers, and the frame forming a fan shroud which surrounds the fan. | 05-01-2014 |
20140116659 | HEAT DISSIPATION DEVICE AND HEAT DISSIPATION FINS THEREOF - A heat dissipation device for being in thermal contact with a heat source includes multiple heat dissipation fins, a heat pipe and a fan. Each of the heat dissipation fins includes a plate and an air guiding body. The plate has a thermal contact side used for being in thermal contact with the heat source. An acute angle is formed between an extension side of the air guiding body and the thermal contact side. The heat pipe penetrates through the plates. The fan used for forming an air current is installed at a side of the heat dissipation fin opposite to the thermal contact side. The air guiding body and the heat pipe are disposed in a flowing path of the air current. Thereby, the air current is guided toward the heat pipe and the amount of air flowing through the heat pipe is increased. | 05-01-2014 |
20140124175 | OUTDOOR UNIT OF REFRIGERATING APPARATUS - An outdoor unit includes a casing having a side surface formed with an inlet port; an outdoor fan arranged above the inlet port in the casing and configured to upwardly blow air; and an outdoor heat exchanger arranged so as to face the inlet port. The outdoor fan includes a fan and a bell mouth provided so as to surround the outer periphery of the fan, and an electric component unit positioned at the periphery of the bell mouth is arranged in the casing. | 05-08-2014 |
20140131016 | Contra-Rotating Fan Arrangement And Fan Drive System For Evaporative Cooling Equipment - A counter-rotating fan system for evaporative cooling equipment. The system can include a first axial fan disposed in an air conduit of an evaporative equipment unit, a second axial fan disposed in the air conduit and arranged coaxially with the first fan, a transmission for driving the first axial fan and the second axial fan, and a motor for driving the transmission, wherein the direction of rotation of the first axial fan is opposite to the direction of rotation of the second axial fan. | 05-15-2014 |
20140131017 | HEAT DISSIPATING APPARATUS FOR MOBILE PHONE - A heat dissipating apparatus includes a rear cove, a fan rotatably attached to the rear cover, a slave gear secured to the fan, and a driving gear rotatably attached to the rear cover. The rear cover defines a plurality of air ventilation holes. The fan is aligned with the plurality of air ventilation holes. The driving gear meshes with the driven gear. A resilient member is secured to the driving member. The driving gear is rotatable in a first direction to deform the resilient member. The resilient member is released to rotate the driving gear in a second direction that is opposite to the first direction, and the slave gear and the fan are together rotatable in the second direction by the driving gear. | 05-15-2014 |
20140131018 | INDOOR DEVICE FOR AN AIR CONDITIONER - An indoor device for an air conditioner is provided. The indoor device may include a heat exchanger mounting panel in which an orifice to pass air therethrough is formed, a centrifugal fan to inhale air in a shaft direction through the orifice and discharge the air in a radial direction, a motor to rotate the centrifugal fan, and a case to fix the motor and couple the motor to the panel. A first magnetic substance and a second magnetic substance that generate a repulsive force may be respectively disposed at a first surface opposite to the centrifugal fan in the panel and a second surface opposite to the panel in the centrifugal fan. In the first magnetic substance and the second magnetic substance, the same pole may be formed in a concentric circle and different poles may be alternately formed in a radial direction. | 05-15-2014 |
20140131019 | OUTDOOR UNIT OF AIR CONDITIONING DEVICE - An outdoor unit of an air conditioning device includes an outdoor unit main body having a square planar shape, a heat exchanger provided along a side surface of this outdoor unit main body, and a fan provided in an upper part of the outdoor unit main body, the fan for blowing out air in the outdoor unit main body upward. An opening portion capable of providing communication between an interior and an exterior of the outdoor unit main body is formed between a one side end portion and an other side end portion of the heat exchanger adjacent to each other, and in at least one of the side end portions positioned in a peripheral edge of the opening portion, a cover member for covering a heat transfer tube protruding from the side end portion is provided. | 05-15-2014 |
20140138066 | COOLING PACKAGE FOR A MACHINE - A cooling package for a machine is disclosed. The cooling package includes a heat exchanger pivotably coupled to a frame of the machine. A fan assembly is pivotably coupled to the heat exchanger. In one embodiment, the cooling package includes at least one isolation mount configured to couple a fan shroud of the fan assembly with the frame. The cooling package also includes at least one latch to couple the fan shroud with the heat exchanger. | 05-22-2014 |
20140138067 | HEAT SINK AND HEAT SINK FAN - Each fin of a heat sink includes a main fin connected to a core and extending radially outwards, and a pair of branch fins extending radially outwards from a branch point at a radially outer end of the main fin. Among a plurality of fins, in each of three fins which are adjacent in the circumferential direction, a width of an end portion of the main fin viewed along the center axis expands radially outwards at an angle which is larger than an expanding angle of the pair of branch fins. A difference between a distance from the center axis to the branch point in the center one of the fins and a distance from the center axis to the branch point in each of the other two fins is equal to or larger than a width of a root of the main fin in the center radiating fin. | 05-22-2014 |
20140138068 | Cooling System - A cooling system having a source of pressurized intake air includes a primary fan and a secondary fan spaced apart from the primary fan. The pressurized intake air flows from either of the primary or secondary fans. Ductwork includes an inlet, at least one generally hollow supply plenum in fluid communication with the inlet, and at least one supply opening in fluid communication with the supply plenum. The pressurized intake air is urged into the inlet, through the supply plenum and out of the supply opening as a first air supply. The supply opening is configured to direct the first air supply toward at least one first heat generator. The secondary fan is configured to operate in a predetermined manner corresponding to a status of the primary fan. | 05-22-2014 |
20140138069 | HEAT DISSIPATION SYSTEM - The present invention relates to a heat dissipation system. The heat dissipation system includes: a chassis, configured to house single boards of an orthogonal architecture, where the single boards includes a vertically inserted board; a first fan group, installed inside a first air intake pipe in the upper front of the chassis and configured to guide air into the chassis; and an air guide cavity, installed inside the chassis and configured to transfer the air that is guided by the first fan group into the chassis to a component on the vertically inserted board to perform heat dissipation. With the heat dissipation system in embodiments of the present invention, air is separately supplied to a heat dissipation component on a vertically inserted board in a communications system device based on an orthogonal architecture. | 05-22-2014 |
20140144610 | HEAT DISSIPATION MODULE WITH BENT FIN TABS ATTACHING FAN TO FIN ASSEMBLY - An exemplary heat dissipation module includes a centrifugal fan and a fin assembly located at an air outlet of the centrifugal fan. The centrifugal fan includes a frame. The fin assembly includes fins, each fin is a single monolithic body including a tab. Slits are defined in an end of the frame located at the air outlet. Each tab extends through a corresponding slit and is snapped on the frame thereby attaching the frame on the fin assembly. | 05-29-2014 |
20140150999 | CONTAINER DATA CENTER WITH COOLING SYSTEM - A container data center includes a container and a cooling system. The container defines an air inlet and an air outlet. The cooling system includes a housing, a heat dissipation plate received in the housing, and a fan. The housing defines an airflow output aligning with the air inlet of the container and a number of access holes. The fan is received in the housing and aligns with the airflow output. The heat dissipation plate defines a number of through holes. The fan draws airflow to enter the housing from the access holes and extend through the through holes. The airflow enters the container from the airflow output of the housing and the air inlet of the container to be heated. The heated air is exhausted out of the container through the air outlet. | 06-05-2014 |
20140190670 | ENERGY RECOVERY VENTILATOR - An energy recovery ventilator for a heating or cooling system includes a housing and a heat exchanger located in the housing for recovery of thermal energy from a stale airflow of the heating or cooling system. An exhaust fan positioned in the housing is in flow communication with the heat exchanger to urge the stale airflow from a return port disposed in a first side panel of the housing, across the heat exchanger and toward an exhaust port of the energy recovery ventilator. The exhaust fan and the heat exchanger are configured such that the heat exchanger is removable from the housing via a front panel opening in the housing without disturbing a position of the exhaust fan. | 07-10-2014 |
20140196873 | METHOD AND DEVICE FOR PROTECTING HEAT EXCHANGER PIPES AND A CERAMIC COMPONENT - In a method for protecting heat exchanger pipe in boiler systems having at least one heat exchanger pipe, which is surrounded by a ceramic component, into which flue gas is directed from at least two opposite sides, gas is introduced between the heat exchanger pipe and the ceramic component. | 07-17-2014 |
20140196874 | OUTDOOR UNIT, AIR-CONDITIONING APPARATUS, AND METHOD FOR MANUFACTURING OUTDOOR UNITS - Heat exchanger assemblies included in an outdoor unit each include fins each having notches provided without fin collars or notches provided with fin collars that are shorter than stacking intervals between the fins. At least some of the stacking intervals between the fins in a facing surface are larger than the stacking intervals between the fins in surfaces excluding the facing surface. | 07-17-2014 |
20140209282 | HEAT DISSIPATION APPARATUS FOR EXPANSION BASE - A heat dissipation apparatus includes an expansion base, an air duct, a fan, and a portable device. An air inlet slot, a first inserting slot, and a second inserting slot are defined in the expansion base. The air duct is inserted in the first inserting slot. A first air inlet opening and a plurality of diagonal air outlet slots are defined in the air duct. The portable device is inserted in the second inserting slot. A first airflow passage is defined between the air inlet slot, the fan, the first air inlet opening, the air duct, and the plurality of air outlet slots. The fan is adapted to generate airflow through the portable device in such a manner that airflow flows from the expansion base outside is sucked into and blown out of the air duct via the first airflow passage. | 07-31-2014 |
20140209283 | HEAT DISSIPATION APPARATUS FOR EXPANSION BASE - A heat dissipation apparatus includes an expansion base, an air duct, a fan, a heat sink, and a portable device. A number of air inlet slots is defined in the expansion base. A first air inlet opening and a number of diagonal air outlet slots are defined in the air duct. A third air inlet opening and a third air outlet opening are defined in the portable device. The fan generates airflow through the portable device in such a manner that airflow flows from the expansion base outside is sucked into and blown out of the air duct via a first airflow passage. The portable device guides airflow in and out of the portable device via a second airflow passage. | 07-31-2014 |
20140216696 | COOLING DEVICE AND A COOLING ASSEMBLY COMPRISING THE COOLING DEVICE - A cooling device comprises a heat sink having fins and a piezofan having a piezoelectric element attached to a planar body. The planar body is capable of oscillating at a movable end in response to applying alternating electric current to the piezoelectric element, thereby generating an air flow toward an output of the cooling device. A plurality of fins is located between the movable end of the planar body and the output end of the cooling device. Each fin has a planar form with a main surface being substantially aligned with the air flow. A cooling assembly comprising such cooling device is also disclosed. | 08-07-2014 |
20140231051 | TURBO FAN AND CEILING TYPE AIR CONDITIONER USING THE SAME - Provided are a turbo fan and an air conditioner using the same. The turbo fan includes a main plate rotating by power provided from a fan motor, a blade having one end connected to the main plate to rotate, a shroud connected to the other end of the blade, and an orifice guiding a flow of indoor air in a direction of the shroud. The shroud includes a guide surface defining one surface of the shroud, the guide surface having a predetermined curvature and an air guide connected to a side of the shroud, the air guide being disposed in a direction of the orifice from the shroud. | 08-21-2014 |
20140238647 | HEAT DISSIPATION SYSTEM - An electronic component includes a component enclosure. At least one subcomponent is positioned within the component enclosure. The at least one subcomponent is configured to be thermally coupled to the component enclosure. | 08-28-2014 |
20140246180 | OUTDOOR COOLING UNIT IN VEHICLE AIR-CONDITIONING APPARATUS - An outdoor cooling unit in a vehicle air-conditioning apparatus is configured such that the angle between a normal line to a suction plane of a suction portion and a normal line to a discharge plane of a discharge portion is acute and such that air inside a housing flows in a substantially checkmark-shape, substantially V shape or substantially U shape. In the outdoor cooling unit, a blade of an axial fan is configured such that a chord center line formed by connecting chord central points from an inner circumferential end to an outer circumferential end of the blade and projecting the connected chord central points on a plane containing a rotating shaft is convexly curved toward the downstream side over the entire area in the radial direction. | 09-04-2014 |
20140262166 | Waste Heat Recovery Apparatus for a Livestock Poultry Barn - Systems and method are provided for recovering heat from waste air being expelled from a livestock poultry barn. A heat recovery unit is specially designed to take advantage of an unused heat source, while avoiding the corrosive effects of waste air from the livestock poultry barn. The novel heat recovery capture heat from the expelled waste air. | 09-18-2014 |
20140284030 | INTERLEAVED HEAT SINK AND FAN ASSEMBLY - According to embodiments of the invention, a structure for cooling electronic components may be provided. The structure may include a heat sink having a plurality of parallel heat conducting elements. The structure may also include a plurality of fans, wherein the fans are interleaved with the heat conducting elements. The structure may also include a drive shaft passing through the heat conducting elements and the fans, wherein the drive shaft rotates the fans in relation to the heat sink. According to other embodiments, the structure may include a baffle located on a side of the heat sink in an upstream location within an airflow stream. | 09-25-2014 |
20140284031 | HEAT EXCHANGER - Provided is heat exchanger. The heat exchanger includes a plurality of first tubes disposed to form a first row, a plurality of second tubes disposed on a side of the plurality of first tubes to form a second row, and a fin in which the plurality of first tubes and the plurality of second tubes are inserted. The fin comprises a heat separation part for preventing heat conduction from occurring between the first tubes and the second tubes. | 09-25-2014 |
20140290917 | HEAT DISSIPATING PAD - A heat dissipating pad includes a pad body and a fan. The pad body has a hollow accommodating recess and a first fixing structure disposed on a side of the hollow accommodating recess. The fan includes a fan frame. The fan frame is detachably disposed in the hollow accommodating recess and has a second fixing structure. When the fan frame is disposed at a predetermined position in the hollow accommodating recess, the first fixing structure and the second fixing structure are fixed with each other so as to prevent the fan frame from coming off the hollow accommodating recess. | 10-02-2014 |
20140290918 | HEAT DISSIPATION MODULE AND CENTRIFUGAL FAN THEREOF - A heat dissipation module includes a centrifugal fan, a second heat dissipation fin array, and a heat pipe. The centrifugal fan includes an outer housing, a first heat dissipation fin array, an impeller and a rotation-driving device. The outer housing has an axial air inlet and a radial air outlet. The rotation-driving device is located within the outer housing and used to drive the impeller to rotate. The second heat dissipation fin array is attached to the radial air outlet. An end of the heat pipe is in contact with both the second heat dissipation fin array and a flat wall of the outer housing on which the axial air inlet is located. | 10-02-2014 |
20140290919 | VACUUM PUMP WITH ABATEMENT FUNCTION - A vacuum pump has an abatement part for treating an exhaust gas discharged from a chamber of a manufacturing apparatus to make the exhaust gas harmless. The vacuum pump includes a heat exchanger configured to heat an inert gas by using heat generated when the exhaust gas is treated to be made harmless in the abatement part. The inert gas heated by the heat exchanger is introduced into the vacuum pump. | 10-02-2014 |
20140299298 | OUTDOOR UNIT AND REFRIGERATION CYCLE APPARATUS INCLUDING THE OUTDOOR UNIT - An outdoor unit according to the present invention includes an air-sending-device chamber including a heat exchanger disposed at least on the rear side within an outdoor unit body, a propeller fan having a plurality of blades and disposed on the front side of the heat exchanger, and a bell mouth disposed on the front side of the propeller fan to face an air outlet, a machine chamber in which a compressor is disposed, and a partition plate that separates the air-sending-device chamber and the machine chamber. The partition plate has a protruding shape protruding from the air-sending-device chamber toward the machine chamber. The partition plate has, on the side of the air-sending-device chamber, a recessed area corresponding to the protruding shape. The amount of recess of the recessed area is maximized at a position equal in height to the center of rotation of the propeller fan. | 10-09-2014 |
20140305617 | Clamp for an Elongated Member - A clamp for attaching an elongated member to a supporting surface includes a curved portion, a base strip and a securing strip. The base strip includes flanges that define a catch on opposite lateral sides of the base strip. The securing strip is received between the catches formed on the locking flange that engage upstanding locked flanges formed on the securing strip. | 10-16-2014 |
20140311715 | RADIATOR FAN ASSEMBLY - A radiator fan for a locomotive is provided. The radiator fan includes a fan housing. The radiator fan further includes at least one bracket secured to the fan housing. The radiator fan is adapted to be installed and removed from a side of the locomotive by engagement with the at least one bracket. | 10-23-2014 |
20140311716 | MOTOR INCORPORATING POWER CONVERTER, AND AIR CONDITIONER, WATER HEATER, AND VENTILATION BLOWER INCORPORATING THE MOTOR - A motor incorporating a power converter that includes a printed board on which an inverter IC, which converts a voltage of an external power supply into a high-frequency voltage and supplies the high-frequency voltage to a stator, is mounted, wherein on a surface of the printed board opposed to the stator, a high-voltage direct-current input wire, which is a copper foil provided on a surface on a stator side, is disposed. One end of the high-voltage direct-current input wire is electrically connected to a high-voltage input line of the external power supply and the other end of the high-voltage direct-current input wire is electrically connected to a high-voltage electrode of the inverter IC. | 10-23-2014 |
20140318747 | COMPRESSING DEVICE - Provided is a compressing device including a compressor with a compressing unit compressing a gas and a heat exchanger, the heat exchanger including: a cooling unit that cools a gas compressed by the compressing unit; a connection path that connects the compressing unit to the cooling unit; and a connection path branch portion that is branched from a part of the connection path. The connection path branch portion includes an attachment portion that is provided in a surface different from a surface facing the compressor in the heat exchanger. An instrumentation device is directly and strongly attached to the attachment portion. | 10-30-2014 |
20140332189 | FAN COIL UNIT - A fan coil unit is provided including a cabinet formed from a plurality of panels. A fan assembly is configured to circulate air through the cabinet. A heat exchanger assembly is positioned within the cabinet. The heat exchanger assembly includes at least one heat exchanger coil arranged in a heat transfer relationship with the air circulating through the cabinet. An inner surface of at least one of the plurality of panels is partially lined with an elastomeric foam insulation so that the air circulating through the cabinet does not contact the portion of the at least one panel lined with the elastomeric foam insulation. | 11-13-2014 |
20140338868 | HEAT DISSIPATING SYSTEM - A heat dissipating system including a casing body, a heat source and a piezoelectric fan is provided. The casing body includes an upper casing and a bottom case, wherein at least one of the upper casing and the bottom casing includes at least one air inlet. The heat source and the piezoelectric fan are both disposed in the casing body. The piezoelectric fan has an opening facing the heat source while the air inlet is adjacent to the opening. Air is adsorbed into the opening through the air inlet and is exhausted out towards a direction of the heat source by the piezoelectric fan. | 11-20-2014 |
20140345835 | INDOOR UNIT FOR AIR CONDITIONER - Provided is an indoor unit for an air conditioner. The indoor unit for the air conditioner includes a case having at least one suction hole, a heat exchanger disposed at a side of the suction hole, a fan rotatably disposed at a discharge side of the heat exchanger, a front panel coupled to a front portion of the case, the front panel including a discharge part, a discharge panel disposed on the discharge part, and a guide device disposed to surround the fan, the guide device having a curved surface for guiding air discharged from the fan to the guide part. | 11-27-2014 |
20140352930 | System and Method for Furnace Fluid Flow Management - A furnace has a primary heat exchanger tube, a secondary heat exchanger comprising a plurality of secondary heat exchanger tubes, a hot header configured to provide a fluid flow path between an output of the primary heat exchanger tube to an input of the secondary heat exchanger, and a perforated fluid flow plate disposed at least partially within the hot header. | 12-04-2014 |
20150007967 | WIND-VISOR AND AIR CONDITIONER HAVING THE SAME - Provided are a wind-visor and an air conditioner including the same. The air conditioner includes a main body including a blower fan generating an air flow and a heat exchanger that is heat-exchanged with air flowing by the blower fan, a front panel including a suction hole through which the air introduced into the blower fan is suctioned and a discharge hole through which the air heat-exchanged in the heat exchanger is discharged, and a wind-visor detachably disposed on a side of the discharge hole. | 01-08-2015 |
20150013944 | HEAT DISSIPATING MODULE - A heat dissipating module includes a heat dissipating unit and a fan unit. The heat dissipating unit includes a plurality of heat dissipating fins sequentially stacked on top of one another. Each of the heat dissipating fins has a first end portion and a second end portion. The first end portion of each heat dissipating fin is divided into a first inclined airflow-guiding section and a second inclined airflow-guiding section, the first inclined airflow-guiding section of the first end portion of each heat dissipating fin is bent downward and slantwise, and the second inclined airflow-guiding section of the first end portion of each heat dissipating fin is bent upward and slantwise. The fan unit includes at least one fan adjacent to the heat dissipating unit for facing the first inclined airflow-guiding section and the second inclined airflow-guiding section of the first end portion of each heat dissipating fin. | 01-15-2015 |
20150013945 | CENTRIFUGAL BLOWER AND AIR CONDITIONER USING THE SAME - A centrifugal blower for an air conditioner may include a centrifugal fan rotatably coupled to a motor, and a bell mouth guiding air into the centrifugal fan. The centrifugal fan may include a hub fixed to a rotary shaft of the motor, a main plate provided at an outer circumferential surface of the hub, a shroud having a suction opening surrounding the rotary shaft, the shroud positioned opposite the main plate to define a main gas flow path, and a plurality of wings arranged along the circumferential direction of the suction opening between the main plate and the shroud. A rear axial end portion of the bell mouth may be inserted into the shroud through the suction opening so as to form a predetermined radial gap with the suction opening. The rear portion of the bell mouth may include a plurality of alternately formed protruding portions and recessed portions, with the protruding portions and the recessed portions inserted into the shroud. | 01-15-2015 |
20150027670 | OUTDOOR MACHINE OF AIR CONDITIONER - An outdoor machine of an air conditioner includes a fan motor mount including a fan motor support plate, and a top plate. The fan motor support plate is formed with: a plurality of props; a prop horizontal plane; a prop front plane; a fitting portion, which is provided on the prop horizontal plane and fitted to a rear end of the top plate; and a first screw hole, which is provided on the prop front plane to fix the top plate. The top plate is formed with: a screw fixing piece, which has a shape parallel to the prop front plane and is provided with a second screw hole corresponding the first screw hole. The fitting portion is fitted to the rear end of the top plate, and the screw fixing piece is located on the front side of the prop front plane. | 01-29-2015 |
20150034281 | HEAT EXCHANGING APPARATUS - A heat exchanging apparatus comprises a first heat exchanger, oil cooler, arranged to allow ambient air to pass therethrough and a second heat exchanger, radiator, adjacent the first heat exchanger and arranged to allow air exiting the first heat exchanger to pass therethrough. The apparatus further comprises a third heat exchanger comprising two or more interconnected heat exchanging cores, charge air coolers. Each core is arranged to allow ambient air to pass therethrough. | 02-05-2015 |
20150047814 | COOLING MODULE - A cooling module including a first heat exchanger cooling a first heat exchange medium, a second heat exchanger cooling a second heat exchange medium, a third heat exchanger cooling a third heat exchange medium, and a fan and shroud assembly arranged in parallel in an air flow direction, wherein a flow of the first heat exchange medium inside first tubes forming the first heat exchanger is perpendicular to a flow of the second heat exchange medium inside second tubes forming the second heat exchanger and parallel with a flow of the third heat exchange medium inside third tubes forming the third heat exchanger. The cooling module capable of sufficiently securing the first heat exchange medium condensing performance, the third heat exchange medium cooling performance, and the second heat exchange medium cooling performance and being miniaturized. | 02-19-2015 |
20150047815 | WALL-MOUNTED AIR-CONDITIONING APPARATUS - An upper suction port is formed in a main-body upper part of an air-conditioning apparatus main body, a suction opening part is formed in a front grill disposed on a main-body front face of the air-conditioning apparatus, a suction opening whose opening is directed upward is formed by consecutively providing an air guide wall inclined downward inside the main body on the upper edge of the suction opening, and the suction opening is located between a part, in the main-body height direction, lower than a straight line passing through a rotation center of an impeller and a closest contact point between the impeller and a front-face heat exchanger and a part, in the main-body height direction, higher than a straight line parallel with the straight line and passing through the impeller and a tongue part of a stabilizer. | 02-19-2015 |
20150068711 | DUCT-TYPE INDOOR UNIT OF AIR CONDITIONER - The duct-type indoor unit of an air conditioner includes: a casing including a first surface and a second surface opposing each other, an inlet duct connection part which is formed in the first surface and to which an inlet duct is connected, and an outlet duct connection part which is formed in the second surface and to which an outlet duct is connected; a partition member partitioning interior of the casing into a first space on an inlet side and a second space on an outlet side, the partitioning member having an opening communicating the first space with the second space; a heat exchanger arranged inside the first space; and a centrifugal fan having an impeller with backward curved blades, the impeller being positioned inside the second space to suck in air in the first space through the opening. The impeller has a rotating shaft parallel to the first surface. | 03-12-2015 |
20150090429 | INDOOR DEVICE FOR CASSETTE TYPE AIR CONDITIONER - An indoor device for a cassette type air conditioner is provided. In the indoor device, a suction grill restricter to couple the suction grill to a panel to prevent outer edges of the suction grill from drooping may be provided to maintain a more stable coupling state, preventing dew condensation and noise from occurring. | 04-02-2015 |
20150096723 | INDOOR DEVICE FOR CASSETTE TYPE AIR CONDITIONER - An indoor device for a cassette type air conditioner is provided. The indoor device may improve an exterior appearance of the air conditioner in that a vane drive assembly to operate a vane that guides discharged air may be covered by the vane when the vane is closed. Also, first and second ends of the vane may be rounded, and an outer surface of the vane drive assembly may contact the vane to improve a flow of discharged air. | 04-09-2015 |
20150107803 | HEAT EXCHANGER AND AIR-CONDITIONING APPARATUS HAVING THE SAME - A heat exchanger includes a plurality of fins stacked with a predetermined fin pitch between them, and a plurality of heat transfer tubes which extend through the fins in the stack direction and have a flat cross-sectional shape, wherein the fins have a plurality of notches in a shape corresponding to the cross-sectional shape of the heat transfer tube on an end portion in the longitudinal direction, a collar is formed on an edge of the plurality of notches, the heat transfer tubes are inserted into the notches, a fin pitch between a portion of the plurality of fins is larger than a fin pitch between the other portion of the fins, and the larger fin pitch is larger than at least the height of the collar. | 04-23-2015 |
20150129179 | INDOOR UNIT OF CEILING TYPE AIR-CONDITIONER - An indoor unit of a ceiling type air-conditioner includes a main body having an inlet port and an outlet port provided at a lower portion thereof, a heat exchanger having a tube through which a refrigerant flows, a blowing fan which forcibly causes air to flow, and a control box comprising a case which is fixed to the main body and a cover which is rotatably coupled to the case so as to open and close the case and to which a printed circuit board having electronic components mounted thereon is fixed. | 05-14-2015 |
20150300681 | INDOOR UNIT OF AIR-CONDITIONING APPARATUS - A cross-flow fan, a heat exchanger provided so as to surround an upper side and a front side of the cross-flow fan, and a nozzle which is located at a lower side of the front heat exchanger located at the front side of the cross-flow fan and is provided to face the cross-flow fan, are included. The nozzle includes a drain pan which receives dew condensation water generated at the heat exchanger and a drain groove into which the dew condensation water flows. | 10-22-2015 |
20150323218 | HEAT EXCHANGER OF AIR CONDITIONING DEVICE, AND AIR CONDITIONING DEVICE - There is provided a heat exchanger of an air conditioning device capable of improving heat exchange efficiency in heat transfer tubes arranged in downstream rows in an airflow direction to enhance cooling capacity. In the heat exchanger of the air conditioning device, a plurality of heat transfer tubes arrayed in three or more rows in the airflow direction are provided, and a refrigerant is distributed to a plurality of paths to be supplied to the heat transfer tubes, and the heat exchanger is used as a evaporator during cooling operation. The plurality of paths include a most downstream path made up of only the heat transfer tubes in a most downstream row in the airflow direction, and an upstream path made up of only the heat transfer tubes in a plurality of rows arranged on an upstream side of the most downstream path. | 11-12-2015 |
20150330718 | INTEGRATED BLOWER DIFFUSER-FIN SINGLE PHASE HEAT EXCHANGER - A method and apparatus for exchanging heat between two fluids is disclosed. The apparatus includes an integrated blower with a diffuser fin baseplate. The baseplate includes diffuser fins on a surface of the baseplate. The diffuser fins are integrated with the blower. At least one channel is formed in the fins or baseplate for flow of a fluid through the baseplate. | 11-19-2015 |
20150345513 | PROPELLER FAN, AIR BLOWER, OUTDOOR UNIT - An inner peripheral side of the blade with respect to an apex (P) of the leading edge protruding portion extends forward in the fan rotating direction with respect to the apex (P). A radius (Rq) at a position of an apex (Q) of the trailing edge protruding portion is larger than a radius (Rp) at a position of the apex (P). The radius (Rq) at the position of the apex (Q) is larger than an intermediate radius (Rm) between a radius (Ro) of an outer peripheral edge and a radius (Ri) of an inner peripheral edge. | 12-03-2015 |
20150345809 | AIR CONDITIIONER - An aspect of the present invention relates to an air conditioner which is provided with a structural body, a wind direction plate, and auxiliary housings. The structural body forms an air outlet that extends in a horizontal direction and blows out a cool or warm airflow which is generated by a heat exchanger on a downward-facing surface which is continuous downward from a front surface, and includes one pair of wall bodies which are fixed to be immovable with respect to the air outlet on both sides of the first air outlet. The wind direction plate is disposed in the air outlet and is supported by the structural body to be freely rotatable around a horizontal shaft line. The auxiliary housings are attached to an outer wall surface of the wall body to be freely rotatable around a horizontal shaft on both sides of the air outlet, and form an auxiliary air outlet which blows out taken-in indoor air. Furthermore, a distance L1 from an imaginary shaft line to the auxiliary air outlet is set to be longer than a distance L3 from the imaginary shaft line to the air outlet of the structural body. | 12-03-2015 |
20150354840 | OUTDOOR UNIT FOR AIR-CONDITIONING APPARATUS - The outdoor unit for an air-conditioning apparatus includes: a heat exchanger covering the opening of the rear surface of the housing from an inside of the housing; a fan motor support member having a part of the fan motor support member above the air-sending device being locked onto an upper end side of the heat exchanger and a part of the fan motor support member below the air-sending device being fixed onto a bottom panel of the housing; an inverted U-shaped locking plate formed on an upper side of the fan motor support member, the inverted U-shaped locking plate having a downward groove; and a size adjustment section to be fitted into the downward groove of the inverted U-shaped locking plate in accordance with a height and a thickness of the heat exchanger so that the heat exchanger is fitted into the downward groove of the inverted U-shaped locking plate through intermediation of the size adjustment section. | 12-10-2015 |
20150369546 | OUTDOOR COOLING UNIT FOR VEHICULAR AIR CONDITIONING APPARATUS - An outdoor cooling unit for vehicular air conditioning apparatus includes: a casing including an outlet section, inlet sections having an inlet plane inclined; a first heat exchanger facing one of the inlet sections and a second heat exchanger facing an other of the inlet sections; at least one propeller fan below the outlet section to blow out air upwardly. An angle formed between the normal line to the inlet plane and the z axis is an acute angle. Each of the blades includes a blade chord center point on an inner peripheral end thereof and an other blade chord center point on an outer peripheral end thereof, positioned so that a line segment connecting therebetween has an inclination to the outlet section proportionally to closeness to outer periphery of the blade. A blade chord center line forms a curve being convex toward the outlet section across the entire area. | 12-24-2015 |
20150377567 | Cylindrical convective air-cooling system - The method and system providing counter-flowing regime of a convective air-chilling of a fluid based on usage of a hollow fan is disclosed. | 12-31-2015 |
20150382500 | HEAT DISSIPATING DEVICE - A heat dissipating device includes a fan, a heat dissipating fin assembly and a block. The fan includes a fan frame, an impeller and a motor. The fan frame includes an outlet. The impeller and the motor are disposed in the fan frame, and the motor is connected with the impeller and drives the impeller to rotate. The heat dissipating fin assembly is disposed at the outlet and has a plurality of heat dissipating fins, which are arranged side by side so as to form a plurality of heat dissipating channels. The block is connected with the heat dissipating fin assembly and moveable between a first open position and a first close position. The block shields the heat dissipating channels when the block is located at the first closing position. A hole is configured on a side wall of the fan frame adjacent to the outlet. | 12-31-2015 |
20160010928 | HEAT SINK HAVING AN INTEGRATED HEAT SINK FIN AND FAN BLADE | 01-14-2016 |
20160015558 | DEVICES AND METHODS FOR COOLING PATIENTS - A pneumatic cooling device including a housing having a first end and a second end. A handle extends from an outer surface of the housing. An inlet is positioned at substantially the first end of the housing and is configured to receive a supply of medical grade air into the housing. An outlet is positioned at substantially the second end of the housing and is configured to deliver the supply of medical grade air outside of the housing. A pathway extends through the housing between the inlet and the outlet and is configured to passively move the supply of medical grade air between the inlet and the outlet. | 01-21-2016 |
20160025357 | INDOOR UNIT OF AIR CONDITIONING DEVICE - An indoor unit of an air conditioning device which is installed on a wall surface of a room includes an air sending fan which sends room air from an air inlet disposed at an upper part to an air outlet disposed at a lower part of a front side; heat exchangers disposed at the upstream side of the air sending fan; and a back case which is located close to the wall surface with respect to the air sending fan and supports the heat exchangers, wherein the back case is composed of an air outlet passage wall member which forms an air outlet passage for air blown out from the air sending fan and an installation member which is located on a back side of the air outlet passage wall member and is mounted on an installation plate which is fixed on the wall surface with the air outlet passage wall member and the installation member being arranged in parallel in the front and back direction, and a first space is formed between a back surface of an air outlet passage wall of the air outlet passage wall member and the installation member. | 01-28-2016 |
20160033180 | MODULAR COIL FOR AIR COOLED CHILLERS - A condenser module configured for use in a condenser is provided including a housing having a first longitudinal side that defines a first air inlet and an opposing second longitudinal side that defines a second air inlet. A heat exchanger assembly is positioned within the housing. The heat exchanger assembly includes at least one heat exchanger coil. A cross-section of the heat exchanger assembly is generally constant between a front side of the housing and an opposite back side of the housing. At least one of the front surface and the back surface is configured to abut an adjacent contact module. A fan assembly includes at least one fan generally aligned with a single heat exchanger coil in the heat exchanger assembly. | 02-04-2016 |
20160057890 | HEAT EXCHANGE DEVICE IN DIRECTED FLOW SYSTEM - A method of cooling a component with a heat exchange device includes pulling air into a central airway in a heat exchange device using a blower; directing the air from the blower through a diffuser and across a heat sink base, wherein a first component positioned underneath the heat sink base is cooled when the air passes over the heat sink base; and directing the air out from the diffuser and across a second component to cool the second component. | 02-25-2016 |
20160061465 | AIR CONDITIONER UNIT AND METHOD FOR OPERATING SAME - Air conditioner units and methods for operating air conditioner units are provided. A method includes determining an operational state of each heater bank of a plurality of heater banks of the air conditioner unit, and determining a speed of a blower fan of the air conditioner unit when the operational state of every heater bank is active. The method further includes comparing a blower fan motor rotational frequency to a rotational frequency threshold value when the speed is a low speed, and deactivating one of the plurality of heater banks when the blower fan motor rotational frequency is greater than the rotational frequency threshold value. | 03-03-2016 |
20160061466 | AIR CONDITIONER UNIT AND METHOD FOR OPERATING SAME - Air conditioner units and methods for operating air conditioner units are provided. A method includes determining an operational state of each heater bank of a plurality of heater banks of the air conditioner unit, and determining a speed of a blower fan of the air conditioner unit when the operational state of every heater bank is active. The method further includes comparing a blower fan input voltage to a voltage threshold value when the speed is a low speed, and deactivating one of the plurality of heater banks when the blower fan input voltage is less than the voltage threshold value. | 03-03-2016 |
20160069618 | FINS, TUBES, AND STRUCTURES FOR FIN ARRAY FOR USE IN A CENTRIFUGAL FAN - A heat exchanger including an array of tubes and fins is configured to reside in a centrifugal fan enabling the centrifugal fan to operate as a cooling and or heating source. The array of tubes and fins is configured to permit condensate to drain from the array. | 03-10-2016 |
20160091264 | INVERTER HEAT-DISSIPATION DEVICE AND INVERTER - An inverter heat-dissipation device and an inverter are provided. The inverter heat-dissipation device includes a centrifugal fan, a first heat radiator, a second heat radiator and an air channel. A first air outlet is arranged at one end of the air channel and a second air outlet is arranged at the other end of the air channel. The first heat radiator is arranged in the air channel and is in communication with the first air outlet. The second heat radiator is arranged in the air channel and is in communication with the second air outlet. The centrifugal fan is arranged in the air channel and is disposed between the first heat radiator and the second heat radiator. An air inlet matching the centrifugal fan in size is arranged on the air channel. A first opening is arranged on the air channel; and a second opening is arranged on the air channel. | 03-31-2016 |
20160121955 | HEAT TRANSFERING DEVICE - A heat transferring device which is applied to a scooter or a motorcycle has a hose, a first fan, and a switching set. The hose has a first open end, a second open end, and an interior chamber. The first open end and the second open end communicate with the interior chamber of the hose. The first fan is assembled at the first open end. The switching set is electrically connected with the first fan. The heat transferring device can offer improved riding experience in summer or in winter by transferring heat. | 05-05-2016 |
20160138825 | OUTDOOR UNIT FOR AIR-CONDITIONING APPARATUS - An outdoor unit for an air-conditioning apparatus includes a casing including a bottom panel having an opening, an outdoor fan provided in the casing, a heater provided on the bottom panel, a heater guard provided to face the heater, and a shield portion thermally connected to the heater guard. The shield portion is positioned on a downstream side with respect to the opening in a direction of airflow and on an upstream side with respect to an end in the upstream side of the heater guard in the direction of airflow. | 05-19-2016 |
20160144687 | RADIATOR HAVING AIR GUIDE FOR PREVENTING HEAT DAMAGE IN A VEHICLE - A radiator for cooling a heated coolant includes an air guide for preventing heat damage, the air guide being adapted to allow air entering into the radiator due to the operation of a cooling fan to flow into a gear box of a fan clutch, wherein the cooling fan is installed at an inside of the vehicle and is activated by the fan clutch. | 05-26-2016 |
20160165752 | HEAT EXCHANGER ASSEMBLY - A heat exchanger assembly for controlling the temperature of an electronic device and heat-producing circuitry generating heat by way of at least conduction and convection, includes a cold plate conductively coupled with the heat-producing circuitry, a heat exchanger having a plurality of fins and supported by the cold plate, and a fan. | 06-09-2016 |
20160174410 | HEAT DISSIPATION DEVICE AND HEAT DISSIPATION SYSTEM | 06-16-2016 |
20160178290 | OUTDOOR DEVICE FOR AN AIR CONDITIONER | 06-23-2016 |
20160252289 | MOTOR AND DRIVE ARRANGEMENT FOR REFRIGERATION SYSTEM | 09-01-2016 |