COOLER MASTER CO., LTD. Patent applications |
Patent application number | Title | Published |
20140345832 | PLATE-TYPE HEAT PIPE - A plate-type heat pipe includes a first main body, a capillary structure and a support structure. The first main body has a first face and a second face. The capillary structure is disposed on the first face and the support structure is disposed on the side of the capillary structure opposite to the first main body. When pressing the first main body, capillary structure and support structure, the layers are tightly connected. | 11-27-2014 |
20140345831 | PLATE-TYPE HEAT PIPE AND METHOD OF MANUFACTURING THE SAME - A plate-type heat pipe includes a first plate, a capillary structure and a support structure. The first plate, the capillary structure and the support structure are arranged in sequence, and the first plate, the capillary structure and the support structure are tightly connected by pressing. A method of manufacturing a plate-type heat pipe is also discussed. | 11-27-2014 |
20140328009 | PORTABLE POWER SUPPLY DEVICE - A portable power supply device includes a power casing, a power module, a first rotating member and a first electric connector. The power module is disposed in the power casing, wherein the power module at least includes a battery unit and a charge/discharge unit. The first rotating member is pivotally connected to a first end of the power casing. The first electric connector is disposed on the first rotating member and electrically connected to the power module. The first rotating member is capable of rotating with respect to the power casing, so as to orientate the first electric connector in a first direction or a second direction. | 11-06-2014 |
20140290917 | HEAT DISSIPATING PAD - A heat dissipating pad includes a pad body and a fan. The pad body has a hollow accommodating recess and a first fixing structure disposed on a side of the hollow accommodating recess. The fan includes a fan frame. The fan frame is detachably disposed in the hollow accommodating recess and has a second fixing structure. When the fan frame is disposed at a predetermined position in the hollow accommodating recess, the first fixing structure and the second fixing structure are fixed with each other so as to prevent the fan frame from coming off the hollow accommodating recess. | 10-02-2014 |
20140290426 | HANDHELD OPERATION DEVICE - A handheld operation device includes a casing, a plurality of counterweight blocks and a counterweight module. The counterweight module is disposed on the casing. The counterweight module includes a base and a block plate. The block plate covers the base. One of the base and the block plate is capable of rotating with respect to the casing. The base has a plurality of accommodating recesses. The block plate has a broken hole formed thereon. One of the accommodating recesses is exposed in the broken hole such that one of the counterweight blocks is capable of passing through the broken hole and then being disposed in the accommodating recess. | 10-02-2014 |
20140238644 | HEAT DISSIPATING DEVICE AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a heat dissipating device includes steps of providing a base, wherein the base includes a clamping portion, a supporting portion and two side portions, the clamping portion is arc-shaped, a first recess structure is formed on an outer surface toward an inner surface of each side portion, the two side portions connect the clamping portion and the supporting portion, and an accommodating space is formed between the clamping portion, the supporting portion and the two side portions; disposing a first end of a heat pipe in the accommodating space, wherein the first end is supported on the supporting portion; and punching the clamping portion toward the supporting portion such that the clamping portion cooperates with the supporting portion to clamp the first end in a tight-fitting manner, wherein the clamping portion is capable of deforming through the first recess structure during punch processing. | 08-28-2014 |
20140181330 | METHOD, SYSTEM FOR CONFIGURING PERIPHERALS, AND A COMPUTER-READABLE MEDIUM - Disclosure herein is related to a method and a system for configuring peripherals. In accordance with one embodiment of the invention, the system mainly includes a computer system and one or more peripheral devices connected with the computer system. With the software in the computer system, a user is allowed to configure one or more profiles. The profiles stored in each peripheral device are downloaded from the computer system. The profile records the settings of controlled items of every peripheral device. A switching mechanism configured in the peripheral device allows the computer system to configure the peripheral devices to meet a specific operational environment according to the selected profile. For implementing the invention, the peripheral device is mounted with a profile button used for switching the profiles, a command button for switching the item-to-be-controlled, and a tuning button for detail tuning. | 06-26-2014 |
20140174700 | VAPOR CHAMBER AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a vapor chamber includes steps of: providing a first metal cover plate with a plurality of first engaging recesses, a second metal cover plate with a plurality of second engaging recesses, and a plurality of support members, wherein a width of a first end of each support member is larger than a width of each first engaging recess, and a width of a second end of each support member is larger than a width of each second engaging recess; making the first end abut against the first engaging recess and making the second end abut against the second engaging recess; and punching the first metal cover plate and the second metal cover plate so as to rivet the first end into the first engaging recess in a tight-fitting manner and rivet the second end into the second engaging recess in a tight-fitting manner. | 06-26-2014 |
20140166243 | VAPOR CHAMBER AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a vapor chamber includes steps of: attaching a first edge of a first metal cover plate to a second edge of a second metal cover plate; placing the first metal cover plate and the second metal cover plate on a die after attachment; and using a punch head to punch the first edge and the second edge in a direction toward the die so as to seal the first edge and the second edge. | 06-19-2014 |
20140147282 | FAN STRUCTURE - A fan structure includes a hub and at least one set of blades connected to and extending away from the hub, each of the blades having a plurality of steps with a height difference formed away from the periphery of the hub, the height of the inside one of the steps higher than that of the outside one of the steps, thereby providing a disturbed flow-guiding effect so as to enhance the air pressure and the air flow of the wind flow field. | 05-29-2014 |
20140147260 | HEAT DISSIPATING FAN - A heat dissipating fan includes a stator and a rotor. The stator includes a bearing and a winding structure, wherein the bearing is disposed in the winding structure. The rotor includes a fan wheel, a ring-shaped casing and a magnetic member, wherein the ring-shaped casing is disposed in the fan wheel and the magnetic member is disposed in the ring-shaped casing. The fan wheel has an axle inserted into the bearing such that the winding structure is located within the magnetic member. At least one protruding portion protrudes from one side of the ring-shaped casing inwardly and is extended below the winding structure so as to hold the magnetic member and interfere with the winding structure. | 05-29-2014 |
20140111913 | PROTECTION STRUCTURE APPLIED TO A HAND-HELD ELECTRONIC DEVICE - A protection structure applied to a hand-held electronic device includes a protection unit and a connection unit. The protection unit includes at least one first protection frame and at least one second protection frame, and the hand-held electronic device is placed between the first protection frame and the second protection frame. The connection unit includes at least one connection element slidably disposed between the first protection frame and the second protection frame. Therefore, the first protection frame and the second protection frame can be firmly positioned on a front surrounding edge and a rear surrounding edge of the hand-held electronic device for protecting the hand-held electronic device through the connection element. | 04-24-2014 |
20130233518 | FLAT HEAP PIPE STRUCTURE - The instant disclosure relates to a flat heat pipe structure, which includes a flat tubing and a support member. The flat tubing has two opposed main walls and two opposed connecting walls connected thereto. The main and connecting walls cooperatively define an internal space. The inner surfaces of the flat tubing are covered with a capillary structure. The support member is disposed in the internal space of the flat tubing and has at least one support arm. The support arm extends in the longitudinal direction of the flat tubing. The support arm has two opposed surfaces abutting to the capillary structure of the main walls. | 09-12-2013 |
20130181106 | FOLDABLE SUPPORTING BRACKET FOR PORTABLE ELECTRONIC APPARATUS - A foldable supporting bracket for a portable electronic apparatus includes a supporting arm, a holding element, and two load-bearing bars. The supporting arm has a first pivot shaft at one terminal thereof and the holding element has a second pivot shaft at one terminal thereof. The two load-bearing bars are separated to each other and pivotally arranged between the first pivot shaft and the second pivot shaft to form a hollow containing region. The supporting arm and the holding element are pivotally connected to the two load-bearing bars via the first pivot shaft and the second pivot shat, respectively, so that the supporting arm and the holding element are flipped toward the hollow containing region. Accordingly, the supporting arm and the holding element are folded in the hollow containing region and then levelly arranged to the two load-bearing bars, thus reducing occupied space and increasing carry convenience. | 07-18-2013 |
20130180688 | HEAT-DISSIPATING MODULE AND METHOD FOR MANUFACTURING THE SAME - In a heat-dissipating module and a method for manufacturing the same, a hollow aluminum tube is put on a corresponding heat pipe to form an aluminum-skinned heat pipe. Then, one or more aluminum-skinned heat pipes are disposed in a casting space of a die casting mold. Fins are disposed into the die casting mold. Molten aluminum materials are filled in the casting space of the die casting mold to form a heat-dissipating module. By using a die casting process, molten aluminum materials are used to cover at least one aluminum-skinned heat pipe and connect with the fins, thereby finishing the heat-dissipating module. | 07-18-2013 |
20130175007 | HEAT-CONDUCTING MODULE AND METHOD FOR MANUFACTURING THE SAME - The present invention relates to a heat-conducting module and a method for manufacturing the same. A hollow aluminum tube ( | 07-11-2013 |
20130153190 | HEAT SINK - A heat sink for dissipating heat of a heat-generating element on a circuit board includes a base, a linear fastener and a heat-dissipating fin set. The linear fastener includes a fixing section disposed on the base and an engaging section extending from the fixing section. The engaging section extends out of the base to be fixed on the circuit board. The heat-dissipation fin set is combined on the base and has stamped fins. The bottom of a portion of the stamped fins is provided with a receiving means at a position corresponding to the fixing section. The fixing section is disposed in the receiving means and clamped between the heat-dissipation fin set and the base. The linear fastener is used to combine the heat-dissipating fin set on the circuit board to increase the heat-dissipating efficiency of the heat sink to the heat-generating element. | 06-20-2013 |
20130153175 | HEAT SINK HAVING HEAT PIPE PROTECTION MECHANISM - A heat sink having a heat pipe protection mechanism includes a heat pipe, a metallic sleeve and a plurality of heat-dissipating fins. The heat pipe has an evaporating section and a condensing section. The evaporating section is combined with a heat-dissipating base. The metallic sleeve has a closed end and an open end opposite to the closed end. The condensing section is disposed through the open end of the metallic sleeve. Each of the heat-dissipating fins has a through-hole corresponding to the heat pipe. The metallic sleeve having the condensing section disposed therein is fitted in the through-hole. By this arrangement, the condensing section is completely separated from the outside, so that the heat pipe can be protected from suffering damage due to external impacts or getting rusty. Thus, the lifetime of the heat pipe is maintained, and the frequency of repairing the heat sink is reduced. | 06-20-2013 |
20130118717 | HEAT-DISSIPATING DEVICE AND METHOD FOR FABRICATING THE SAME - A heat-dissipating device includes a plurality of fin plates arranged adjacently to each other, a heat pipe and a cover board. Each fin plate has at least two fixing tabs protruded from a top edge thereof, and a supporting portion formed between the fixing tabs. An accommodating space is defined between the supporting portion and the fixing tabs. The heat pipe has a portion disposed in the accommodating space. The cover board is formed with a plurality of slits corresponding to the fixing tabs. The fixing tabs pass through the slits and fixed to the cover board. | 05-16-2013 |
20130114251 | ILLIMINANT DEVICE AND MANUFACTURING METHOD OF LAMP HOLDER - An illuminant device includes at least an illuminant element and a lamp holder including a housing, a metal core printed circuit board (MCPCB) and a power-driving unit. The housing includes a first side and a second side opposite to the first side. The MCPCB is disposed on the first side of the housing and includes a base and a plurality of extending parts extended from the circumference of base in a bending forming manner and spaced from each other. The base has a plurality of holes, the extending parts are embedded within the housing, and the illuminant element is mounted on the base. The power-driving unit includes a circuit board, and a first end of the circuit board has a plurality of posts. The posts are respectively penetrated the holes and electrically connected to the MCPCB. In addition, a manufacturing method of the lamp holder is disclosed. | 05-09-2013 |
20130105131 | FLATTENED HEAT PIPE | 05-02-2013 |
20130105112 | HEAT SINK | 05-02-2013 |
20130088880 | LED LIGHTING DEVICE - A lighting device includes a seat having a first end and a second end opposite the first side, a top surface being formed at the first end; a light source unit installed on the top surface; and a contact cap connected to the second end. The light source further includes a metal core printed circuit board (MCPCB) having a base portion and a plurality of first extension portions extended from and bent along an edge of the base portion to be embedded in the seat, and at least one light emitting diode (LED) disposed on the base portion. The lighting device has the advantages of light weight, simple manufacturing and excellent heat-dissipating ability | 04-11-2013 |
20130077320 | OPTICAL LENS AND ILLUMINANT DEVICE USING THE SAME - An optical lens having an optical axis includes a main body. The main body includes a light-incident part, a first light-emitting part and a second light-emitting part. The light-incident part includes a bottom surface and a reflecting surface. The bottom surface has a recess. The reflecting surface is physically connected to the bottom surface and the distance located between the reflecting surface and the optical axis is increased when the reflecting surface is gradually close to the bottom surface. The first light emitting-part is physically connected to the reflecting surface and has a top surface. The top surface is gradually close to the bottom surface when the top surface is close to the optical axis. The second light-emitting surface is physically connected to the top surface and substantially located above the recess. | 03-28-2013 |
20130048249 | HEAT PIPE MANUFACTURING METHOD AND HEAT PIPE THEREOF - A heat pipe includes a step pipe and a sintered powder structure. The inner wall of the step pipe has a plurality of grooves. The step pipe has an evaporating section and two condensing sections. The condensing sections are on the two ends of the step pipe, respectively. The evaporating section lies between the two condensing sections. The inner spaces of the two condensing sections and the evaporating section are interconnected. The peripheral dimension of the evaporating section is larger than the peripheral dimension of each of the condensing sections. The sintered powder structure is bounded inside each of the condensing sections, improving the heat pipe's inner air flow rate and heat conduction efficiency. | 02-28-2013 |
20130048248 | HEAT PIPE MANUFACTURING METHOD AND HEAT PIPE THEREOF - A heat pipe includes a step pipe, a mesh, and a supporting component. The step pipe has an evaporating section and two condensing sections. The condensing sections are on the two ends of the step pipe, respectively. The evaporating section lies between the two condensing sections. The inner spaces of the two condensing sections and the evaporating section are interconnected. The peripheral dimension of the evaporating section is larger than the peripheral dimension of each of the condensing sections. The mesh is contained in the step pipe and located inside the evaporating section. The supporting component is contained in the step pipe and wrapped in the mesh. The combination of these structures increases air's flow rate inside the heat pipe and improves the heat pipe's heat conduction efficiency. | 02-28-2013 |
20130048247 | HEAT PIPE MANUFACTURING METHOD AND HEAT PIPE THEREOF - A heat pipe includes a step pipe, a mesh, and a supporting component. The step pipe has an evaporating section and two condensing sections. The condensing sections are on the two ends of the step pipe, respectively. The evaporating section lies between the two condensing sections. The inner spaces of the two condensing sections and the evaporating section are interconnected. The peripheral dimension of the evaporating section is larger than the peripheral dimension of each of the condensing sections. The mesh is contained in the step pipe and located inside the evaporating section and the condensing sections. The supporting component is contained in the step pipe and wrapped in the mesh. The combination of these structures increases air's flow rate inside the heat pipe and improves the heat pipe's heat conduction efficiency. | 02-28-2013 |
20130037242 | THIN-TYPE HEAT PIPE STRUCTURE - A thin-type heat pipe structure includes a flat pipe, a second capillary structure, a third capillary structure, and a working fluid. The flat pipe has two boards and a containing chamber. A first capillary structure is set on the inner surface of the boards. The second capillary structure is contained in the containing chamber and covers a part of the first capillary structure. The third capillary structure is a stripe, contained in the containing chamber and clipped between the second capillary structure and another part of the first capillary structure. The working fluid is filled in the containing chamber. The overall design speeds up inner air's outflow and inner liquid's backflow. | 02-14-2013 |
20130037241 | HEAT PIPE WITH UNEQUAL CROSS-SECTIONS - The heat pipe of the invention includes an evaporation section and two condensation sections. The evaporation section is located at a part of the heat pipe. The two condensation sections are separately located at two opposite sides of the evaporation section. The evaporation section and the two condensation sections communicate with each other, and a peripheral size of the evaporation section is larger than that of each of the condensation sections. | 02-14-2013 |
20130025830 | HEAT SINK ASSEMBLY OF FIN MODULE AND HEAT PIPES - A heat sink assembly includes a fin module, heat pipes, and a pair of side plates. The fin module is composed of a plurality of fins and has a flat side formed with a trough and two recesses. Each of the heat pipes has an evaporation section. The evaporation sections are parallelly accommodated in the trough and in contact with each other. The side plates are separately fixed in the recesses and protrude from the flat side. The evaporation sections are formed with a flat surface coplanar with the side plates. By this arrangement, the thermal contact area between the heat pipes and a heat source is increased to thereby improve the heat-dissipating efficiency of the heat sink assembly. | 01-31-2013 |
20130024770 | APPARATUS AND METHOD CAPABLE OF OUTPUTTING SPATIAL INFORMATION OF DEVICE COMPONENT - An apparatus that is capable of outputting spatial information of a device component is disclosed. The apparatus includes a storage unit, a processing unit, and an output unit. The storage unit stores a component model file. The processing unit receives an accessing command which includes a reference data of the device component. The processing unit reads the component model file corresponding to the reference data according to the accessing command, and the component model file is then outputted by the output unit. Specifically, the outputted component model file includes a two-dimensional (2D) paper-based image file, which could be folded into a corresponding three-dimensional (3D) model. It is worth noting that the size of 3D model is substantially equal to the actual size of the device component represented by the 3D model. | 01-24-2013 |
20120319475 | CONNECTION BASE AND ELECTRIC POWER INTEGRATION APPARATUS HAVING THE SAME - A connection base is disclosed. The connection base includes a first connection port, a second connection port, a charging unit, a first electric power conversion unit, and a second electric power conversion unit. The first electric power conversion unit is for converting an input voltage to a first output voltage, and for transmitting the first output voltage to the charging unit. The charging unit is for receiving the first output voltage and outputting a charging voltage, in order to charge the electric power bank device which is detachably connected to the first connection port. The second electric power conversion unit is for receiving and converting a second output voltage of the electric power bank device to a supply voltage, and sending the supply voltage to the inverter which is detachably connected to the second connection port. | 12-20-2012 |
20120318480 | HEAT SINK HAVING JUXTAPOSED HEAT PIPES AND METHOD FOR MANUFACTURING THE SAME - The present invention relates to a heat sink having juxtaposed heat pipes and a method for manufacturing the same. The heat sink includes a base, a plurality of heat pipes and a pair of side strips. The base has a surface on which an open trough and an insertion trough on both sides of the open trough are provided. Each heat pipe has an evaporating section. The evaporating sections are juxtaposed in the open trough and adhered to each other. Each evaporating section has a planar surface. The side strips are fixed into the insertion troughs and protrude from the surface of the base. The planar surface of each evaporating section and the outer surface of each side strip are coplanar. By this structure, the thermal contact surface between the heat pipes and electronic heat-generating sources is increased, so that the heat-dissipating efficiency of the heat sink is improved. | 12-20-2012 |
20120274252 | FAN MOTOR CONTROL DEVICE - A fan motor control device for controlling the soft start of a fan motor is disclosed. The fan motor control device comprises a converter, a starting capacitor, and a controller. The converter sends out a control signal to the controller based on an input pulse-width modulation signal. The starting capacitor is coupled between a voltage source terminal and a controlled terminal of the controller. Thereby, based on an input voltage to the controlled terminal, the controller controls the soft start of the fan motor. For the soft start period, the magnitude of the input voltage is determined by the base working voltage outputted via the voltage source terminal. While for normal operation, based on the input voltage to the controlled terminal, the controller controls the speed of the fan motor, with the magnitude of the input voltage determined by the control voltage outputted by the converter. | 11-01-2012 |
20110168359 | HEAT-DISSIPATING PLATE - A heat-dissipating plate includes a casing and partition insert. The casing has surrounding walls with wick structures therein, and the inner surface of the walls defines a receiving compartment. The partition is disposed in the receiving compartment. The partition has a plurality of hole, a plurality of flanges protruding from an edge of the holes respectively. Each of flanges has a plurality of arc-shaped flange-rim extending outward to support the inner surface of the surrounding wall. | 07-14-2011 |
20110132578 | HEAT-DISSIPATING PLATE - A heat-dissipating plate has a casing and a supporting structure, where the casing has surrounding walls to define a receiving compartment therein confined by an inner wall. The inner wall is integrated with a capillary structure. Disposed inside the receiving compartment, the supporting structure includes a meshed partition and a plurality of columns. The meshed partition has a plurality of holes and joined-openings. The columns are fixed in the joined-openings and abut against the inner surface of the walls. The associated manufacturing process for the heat-dissipating plate is easily to accomplish. | 06-09-2011 |
20100301182 | RETAINING DEVICE FOR HEAT-DISSIPATING APPARATUS - A retaining device for a heat-dissipating apparatus includes a first and second members, a retaining module and four retaining elements. The first member has at least one positioned slot formed at two ends thereof, a through hole formed at a centre thereof, and at least one locking pin adjacent to the through hole. The second member has at least one positioned slot formed at two ends thereof, a through hole formed at a centre thereof and at least one first fixing and second fixing holes formed around the through hole. The locking pin wedges in the first fixing hole. The retaining module is inserted in the through holes of the first and second members for fixing. The four retaining elements insert in the positioned slots of the first and the second members. The present invention can be adjustable in configuration and scale to fit for different mounting holes. | 12-02-2010 |
20100264293 | FAN-FIXING DEVICE - A fan-fixing device for fixing a fan on an installation panel which has a plurality of holes includes a body, a driving part and an elastic assembly. The body has a fixing portion for fixing the fan, at least one track is formed on a side thereof, and at least one first combined part is disposed on an opposite side thereof, wherein the combined part penetrates at least one of the holes. The driving part slidably disposed on the track. The driving part further has at least one second combined part, which penetrates at least another one of the holes. The elastic assembly is arranged between the body and the driving part. As a result, the first combined part and the second combined part can be fixed in the holes via force pushing the driving part, and can be departed from the holes via releasing the force. | 10-21-2010 |
20100164348 | LED LAMP ASSEMBLY - A LED lamp assembly is disclosed. The LED lamp assembly includes a heat radiator, a base body and a cover body. The base body is located on one end of the heat radiator and the cover body is located on the other end of the heat radiator. The base body has a plurality of first engaging parts, each of which is associated with a first engaging portion. The cover body has a plurality of second engaging parts, each of which is associated with a second engaging portion. The first engaging portion is configured to correspond to and engage with the second engaging portion so as to sandwich the heat radiator between the base body and the cover body. | 07-01-2010 |
20100139950 | SUPPORTING AND WIRE-RECEIVING MECHANISM OF POWER ADAPTER - A supporting and wire-receiving mechanism is used in a power adapter. The power adapter includes a main body and a power wire. The supporting and wire-receiving mechanism includes a supporting member, a base and a wire-receiving member. The supporting member has a supporting receptacle for accommodating a main body of the power adapter, thereby supporting the power adapter. The base is arranged beside the supporting member. The wire-receiving member is arranged between the base and the supporting member such that a wire-receiving receptacle is defined between the wire-receiving member, the base and the supporting member. Both ends of the wire-receiving member are respectively connected with the base and the supporting member. The power wire is wound around the wire-receiving member and received in the wire-receiving receptacle. | 06-10-2010 |
20100061046 | COMPUTER CASE HAVING DETACHABLE CONTROL PANEL - A computer case includes a housing and a control panel. The housing includes a first connector. The control panel is detachably connected with a side of the housing. The control panel includes a second connector corresponding to the first connector. When the control panel is connected with the housing, the second connector is electrically connected with the first connector and the control panel is enabled for implementing associated operations. Whereas, when the control panel is detached from the housing, the control panel is disabled but has a burglarproof function | 03-11-2010 |
20090295268 | LAMP ASSEMBLY - A lamp assembly includes a lamp body, a light emitting module and a joint. The lamp body has a housing which has a supporting portion formed on one end thereof, and the supporting portion has a hatch defined therein. The light emitting module includes a circuit board disposed in the supporting portion and electrically connected with a first electrode and a second electrode, wherein the first electrode passes through the hatch and is located on an outer surface of the supporting portion. The joint includes a metal shell, an insulator formed over the metal shell and a conducting plane disposed over the insulator. The metal shell and the supporting portion are combined with each other so that the metal shell is electrically connected with the first electrode and the second electrode is electrically connected with the conducting plane. | 12-03-2009 |
20090135552 | HEAT DISSIPATING DEVICE AND HEAT SINK FASTENER - A heat dissipating device is disclosed. The heat dissipating device comprises a heat dissipating base, a frame and at least one resilient member. The heat dissipating base has a plate, and at least one hole is formed on the plate. The frame has at least one protruding column, and at least one side of the frame has a protrusion. The resilient member is put on the protruding column correspondingly. When the frame buckles an edge of the plate by the protrusion and be put on the heat dissipating base, the protruding column can pass through the hole on the plate to make the frame elastically associate with the heat dissipating base through the resilient member. Thus, the heat dissipating device makes the heat dissipating base keep closer contact with a chip, balances internal stresses, prevents hestsinks design from being restricted, and further lowers cost. | 05-28-2009 |
20090025434 | Buckling assembly and casing structure using the same - A buckling assembly and a casing structure using the same are described. The buckling assembly is used for fixedly locking a buckled member which may be a panel or a casing. The buckling assembly includes a guide rail, a locking seat, and a rotary handle. The guide rail is fixed on an inner side of the casing or the panel. The locking seat is slidably disposed on the guide rail for locking the buckled member. The rotary handle is pivotally affixed to the guide rail and is turned to drive the locking seat move on the guide rail, so as to lock or release the buckled member. | 01-29-2009 |
20090009969 | HEAT-DISSIPATING CASING STRUCTURE - A heat-dissipating casing structure includes a base seat, a heat-dissipating module, and a casing. The heat-dissipating module is disposed on the base seat. The heat-dissipating module has a first heat-conducting block and a heat pipe, and one side of the heat pipe connects to the first heat-conducting block. The casing has an installed portion, and the casing is slidably assembled on the base seat for connecting the other side of the heat pipe with the casing via the installed portion. When the casing is slidably assembled on the base seat, the heat pipe is connected with the casing via the installed portion. Hence, the heat-dissipating module is assembled and replaced easily and rapidly. Moreover, the heat from a heat-generating element on the base seat is transmitted to the casing through the heat pipe for increasing heat-dissipating efficiency. | 01-08-2009 |
20080308257 | Heat dissipating assembly - A heat dissipating assembly for dissipating heat of a heat source is provided. The heat dissipating assembly includes a body, at least one circulation pipe, and a working fluid. The body has a chamber defined therein and least one pipeline formed in a wall of the body. The body further has at least one first orifice in communication with the chamber of the body, and at least one second orifice in communication with the pipeline. The circulation pipe has two end portions respectively connected to the first orifice and the second orifice. The working fluid is accommodated in the chamber of the body, wherein the working fluid flows into the circulation pipe through the first orifice, and flows into the pipeline through the second orifice to flow back to the chamber of the body, thereby forming a two phase circulation loop. | 12-18-2008 |
20080298928 | Screwless fixing assembly - A screwless fixing assembly disposed on a frame is provided, which includes a fixed member, a movable member, an elastic member, and a positioning device. The fixed member is fixed on the frame and has an opening form thereon. The movable member is movably disposed to the fixed member and has a pin to pass through a through hole of the frame. The elastic member is provided for pushing the movable member to move away from the frame. The positioning device is disposed on the movable member and protrudes on the fixed member through the opening, for being selectively engaged with the fixed member at a first position and a second position, so as to move the pin to leave or inserted into the through hole. An electronic device is fixed on the other side of the frame by the pin passing through the through hole. | 12-04-2008 |