Entries |
Document | Title | Date |
20080210403 | Condensation Plant - A condensation plant includes heat exchanger elements ( | 09-04-2008 |
20080216987 | HEAT EXCHANGER WITH INTERMEDIATE PLATE - The present invention relates to a heat exchanger, in particular, an oil cooler for motor vehicles, constructed from trough-shaped heat exchanger plates which are stacked into one another and from turbulence inserts, having two openings for one medium and two further openings for another medium in order to form collecting ducts for the supply and discharge of the media, with flow ducts for the media being formed between the heat exchanger plates. The heat exchanger also includes flow ducts connected to the associated collecting ducts, an upper closure plate which has convexities in the region of the collecting tanks, and an intermediate plate which is provided with holes. The intermediate plate is arranged between the closure plate and the uppermost heat exchanger plate, and one of the holes, formed as a pressure equalizing opening, interacts with the upwardly aligned convexity in the closure plate to improve the internal pressure stability. | 09-11-2008 |
20080216988 | HEAT ABSORBING DEVICE USABLE TO COOL HOT BEVERAGES - A heat absorbing device usable to cool hot beverages includes a support rim for supporting the device on a brim of a container and a heat absorbing element extending away from the support rim in a first direction. The heat absorbing element includes a thermally conductive material for absorbing heat from a liquid in the container. A handle extends away from the support rim in a second direction opposite to the first direction. The handle is usable for positioning the heat absorbing element in the container and for removing the heat absorbing element from the container. | 09-11-2008 |
20080223550 | Fastening and Joining Element for Heat Exchangers, and Heat Exchanger Assembly in a Motor Vehicle - The invention relates to a fastening and joining element ( | 09-18-2008 |
20090014153 | HEAT EXCHANGER ARRANGEMENT - A heat exchanger arrangement comprising a charge cooler and a housing. The charge cooler comprises a charge cooler core, a header plate, a coolant entry duct and a coolant exit duct. Specifically, the charge cooler core comprises hallow heat-transfer elements through which a coolant can flow. The housing is in the form of a chamber with a single aperture for receiving the cooler core and comprises an air entry duct, an air exit duct and a flange. The cooler core is fixed inside the housing by fixing the header plate of the charge cooler to the flange of the housing. Additionally, the header plate of the charge cooler closes the single aperture for receiving the cooler core. | 01-15-2009 |
20090038775 | Cooler Installation - A tractor cooling installation has an engine cooling radiator ( | 02-12-2009 |
20090084522 | RADIATOR OF HIGHLY FLEXIBLE USE - The radiator of highly flexible use comprising a radiant element provided with supports for its connection to a wall. The supports comprise at least one hinge to support the radiant element and to enable it to be rotated between a working position and a maintenance position. | 04-02-2009 |
20090120610 | SEALING SYSTEM FOR A HEAT EXCHANGER ASSEMBLY - A sealing system for sealing a heat exchanger assembly to an HVAC module. A plurality of male connecting members is disposed on one of the outer periphery of the heat exchanger and the interior surface of the channel of the HVAC module. A plurality of female connecting members is disposed on the other of the outer periphery of the heat exchanger and the interior surface of the channel of the HVAC module. The male connecting members engage the female connecting members to support the heat exchanger and to seal the heat exchanger to the HVAC module to restrict the flow of air from circumventing the heat exchanger. The male and female connecting members are tuned to give the heat exchanger a natural frequency in the range of 20 and 100 Hz for dampening vibrations between the heat exchanger and the HVAC module. | 05-14-2009 |
20090126903 | HEAT TRANSFER MEMBER, CONVEX STRUCTURAL MEMBER, ELECTRONIC APPARATUS, AND ELECTRIC PRODUCT - A heat transfer member ( | 05-21-2009 |
20090151892 | HOLDING DEVICE FOR HOLDING COOLING FAN - A holding device for holding a cooling fan comprising: a duct having a hollow in which a cooling fan is to be fitted; a stopper portion which keeps one operative end of the cooling fan from further moving to hold the cooling fan at a fitting position; and a plurality of elastic wall segments formed in a cooling fan insertion end of a wall of the duct; wherein each of some of the plurality of elastic wall segments is formed with a locking claw for keeping the other operative end of the cooling fan from moving. With this construction, the cooling fan | 06-18-2009 |
20090173473 | 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. | 07-09-2009 |
20090178781 | Spring mounting feature for heat exchanger - A heat exchanger assembly includes a first heat exchanger having a pair of mounts attached to one of the tanks of the first heat exchanger and a second heat exchanger having a pair of brackets attached to one of the tanks of the second heat exchanger. The brackets are freely insertable into the mounts when the two heat exchangers are at an acute angle with respect to each other. When the two heat exchangers are parallel with each other, an interference condition exists between the brackets and the mounts. The opposite side of the heat exchangers is secured using a retainer on one heat exchanger extending through a strap on the other heat exchanger. | 07-16-2009 |
20090194251 | Heat-dissipating element and heat sink having the same - The present invention relates to a heat-dissipating element and a heat sink having heat-dissipating elements. The heat sink includes at least one substrate and a plurality of heat-dissipating elements. The substrate includes a base portion and a plurality of extending arms. Insertion slots are provided between each extending arm and two adjacent extending arms. Each heat-dissipating element is inserted in the corresponding insertion slot of the substrate. The lateral surfaces of each extending arm abut against the corresponding surfaces of the each heat-dissipating elements. A plurality of embossed heat-dissipating portions protrudes from at least one surface of each heat-dissipating element. According to the above, the present invention avoids the use of solders and heat transfer loss. Via the embossed heat-dissipating portions, the surface area of the heat-dissipating element for heat dissipation can be increased and thus the heat-dissipating effect is enhanced. | 08-06-2009 |
20090194252 | HEAT DISSIPATION MODULE AND SUPPORTING ELEMENT THEREOF - A heat dissipation module includes a heat sink, a two-phase heat exchange device and a supporting element. The two-phase heat exchange device is located between the supporting element and the heat sink. The supporting element receives the two-phase heat exchange device, and the supporting element has a main body including a bottom part and at least two sidewall parts. An accommodating space is formed by the bottom part and the sidewall parts of the main body of the supporting element to receive the two-phase heat exchange device, and the received two-phase heat exchange device is attached to the bottom part of the main body of the supporting element. The two-phase heat exchange device is located and sandwiched between the supporting element and the heat sink. | 08-06-2009 |
20090199996 | VERTICAL SUPPORT STRUCTURE - A vertical support structure includes a mounting plate and a support member. The support member extends vertically along a vertical axis and has a pair of vertically-elongated panel integrally connected together in a form of an angle iron to define a vertically-extending L-shaped channel between outside edges of the pair of panels. A top edge of the support member and a bottom edge of the support member are disposed vertically apart from and extend horizontally parallel to one another. The support member has a slot formed therethrough. The slot is disposed between the top and bottom edges and extends horizontally between the outside edges. The slot is sized to slidably receive the mounting plate and the mounting plate occupying the slot is connected to the support member such that the mounting plate projects perpendicularly from the support member and away from the L-shaped channel. | 08-13-2009 |
20090205805 | VERTICAL SUPPORT STRUCTURE - A vertical support structure includes a mounting plate and a support member. The support member has a vertically-elongated central panel and a pair of vertically-elongated side panels connected to and extending perpendicularly from the central panel to form a U-shaped-channel as viewed in cross-section. The support member has a top edge and a bottom edge disposed vertically apart from and extending horizontally parallel to one another. The support member has a slot formed at least through the central panel. The slot is disposed between and extends parallel to the top and bottom edges. The mounting plate is slidably inserted into the slot in a close-fitting manner and is connected to the support member such that the mounting plate at least partially projects perpendicularly from the central panel away from the U-shaped channel. A guide element is connected to the top edge and extends upwardly and inwardly toward the U-shaped channel. | 08-20-2009 |
20090260777 | CASE AND RACK SYSTEM FOR LIQUID SUBMERSION COOLING OF ELECTRONIC DEVICES CONNECTED IN AN ARRAY - A liquid submersion cooling system that is suitable for cooling a number of electronic devices in parallel using a plurality of cases connected to a rack system. The system cools heat-generating components in server computers and other devices that use electronic, heat-generating components and are connected in parallel systems. The system includes a housing having an interior space, a dielectric cooling liquid in the interior space, a heat-generating electronic component disposed within the space and submerged in the dielectric cooling liquid. The rack system contains a manifold system to engage and allow liquid transfer for multiple cases and 10 connectors to engage electrically with multiple cases/electronic devices. The rack system can be connected to a pump system for pumping the liquid into and out of the rack, to and from external heat exchangers, heat pumps, or other thermal dissipation/recovery devices. | 10-22-2009 |
20090277605 | COLD AISLE ISOLATION - A data center cooling solution providing techniques for using baffles, doors and roof sections to prevent warm air from being entrained into a cold aisle in a data center, wherein the data center generally contains an air cooling system and a raised floor structure. The raised floor structure is configured to deliver cool air into the data center through a plurality of grates and perforated tiles in the floor. Electronic equipment racks are disposed around the grates and perforated tiles, such that the front faces of the equipment racks face the grates and perforated tiles. A collection of baffles, doors or roof sections inhibit the mixing of the cool air delivered by the air cooling system and the warm air exhausted by the electronic equipment. | 11-12-2009 |
20090294098 | FASTENING DEVICE FOR A HEAT EXCHANGER UNIT AND VEHICLE EQUIPPED WITH A HEAT EXCHANGER UNIT - A fastening device for a heat exchanger unit ( | 12-03-2009 |
20100006259 | LAPTOP ACCESSORY AND METHOD OF MANUFACTURE - An article having a support base and multiple nodules arranged in an array can be placed under part of a laptop computer to promote cooling of the computer. Nodules may be spaced to hold cords or may contain slots for cords. There may be one or more rows of modules which may be off set and may vary in height. Materials may be selected to conduct heat. Methods include obtaining or providing articles, advertising use under laptop computers, and selling the articles. | 01-14-2010 |
20100044007 | Radiator Core Support - A radiator core support | 02-25-2010 |
20100059201 | LIQUID COOLED RACK WITH COMPLIANT HEAT EXCHANGER SUPPORT STRUCTURE - A liquid cooled rack with compliant heat exchanger support structure includes a rack having a rigid frame for supporting electronic components therein, a plurality of flexible supports connected to the rigid frame, and a liquid-fed heat exchanger mounted within the rack via the plurality of flexible supports. The plurality of flexible supports are connected to the heat exchanger and configured to flexibly support the liquid-fed heat exchanger with respect to the rigid frame. | 03-11-2010 |
20100078149 | HEAT EXCHANGER SUPPORTING STRUCTURE AND VEHICLE FRONT STRUCTURE - A heat exchanger supporting structure supports a heat exchanger (a radiator | 04-01-2010 |
20100122794 | METHOD FOR COUPLING TWO ADJACENT HEAT EXCHANGERS AND COUPLING UNIT FOR USE THEREIN - The invention relates to a system for coupling two adjacently placed heat exchangers, which is provided with a first coupling unit connected to the heat exchangers on a first side thereof, and a second coupling unit connected to the heat exchangers on a second side thereof. In each coupling unit an inlet duct is herein formed for one of the heat exchangers connected thereto and an outlet duct is formed for the other heat exchanger connected thereto. The inlet and outlet ducts can here intersect in each coupling unit. The coupling units can be identical and be arranged in the coupling system oriented in opposite directions. The coupling system can be further provided with a bypass duct extending from the first to the second side and running along the heat exchangers, which duct can run through the first and second coupling unit and between the heat exchangers connected thereby. The invention also relates to a coupling unit for application in a coupling system as described above. | 05-20-2010 |
20100126696 | SIDECAR IN-ROW COOLING APPARATUS AND METHOD FOR EQUIPMENT WITHIN AN ENCLOSURE - A system and method for integrating sidecar liquid cooling components in-row with associated computer equipment enclosures is disclosed. It includes a fail-safe baffle to exhaust air, a transition frame and containment plenum. It uses standard hose configurations and includes a thermo-mechanical switch, not requiring power to open the component door. | 05-27-2010 |
20100132917 | Snap Lock A-Frame Heat Exchanger Bracket - A heat exchanger assembly comprises a pair of heat exchanger cores, each with a pair of manifold tanks on opposite sides, and a bracket that grips one tank of each heat exchanger core to maintain the gripped tanks adjacent and parallel to one another. The tanks can rotate within the bracket, allowing them to assume a shipping position wherein the cores are adjacent to each other and an operative position wherein the ends of the cores opposite the bracket are spread apart to form an A-frame configuration. | 06-03-2010 |
20100139887 | System and Method of Providing Computer Resources - A data center system can include a mobile support structure; one or more enclosures for removable electronic equipment where the enclosures are housed by the support structure; a cooling system in fluid communication with the enclosures for cooling of the electronic equipment where the cooling system is housed by the support structure; and a power system operably connected to the electronic equipment and the cooling system for supplying power thereto where the power system comprises a generator housed by the support system. The mobile data center can be moved to remote locations, and the electronic equipment can be placed in communication with a network when at the remote location Other embodiments are disclosed. | 06-10-2010 |
20100181045 | HEAT EXCHANGER - The invention relates to a heat exchanger ( | 07-22-2010 |
20100186928 | Cooler pad for notebook computer - A cooler pad for supporting a notebook computer on a user's lap is disclosed to include a soft pad having an accommodation space, a cooling fan mounted in the accommodation space, two slotted cover plates attached to the top and bottom sides of the accommodation space and fastened together to hold down the cooling fan in the accommodation space for enabling the power cord of the cooling fan to be extended to the outside of the soft pad for connection to the notebook computer to obtain the necessary working voltage for the cooling fan during operation of the notebook computer. | 07-29-2010 |
20100193157 | COOLING STAND - A cooling stand includes a base and a top plate made of a crystal glass material. At least one support member is provided on an upper face of the base for supporting the top plate above the base. One face of the top plate facing away from the base is an inclined supporting face, and the top plate and the base together define a rearward expanded space between them. A heat-producing article can be positioned on the inclined supporting face of the top plate, allowing a user to operate the heat-producing article in a position meeting the ergonomics. Meanwhile, heat produced by the heat-producing article can be highly efficiently absorbed by and then dissipated from the crystal glass material of the top plate through air convection at the rearward expanded space. | 08-05-2010 |
20100193158 | COOLING FAN RACK - A cooling fan rack includes a frame defining a union section; a plurality of stoppers arranged at four corners in the frame to cooperate with the frame to define an accommodating space; and a plurality of airflow paths formed between two adjacent stoppers to communicate with the accommodating space. The frame is provided at two lateral lower sides with a notch each, which communicate with the accommodating space. The two notches are sized for straddling two upper outer sides of a radiating fin assembly, so that the radiating fin assembly with a reduced volume can be upward fitly received in the accommodating space. A cooling fan is downward firmly fitted in the union section. Part of the cooling airflow produced by the cooling fan can flow through the airflow paths to two opposite ends of the radiating fin assembly, enabling upgraded heat dissipation effect. | 08-05-2010 |
20100206514 | AIR CONDITIONER INDOOR UNIT - An air conditioner indoor unit A includes a body casing | 08-19-2010 |
20100218913 | HEAT DISSIPATING DEVICE AND BRACKET THEREOF - A heat dissipating device includes a heat dissipating element and a bracket. The bracket includes a first fixing portion and a second fixing portion. The first fixing portion is to fix the heating dissipating element. The second fixing portion is movably mounted to the first fixing portion. The second fixing portion is configured to fix the bracket to another apparatus to adjust a distance between the heat dissipating element and the apparatus. | 09-02-2010 |
20100218914 | EXHAUST GAS COOLER FOR A MOTOR VEHICLE - An exhaust gas cooler for a motor vehicle is provided that includes a first collector box on an inlet side and a second collector box on an outlet side, and a plurality of exchanger tubes extending between the collector boxes for exhaust gas to flow through. Air can flow around the exchanger tubes so as to cool the exhaust gas. At least one supporting member is attached to at least one of the collector boxes, a force produced by the thermal expansion of the exchanger tubes being passed into the supporting member. | 09-02-2010 |
20100224343 | WORK CARRIER - A work carrier includes a work carrying mechanism, a cooling pipe for cooling the work carrying mechanism by circulation of a coolant, a thermally-conductive elastic member held in contact with the work carrying mechanism and the cooling pipe, and a fixing element for fixing the cooling pipe to the work carrying mechanism. The elastic member is made of aluminum, for example. Before fixed, the elastic member is bent in a cross section perpendicular to the longitudinal direction of the cooling pipe. | 09-09-2010 |
20100230073 | Mounting Arrangement for Mounting Cooler Unit to Work Machine - A mounting arrangement for mounting a cooler unit to a work machine has a traveling device, a machine body frame, an engine and the cooler unit disposed adjacent the engine. The arrangement includes a support deck provided in the machine body frame for supporting the cooler unit, an attachment unit for releasably fixing the cooler unit to the machine body frame and a movement mechanism provided between the cooler unit and the support deck, the movement mechanism allowing the cooler unit to effect a translational movement to change a distance relative to the engine. | 09-16-2010 |
20100258269 | HEAT SINK AND METHOD FOR MANUFACTURING THE SAME - A heat sink comprises a plurality of individual plates. Each of the plates comprises a heat-dissipating portion and a binding portion connecting with the heat-dissipating portion. The binding portions are stacked together on each other to form a heat-absorbing portion. At least some of the heat-dissipating portions are bent at angles relative to the respective binding portions. At least a hoop encloses the heat-absorbing portion. A method of manufacturing the heat sink is also disclosed. | 10-14-2010 |
20100270006 | HOLDER FOR A HEAT EXCHANGER - The invention relates to a holder for fixing additional parts to a fin-tube block ( | 10-28-2010 |
20100282437 | HEAT TRANSFER SHEET FOR ROTARY REGENERATIVE HEAT EXCHANGER - A heat transfer sheet [ | 11-11-2010 |
20100282438 | MOUNTING MODULE FOR A COOLING AIR FLAP MODULE IN A FRONT PANEL OF A MOTOR VEHICLE - The cooling air flap module has a closed mounting frame with bearings and an actuating device for the cooling air flaps, and the mounting frame of the module is arranged so as to be fixed in a forward-mounted reinforcing frame. The mounting frame with the reinforcing frame can be connected as a constructional unit to the front panel so as to form a construction module. | 11-11-2010 |
20100294459 | HEAT EXCHANGE CONFIGURATION FOR USE IN A MOBILE SYSTEM CLEANING APPARATUS - The present invention relates to a system of creating and applying a heated cleaning fluid to a surface. The system includes a housing with a first, a second and a third exhaust gas opening. A first, second, and third heat exchanger are enclosed within the housing. The first and second exchangers are serially arranged, while the third is at an angle relative to the first and second and directly adjacent to the first opening. Super heated exhaust gas flows through first opening and third exchanger. Heated gas flows through the second opening and passes below the third exchanger. Super heated exhaust gas exiting the third exchanger mixes with the heated gas in a mixing chamber of the housing, which is then supplied to the first and second exchangers. Fluid passes through the three exchangers and exits the third exchanger heated. That heated fluid passes to a cleaning wand for application. | 11-25-2010 |
20100300650 | CONTAINER AIR HANDLING UNIT AND COOLING METHOD - A modular cooling system configured to treat IT air generated by a data center includes a frame and a plurality of cooling sub-system modules supported by the frame. The plurality of cooling sub-system modules are configured to operate in parallel to achieve total cooling effect or a lesser cooling effect with some level of redundancy within the data center. Each cooling sub-system module includes a housing configured to support cooling equipment, an air-to-air heat exchanger supported by the housing to cool IT air generated by the data center, the air-to-air heat exchanger having at least one tube configured to direct IT from one end of the air-to-air heat exchanger to an opposite end of the air-to-air heat exchanger and configured so that outdoor air circulates around the at least one tube, and a mechanical cooling system supported by the housing. The mechanical cooling system is configured to receive IT air treated by the air-to-air heat exchanger and to provide further cooling to the treated IT air. Other embodiments of the cooling system and methods of cooling are further disclosed. | 12-02-2010 |
20110000641 | RADIATING FIN STRUCTURE AND HEAT SINK THEREOF - A radiating fin structure and a heat sink thereof. The radiating fin structure includes a main body. At least one input section and at least one output section extend from two ends of the main body respectively. The input section and the main body contain a first angle. The output section and the main body contain a second angle. The heat sink is composed of multiple radiating fins, at least one heat pipe and at least one chassis. The heat pipe penetrates through and strings the radiating fins to form one or more radiating fin assemblies. The input sections of the radiating fins of one radiating fin assembly are adjacent to the output sections of the radiating fins of another radiating fin assembly to together define a central heat dissipation section and multiple spiral heat dissipation flow ways as multiple flow guide structures to achieve better heat dissipation effect. | 01-06-2011 |
20110011560 | Auxiliary heater device - An auxiliary heater device is for use with a primary room heater, the primary heater having a heating element cycling between operational and non-operational phases. The heater device includes a body configured to be disposed at least generally proximal to the primary heater, the body being either formed of a thermal retentive material or containing a quantity of thermal retentive material. As such, heat generated by the primary device is absorbed by the retentive material and subsequently emitted by the retentive material into a room so that the auxiliary heater device emits heat when the primary device is in a non-operational phase to reduce temperature fluctuations within the room. Preferably, the body is formed as an elongated tube disposeable upon an upper surface of the primary heater and the thermal retentive material is a semi-solid or gel disposed within the body tube. | 01-20-2011 |
20110011561 | Display Apparatus - A display apparatus according to the present invention comprises a display part, a housing which accommodates the display part, a circulator circulating the air in the housing around the display part in a vertical direction, and a fan provided on a rear side of the display part. The housing makes the display part be seen from outside therethrough. The fan converts the flow of the air circulating in the vertical direction to a horizontal direction in order to disperse heat generated from a rear surface of the display part. | 01-20-2011 |
20110030919 | THERMAL MODULE MOUNT STRUCTURE - A thermal module mount structure including a first mount body and a second mount body. The first mount body defines therein a first passage and has multiple engaging sections inward extending into the first passage. The second mount body is disposed in the first passage and has multiple complementary engaging sections complementary to the engaging sections. Each of the complementary engaging sections has a moving space and multiple engaging splits in communication therewith. The second mount body is vertically displaceable within the first passage, whereby the first and second mount bodies can be relatively rotated to insert the engaging sections into the engaging splits at different heights. Accordingly, the height of the mount structure is changeable by means of adjusting the second mount body in accordance with different heights of radiating fins. Therefore, the mount structure has high commonness so that the cost for developing the molds is reduced. | 02-10-2011 |
20110048674 | HOLDING MODULE FOR HEAT EXCHANGER TUBES - A holding module for heat exchanger tubes, a rack with such holding modules as well as a method for setting up such a rack, where the holding module includes a lower module half which comprises several recesses into each of which one heat exchanger tube can be placed, an upper holding module half which comprises several recesses and which can be placed onto the lower holding module half such that its recesses are lying opposite to the recesses of the lower holding module half, such that the heat exchanger tubes are held in the recesses. Further, at least one connecting element connects the upper and the lower holding module halves. | 03-03-2011 |
20110056650 | HEAT SINK - There is provided a heat sink capable of keeping a heating element at a desired temperature without using a unit other than the heat sink. The heat sink of the present invention includes: closed container | 03-10-2011 |
20110067836 | COOLING FAN MODULE - A cooling fan module includes a first cooling fan pivotally connected with a second cooling fan. The second cooling fan is rotatable relative to the first cooling fan between a first state and a second state. The second cooling fan is located on the first cooling fan in the first state. The second cooling fan is located at a lateral side of the first cooling fan in the second state. | 03-24-2011 |
20110073277 | ADAPTER FOR HEAT EXCHANGER - A heat exchanger includes a first manifold, a second manifold and a plurality of tubes extending between the first manifold and the second manifold. An adapter is mounted to the first manifold, and the adapter includes a plurality of engagement features engageable by a forming machine to form the heat exchanger into a shape. | 03-31-2011 |
20110079368 | FIXING MOUNT AND THERMAL MODULE THEREOF - A fixing mount and a thermal module thereof are disclosed. The fixing mount is used to connect with a heat sink. The fixing mount includes a main body having a rest section, multiple extension sections extending from a periphery of the rest section and at least one support section formed at one end of each extension section distal from the rest section. Each support section has a latch section disposed at one end of the support section distal from the extension section. By means of the fixing mount, the heat sink can be fixedly locked on a chassis board without using any screw. Therefore, the assembling time is shortened and the assembling process is simplified to lower the manufacturing cost. | 04-07-2011 |
20110100595 | FASTENER AND HEAT DISSIPATION DEVICE USING THE SAME - An exemplary fastener used for connecting at least two components together includes a bolt, a shell, and an elastic member. The bolt has a head, a shaft, an engaging portion, and a threaded portion in series. A diameter of the engaging portion is larger than a diameter of the shaft and a diameter of the threaded portion. The shell has a side wall and a collar extending inwardly from a bottom of the side wall. The collar defines a through hole therein. A diameter of the through hole is slightly smaller than the diameter of the engaging portion of the bolt. The elastic member is sandwiched between the head of the bolt and the collar of the shell. The bolt with the elastic member is received in the shell, and a top of the engaging portion of the bolt abuts against a bottom of the collar of the shell. | 05-05-2011 |
20110100596 | Local Seal Casing of the "Maze" Type, for a Passenger Compartment Heating, Ventilation and/or Air Conditioning Installation | 05-05-2011 |
20110108234 | FASTENING DEVICE AND HEAT DISSIPATION APPARATUS USING THE SAME - A fastening device includes a fixing bracket and a fastener. The fixing bracket includes a fixed arm and two adjusting arms respectively connecting at two ends of the fixed arm. Each of the two ends of the fixed arm defines a plurality of spaced retaining slots. The retaining slots are located at different positions along the fixed arm. Each of the two adjusting arms has a sliding end retained selectively in one of the retaining slots and an opposite fixing end. The fastener extends through the fixing end of each of the two adjusting arms. | 05-12-2011 |
20110108235 | METHOD FOR MANUFACTURING A COOLING ELEMENT AND A COOLING ELEMENT - A method for manufacturing a cooling element for a metallurgical furnace, wherein there is arranged a frame element mainly made of copper and provided with water cooling channels; in the frame element, there are arranged fastening elements for connecting refractory bricks to the frame element; and refractory bricks are connected to the frame element by using fastening elements; and wherein the fastening elements are at least partly formed of elongate steel fastening strips; the method comprising fastening the elongate fastening steel strips to the frame element so that the elongate fastening steel strips together form in between them an open interspace, which is narrowed in a direction pointed away from the bottom of the open interspace; and arranging refractory bricks in the open interspace so that the refractory bricks are located at least partly in the open interspace. A cooling element to be used in connection with a metallurgical furnace or the like is made mainly of copper and includes water cooling channels. | 05-12-2011 |
20110114287 | CHASSIS WITH DISTRIBUTED JET COOLING - A chassis with distributed jet cooling is provided. The chassis includes one or more sidewalls defining a volume configured to substantially surround one or more heat generating components positioned within the volume. The chassis further includes at least one array of fins thermally coupled to a respective one of the one or more sidewalls and at least one synthetic jet assembly comprising a multi-orifice synthetic jet or a number of single orifice synthetic jets disposed on a side of a respective one of the array(s) of fins. The chassis further includes at least one attachment means for attaching a respective one of the at least one synthetic jet assemblies to a respective one of the one or more sidewalls. | 05-19-2011 |
20110114288 | PACKING ELEMENT FOR HEAT AND MASS TRANSFER TOWERS - A tower (A) for effecting heat transfer or chemical reactions contains a packing (B) formed from a multitude of packing elements ( | 05-19-2011 |
20110120668 | HEAT SINK ASSEMBLY HAVING A FIN ALSO FUNCTIONING AS A SUPPORTING BRACKET - An exemplary heat sink assembly includes a base plate, a number of fins, a heat spreader and a heat pipe. The fins are mounted on and thermally connect with the base plate for dissipating heat of the base plate. A bottom one of the fins has a body parallel to the base plate and a number of supporting tabs extending downwardly from the body. | 05-26-2011 |
20110120669 | LIQUID METAL THERMAL STORAGE SYSTEM - Embodiments of this invention relate generally to high temperature thermal energy storage, and more specifically, to the use of the latent heat of fusion of melting and solidifying metals to receive from and provide heat to a gaseous medium. Embodiments of this invention are also known as the Liquid Metal Thermal Storage system or LIMETS. Also described are methods of containing the storage material, heat transfer means, and choices of metals and alloys for thermal storage materials. | 05-26-2011 |
20110127006 | HEAT DISSIPATION DEVICE - An exemplary heat dissipation device includes mounting feet and fasteners mounted on the mounting feet. Each fastener includes a shaft and two latching portions extending outwardly from an outer circumference of an end of the shaft. Each mounting foot defines a through hole allowing extension of the end of the shaft with two second portions. Each mounting foot defines two latching recesses in a surface thereof. Each of the latching recesses defines two blocking surfaces. When the end of the shaft with the latching portion extends through the through hole and beyond the surface of a corresponding mounting foot, the shaft is rotated with respect to the through hole so as to make the latching portion be received in the latching recesses. The blocking surfaces of the latching recesses stop the latching portions rotating with respect to the through hole to escape from the corresponding mounting foot. | 06-02-2011 |
20110139400 | CONVERSION SET FOR A TUBE BUNDLE HEAT EXCHANGER - The present invention relates to a conversion set for a pipe bundle heat exchanger having a cylindrical housing. Using said conversion set, existing tube bundle heat exchangers can be changed over such that the efficiency and thus the heat transfer thereof is improved, large exchange surface areas are provided, and energy costs are reduced. The conversion set can also be used in high-pressure applications for pressures above 300 bar. According to the invention, the conversion set has at least one plate heat exchanger unit for replacing the tube bundle unit, comprising at least the following components: a plate packet having at least two heat exchanger plates, each comprising at least one through hole and welded to each other in pairs along the periphery thereof or along the periphery of the through holes, two mounting plates each having at least one through hole, wherein one each of the mounting plates is arranged at each end of the plate packet and is connected to each outermost heat exchanger plate of the plate packet, and at least one tension means extending in the longitudinal axis between the mounting plates and connected to both mounting plates, so that the two mounting plates and the tension means form a cage about the plate packet, said cage absorbing the forces arising in the plate packet in the operating state of the plate heat exchanger unit, wherein the outer diameter of the plate heat exchanger unit is adapted to the inner diameter of the cylindrical housing of the tube bundle heat exchanger, and the tension means is designed as a flow director extending at least partially around the periphery of the plate packet. | 06-16-2011 |
20110146947 | HEAT DISSIPATION DEVICE AND CLIP THEREOF - An exemplary clip is adapted for fixing a heat sink to a heat generating component. The clip includes a body, a first engaging member, an operating member and a second engaging member. The body is adapted for pressing the heat sink. The first engaging member is formed at one end of the body. The operating member pivotally connects to another end of the body. The second engaging member pivotally engages with the operating member and is capable of moving towards or away from the body during rotation of the operating member. | 06-23-2011 |
20110146948 | FIXING FRAME AND HEAT DISSIPATION DEVICE USING THE SAME - A heat dissipation device includes one of heat sinks with different specifications each of which includes a core and supports extending outwards and radially from the core, and a fixing frame receiving the one of the heat sinks therein. The fixing frame comprises a side plate, a plurality of vertical walls extending downwardly from the side plate, and two sets of slots defined in an inner side of the side plate. Each of the slots extends upwardly from a bottom surface of the side plate to a certain depth to form a step at a top thereof. The slots are staggered with the vertical walls. The supports correspondingly slide in one set of slots and abut corresponding steps. | 06-23-2011 |
20110146949 | HEAT DISSIPATION DEVICE - An exemplary heat dissipation device includes a heat-absorbing plate, a fin unit, a heat pipe connected to the heat-absorbing plate and the fin unit, and a clip spanning over the heat-absorbing plate and resting on the heat pipe. A fastening tab and a positioning tab are formed on the heat-absorbing plate. A fastening hole and a positioning hole are defined in the clip respectively corresponding to the fastening and positioning tabs. The fastening tab is engaged in the fastening hole. The positioning tab is received in the positioning hole. | 06-23-2011 |
20110146950 | RADIATION HEAT EXCHANGING AIR CONDITIONING SYSTEM AND RADIATION HEAT EXCHANGING CEILING THEREOF - A radiation heat exchanging air conditioning system and a radiation heat exchanging ceiling thereof are disclosed. The air conditioning system includes a heat pump system ( | 06-23-2011 |
20110155344 | HEAT DISSIPATING ASSEMBLY - A heat dissipating assembly includes a heat dissipating member, a bracket and a locking member. A male connector is coupled to the heat dissipating member with a cable. The bracket includes two securing plates. Each securing plate defines a positioning hole. A locking member is secured to the heat dissipating member and includes a board body. Two locking portions are located on the board body and engaged in the positioning holes. The locking member defines a through opening. Two first locking blocks and two second locking blocks are located on the locking member. The cable is received in the through opening, and the male connector is inserted through the through opening and secured both between the first locking blocks and between the second locking blocks. | 06-30-2011 |
20110155345 | MOUNTING APPARATUS FOR HEAT DISSIPATING MEMBER - A mounting apparatus includes a chassis, a first securing plate, a second securing plate, and a locking member. The first securing plate is secured to the chassis and defines a through hole. The second securing plate is secured to the chassis and defines a slot. The locking member is located between the first and second securing plates, configured for securing a heat dissipating member. The operating piece is located on the locking member and resiliently deformable. A protrusion is located on the operating piece engaged in the through hole of first securing plate. A positioning tab is located on the locking member engaged in the slot of the second securing plate. | 06-30-2011 |
20110162818 | Providing Connection Elements For Connecting Fluid Pipes To Carry Cooling Fluid In A System - A system has a housing and a rigid fluid pipe fixedly mounted inside the housing to carry cooling fluid, A first connection element is attached to an end portion of the rigid fluid pipe, and a heat-generating assembly is mounted inside the housing. The heat-generating assembly has a flexible fluid pipe. A second connection element is attached to an end portion of the flexible fluid pipe, where the first and second connection elements are removably connectable together and provide an automatic sealing mechanism when the first and second connection elements are disconnected. | 07-07-2011 |
20110168350 | HEAT SINK AND METHOD FOR FIXING HEAT SINK - A heat sink for cooling a device mounted on a mount board, the heat sink having a plurality of grooves at different heights in a surface opposite a surface in contact with the device. | 07-14-2011 |
20110168351 | Oil Radiator Module of Internal Combustion Engine - The present invention is an internal combustion engine oil dissipation module, which includes a head-set (a bolt-lock made by lathe or die-casting, with one side designed a fix-device and can be oil fill measurement meter and heat contact measure-head), a major heat-pipe (a heat-stream pipe, one side linked to the head-set, the other side join to the cooling fins that is listed plates in same interval) and an advanced transfer block (provide at least one expansion heat-pipe connect to the cooling fins). By this invention, major heat-pipe and expansion heat-pipe will conduct heat stream through lowest thermal resistance with the capillary and low boiling point vacuum vapor theory, then the temperature certainly drops down quickly by transfer heat to the big scale of cooling fins. It is absolutely machinery motion parts free, so it raises a lot of convenience. | 07-14-2011 |
20110168352 | AIR SUPPLY APPARATUS AND COOLING FACILITY FOR HOT GRAIN/LUMP MATERIAL PROVIDED WITH THE AIR SUPPLY APPARATUS - An air supply apparatus includes a plurality of movable carriages arranged along a circular carriage path; a movable circular duct arranged along the carriage path and connected to each of the carriages through a connection air duct; a water sealing device including a circular water seal chamber arranged along the carriage path and a water sealing plate having a lower end part thereof sunk in sealing water in the circular water seal chamber; a stationary circular duct arranged along the carriage path and fitted into the movable circular duct through the water sealing device to be freely movable, wherein the movable circular duct and the stationary circular duct form a circular air path; and an atmospheric zone that stops leakage of air in the carriage being provided in a predetermined position of the carriage path, wherein an upper space of the circular water seal chamber on a circular air path side communicates with the circular air path on a movable circular duct side, the circular air path on the movable circular duct side communicates in a circumferential direction, and a connection air duct closing mechanism that closes the connection air duct is provided in the atmospheric zone. | 07-14-2011 |
20110192569 | Portable Weld Cooling Systems - Portable weld cooling systems include a plurality of weld cooling instruments operable to combine to provide cool air to a weld area created by a weld fusion machine, and a portable cabinet comprising a transportation section and a storage section, the transportation section operable to facilitate the movement of the portable cabinet and the storage section being configured to store the plurality of weld cooling instruments when the portable cabinet is moved, wherein one or more of the plurality of weld cooling instruments may be removed from the storage section when combined to provide cool air. | 08-11-2011 |
20110203769 | Cooling System for Actuator - An actuator wherein an internal coolant line or chamber extends through both the housing member and the cover member of the actuator. Each of the coolant chambers terminates in a pair of ports. In one embodiment, an external line connects one of the ports in the housing member with one of the ports in the cover member and the other of the ports in the housing member and the cover member are adapted for coupling to respective external coolant input and output lines respectively. In one embodiment, each of the coolant chambers is a generally U-shaped internal conduit. | 08-25-2011 |
20110209850 | THERMAL CONTROL SYSTEM FOR RACK MOUNTING - A thermal control system of a 3 U height includes various modules for providing temperature control in a rack environment. The modules may be, for example, a power module, user interface module, various different pump assemblies, various different models of fan assemblies, HTAs, and/or a serial communication interfaces. | 09-01-2011 |
20110240256 | Heat dissipater mounting structure - A mounting structure is provided for a heat dissipater, including a heat plate having a surface on which a radiator is positioned. A plurality of retention members is set on side margin portions of the surface of the heat plate. The retention members are secured to the heat plate in a locked manner, so that the retention members help spreading stress to realize stable and secure mounting and enhance the performance of heat transfer. | 10-06-2011 |
20110240257 | VIBRATION STABILIZATION SYSTEM FOR MULTI-COOLER - A bracket for stabilizing a heat exchanger has a base member extending between first and second ends. An aperture at the first end of the base member receives a fastener. The bracket is fixedly secured to a vehicle through the fastener. A flex zone extends between the first and second ends of the base member. The flex zone is movable between a first, relaxed position and a second, flexed position. | 10-06-2011 |
20110240258 | HEAT DISSIPATION APPARATUS - An exemplary heat dissipation apparatus includes a first heat spreader, a second heat spreader, a fixing member, an elastic member, a heat sink, a first heat pipe, a second heat pipe, and a fan. The fixing member includes a first fixing plate, and a second fixing plate connected to the second heat spreader. The elastic member includes a fixing piece fixedly joined to the first heat spreader, and a latching piece extending from each end of the fixing piece and movably connected to the first fixing plate. The first heat spreader can move with the latching piece toward or away from the first fixing member. The fan defines an air outlet facing the heat sink. Two ends of the first heat pipe respectively contact the first heat spreader and the heat sink. Two ends of the second heat pipe contact the second heat spreader and the heat sink, respectively. | 10-06-2011 |
20110240259 | THERMAL MODULE - An exemplary thermal module for dissipating heat of a heat-generating component includes a fixing member, a centrifugal fan arranged on the fixing member, a heat sink and a fastener. The fixing member includes a plurality of fixing portions. The centrifugal fan includes a housing defining an air outlet and an impeller rotatably received in the housing. At least one of the fixing portions is located under the housing. The heat sink is disposed at the air outlet of the centrifugal fan. The fastener interconnects the heat sink and the housing of the centrifugal fan. The fastener is slidably connected to one of the heat sink and the housing to cause the centrifugal fan to be moveable relative to the heat sink for exposing the at least one of the fixing portions located under the housing during fixing of the thermal module to the heat-generating component. | 10-06-2011 |
20110247784 | FIXING MECHANISM FOR FIXING A HEAT-DISSIPATING DEVICE AND RELATED THERMAL MODULE - A fixing mechanism for fixing a heat-dissipating device includes a plurality of thermal fins whereon a ditch is formed, and a positioning device disposed on the plurality of thermal fins. The positioning device includes a supporting portion, and a first side of the supporting portion is for supporting the heat-dissipating device. The positioning device further includes a first constraining portion connected to a second side of the supporting portion and engaged with the ditch for preventing the supporting portion from moving relative to the plurality of thermal fins in a first direction, and a second constraining portion connected to the second side of the supporting portion and contacting against the plurality of thermal fins for preventing the supporting portion from moving relative to the plurality of thermal fins in a second direction different from the first direction. | 10-13-2011 |
20110247785 | Systems and Method of a Carrier Device for Placement of Thermal Interface Materials - Carrier device for placement of thermal interface materials. At least some embodiments are systems including a first electrical component that defines a first surface at a first elevation relative to an underlying structure, a second electrical component that defines a second surface at a second elevation relative to the underlying structure, a metallic member configured to conduct heat from the electrical components, and a carrier between the electrical components and the metallic member. The carrier includes a third and fourth surface configured to mate with the first and second surfaces, respectively, a first aperture through the third surface, and a second aperture through the fourth surface. The system further includes a first thermal interface material coupled between the first electrical component and the metallic member through the first aperture, and a second thermal interface material coupled between the second electrical component and the metallic member through the second aperture. | 10-13-2011 |
20110265975 | MOUNTING BASE - The disclosure relates to a mounting base for an electric component, including, for example, first surface for receiving the electric component, and for receiving a heat load generated by the electric component, and a second surface for dissipating heat from the mounting base. The mounting base can include evaporator channels arranged in the vicinity of the first surface, condenser channels in the vicinity of the second surface and a first and second connecting part for passing fluid between the condenser channels and evaporator channels. | 11-03-2011 |
20110277954 | MANIFOLD BENDING SUPPORT AND METHOD FOR USING SAME - A bending support having a planar bracing member with a length (L) that is substantially equal to that of the inner diameter (I.D.) of the manifold header that the bending support is ultimately inserted in. Extending perpendicularly from a surface of the bracing member is a pair of bracketing members. The pair of bracketing member and the portion of the planar bracing member therebetween defines a refrigerant conduit clip. The interior surface of the refrigerant conduit clip includes a skived pattern defining a plurality of teeth or protrusions that aids in the attachment of the refrigerant conduit clip onto an internal refrigerant conduit. An aperture located on the planar bracing member between the pair of bracketing member provides an unobstructed path for refrigerant flow to the refrigerant conduit. | 11-17-2011 |
20110277955 | VAPOR CHAMBER - A vapor chamber comprises a flat metal tube formed of a circular metal tube by pressing, a powder sintering portion disposed on the inner wall of the metal tube, a supporting structure disposed in and surrounded by the metal tube, a working fluid filled in the metal tube; wherein the top and bottom sides of the metal tube are flat, the two opposite sides connecting the top and bottom sides are seamlessly circular arc shaped, and the other two opposite sides are the sealed ends formed of the two open ends by pressing and sealing. The present invention provides a vapor chamber for CPU, GPU, LED solar cell or other high heat producing electronic products to solve the heat dissipation issues. | 11-17-2011 |
20110277956 | METHOD FOR TRANSPORTING HEAT, TRANSPORT SYSTEM FOR A HEAT CARRIER AND THE USE THEREOF - The invention relates to a transport system for a heat carrier which has at least one transport network, at least one heat carrier and also at least one drive device for the heat carrier. The invention likewise relates to a method for transporting heat using this transport system. The transport system according to the invention is used for example for transporting heat in solar plants. | 11-17-2011 |
20110284184 | COILED AND MICROCHANNEL HEAT EXCHANGERS FOR METAL HYDRIDE STORAGE SYSTEMS - Various apparatus and methods for exchanging heat from a solid to a liquid. Some embodiments pertain to removing heat from a pressure vessel in which a gas absorption reaction is occurring. Yet other embodiments pertain to pressure vessels in which hydrogen is being absorbed into a metal hydride. | 11-24-2011 |
20110297349 | ENCLOSURE OF ELECTRONIC DEVICE - An enclosure includes a case and a heat dissipating area formed on the case. The heat dissipating area defines a number of heat dissipating holes in the heat dissipating area. The material of the heat dissipating area is thermo-responsive shape memory polymer. The heat dissipating holes have a first size in response to the temperature around the heat dissipating area being under a predetermined value. The heat dissipating holes can grow to a second size in response to the temperature around the heat dissipating area being greater than the predetermined value. The first size is less than the second size. | 12-08-2011 |
20110297350 | PLATE HEAT EXCHANGER - The invention relates to a plate heat exchanger ( | 12-08-2011 |
20110297351 | ELECTRONIC EQUIPMENT CABINET - There is provided an electronic equipment cabinet including a cabinet carcass ( | 12-08-2011 |
20110308767 | HOUSING UNIT FOR A HEATING SYSTEM - A housing unit ( | 12-22-2011 |
20120000624 | RADIATOR FASTENING SYSTEM FOR HINGE SUPPORT - A wall-mounted radiator comprising a support ( | 01-05-2012 |
20120024495 | HEAT DISSIPATION APPARATUS - A heat dissipation apparatus includes a heat sink, a resilient pressing member, and two fasteners. The pressing member includes an abutting portion to press the heat sink, and two locking portions extending from opposite ends of the abutting portion. The fasteners are respectively latched to the locking portions. When the heat sink is mounted to a heat-generating component by the fasteners, the abutting portion is stretched to be resiliently flexed by the locking portions latched by the fasteners. The abutting portion abuts against the heat sink toward the heat-generating component, thereby urging the heat sink to be in intimate thermal contact with the heat-generating component. | 02-02-2012 |
20120031584 | Ash And Solids Cooling In High Temperature And High Pressure Environment - Disclosed are cooling and depressurization system equipment, arrangement and methods to cool solid particles from a coal gasifier operating at high temperature and pressure. Ash from the coal needs to be continuously withdrawn from a circulating fluidized bed gasifier to maintain the solids inventory in the gasifier. The system disclosed enables use of conventional materials of construction for heat transfer surfaces. The supports for the cooling surfaces are located on the lower temperature upper section of the primary cooler. The cooled solids along with the fluidizing gas exits the primary cooler to a secondary receiving vessel where the solids can be further cooled by conventional means. The fluidizing and entrained gas entering the secondary vessel is filtered and vented through a vent pressure control valve. The column of cooled solids in the secondary vessel is depressurized by a continuous depressurization system to low pressures which are sufficient for conveying the solids to silos for disposal. The system and methods proposed are equally applicable to many high temperature, high pressure processes that require cooling and depressurization of process solids. | 02-09-2012 |
20120037338 | EVAPORATIVE COOLING DEVICE - An evaporative cooler for cooling a fluid contained in an array of spaced heat exchange elements by heat transfer to a cooling liquid flowing downwardly around the elements in counter current flow to an upwardly flowing gas is provided. The evaporative cooler includes a casing ( | 02-16-2012 |
20120061052 | HYDRONIC SYSTEM - A hydronic system ( | 03-15-2012 |
20120061053 | CHARGE AIR INTERCOOLER FOR ARRANGEMENT IN A SUCTION TUBE - A charge air intercooler for arrangement in a suction tube is provided that includes a plurality of channels through which coolant flows, forming a cooler block around which charge air can flow, wherein the cooler block is connectable to a floor member and wherein a collector has at least one coolant connection. The charge air intercooler can be fastened in an opening of the suction tube via a flange member, the flange member and the floor member being separate components. | 03-15-2012 |
20120080166 | LIQUID-COOLING HEAT SINK AND HEAT EXCHANGER THEREOF - A liquid-cooling heat sink includes a base, a cover and a heat exchanger. The cover has an intake pipe and an exhaust pipe. The heat exchanger includes heat-dissipating plates overlapping with each other. Each heat-dissipating plate has dividing strips. Any two adjacent dividing strips define a through-hole. Both ends of each heat-dissipating plate are provided with a notch respectively. Each heat-dissipating plate overlaps with adjacent one heat-dissipating plate in a head-to-tail manner, so that the two notches of each heat-dissipating plate form an intake notch channel and an exhaust notch channel respectively. The dividing strips form an intersecting structure on upper and lower sides of each through-hole respectively to thereby define a multi-direction sub-channel. The cooling liquid flows from the intake notch channel into the multi-direction sub-channels and exits via the exhaust notch channel. In this way, the heat-exchanging efficiency and heat-dissipating effect are improved. | 04-05-2012 |
20120085514 | FURNACE HEAT EXCHANGER COUPLING - A coupling to connect a primary heat exchanger to a condensing heat exchanger of a furnace includes a coupling box extending between a primary heat exchanger and a condensing heat exchanger. The coupling box defines a flow path for flue gas between a primary heat exchanger outlet and a condensing heat exchanger inlet. A tube sheet is located at the condensing heat exchanger inlet and a liner is located at a distance from the tube sheet in the coupling box. The liner and the tube sheet define an insulating liner space therebetween reducing condensation on the liner. | 04-12-2012 |
20120085515 | Heat Exchanger Frame Apparatus And Method Of Assembly - A frame preferably engages a heat exchanger unit so the frame directs fluid flow into and out of the heat exchanger unit to substantially isolate a first fluid stream that enters and exits the heat exchanger unit from a second fluid stream that enters and exits the heat exchanger unit. Preferably, the frame substantially isolates the first fluid stream that enters and exits the heat exchanger unit from the second fluid stream that enters and exits the heat exchanger unit without placing the heat exchanger and frame in a separate housing. | 04-12-2012 |
20120090815 | THERMAL VALVE - A valve includes a housing and a valve seat and a structure fixedly disposed remote from the valve seat, a valve head to open and close the valve seat, fluid being permitted to flow when the valve seat is open and an elastic system anchored on the structure and coupled to the valve head, the elastic system including a biasing element and an elastic element formed of memory metal alloy disposed to contact fluid permitted to flow, the biasing element and the elastic element being configured to cooperatively move the valve head toward a valve seat open position when a fluid temperature is below a lower limit, and the biasing element and the elastic element being further configured to cooperatively move the valve head toward a valve seat closed position in opposition to the biasing element when the fluid temperature is above an upper limit. | 04-19-2012 |
20120103563 | INTERMINGLING-PREVENTIVE HEAT TRANSFER ELEMENT, AND INTERMINGLING-PREVENTION TOOL AND METHOD THEREFOR - An intermingling-preventive heat transfer element, and an intermingling-prevention tool and method are disclosed. The heat transfer element is provided at a specific position with at least one limiting section, and the intermingling-prevention tool therefor is provided at a position corresponding to the limiting section with at least one limiting post. The heat transfer element is used along with the intermingling-prevention tool therefor with the limiting post of the tool extending through the limiting section of the heat transfer element. Therefore, by using the heat transfer element along with the intermingling-prevention tool therefor, the specification of the heat transfer element can be easily identified, preventing the heat transfer element from intermingling with other heat transfer elements. | 05-03-2012 |
20120103564 | HEAT DISSIPATION DEVICE - A heat dissipation device used to dissipate heat generated by a memory, includes a first cooling fin for being attached to a first side of the memory, a second cooling fin for being attached to a second side of the memory opposite to the first side. There is also a clamp to sandwich the combined assembly of the first cooling fin, the memory, and the second cooling fin. Further included are two fasteners respectively pivotably mounted to the first and second cooling fins, and latched to the clamp to make the first and second cooling fins tightly resist against the first and second sides of the memory respectively. | 05-03-2012 |
20120103565 | ENCLOSURE OF AN ELECTRONIC DEVICE - An enclosure includes a case and a cover. The case includes a heat generating device and a bracket mounted therein. The bracket defines an engaging hole. A heat dissipating module is located in the engaging hole and contacts the heat generating device. The cover includes a number of mounting poles pivotally mounted thereon. The cover is mounted on the case. The mounting poles are engaged on the bracket to enclose the heat dissipating module. | 05-03-2012 |
20120118531 | ADHESIVELY-BONDED STRUCTURAL COMPOSITE JOINT UTILIZING SHOULDER-CENTERED SLEEVES - A composite joint includes a first member having a groove therein, a second member adjacent to the first member, and a connector member disposed between the second member and the first member. The connector member is received in the groove so as to bias a load path between the first member and the second member from a peripheral portion to a central portion of the connector member. | 05-17-2012 |
20120118532 | Flexible Attachment System for a Coil Heat Exchanger - The present application provides an attachment system for mounting a microchannel coil to a support structure. The attachment system may include a bracket fixedly attached to the microchannel coil, a grommet positioned about the bracket, and a fastener extending through the grommet, the bracket, and the support structure so as to attach the microchannel coil thereto. The grommet may include a vibrationally isolating material so as to isolate the microchannel coil from the support structure. | 05-17-2012 |
20120125565 | MOUNTING APPARATUS FOR FANS - A mounting apparatus for a fan includes an enclosure, a mounting bracket mounted to the enclosure, and a latch mounted to the enclosure. The mounting bracket includes a first end wall, and a second end wall opposite to the first end wall. The latch includes a main body resisting against a top of the fan, a clasping tab extending from a first end of the main body, and a locking tab extending from a second end of the main body. The fan module is accommodated in the mounting bracket. The clasping tab is mounted to the first end wall, and the locking tab is mounted to the second end wall. | 05-24-2012 |
20120125566 | HEAT DISSIPATION DEVICE - An exemplary heat dissipation device includes a fan, a fin unit, and a mounting frame connected the fan and the fin unit together. The fan includes a casing and an impeller received in the casing. The casing defines an air outlet at one side thereof. The fin unit is arranged at the air outlet of the fan. The mounting frame connects the fan and the fin unit together. The mounting frame includes a supporting member for supporting the fan thereon and a connecting member substantially covering three sides of the fin unit and connected to the supporting member. The fan is pivotably connected to the mounting frame. | 05-24-2012 |
20120125567 | HEAT EXCHANGER - A heat exchange device ( | 05-24-2012 |
20120125568 | Recording Head And Recording Device Comprising Same - There are provided a recording head capable of reduction of variations in heat-generating temperature among heat-generating elements constituting a heat-generating-element array, and a recording device including the recording head. A recording head includes a heat radiator; a head base body having a substrate placed on or above the heat radiator and a heat-generating-element array composed of a plurality of heat-generating elements arranged on or above the substrate; a bonding layer that is interposed between the heat radiator and the substrate and bonds the heat radiator with the substrate; and a plurality of spacer particles arranged within the bonding layer so as to abut on both of the heat radiator and the substrate. The bonding layer includes a first region situated immediately below the heat-generating-element array and a second region extending in parallel with the first region. The spacer particles are arranged in the second region. | 05-24-2012 |
20120132396 | AIR CONDITIONING SYSTEM FOR VEHICLE - An air conditioning system for a vehicle includes a heat exchanger, a case clamping an outer part of the exchanger in its thickness direction, and an elastic body disposed at a part of the outer part of the exchanger between the case and the heat exchange on one side of the exchanger. The other side of the exchanger is held directly by the case. The elastic body is compressively deformed by a stress with which the case clamps the exchanger. A region of the outer part of the exchanger includes a planar portion on one of both sides of the exchanger. The case includes a proximity portion at a position of the case opposed to the planar portion in the thickness direction of the exchanger. The proximity portion is located adjacent to the planar portion to limit an air leak. | 05-31-2012 |
20120138262 | FAN ASSEMBLY - A fan assembly includes a mounting bracket, a fan, and a baffle. The mounting bracket includes two side plates bounding an outlet, and each side plate defines a through hole. An inner side bounding the through hole defines an arc-shaped cutout, communicating with the through hole. The baffle includes two pins rotatably received in the through holes of the side plates. A protrusion protrudes out from each pin, and is engaged in the corresponding cutout. When the fan operates, the baffle is pushed to rotate to open the outlet, to allow air from the fan to flow out through the outlet. When the fan ceases operation, the baffle rotates back under force of gravity to a position to cover the outlet, where the protrusion resists against one end of the cutout such that further rotation is prevented, to prevent air intake into the mounting bracket through the outlet. | 06-07-2012 |
20120152490 | FASTENING TYPE HEAT-DISSIPATION STRUCTURE - A fastening type heat-dissipation structure for connecting a light-emitting module to an enclosure includes a first fixing member and a second fixing member separately attached to two opposite inner sides of the enclosure; and a flat plate, on which the light-emitting module is mounted. The flat plate is provided with at least a first extended section and at least a second extended section for abutting on and locking to the first and the second fixing member, respectively, so that the flat plate is firmly mounted in the enclosure via the fixing members. And, heat produced by the light-emitting module mounted on the flat plate can be transferred via the extended sections and the fixing members to the enclosure and dissipated from the enclosure into ambient air to enable largely upgraded heat-dissipation effect. | 06-21-2012 |
20120152491 | HEAT DISSIPATING MODULE - A heat dissipating module is adapted for dissipating thermal energy from an electronic element mounted on a circuit board, and includes a heat sink, a heat conductive board including a plurality of tube portions that extend through the circuit board, a heat conductive tube that interconnects the heat sink and the circuit board, and a plurality of fixing elements. Each fixing elements includes a first end part be secured to the heat conductive board, a second end part exposed from an end opening of a respective tube portion, and a pair of interference parts that extend resiliently, respectively and outwardly through lateral openings of the respective the tube portion for abutting against the circuit board. The heat dissipating module further includes a resilient unit disposed between and connected resiliently to the circuit board and the heat conductive board. | 06-21-2012 |
20120160448 | AIR-COOLED HEAT EXCHANGER AND ELECTRONIC DEVICE WITH SAME - An air-cooled heat exchanger includes a casing, a first heat-exchanging core, a second heat-exchanging core, a first internal driving device, a second internal driving device and an external driving device. The first internal driving device is used for driving a first internally-circulated airflow to flow along a first internal circulation path. The second internal driving device is used for driving a second internally-circulated airflow to flow along a second internal circulation path. The external driving device is used for driving a first externally-circulated airflow to flow along a first external circulation path and driving a second externally-circulated airflow to flow along a second external circulation path. The first heat-exchanging core is configured to perform heat exchange between the first internally-circulated airflow and the first externally-circulated airflow. The second heat-exchanging core is configured to perform heat exchange between the second internally-circulated airflow and the second externally-circulated airflow. | 06-28-2012 |
20120168120 | HEAT DISSIPATING DEVICE - A heat dissipating device for dissipating heat from a heat radiation element includes a base, a fixing frame, a fan, and a securing arm. The fixing frame is fixedly attached to the base, and the fixing frame has two coaxially aligned receiving holes defined therein. The fan includes two coaxially aligned shafts. The aligned shafts are fittingly received in the respective receiving holes, such that the fan is detachably attached to the fixing frame and rotatable about the aligned shafts. The securing arm is rotatably attached to the base, and the securing arm is configured for holding the fan against the base. | 07-05-2012 |
20120186779 | Heat Sink Mount and Assembly - An assembly for a heat sink having a contact plate with opposing first and second faces, a plurality of fins extending from the first face of the contact plate, and a plurality of gaps between the fins. A retaining device has a first pair of opposing sides and a second pair of opposing sides, the first and second pairs of opposing sides surrounding an opening, the first pair of opposing sides having primary framing members, at least some of the primary framing members having a first end at a respective side and a distal free end, with at least one engagement member positioned proximate the distal free ends. The primary framing members define a receiving space for the heat sink. A metal spring is configured in a closed shape cross-section for engagement with the retaining device. The metal spring has a pair of elongated sides, a pair of truncated sides and heat sink engagement regions. The heat sink engagement regions are positioned against the contact plate when the metal spring is engaged with the retaining device, to urge the contact plate towards the engagement members. The assembly is particularly well suited for use with ball grid array packages to interface electronic components in such packages with the heat sink. | 07-26-2012 |
20120199318 | ASSEMBLY FOR FASTENING A FITTING TO A MANIFOLD - An assembly for fastening a fitting to a hole in a tubular manifold having a hole. A plurality of refrigerant tubes extend into the manifold transversely to the hole. The assembly includes a fitting that extends along an axis and defines an opening to provide clearance for the refrigerant tubes extending into the manifold. The fitting also presents a pair of slots in spaced and parallel relationship with one another. The assembly further includes a semi-cylindrical shaped mounting plate including a bracket. The bracket presents a pair of legs which extend in spaced and parallel relationship with one another and engage the slots of the fitting to limit rotary movement of the fitting about the axis relative to the bracket before and during brazing of the fitting to the manifold to maintain a clearance between the lower section of the fitting and the refrigerant tubes. | 08-09-2012 |
20120205067 | HEAT DISSIPATION DEVICE - A heat dissipation device includes a heat sink, a rack, and a fan fixed to an end of the rack. The rack includes two frames. Each frame includes a sidewall and two end walls extending from opposite ends of the sidewall. The two frames form a receiving space receiving the heat sink, with each end wall of one of the frames engaging with a corresponding one of the end walls of the other one of the frames. The two frames are configured to be attached to the heat sink from opposite sides of the heat sink, with the end walls abutting opposite ends of the heat sink. The fan is fixed to two engaging corresponding end walls at one of the opposite ends of the sink via the end board. | 08-16-2012 |
20120205068 | HIGH EFFICIENCY CASCADE-STYLE HEAT EXCHANGER - A heat exchanger used for wind tunnel temperature control applications. The heat exchanger is a finned tube design with each tube aligned perpendicular to the wind tunnel flow direction but with the tube bundle aligned at an oblique angle to flow direction for increased surface area. Tube fins may be aligned with the bulk flow direction. The heat exchanger is built in modules with horizontal splitter plates separating each tube bundle. The benefit of this heat exchanger design for wind tunnel applications is the combination of low pressure loss and favorable heat transfer performance in a compact design, while maintaining flow quality consistent with stringent test requirements. | 08-16-2012 |
20120205069 | Reinforcement for Dish Plate Heat Exchangers - A reinforcing element for a heat exchanger of the type having nested dish plates with inclined, peripheral, overlapping walls, where at least one of the nested dish plates is attached to a mounting plate, the mounting plate extending beyond the outer periphery of the walls of the nested dish plates. The reinforcing element has a base flange attached to the mounting plate extending beyond the outer periphery of the walls of the nested dish plates. The reinforcing element also has a peripheral flange located in parallel, overlapping engagement with the inclined peripheral wall of the at least one dish plate attached to the mounting plate. | 08-16-2012 |
20120211196 | HEAT DISSIPATION ASSEMBLY AND LATCH APPARATUS OF THE SAME - A heat dissipation assembly includes a heat sink, a mounting member fixed to the heat sink, a pivot member pivotably attached to the mounting member, and a latch member attached to the pivot member. The latch member includes a first latch portion and a second latch portion. The pivot member is pivoted to switch between using the first latch portion or the second latch portion to be fixed to different types of circuit boards. | 08-23-2012 |
20120216988 | HEAT SINK FASTENER - A fastener for fixing a heat sink on an electronic component is disclosed. The fastener includes a frame seat, a latch and two depressors. The frame seat is formed with a hollow for accommodating the heat sink and the latch is moveably mounted on the frame seat. The depressors may be selectively pressed or released by the latch against the frame seat. The heat sink can be fastened by the depressors when the depressors are pressed by the latch. | 08-30-2012 |
20120222835 | HEAT DISSIPATING DEVICE - A heat dissipating device includes a heat sink, two support arms, two securing units, four first fasteners, and four second fasteners. The two support arms are attached to the heat sink. Each of the support arms defines a groove and a first slot. Each of the securing units includes a sliding arm and a fixing arm. The sliding arm defines a receiving recess and a second slot. The fixing arm defines a third slot. The sliding arm is configured for moving the fixing arm toward or away from the heat sink to align the third slot with mounting holes of a motherboard. The first fasteners fix the two fixing arms on the circuit board. The second fasteners are engagingly received in the communicating first and second slots to fixedly attach the two sliding arms to the two support arms. | 09-06-2012 |
20120222836 | HEAT SINK ASSEMBLY - A heat sink assembly includes a heat pipe, a plurality of metal support members, and a mounting spring plate. The heat pipe has a first heat-receiving surface. Each metal support member has a second heat-receiving surface. The mounting spring plate has a heat pipe mounting portion for securing the heat pipe by a solder-less press-fit means, a plurality of support portions affixed to respective metal support members, and a plurality of mounting portions for securing to a base of a heat source. After the heat pipe is secured to the mounting spring plate, the first heat-receiving surface of the heat pipe would be protruded from the mounting spring plate. The second heat-receiving surfaces of the metal support members are flushed with the first heat-receiving surface of the heat pipe. Thereby, heat is transferred directly from the heat source to the heat pipe to improve heat transfer efficiency, and the weight of the heat sink can be reduced. In addition, by adopting the solder-less press-fit means, the manufacturing cost and process can be lowered and simplified respectively. | 09-06-2012 |
20120222837 | HEAT EXCHANGER OF A VEHICLE PROVIDED WITH A PROTECTION GRID - A heat exchanger of a vehicle, comprising a frame, a plurality of parallel tubes extending between two opposite sides of the frame, a pair of headers, each of which is arranged at a corresponding one of the two opposite sides of the frame, and a protection grid, attached at a face of the heat exchanger and including a plurality of parallel grid elements, in which each of the grid elements is adapted to shield a corresponding tube of the heat exchanger. | 09-06-2012 |
20120234515 | COOLING UNIT AND ELECTRONIC APPARATUS SYSTEM - A cooling unit includes a cooling member cooled by a cooling body, a plurality of heat transfer members, and a support member. Each of the plurality of heat transfer members has a first contact portion and a second contact portion, the first contact portion being configured to come into contact with the cooling member, the second contact portion being configured to come into contact with a target to be cooled. The support member supports the plurality of heat transfer members at positions distant from the cooling member so that each of the plurality of heat transfer members is independently movable to be in contact with the cooling member. | 09-20-2012 |
20120247726 | HEAT DISSIPATION DEVICE - A heat dissipation device includes a number of fans and a fixing member. Each fan includes two spaced boards respectively defining a number of through holes. The fixing member is sandwiched between the boards of each fan, at a corner of the fan. The fixing member includes two engaging portions movably relative to each other. A number of pins are formed on each engaging portion for respectively engaging in the through holes of the fans. | 10-04-2012 |
20120255708 | HEAT EXCHANGE APPARATUS - A heat exchange apparatus includes an enclosure and a heat exchanger. The enclosure internally defines a first space and a second space isolated from each other, and is provided with a first and a second air inlet communicating with the first and the second space, respectively. The heat exchanger is arranged inside the enclosure and located between the first and the second space. By providing the heat exchanger between the first and the second space inside the enclosure, heat can be exchanged between the first and the second space to enable effectively upgraded heat exchange efficiency, and a device using the heat exchange apparatus is protected against invasion by foreign matters via the heat exchange apparatus. | 10-11-2012 |
20120255709 | Heat Exchanger With Resiliently Mounted Bracket - A heat exchanger comprises an end mounting arrangement including a mounting bracket having a first portion for attachment to a support structure and a second portion attached to the heat exchanger. A projection rigidly attached to the end of the heat exchanger is resiliently received in an aperture in the second portion of the mounting bracket. The projection may comprise a pin extending from a plate pair of the heat exchanger, and one end of the pin may be secured between the plates of the plate pair. The mounting bracket may be metal with a resilient element such as a rubber grommet provided in each aperture, or the bracket may comprise plastic in which case a grommet may not be required. | 10-11-2012 |
20120291990 | HEAT DISSIPATION APPARATUS AND OUTDOOR COMMUNICATION DEVICE - A heat dissipation apparatus comprises: one or more thermosiphon heat exchange units, one or more first partitions, and a frame having at least two lattices; wherein, each of the one or more thermosiphon heat exchange units is embedded in one lattice of the at least two lattices; each lattice of the at least two lattices having no thermosiphon heat exchange unit embedded is disposed with the first partition to partition the lattice into an upper portion and a lower portion, where the first partition is detachable. The outdoor communication device comprises the heat dissipation apparatus and one or more service board. Through a modular design, the number of the embedded thermosiphon heat exchange units can be increased or decreased at any time depending on heat dissipation performance that is required. | 11-22-2012 |
20120305217 | HEATING ELEMENT UNDULATION PATTERNS - Heat transfer sheets ( | 12-06-2012 |
20120305218 | Heat Sink - The present disclosure pertains to a heat sink having a base, a heat exchanger being thermally coupled to a top surface of the base, a housing having a chamber formed therein and being placed over the base with the heat exchanger enclosed within the chamber, an inlet connected to the inlet chamber for directing heat transfer medium into the heat sink, and an outlet connected to the outlet chamber for discharging the heat transfer medium from the heat sink, wherein the heat exchanger has a plurality of plates and a plurality of spacers, thereby providing for a plurality of channels. | 12-06-2012 |
20120318477 | HEAT DISSIPATION DEVICE AND FASTENER THEREOF - A fastener includes a fastening element, a fixture, and a spring. The fastening element includes a pole portion, a head portion extending from an end of the pole portion, and an engaging portion extending from another opposite end of the pole portion. The pole portion forms a flange on a periphery thereof. Blocks protrude outwardly from a periphery of the head portion. The fixture defines cutouts and buckling grooves therein, corresponding to the blocks of the fastening element. The blocks extend through the cutouts of the fixture and are rotated by an angle to be buckled in the buckling grooves. The spring circles the fastening element and is compressed between the flange and the fixture. | 12-20-2012 |
20120325430 | FIN TYPE HEAT SINK FIXING ASSEMBLY - A fin type heat sink includes a heat conducting base, fins, pressing plates and positioning members. The fins are parallely installed with an interval apart from each other on the heat conducting base, and a fixing plate is perpendicularly extended from the bottom of each fin. The fixing plate includes through holes, and the pressing plate is installed corresponding to the fin. Each pressing plate is installed on the fixing plate and has combining holes corresponding to the through holes, and the positioning member is fixed onto the heat conducting base, and the positioning member is passed through the through hole and the combining hole and fixed onto the pressing plate, such that the pressing plate presses the fixing plate flatly onto the heat conducting base. Therefore, heat at the heat conducting base can be conducted to the fins quickly to enhance the thermal conduction effect. | 12-27-2012 |
20120325431 | HEAT DISSIPATION DEVICE WITH FAN HOLDER - A heat dissipation device adapted for dissipating heat generated by an electronic component mounted on a printed circuit board. The heat dissipation device includes a heat sink attached to the electronic component, a fan, and a fan holder. The fan includes a frame and a rotor received in the frame. The fan holder mounts the fan onto the heat sink and includes a base fixed on the heat sink, four clasps extending upward from four corners of a top surface of the base, and four elastic portions corresponding to the clasps and configured to resiliently urge the frame of the fan. The frame of the fan is arranged on the base of the fan holder and sandwiched between the clasps and the elastic portions. | 12-27-2012 |
20120325432 | HEAT DISSIPATION SYSTEM - A heat dissipation system for a computer enclosure comprises a base plate comprising a motherboard mounted thereon; and a first heat-generating component fixed on the motherboard; a front plate defining a second air outlet opening and a third air outlet opening; and a second heat-generating component mounted on the base plate; and an air guiding device fixed on the first heat-generating component; the air guiding device defining a first air inlet opening, a second air inlet opening, and a first air outlet opening, wherein airflow flows into the computer enclosure through the first air inlet opening and the second air inlet opening, the air guiding device directs the airflow toward the first heat-generating component and the second heat-generating component via the first air outlet opening, and the airflow flows out of the computer enclosure via the second air outlet opening and the third air outlet opening. | 12-27-2012 |
20120325433 | HEAT EXCHANGER UNIT, ESPECIALLY FOR AIR CONDITIONING IN MOTOR VEHICLES - A heat exchanger unit that enables a quick interchanging of function, form and size of the different heat exchanger modules. The interchanging may be possible in regard to the sequence of the individual heat exchanger modules. The heat exchanger unit in includes inserts configured such that appropriately configured cassettes can be inserted, and an inner shape of the cassettes is configured so that different heat exchanger modules can be accommodated therein. The cassettes are thus designed specific to the heat exchanger, while the outer shape of all cassettes conforms to the shape of the uniformly configured inserts. | 12-27-2012 |
20130000865 | Cooling Device for Pluggable Module, Assembly of the Cooling Device and the Pluggable Module - Provides a cooling device ( | 01-03-2013 |
20130008626 | HEAT DISSIPATING APPARATUS FOR DATA STORAGE DEVICE - A heat dissipating apparatus for a data storage device includes a mounting bracket, and a dissipating structure. The mounting bracket is configured for securing the data storage device. The dissipating structure includes a first heat dissipating panel, a second heat dissipating panel, and a plurality of heat dissipating pieces located between the first heat dissipating panel and the second heat dissipating panel. Each of the first heat dissipating panel and the second heat dissipating panel is secured to the mounting bracket. The data storage device abuts the first heat dissipating panel or the second heat dissipating panel. | 01-10-2013 |
20130020050 | Heat Sink Adaptor - An adaptor is provided for use with the heat sink, said heat sink comprising a base for contacting a heat source and a plurality of protrusions extending from said base. The adaptor itself comprises a base and a structure projecting therefrom. The structure is arranged to mate with one or more protrusions on the heat sink to enable heat transfer by conduction from the heat sink to the adaptor. | 01-24-2013 |
20130025822 | VENTILATION APPARATUS - A ventilation apparatus is provided. The apparatus may include a casing having first and second indoor air suction holes formed at opposite ends thereof, an indoor air discharge hole and an outdoor air suction hole formed at a rear side thereof, and an outdoor air discharge hole formed at an upper side thereof. First and second heat exchanger installed within the casing, with a partition plate partitioning the interior of the casing into an indoor air exhaust chamber and an outdoor air suction chamber having an exhaust fan disposed and first and second supply fans respectively provided therein. Use of first and second air supply fan may reduce noise generated during operation, and simplified indoor and outdoor air flow paths may further reduce noise and enhance efficiency. | 01-31-2013 |
20130037238 | FASTENERS AND HEAT DISSIPATION DEVICES WITH THE FASTENERS - A fastener for fixing heat dissipation devices includes a shaft, a cap and an elastic member. The shaft includes a first end, an opposite second end, and a flange between the first and second ends. The cap is detachably engaged with the second end of the shaft. The elastic member partly encloses the shaft, and is retained between the flange and the cap. A heat dissipation device matching with the fastener is also provided. | 02-14-2013 |
20130037239 | HEAT EXCHANGE DEVICE - The present invention is to provide a heat exchange device which can facilitate assembling operations of a plurality of heat exchangers, the heat exchange device being featured in that a first heat exchanger | 02-14-2013 |
20130042998 | THERMAL MODULE MOUNTING HOLDER - A mounting holder for securely connecting a thermal module to a mainboard is disclosed. The mounting holder includes a main body, which has a receiving section and a plurality of extended sections outwardly extended from an outer periphery of the receiving section, and defines a first and a second open side at two axially opposite ends of the receiving section. A heat sink of the thermal module can be fitly set in and securely connected to the receiving section. Each of the extended sections has a locating section formed at a distal end thereof. Securing elements can be inserted into and moved in along the locating sections to align with mounting holes provided on the mainboard, so as to mount the thermal module atop a central processing unit on the mainboard. With these arrangements, the mounting holder provides good mounting flexibility and saves costs for making different molds. | 02-21-2013 |
20130042999 | HEAT DISSIPATION DEVICE WITH MOUNTING STRUCTURE - A heat dissipation device with mounting structure includes a main body and a plurality of mounting elements. The main body includes an internally defined chamber having a first side and an opposite second side; a plurality of supports located in the chamber and respectively having two ends connected to the first side and the second side of the chamber; a working fluid filled in the chamber; and a plurality of connection sections in the form of recesses formed on an outer surface of the main body at positions corresponding to the supports in the chamber. The mounting elements are connected to the connection sections. With these arrangements, the heat dissipation device with the mounting elements connected to one outer surface thereof can maintain the chamber in the main body in an airtight state and ensure tight contact of it with a heat-generating element. | 02-21-2013 |
20130043000 | HEAT DISSIPATION UNIT WITH MOUNTING STRUCTURE - A heat dissipation unit with mounting structure includes a main body and a plurality of mounting elements. The main body internally defines a chamber, and includes a plurality of supports located in the chamber, a working fluid filled in the chamber, and at least one wick structure formed on inner wall surfaces of the chamber. The mounting elements are externally connected to one side of the main body at positions corresponding to the supports in the chamber, and respectively define an internally threaded coupling bore therein. With these arrangements, it is able to ensure the air-tightness of the chamber of the heat dissipation unit having the mounting elements provided thereon. Further, the mounting elements with internally threaded coupling bore also provide good locking effect for the heat dissipation unit to securely connect with other elements via the mounting elements. | 02-21-2013 |
20130043001 | HEAT DISSIPATION DEVICE - A heat dissipation device includes a fixing bracket and a heat sink connected to the fixing bracket in a horizontal rotation manner The fixing bracket includes a fixing plate defining a through hole. Two blocks extend up from a top of the fixing plate around the through hole. A latching portion extends towards the through hole from a top of an inner side of each block. The heat sink includes a bottom plate, a number of fins extending up from a top of the bottom plate, and a base extending down from a bottom of the bottom plate. The base is received in the through hole of the fixing bracket and includes a main body, and two flanges extending outwards from a bottom circumference of the main body, to engage with bottoms of the latching portions, respectively. | 02-21-2013 |
20130043002 | HEAT DISSIPATING MODULE SUPPORTING APPARATUS - A heat dissipating module supporting apparatus includes a bracket, a heat conducting member, and a latch member. The bracket includes a securing portion. The securing portion defines a holding hole. The heat conducting member is engaged in the holding hole and comprises a body. The body comprises a first touching surface and a second touching surface opposite to the first touching surface. The first touching surface is configured to abut a heat dissipating module, and the second touching surface is configured to abut a heat generating part. The latch member secures the body to the securing portion and is removable from the securing portion to disengage the body from securing portion. | 02-21-2013 |
20130048244 | HEAT DISSIPATION APPARATUS WITH HEAT PIPE - An exemplary heat dissipation apparatus includes a number of fins and a heat pipe. Each fin defines a through hole therein. A collar extends from each fin at an edge of the through hole. The collar inclines toward a center of the through hole. An inner diameter of the collar gradually decreases along a direction away form the fin. A diameter of the heat pipe is larger than a minimum inner diameter of the collar when the collar in a natural state. When the heat pipe extends through the through hole of the fin, the collar is pushed by the heat pipe to expand outwardly, so that the heat pipe intimately contacts an inner face of the collar. | 02-28-2013 |
20130062036 | Retaining Element and Spacer Plane of a Tube Bundle - A retention element for a spacer plane of a pipe bundle is illustrated and described. In order to be able to provide large coherent free faces of the spacer plane with simplified assembly of the spacer plane, it is proposed that two guide elements each for receiving a pipe of the pipe bundle and a spacing element which is arranged between the guide elements be provided and that an opening for the passage of a rod-like support be provided between the guide elements. | 03-14-2013 |
20130087310 | MOUNTING DEVICE FOR FAN - A mounting device for fixing a fan includes a board, a frame, and two shockproof members. The board defines a vent. Two blocking pieces perpendicularly extend from the board at opposite sides of the vent. The frame is sandwiched between the blocking pieces. Two tabs extend from opposite sides of the frame. Each shockproof member is mounted between one of the blocking pieces and a corresponding one of the tabs. | 04-11-2013 |
20130087311 | THERMAL MODULE - A thermal module adapted for dissipating heat of an electronic component includes a heat pipe; and two mounting flakes mounted on the heat pipe. The mounting flakes are configured for mounting the thermal module on a circuit board on which the electronic component is mounted. Each of the mounting flakes is formed integrally as a single piece. The mounting flake includes a fixing body and two mounting arms formed at two opposite ends of the fixing body. The fixing body is directly bonded on the heat pipe. The mounting arms extend beyond the heat pipe and define through holes therein for extension of fasteners. | 04-11-2013 |
20130087312 | COOLING DEVICE FOR COOLING LIGHT GUIDE PLATE - A cooling device for cooling a plurality of light guide plates includes a plurality of positioning members stacked together, a support frame supporting the plurality of positioning members, and a cooling fan positioned in the support frame. Each positioning member includes a bottom plate and a side frame extending from an edge of the bottom plate. The bottom plate and the side frame cooperatively define a receiving groove for receiving the light guide plate. A plurality of support portions are formed on the bottom plate for supporting the light guide plate, and the bottom plate defines a plurality of penetrating holes around the support portions. The cooling device cools all the light guide plates evenly and quickly. | 04-11-2013 |
20130092351 | OUTDOOR UNIT BRACKET AND OUTDOOR UNIT COMPRISING THE SAME - An outdoor unit bracket and an outdoor unit comprising the same, which can ensure safe and simple installation, are provided. An outdoor unit bracket includes an outer wall coupling portion, an upper supporting portion, an outer wall contacting portion and a lower supporting portion. The outer wall coupling portion is coupled to the outer wall of the building. | 04-18-2013 |
20130098579 | DRY-COOLING UNIT WITH GRAVITY-ASSISTED COOLANT FLOW - A cooling unit is provided to facilitate cooling of coolant passing through a coolant loop. The cooling unit includes one or more heat rejection units and an elevated coolant tank. The heat rejection unit(s) rejects heat from coolant passing through the coolant loop to air passing across the heat rejection unit. The heat rejection unit(s) includes one or more heat exchange assemblies coupled to the coolant loop for at least a portion of coolant to pass through the one or more heat exchange assemblies. The elevated coolant tank, which is elevated above at least a portion of the coolant loop, is coupled in fluid communication with the one or more heat exchange assemblies of the heat rejection unit(s), and facilitates return of coolant to the coolant loop at a substantially constant pressure. | 04-25-2013 |
20130105111 | Corrugated Strap For Securing A Heat Exchanger | 05-02-2013 |
20130105112 | HEAT SINK | 05-02-2013 |
20130105113 | HEAT EXCHANGER WITH MAGNETIC LOCK | 05-02-2013 |
20130112369 | POWER SEMICONDUCTOR MODULE COOLING APPARATUS - An IPM cooling apparatus includes a cooling unit having a cooling fluid channel, and a mounting unit fixed to the cooling unit. A wall portion of the cooling unit, which portion faces the cooling fluid channel, has a mounting surface on which the IPM is mounted. The mounting unit is composed of a heat transfer plate formed of a thermally conductive material and joined to the mounting surface of the cooling unit, and a male screw component which has a plate-like head portion and a male screw portion. The plate-like head portion is caused to bite into the lower surface of the heat transfer plate so as to form a recess on the lower surface. The late-like head portion is fitted into the recess formed on the lower surface such that the plate-like head portion does not project from the lower surface and is prevented from rotating. | 05-09-2013 |
20130126124 | ENHANCED SURFACE AREA FOR SIDEPLATE HEAT EXCHANGER BRACKET - A connecting device is used in combination with a heat exchanger. The heat exchanger has orthogonally oriented first and second mount members. The connecting device includes a body having opposed first and second sidewalls. A first sidewall extension is integrally connected to and extends orthogonally with respect to the first sidewall, and includes a first planar mount surface. A second sidewall extension is integrally connected to and extends orthogonally with respect to the second sidewall. The second sidewall extension is oppositely facing with respect to the first sidewall extension and includes a second planar mount surface. A mounting wall extension is integrally connected to and extends orthogonally with respect to the first and second sidewall extensions and includes a third planar mount surface. The first, second and third planar mount surfaces are oriented coplanar with respect to each other and are connected to the first mount member using brazing joints. | 05-23-2013 |
20130126125 | THIN HEAT SINK - The heat sink includes a fastener and a heat pipe. The fastener has a receiving space, an upper claw and a lower claw. The upper claw and the lower claw are formed in the receiving space. The heat pipe has a first end and a second end. The first end is received in the receiving space and clipped between the upper claw and the second claw, and the upper claw or the lower claw is partially embedded in the heat pipe to be flush with each other. | 05-23-2013 |
20130146252 | HEAT SINK ASSEMBLY WITH MISTAKE-PROOF STRUCTURE - A heat sink assembly includes a fixing plate, a heat sink, a number of first fasteners, and a second fastener. The fixing plate includes a number of first poles and a second pole extending from a top of the fixing plate. A first threaded hole is defined in a top of each first pole, and a first threaded portion is formed on a top of the second pole. The heat sink includes a base. The first and second fasteners are extended through the base. A second threaded portion is formed on a bottom of each first fastener, and engages in a corresponding one of the first threaded holes. A second threaded hole is defined in a bottom of the second fastener, and engages with the first threaded portion. The second pole and the second fastener can limit the heat sink fixed to the fixing plate to only one angle. | 06-13-2013 |
20130153171 | COMPOSITE HEAT EXCHANGER SHELL AND BUOYANCY SYSTEM AND METHOD - A heat exchanger includes a shell made of a composite material, and a heat exchanger housed substantially within the shell. The shell is made of a composite material further comprises planks positioned in the outer periphery of the shell. The planks, in one embodiment, are substantially hollow or include substantially hollow portions. In some embodiments, the planks are formed of pultruded plastic. The shell of the heat exchanger further includes layers of fiberglass. The pultruded plastic planks are sandwiched between at least a first layer of fiberglass and a second layer of fiberglass. The layers of fiberglass are infused with resin. A floating portion of an Ocean Thermal Energy System includes shells made of composite material. The cold seawater intake can also be an elongated tube of composite material. | 06-20-2013 |
20130168043 | RADIATOR FRAME FOR A COOLING MODULE, AND COOLING MODULE OR COOLING DEVICE FOR AN INTERNAL COMBUSTION ENGINE - A radiator frame ( | 07-04-2013 |
20130180684 | HEAT DISSIPATION BRACKET FOR BATTERY PACK ASSEMBLY - A heat dissipation bracket for a battery pack assembly, comprises: a plurality of battery support brackets with an open end in a lower portion thereof; and a baffle mated with the open end, wherein the open end and the upper end of the battery support bracket and the two sides of the baffle are provided with corresponding horizontal protruding edges; the open end of one of the plurality of battery support brackets is provided with the baffle, while the rest of the battery support brackets are vertically stacked and disposed on the upper end of the battery support brackets; the battery support bracket, the baffle, and the stacked battery support brackets are connected through bolts in the corresponding horizontal protruding edges; a plurality of battery positioning slots are formed by the battery support brackets and the inner wall of the baffle; a plurality of raised bars are formed on the outer wall of the baffle along the longitudinal axial direction of the battery positioning slots, and a heat exchange channel is formed between the raised bars on the outer wall and the battery positioning slots on the inner wall. | 07-18-2013 |
20130186594 | Exchange Tube Support and Securing Assembly for Tube Exchanger - For tube supports in heat exchangers used to exchange heat energy from one fluid to another without mixing them and, more particularly, supports for an exchange tube bundle forming, in a cutting plane, a mesh, a support ( | 07-25-2013 |
20130192794 | INTERCHANGEABLE COOLING SYSTEM FOR INTEGRATED CIRCUIT AND CIRCUIT BOARD - Several apparatuses and methods for providing cooling system interchangeability. One apparatus includes a thermally conductive plate thermally coupled to an integrated circuit. The thermally conductive plate is configured to couple interchangeably to a liquid cooling assembly or an air cooling assembly, and the liquid cooling assembly and the air cooling assembly are separate devices. | 08-01-2013 |
20130199752 | SEMICONDUCTOR DEVICE COOLING MODULE - A cooling module for cooling a semiconductor is provided and includes a land grid array (LGA) interposer, a substrate with an LGA side and a chip side, a cooler, a load frame attached to the substrate and formed to define an aperture in which the cooler is removably disposable, a spring clamp removably attachable to the load frame and configured to apply force from the load frame to the cooler such that the substrate and the cooler are urged together about the semiconductor and a load assembly device configured to urge the load frame and the LGA interposer together. | 08-08-2013 |
20130213602 | COOLING SYSTEM AND METHOD FOR COOLING A HEAT GENERATING UNIT - The invention relates to a cooling system for cooling a heat generating unit comprising an exchangeable heat sink unit being arranged removably connected to the heat generating unit in an assembled state of the cooling system, wherein further comprises a heat dissipation structure and a heat output connector arranged in the heat generating unit, where the heat dissipation structure is arranged to dissipate heat from at least one heat generating componentin the heat generating unit to the heat output connector, where further the exchangeable heat sink unit comprises a heat sink and a heat sink heat dissipation structure and a heat input connector, where the heat input connector is arranged to connect to said heat output connector to dissipate heat from said heat output connector via the heat sink heat dissipation structure to the heat sink. The invention also relates to a method for cooling a heat generating unit. | 08-22-2013 |
20130228306 | HEAT EXCHANGER - A heat exchanger is provided and includes a frame defining a volumetric body with substantially flat upper and lower sides, heat exchange elements disposed within an interior of the body, sorbent material disposed among the heat exchange elements within the interior of the body, retainer screens disposed at upper and lower sides of the heat exchange elements and sorbent material and structural foam layers supportively disposed between the retainer screens and the substantially flat upper and lower sides to absorb loading applied to the retainer screens. | 09-05-2013 |
20130248144 | FAN MODULE - A fan module includes a heat transfer unit, a heat radiation unit, and at least one cross-flow fan. The heat radiation unit has an air-in side and an air-out side. The cross-flow fan is located against the heat radiation unit, and includes a frame and a centrifugal fan blade assembly. The frame has an air outlet, a plurality of air inlets, and a plurality of frame sections. The frame sections respectively have a receiving recess therein, and the receiving recesses are communicable with one another to together define a receiving space for receiving the centrifugal fan blade assembly therein. With the above arrangements, the cross-flow fan can create increased air flow volume, the space occupied by the fan module can be reduced, and upgraded heat dissipation performance can be achieved. | 09-26-2013 |
20130248145 | HEAT DISSIPATION DEVICE AND METHOD OF MANUFACTURING SAME - A heat dissipation device includes a mounting bracket and a thermal module. The mounting bracket has at least one retaining hole and a mounting section, and the thermal module includes a plurality of radiating fins, to which the mounting bracket is connected. On the radiating fins, at least one engaging zone is provided for correspondingly engaging with the mounting bracket, and at least one locking portion is formed for correspondingly engaging with the retaining hole. With the above structural design, the mounting bracket can be more firmly and stably connected to the thermal module and be more accurately located on the radiating fins without the need of welding, so that the manufacturing cost for welding is saved. A method of manufacturing the heat dissipation device is also disclosed. | 09-26-2013 |
20130255913 | TRANSPORT REFRIGERATION SYSTEM - A transport refrigeration system generally includes a support structure, a heat exchanger, and at least two pairs of mounts for mounting the heat exchanger to the support structure. The support structure is configured to be coupled to a transport container. The heat exchanger includes two sides and defines a longitudinal direction that extends from one side to the other side. Each pair of mounts includes a fixed mount coupled to one side of the heat exchanger, and a floating mount coupled to the other side of the heat exchanger, the floating mount positioned substantially opposite to the fixed mount in the longitudinal direction. | 10-03-2013 |
20130255914 | HEAT SINK ASSEMBLY - A heat sink assembly includes a heat sink, a bracket, and an airflow guide member. The heat sink defines an air outlet at a rear end of the heat sink. The bracket includes two side plates respectively fastened to rear ends of opposite sides of the heat sink. A number of vertically arrayed protrusions are formed on a rear end of an inner surface of one of the side plates. The airflow guide member is pivotably connected between the side plates. An end of the airflow guide member engages with a different one of the protrusions, to position the airflow guide member at a different angle relative to the heat sink. | 10-03-2013 |
20130264026 | HEAT EXCHANGER DOOR FOR AN ELECTRONICS RACK - An air-cooling apparatus is provided which includes a heat exchanger door and a catch bracket. The door is hingedly mounted to the air inlet or outlet side of an electronics rack, and includes: a door frame spanning at least a portion of the air inlet or outlet side of the rack, wherein the frame includes an airflow opening which facilitates airflow through the rack; an air-to-coolant heat exchanger supported by the door frame and disposed so that airflow through the airflow opening passes thereacross; and a door latch mechanism to selectively latch the heat exchanger door to the rack. The catch bracket is attached to the rack and sized to extend from the rack into the heat exchanger door through a catch opening, and the door latch mechanism is configured and mounted within the heat exchanger door to physically engage the catch bracket within the heat exchanger door. | 10-10-2013 |
20130264027 | PROCESS FOR OPTIMIZING A HEAT EXCHANGER CONFIGURATION - A heat exchanger door and heat exchanger core optimization method are provided. The door resides at an air inlet or outlet side of an electronics rack, and includes an air-to-coolant heat exchanger with a heat exchanger core. The core includes a first coolant channel coupled to a coolant inlet manifold downstream from a second coolant channel, and the first channel has a shorter channel length than the second channel. Further, coolant channels of the core are coupled to provide counter-flow cooling of an airflow passing across the core. The core optimization method determines at least one combination of parameters that optimize for a particular application at least two performance metrics of the heat exchanger. This method includes obtaining performance metrics for boundary condition(s) of possible heat exchanger configurations with different variable parameters to determine a combination of parameters that optimize the performance metrics for the heat exchanger. | 10-10-2013 |
20130284399 | HEAT DISSIPATING APPARATUS - A heat dissipating apparatus includes an enclosure, a supporting frame attached in the enclosure, and a heat exchanger. The enclosure includes two opposite side plates, each of which defines at least one guiding groove. The heat exchanger is mounted to the supporting frame. The heat exchanger includes two opposite sidewalls and at least one positioning post protruding from each of the two sidewalls. Each of the at least one positioning posts is slidably received in, positioned by, and held captive in, one of the at least one guiding grooves. | 10-31-2013 |
20130292087 | GASIFICATION REACTOR - A gasification reactor with a heat exchange unit having a gas flow channel and one or more heat exchangers arranged within the gas flow channel, the heat exchangers having one or more heat exchange surfaces and one or more associated structures, such as a support structure or deflector plates. The associated structures are provided with fouling protection devices, such as blasters or flow guiding surfaces. | 11-07-2013 |
20130299131 | ADJUSTABLE HEAT DISSIPATION ASSEMBLY FOR MAGNETIC DEVICES - According to embodiments of the present invention, there is provided an adjustable heat dissipation assembly and a method for manufacturing and assembling same. The heat dissipation assembly may include: a heat dissipation frame including a base with at least two side walls, the base and the side walls define an internal space suitable for accommodating a device that requires cooling; and an adjustable plate, configured to be placed over the device in between the side walls, and secured to the side walls, the distance of the adjustable plate from the base of the heat dissipation frame when it is not secured to the side walls being adjustable. | 11-14-2013 |
20130299132 | HEAT EXCHANGER ASSEMBLY AND METHOD OF MANUFACTURING THEREFOR - Heat exchanger assemblies and manufacturing methods that are capable of promoting continuously downward and/or horizontal flow of fluids through a coolant tube of a heat exchanger assemble to reduce the risk of internal clogging. The heat exchanger assembly includes at least one coil adapted to contain a fluid therein and at least two support members supporting the coil. The coil is formed of at least one tube having an inlet at an uppermost extent thereof, an outlet at a lowermost extent thereof, a plurality of parallel horizontal rows, and a plurality of bends at opposite ends of the horizontal rows and fluidically interconnecting the horizontal rows thereof in series to define a serpentine configuration. The coil is adapted to achieve a continuously downward and/or horizontal flow of the fluid therein. | 11-14-2013 |
20130306269 | APPARATUS AND METHODS FOR COOLING REJECTED HEAT FROM SERVER RACKS - The present invention is directed to apparatus and methods for cooling computer servers and/or electrical equipment in a rack device for data centers or telecommunication centers. | 11-21-2013 |
20130312930 | Coldplate for use with a Transformer in an Electric Vehicle (EV) or a Hybrid-Electric Vehicle (HEV) - A coldplate for use with a transformer in an electric vehicle (EV) or a hybrid-electric vehicle (HEV). The coldplate includes a main portion having a recess formed therein, the recess having a floor configured for contacting a bottom surface of a transformer for dissipating heat generated by the transformer. The main portion includes a raised feature configured for contacting a winding of the transformer for dissipating heat generated by the transformer. The coldplate also includes a bracket member for use in securing the transformer in the recess of the main portion, the bracket member configured for contacting the main portion and the transformer for dissipating heat generated by the transformer. The bracket member includes a contact surface for contacting a top surface of the transformer, the contact surface having an area sufficient to contact substantially all of the top surface of the transformer. | 11-28-2013 |
20130312931 | Coldplate for Use in an Electric Vehicle (EV) or a Hybrid-Electric Vehicle (HEV) - A coldplate for use with electronic components in an electric vehicle (EV) or a hybrid-electric vehicle (HEV). The coldplate includes a main portion having multiple raised features on a surface thereof. The raised features are configured for attaching the main portion to a printed circuit board having multiple electronic components attached thereto. The raised features are further configured for maintaining the printed circuit board in a spaced relation relative to the main portion to facilitate air flow between the printed circuit board and the main portion for dissipating heat generated by the plurality of electronic components. The coldplate also includes a protrusion extending from the surface of the main portion. The protrusion is configured for contacting one of the plurality of electronic components attached to the printed circuit board for dissipating heat generated by the electronic component. | 11-28-2013 |
20130312932 | MODULAR AIR COOLED CONDENSER APPARATUS AND METHOD - The present invention relates to a mechanical draft cooling tower that employs air cooled condenser modules. The aforementioned cooling tower operates by mechanical draft and achieves the exchange of heat between two fluids such as atmospheric air, ordinarily, and another fluid which is usually steam. The aforementioned cooling tower utilizes a modular air cooled condenser concept wherein the air cooled condensers utilize heat exchange deltas that use tube bundles that are manufactured and assembled prior to being shipped to the tower site. | 11-28-2013 |
20130319633 | METHOD AND SYSTEM FOR INSULATING STRUCTURAL BUILDING COMPONENTS - In one aspect, the present invention relates to a structural assembly including a first frame member hingedly coupled to a second frame member. A support member extends outwardly from the first frame member. At least one glazing panel is disposed above the support member. A thermal clip is coupled to the support member. The thermal clip insulates the support member from a building exterior. The support member extends less than an entire length thereof and reduces loss of thermal energy from a building interior to the building exterior via the support member. | 12-05-2013 |
20140020863 | ADD-ON HEAT SINK - The add-on heat sink includes an elongate base having a plurality of fins extending from a surface thereof. A magnetic layer is disposed on the bottom of the base, which permits the add-on heat sink to be installed on any ferromagnetic heated surface. The magnetic layer is composed of either a polymer matrix having a plurality of thermally conductive structural components and a plurality of magnetic particles dispersed therein, or a thermally conductive polymer having magnetic particles dispersed therein. Alternatively, if the heated surface is not ferromagnetic, the heat sink may be magnetically attached by adhesively attaching mating magnetic and ferromagnetic pads to the heat sink and to the heated surface. This configuration allows the add-on heat sink to be installed with minimal footprint. Optionally, a fan may be magnetically attached to the heat sink to cool the heated surface by both conduction and convection. | 01-23-2014 |
20140041831 | Radiator Repair Jig - A handheld jig for placement on a radiator and associated method to repair broken welds of tabs of a radiator mounting cradle used to hold a radiator of a vehicle such as a HMMVE where the tabs may be pressed against angled surfaces of the radiator, the jig having a base, a first arm extending from the base, a second arm extending from the base, and a third arm extending from the base, the first arm, second arm and third arm each capable of holding an adjustable pin to selectively contact a tab of the cradle to press the respective contacted tabs against respective angled surfaces of the radiator. | 02-13-2014 |
20140048229 | RAM OUTLET HEADER - A ram outlet header includes a ram outlet header body. A ram air fan mounting neck and a ram air fan mounting flange are configured to couple the ram outlet header to a ram air fan housing. A heat exchanger mounting flange is configured to couple the ram outlet header to a heat exchanger assembly. A lower face includes a first stiffener. A mid-section includes a second stiffener, a third stiffener, and a fourth stiffener. The ram air fan mounting flange is positioned between the lower face and the mid-section. A ratio of thickness of the second stiffener to the third stiffener is between 1.04 and 1.16, and a ratio of thickness of the fourth stiffener to the third stiffener is between 1.04 and 1.16. | 02-20-2014 |
20140054004 | MEMBRANE SUPPORT ASSEMBLY FOR AN ENERGY EXCHANGER - A membrane support assembly is configured to be used with an energy exchanger, and is configured to be positioned within a fluid channel between first and second membranes. The assembly may include at least one support member configured to span between the first and second membranes, wherein the support member(s) is configured to support the fluid channel, and at least one turbulence promoter connected to the support member(s). The turbulence promoter(s) is configured to promote fluid turbulence within the fluid channel. The fluid turbulence within the fluid channel enhances energy transfer between the fluid channel and the first and second membranes. | 02-27-2014 |
20140069608 | HEAT EXCHANGER PIVOTABLE FOR CLEAN-OUT - A machine has a mount, a support mounted pivotally to the mount to pivot relative to the mount about a first pivot axis between a first support position and a second support position, and a heat exchanger. The heat exchanger is mounted pivotally to the support to pivot relative to the support about a second pivot axis between a first exchanger position and a second exchanger position. | 03-13-2014 |
20140069609 | AIR-TEMPERATURE REGULATION DEVICE FOR A MACHINE TOOL - A machine tool includes a frame providing the setting in motion of a tool and a workpiece holder module to be machined. The machine tool includes a plurality of heat exchangers inside of which flows a heat-transfer fluid, the exchangers being connected together and coming into contact with the frame as well as with the workpiece holder module, characterised by the fact that it comprises a climatization unit with scalable power. | 03-13-2014 |
20140076517 | REINFORCED HEAT-TRANSFER DEVICE, HEAT-TRANSFER SYSTEM, AND METHOD OF REINFORCING A HEAT-TRANSFER DEVICE - A heat-transfer device and system for conducting heat from a heat source. The heat-transfer device can include an evaporator having one or more reinforcement elements occupying respective recesses defined in a body of the evaporator, wherein the reinforcement elements are more resistant to deformation under clamp load than the material of the evaporator body, while still having desirable heat conductivity. In some embodiments, the heat-transfer system includes a plurality of serially coupled evaporators for generating a respective vapor; at least one reinforcement element interposed between adjacent evaporators; and a condenser in fluid communication with the evaporator. | 03-20-2014 |
20140096932 | HEAT EXCHANGER AND RETENTION ELEMENT - Heat exchanger and a retention element for the heat exchanger, the retention element having a receiving region and a spacing element, and the receiving region at least partially receiving the heat exchanger, wherein the receiving region has a contour which substantially corresponds to an outer contour of the heat exchanger, the receiving region having fixing means, by means of which the retention element can be fixed to the heat exchanger, the spacing element protruding outwards from the retention element and protruding beyond the outer contour of the heat exchanger. | 04-10-2014 |
20140124167 | SECTIONED MANIFOLDS FACILITATING PUMPED IMMERSION-COOLING OF ELECTRONIC COMPONENTS - Cooling apparatuses and methods are provided for facilitating pumped immersion-cooling of electronic components. The cooling apparatus includes a housing forming a compartment about one or more components, a supply manifold, a return manifold, and a coolant loop coupling in fluid communication the supply and return manifolds and the housing. Coolant flowing through the coolant loop flows through the compartment of the housing and at least partially immersion-cools the component(s) by flow boiling. A pump facilitates circulation of coolant within the loop, and a coolant bypass line is coupled between the supply and return manifolds. The return manifold includes a mixed-phase manifold section, and the bypass line provides coolant from the supply manifold directly to the mixed-phase manifold section. Coolant flows from the coolant bypass line into the mixed-phase manifold section in a direction counter to the direction of any coolant vapor flow within that manifold section. | 05-08-2014 |
20140124168 | Closed-loop Cooling System for High-Density Clustered Computer System - A cooling system for a high performance computing system includes a closed-loop cooling cell having two compute racks and a cooling tower between the compute racks. Each compute rack includes at least one blade enclosure, and the cooling tower includes at least one water-cooled heat exchanger and one or more blowers configured to draw warm air from a side of the compute racks towards a back, across the water-cooled heat exchanger, and to circulate cooled air to a side of the compute racks towards a front. The cooling cell further includes a housing enclosing the compute racks and the cooling tower to provide a closed-loop air flow within the cooling cell. The cooling system further includes cooling plate(s) configured to be disposed between two computing boards within the computing blade, and a fluid connection coupled to the cooling plate and in fluid communication with the blade enclosure. | 05-08-2014 |
20140131007 | MOUNTING SYSTEM FOR FLUID HEAT EXCHANGE SYSTEMS - A heat exchange system can include a heat exchange unit and a magnetic element. The heat exchange unit can have a housing and a heat exchange surface configured to thermally couple to a subject of heat exchange. The housing can define an outer surface spaced apart from the heat exchange surface. A magnetic element, a ferrous element, or both, can be positioned within the housing. A coupling agent can have a complementary magnetic element, ferrous element, or both. The coupling agent can interact with the magnetic element, the ferrous element, or both, positioned within the housing. The coupling agent can be coupled to a substrate to retain the heat exchange unit relative to the substrate. | 05-15-2014 |
20140144606 | BRACKET FOR SUPPORTING ELECTRONIC DEVICE - A bracket for supporting an electronic device includes receiving part and a heat-radiating unit. The receiving part detachably receives the electronic device and defines a receiving groove. The head radiating unit is detachably received in the receiving groove. The heat-radiating unit comprises at least one heat dissipating element received in the receiving groove. The heat dissipating elements are positioned corresponding to heat-generating components of the electronic device. Heat generated by the heat-generating components is absorbed by the heat dissipating elements and then immediately. | 05-29-2014 |
20140150989 | Air Cooled Condenser Fan Deck Subassembly - An air cooled condenser fan deck subassembly system and method including eight subassembly parts which are pre-assembled prior to arrival at the final assembly location. The eight subassembly parts include four inner subassembly parts and four outer subassembly parts, each of which are sized to fit in a standard sea container. Once the eight fan deck subassembly parts are delivered to the site, they are unloaded and bolded together, resulting in significant time and cost savings to the purchaser and erector. | 06-05-2014 |
20140150990 | HEAT PIPE MOUNTING METHOD AND HEAT PIPE ASSEMBLY THEREOF - A heat pipe mounting method and a heat pipe assembly thereof are disclosed. The method includes the step of providing a heat-transfer block and a plurality of heat pipes. A plurality of heat pipe grooves is formed on the heat-transfer block. The heat pipes are then press-fitted to respective heat pipe grooves. During the press-fitting step, the heat pipes are flattened to force the flattened part of one heat pipe into abutment against the flattened part of another heat pipe in a flushed manner. Thereby, the heat pipes are abutted to each other with no separation therebetween. Hence, the heat transfer performance is increased. | 06-05-2014 |
20140158323 | HEAT SINK ASSEMBLY WITH CONNECTING MEMBER PROTRUDING FROM HEAT SINK - An exemplary heat sink assembly includes a heat sink, a connecting member, and a mounting member. A mounting hole and a receiving hole are defined in the heat sink and communicating with each other. The connecting member is adapted for fixing the heat sink. The connecting member includes a connecting section and an extending section extending from the connecting section. The mounting member fixes the connecting member to the heat sink. The connecting section is received in the receiving hole of the heat sink, the extending section is protruding from the heat sink, and the mounting member extends through the mounting hole and engaging with the connecting section to fix the connecting member to the heat sink. | 06-12-2014 |
20140158324 | COOLING APPARATUS - A liquid coolant supplying header is configured on a central portion in the width direction between an upper portion heatsink and a partitioning plate, a liquid coolant discharging header is configured on a central portion in the width direction between a lower portion heatsink and the partitioning plate so as to be parallel to the liquid coolant supplying header, vertical flow channels are formed so as to pass through the partitioning plate vertically on two sides in the width direction so as to be parallel to the liquid coolant supplying header, a liquid coolant distributing structural body is disposed inside the liquid coolant supplying header, and an external shape of the liquid coolant distributing structural body is formed such that flow channel cross-sectional area of the liquid coolant supplying header becomes gradually smaller from an upstream end toward a downstream end. | 06-12-2014 |
20140190661 | AIR EXCHANGE DEVICE FOR BUILDINGS - Air exchange device for buildings, comprising: an elongated casing; a heat exchanger housed inside said casing; and a first fan unit and a second fan unit arranged to generate respective airflows in a relationship of mutual heat exchange in said heat exchanger, wherein the first and the second fan units each comprise at least one electric fan having a hollow support casing having an intake opening and a discharge opening, wherein a duct for the passage of an airflow is defined within said support casing, which contains an electric motor that drives a rotor; a damping elastic support of low-density polymeric material housed inside said casing, wherein said electric fans of said fan units are supported in a freely floating manner within their respective seats formed within said damping elastic support. | 07-10-2014 |
20140216686 | Partitioned, Rotating Condenser Units to Enable Servicing of Submerged IT Equipment Positioned Beneath a Vapor Condenser Without Interrupting a Vaporization-Condensation Cycling of the Remaining Immersion Cooling System - An immersion cooling tank includes: a tank comprised of a base wall, and perimeter walls, and having a lower tank volume in which a liquid can be maintained and heated to a boiling point to generate a rising plume of vapor; a rack structure within the tank volume that supports insertion of multiple, heat dissipating electronic devices in a side-by-side vertical configuration; and a condenser configured as a plurality of individually rotatable condenser sub-units, with each condenser sub-unit located above a vertical space that extends vertically from the lower tank volume and within which an electronic device can be inserted. Each individual condenser sub-unit can be opened independent of the other sub-units and each other condenser sub-unit can remain in a closed position while a first condenser sub-unit is opened to allow access to a first vertical space and any existing electrical device contained therein below the first condenser sub-unit. | 08-07-2014 |
20140246172 | UNPOWERED AUXILIARY HEAT DISSIPATION APPARATUS AND DEVICE USING THE SAME - An exemplary heat dissipation apparatus includes a bracket, a reticular cover fixed to the bracket and a receiving space being defined with the bracket, and a tray received in the receiving space. The tray includes a first surface and a second surface. A number of first through holes is defined on the bracket. A number of second through holes is defined on the tray respectively corresponding to the first through holes, each of the second through holes extends obliquely from the first surface of the tray to the second surface of the tray relative to a vertical line of the first and second surfaces of the tray. A first magnet is installed on the first surface of the tray, a second magnet corresponding to the first magnet is installed on the bracket. | 09-04-2014 |
20140251577 | COOLING FRAME WITH INTEGRATED HEAT PIPES - A heat-transfer system is provided for conveying heat from a heat source, the heat-transfer system generally including a frame for coupling to the heat source, wherein the frame is insertable into a first slot of a cooling chassis, and a heat-transfer rail extending parallel to the frame at an offset distance, wherein the offset distance is dimensioned such that the heat-transfer rail is insertable into a second slot of the cooling chassis. At least one heat-transfer device couples the heat-transfer rail to the frame. | 09-11-2014 |
20140262147 | V-Shaped Heat Exchanger Apparatus - A V-shaped heat exchanger apparatus providing a support pedestal on which on at least one side thereof a frame assembly is removably coupled to the pedestal structure. The frame assembly includes preferably as a unitary element, a frame and at least one heat exchanger fixedly secured thereto. | 09-18-2014 |
20140262148 | HEAT SINK ASSEMBLY AND CLIP THEREOF - A clip for fixing a heat sink on a retaining bracket includes an elastic supporter, an operating member, a movable fastener and a fixing bar. Two ends of the elastic supporter have a connecting portion and a first buckle portion, respectively. The operating member has a resisting portion, a pivot portion and an operating bar. The pivot portion pivots to the connecting portion. The movable fastener installs on the resisting portion and the connecting portion, and includes two sliding slots, a resisting surface and a second buckle portion. The resisting portion has an arc surface for resisting against the resisting surface. The distance between the apex of the arc surface and the pivot portion is the largest distance between the arc surface and the pivot portion. When the clip is locked, the junction of the resisting portion and the resisting surface excludes the apex of the arc surface. | 09-18-2014 |
20140299294 | EXHAUST GAS COOLER FOR A MOTOR VEHICLE - An exhaust gas cooler for a motor vehicle is provided that includes a first collector box on an inlet side and a second collector box on an outlet side, and a plurality of exchanger tubes extending between the collector boxes for exhaust gas to flow through. Air can flow around the exchanger tubes so as to cool the exhaust gas. At least one supporting member is attached to at least one of the collector boxes, a force produced by the thermal expansion of the exchanger tubes being passed into the supporting member. | 10-09-2014 |
20140305613 | VARIABLE BYPASS PIPELINE HEATER - A fluid heating system for heating fluid flowing in a pipe to prevent freezing and ice build up. A controllable variable flow heat exchanger is utilized within the pipe to provide thermal transfer to the fluid flow. | 10-16-2014 |
20140318738 | Concentric Helical Coil Key Separator Device and Attachment Therefor - A separator device for separating coils of a heat exchanger assembly has a top surface opposite a bottom surface, and an inner portion opposite an outer portion. The inner portion and the outer portion extend between the top surface and the bottom surface. The separator device further includes a pair of sides extending between the inner portion and the outer portion, each of the sides defining a concave curve having an apex. A lug is provided to connect the apex of each concave curve. At least one ramp is defined on the top surface and/or the bottom surface, extending from the inner portion toward the lug. The lug is arcuately shaped to project away from the top surface and the bottom surface and is shaped to correspond to a gap between adjacent coils of the heat exchanger assembly. | 10-30-2014 |
20140326434 | FASTENER-LESS RETAINED HEAT EXCHANGER MOUNTING BRACKET FOR LOW INSTALLATION FORCE - A mounting bracket for a heat exchanger. The mounting bracket includes a heat exchanger engagement portion and a mounting portion. The heat exchanger engagement portion includes a retention member. The mounting portion extends from the heat exchanger engagement portion and is configured for fixedly mounting the mounting bracket. Cooperation between the retention member and the heat exchanger secures the heat exchanger to the mounting bracket | 11-06-2014 |
20140338858 | FAN MODULE AND BASE SEAT THEREOF - A fan module employed in an electronic device includes a base seat, a fan, a heat conducting tube and a covering plate. The base seat is made of polymer thermal conductive materials, and includes a bottom plate and a “U” shaped sidewall. The bottom plate includes a receiving portion and a heat sink portion. The sidewall surrounds the receiving portion to form a mounting groove and surrounds opposite sides of the heat sink portion to form a heat dissipation opening communicating with the mounting groove. The fan is rotatably mounted on the receiving portion and is received in the mounting groove. The heat conducting tube is embedded to a side of the base seat opposite to the fan. The covering plate is secured to the sidewall and covering the fan. The present disclosure further provides a base seat of the fan module. | 11-20-2014 |
20140338859 | COOLING TRAY - A cooling tray includes a container, springs placed within the container to exerting a vertical thrust, a platform residing within the container and coupled to each spring, and a bowl for residing above the container. When ice is placed on the platform, the plurality of springs are each compressed such that the cooling material contacts an undersurface of the bowl. As the ice melts, the water flows below the platform, and the springs decompress and maintain the remaining ice in contact with the undersurface of the bowl. In this manner, food that requires refrigeration may be served from the portable cooling tray at the appropriate temperature. A formed ice block may be used to impart greater and more efficient cooling as a greater surface area of the ice contacts the undersurface of the bowl. The bowl may be of aluminum to further increase the efficiency. | 11-20-2014 |
20150013938 | SUPPORTING MEMBER AND SUBSTRATE PROCESSING APPARATUS - A supporting member is configured to support at least one pipe connecting a temperature adjusting unit with a substrate processing apparatus, wherein the temperature adjusting unit adjusts a temperature of an arbitrary component of the substrate processing apparatus, wherein an inside of the supporting member includes a hollow portion and the at least one pipe is arranged in the hollow portion. | 01-15-2015 |
20150027662 | CLIMATE SYSTEM - The invention relates to a climate system comprising at least one latent heat storage heat exchanger assembly, said latent heat storage heat exchanger assembly comprising: —a channel part having an inlet end with a flow cross sectional A1, an outlet end a flow cross sectional area A2, and said inlet end defining an incoming air direction; —at least one latent heat storage heat exchanger comprising a plurality of plate shaped PCM units that comprise a container holding PCM, said PCM units positioned parallel at a spacing d behind one another; —a frame unit providing a support plane for holding said at least one latent heat storage heat ex changer in said channel part, said frame unit mounted with said support plane at an angle β between 5 and 45 degrees with respect to the incoming air direction. | 01-29-2015 |
20150041101 | OUTDOOR UNIT OF REFRIGERATION APPARATUS - An outdoor unit a refrigeration apparatus includes an aluminum or aluminum alloy heat exchanger, an aluminum or aluminum alloy bracket having a securing portion attached directly to the heat exchanger and a fixing portion with a through hole used to fix the bracket to a non-aluminum metal structural part, a non-metal component interposed between the fixing portion of the bracket and the structural part to create a non-contact state, a non-aluminum metal anchoring part, and an anchored structure cooperating with the anchoring part to fasten a fixing portion of the bracket to the structural part via the non-metal component. The anchoring part has an outer shape smaller than the through hole in the fixing portion. The non-metal component maintains, in astute in which the anchoring part is passing through the through hole in the fixing portion, a non-contact state between the bracket and the anchoring part. | 02-12-2015 |
20150047808 | HEAT EXCHANGER MOUNTING STRUCTURE - A heat exchanger mounting structure is provided with a bracket, a load supporting section, a fitting member, and a contact section. The bracket is provided to one of a first heat exchanger and a second heat exchanger. The load supporting section is provided to the other heat exchanger to which the bracket is not provided, and supports a load transmitted from the one of the first heat exchanger and the second heat exchanger. The fitting member is provided to the one of the first heat exchanger and the second heat exchanger, to which the bracket is provided, and is fitted over the load supporting section. The contact section is in contact with at least a part of the upper portion of the bracket. | 02-19-2015 |
20150083364 | APPARATUS AND METHOD OF HEATING PLASTICS MATERIAL PRE-FORMS WITH SIMULTANEOUS MOUNTING OR REMOVAL RESPECTIVELY OF HEATING ELEMENTS AND SCREENING ELEMENTS - An apparatus for heating plastics material pre-forms includes a conveying device which conveys the plastics material pre-forms along a pre-set conveying path (P). A plurality of holding elements for holding the plastics material pre-forms and a plurality of screening elements for screening off heat are arranged on the conveying device. The apparatus has a plurality of carrier units on which at least parts of the holding elements and at least parts of the screening elements are arranged and these carrier units are capable of being removed from the conveying device jointly with the parts of the holding elements and screening elements which are arranged thereon. | 03-26-2015 |
20150101780 | HEAT EXCHANGER FOR POWER SYSTEM - The present disclosure provides a heat exchanger for a power system. The heat exchanger includes a housing. The housing includes a first side and a second side. The second side is configured to be received in a receptacle of a power system enclosure. The heat exchanger includes at-least one heat exchange tube supported between one or more of side walls of the housing. The heat exchanger includes a screen attached to the second side of the housing. The screen includes at-least one inlet opening for the heat exchange tube, and at-least one outlet opening for the heat exchange tube. The heat exchanger further includes a flange attached to the first side of the housing wherein the flange is configured to be removably attached to an outer surface around the receptacle of the power system enclosure. | 04-16-2015 |
20150122455 | HEAT EXCHANGER WITH ALUMINUM TUBES ROLLED INTO AN ALUMINUM TUBE SUPPORT - Heat exchangers and methods for assembling a heat exchanger are described, such as for example a round tube heat exchanger, which may be a fin and tube heat exchanger, and which may be used for example in a heating, ventilation, and air conditioning system (HVAC) system and/or unit thereof. The heat exchanger includes aluminum tubes mechanically rolled into an aluminum tube support and the tubes are fluidically sealed with the tube support. The aluminum tube support including the aluminum tubes rolled therein is assembled to a fluid manifold configured to allow fluid flow through the heat exchanger and into and/or out of the heat exchanger. | 05-07-2015 |
20150122456 | HEAT DISSIPATION DEVICE AND METHOD OF MANUFACTURING SAME - A heat dissipation device includes a mounting bracket and a thermal module. The mounting bracket has at least one retaining hole and a mounting section, and the thermal module includes a plurality of radiating fins, to which the mounting bracket is connected. On the radiating fins, at least one engaging zone is provided for correspondingly engaging with the mounting bracket, and at least one locking portion is formed for correspondingly engaging with the retaining hole. With the above structural design, the mounting bracket can be more firmly and stably connected to the thermal module and be more accurately located on the radiating fins without the need of welding, so that the manufacturing cost for welding is saved. A method of manufacturing the heat dissipation device is also disclosed. | 05-07-2015 |
20150129164 | HEAT EXCHANGER WITH ADAPTER MODULE - A heat exchanger module adapted for being mounted directly to the outer surface of the housing of an automobile system component, such as a transmission or engine housing, is provided. The heat exchanger module comprises a heat exchanger fixedly attached to an adapter module. The adapter module contains one of more fluid transfer channels, interface connectors, seals and mounting holes for screws and/or bolts. In one exemplary embodiment, the adapter module is comprised of an adapter plate that is sealed with one or more shim plates, the shim plates also providing a brazing surface for brazing the adapter module directly to the heat exchanger, the heat exchanger therefore being attached to the adapter module without the use of a base plate. | 05-14-2015 |
20150129165 | PIXILATED COOLING, TEMPERATURE CONTROLLED SUBSTRATE SUPPORT ASSEMBLY - Implementations described herein provide a pixelated substrate support assembly which enables both lateral and azimuthal tuning of the heat transfer between an electrostatic chuck and a cooling base comprising the substrate support assembly, which in turn, allows both lateral and azimuthal tuning of a substrate processed on the substrate support assembly. A processing chamber having a pixelated substrate support assembly and method for processing a substrate using a pixelated substrate support assembly are also provided. | 05-14-2015 |
20150308758 | SYSTEMS AND METHODS FOR HEAT SHIELD ASSEMBLIES - Systems and methods disclosed herein may be useful for aircraft heat shield assemblies. In this regard, a heat shield assembly is provided comprising a heat shield having an aperture, the aperture comprising an end portion and an insertion portion, the insertion portion having a width larger than the end portion, a spacer comprising an upper portion, an undermount flange and a gap between the upper portion and the undermount flange, wherein a surface of the gap is engaged with the heat shield, and wherein the undermount flange has a width less than the insertion portion of the aperture and greater than the width of the end portion. | 10-29-2015 |
20150328978 | RADIATOR SUPPORT BRACKET ASSEMBLY - A radiator comprising a radiator support bracket assembly is disclosed. The radiator has a core that is contained within a shell having two opposed longitudinal members and two opposed transverse members. The support bracket assembly comprises a bracket member and at least one of the longitudinal members that forms part of the shell. The longitudinal member has a length and a width sufficient to accommodate at least one side of a radiator assembly. The bracket member attaches at one end to the longitudinal member and is adapted to overfit internal coolant tubes of the radiator's core. The bracket member has a planar back and two opposed side members. The bracket member is equipped with at least one aperture along its planar back that is complementary to at least one coolant tube to permit insertion of the bracket member over the coolant tube such that the tube extends through the aperture. | 11-19-2015 |
20160033210 | SUPPORT FOR A HEAT EXCHANGER TUBE BUNDLE - There is provided a support for supporting a bundle of exchanger tubes that has plurality of tubes and support plates that engage and support the plurality of tubes. The support has a cradle with a plurality of support surfaces spaced along the length of the cradle to support the bundle of exchanger tubes, a carriage that is movably mounted to a track extending along the length of the cradle such that the carriage traverses at least a portion of the cradle as it moves along the track. The carriage has a receiver portion that moves along the cradle above the support surface and is sized to receive a support plate of the bundle of exchanger tubes, and one or more lifts positioned along the cradle length, the lifts moving vertically between an extended position above the carriage relative to the cradle and a refracted position below the support surfaces. | 02-04-2016 |
20160146550 | HEAT EXCHANGER PLENUM APPARATUS - A heat exchanger plenum apparatus comprising structure to support, among other components, an engine silencer substantially incorporated therein. | 05-26-2016 |
20160187074 | SUPPORTING STRUCTURE FOR VAPOR CHAMBER - A supporting structure for vapor chamber includes a first and a second plate member, a supporting member, and a working fluid. The first and the second plate member together define a chamber between them. The supporting member is located in the chamber, and has at least one base portion and a plurality of supporting portions, such that a plurality of passages is formed on the supporting member. The working fluid is filled in the chamber to flow through the passages. With these arrangements, the supporting structure for vapor chamber can overcome the problems of deformation caused by thermal expansion or pressure and uncontrollable bottom flatness as found in the prior art and can be manufactured at reduced labor and time cost while provides upgraded heat transfer efficiency. | 06-30-2016 |
20160187075 | HEAT EXCHANGE UNITS - A heat exchange unit that includes a plurality of heat exchange components and a heat exchange support assembly is provided. The heat exchange support assembly includes a first non-metallic shell, a second non-metallic shell configured to cooperate with the first non-metallic shell to form the heat exchange support assembly, and a plurality of cavities defined by the first and second non-metallic shells for securing the heat exchange components respectively. | 06-30-2016 |
20190145719 | EXCHANGER FRAME AND CORE ASSEMBLY OF A MOTOR VEHICLE AND METHODS OF USE THEREOF | 05-16-2019 |