Patent application number | Description | Published |
20090025906 | COOLER DEVICE - A cooler device includes a metal base member and a plurality of metal radiation fins. The metal base member has parallel locating grooves; the metal radiation fins are fastened to one another in a stack by respective hooked portions thereof or by means of closed-end heat tubes, the metal radiation fins each having backwardly curved and crimped bottom mounting portions respectively fitted into the locating grooves of the metal base and fixedly secured thereto by means of compacting the locating grooves of the metal base member without electroplating or using solder paste or bonding means. | 01-29-2009 |
20090025909 | COOLER MODULE - A non-welding cooler module includes a heat sink formed of a stack of radiation fins, a base block tightly fitted into the bottom side of the heat sink, heat pipes tightly inserted through the radiation fins and partially fitted into respective bottom open grooves of the base block with a respective flat wall portion thereof kept in flush with the bottom wall of the base block, and a thermal pad affixed to the bottom wall of the base block to hold down the heat pipes in the bottom open grooves of the base block for transferring heat energy from an external electronic chip to the heat pipes and the heat sink for quick dissipation. | 01-29-2009 |
20090032221 | COOLER DEVICE - A cooler device includes a metal base member and a plurality of metal radiation fins. The metal base member has parallel locating grooves; the metal radiation fins are fastened to one another in a stack by respective hooked portions thereof, the metal radiation fins each having backwardly curved and crimped bottom mounting portions respectively fitted into the locating grooves of the metal base and fixedly secured thereto by means of compacting the locating grooves of the metal base member without electroplating or using solder paste or bonding means. | 02-05-2009 |
20090038776 | COOLER MODULE - A cooler module includes a heat sink formed of a stack of radiation fins each having a plurality of double-step mounting holes for allowing quick mounting of the radiation fins by fitting the annular outer step portions of the double-step mounting holes of one radiation fin tightly into the annular inner step portions of the double-step mounting holes of another radiation fin, a base block tightly fastened to the bottom side of the heat sink, a plurality of heat pipes tightly fitted into the double-step mounting holes of the radiation fins to reinforce engagement between the respective annular outer step portions with the corresponding annular inner step portions and tightly fitted into the bottom wall of the base block to secure the heat sink and the base block firmly together. | 02-12-2009 |
20090084529 | COOLER MODULE - A horizontal cooler module includes a heat sink formed of a stack of radiation fins, a base block tightly fitted into the bottom side of the heat sink, and heat pipes each having a first extension arm respectively tightly inserted through the radiation fins and a second extension arm respectively fitted into the bottom open grooves of the base block with a respective flat wall portion of the second extension arm exposed to the outside of the base block and kept in flush with the bottom wall of the base block for direct contact with an external electronic chip to transfer heat energy from the electronic chip to the heat sink for quick dissipation. | 04-02-2009 |
20090151900 | HEAT SINK - A heat sink includes a thermal conductive base panel that has a plurality of heat dissipation columns of any of a variety of configurations perpendicularly upwardly extending from the top wall, and radiation fins mounted on the heat dissipation columns at different elevations, each radiation fin having a plurality of mounting through holes respectively press-fitted onto the heat dissipation columns. The base panel may be provided with a fan and/or heat pipes to enhance heat dissipation efficiency. | 06-18-2009 |
20090194255 | COOLER DEVICE - A cooler device includes a base panel, which has multiple mounting grooves on the top wall and multiple locating grooves on the bottom wall, a radiation fin module formed by stacking up multiple radiation fins, each radiation fin having multiple mounting through holes and a root portion that is respectively riveted to the mounting grooves of the base panel, and multiple U-shaped heat pipes, each heat pipe having a first extension arm respectively and tightly fitted into the mounting through holes of the radiation fins and a second extension arm respectively and tightly fitted into the locating groove of the base panel and kept in flush with the bottom wall of the base panel for direct contact with a CPU or the like to transfer heat energy from the CPU or the like to the radiation fins for quick dissipation. | 08-06-2009 |
20090266518 | HEAT PLATE TYPE COOLER MODULE - A heat plate type cooler module includes a heat plate, which is formed of a bottom cover plate and a top cover plate and having a working fluid filled in a vacuum chamber between the top cover plate and the bottom cover plate; heat pipes each having a cold end and a top end; a locating plate covered on the heat plate to hold the hot end of each heat pipe in contact with the heat plate; and radiation fins fastened to the cold ends of the heat pipe by press-fitting. | 10-29-2009 |
20100126697 | HEAT SINK MODULE - A heat sink module includes a heat transfer tube, a plurality of radiation fins respectively riveted to locating grooves around the periphery of the heat transfer tube, and a heat transfer panel fastened to the bottom side of the heat transfer tube and the radiation fin set and kept in contact with a heat source, such as a CPU or a light emitting unit of a LED lamp for transferring heat from the heat source to the radiation fins for quick dissipation. | 05-27-2010 |
20100263850 | HEAT SINK - A heat sink includes a base panel having parallel channels located on the top wall, first ribs protruding from the top wall and respectively extending along one side of each channel and second ribs protruding from the top wall and respectively extending along the other side of each channel, and radiation fins respectively mounted in the channels of the base panel and supported on the second ribs in vertical positions, each radiation fin having an angled foot portion, which is inserted into one channel and secured thereto by the associated first rib upon deformation of the associated first rib by an external force. | 10-21-2010 |
20100270014 | HEAT SINK WITH RADIALLY ARRANGED RADIATION FINS - A heat sink includes a tubular base having longitudinal channels arranged in parallel around the periphery and a first and a second ribs protruding from the periphery and respectively extending along two opposite sides of each of the channels, and radiation fins radially arranged around the tubular base and supported on the second ribs, each radiation fin having an angled foot portion respectively inserted into the channels and secured thereto by the first ribs that are stamped down after the angled foot portions of the radiation fins are inserted into the channels of the tubular base. | 10-28-2010 |
20110036545 | HIGH-PERFORMANCE HEAT SINK - A high-performance heat sink includes a set of first radiation fins each having an abutment portion, two radiation fins extending from two lateral sides of the abutment portion, and upright pins extending from each radiation fin portion; a fastener that fastens the abutment portions of the first radiation fins together such that the radiation fins are radially extended out; second radiation fins fastened to the upright pins of the first radiation fins and arranged at different elevations; and thermal pipes fastened to the bottom side of the abutment portions of the first radiation fins, each thermal pipe having two distal ends respectively fastened to the two distal ends of each second radiation fin. | 02-17-2011 |
20110221323 | LED PROJECTOR LAMP WITH IMPROVED STRUCTURE OF RADIATION FINS - An LED projector lamp includes a heat sink base holding a light source at the bottom side thereof; radiation fins radially arranged around the heat sink base, each radiation fin having one or multiple light shades that surround the periphery of the heat sink base to prevent light leakage and access of flies and vermin to the inside of the heat sink base and increase heat dissipation surface area; and an electric connector affixed to the radiation fins at the top and electrically connected with the light source at the heat sink base. | 09-15-2011 |
20110290449 | COOLER DEVICE - A cooler device includes a metal base panel, radiation fins fastened to the metal base panel at the top, and heat pipes fastened to the metal base panel and respective top notches of the radiation fins. Each top notch of each radiation fin has a narrow notch portion disposed at the top side for a stamping die to pass and an expanded bottom notch portion disposed at the bottom side for the cold end of one of the heat pipes to insert through for enabling the inserted cold ends of the heat pipes to be deformed and forced into engagement with the radiation fins by a stamping machine by means of stamping dies. | 12-01-2011 |
20110290467 | HEAT SINK MODULE - A heat sink includes a base member having stepped channels spaced on the surface thereof in a parallel manner and first and second ribs protruding from the surface and respectively extending along two opposite lateral sides of each of the stepped channels, and radiation fins respectively mounted in the channels of the metal base member and supported on the second ribs vertically, each radiation fin having a Z-shaped foot portion that is inserted into one respective stepped channel of the base member and secured thereto by the associated first and second rib that are stamped to clamp on the Z-shaped foot portion of the associated radiation fin after its insertion into the respective stepped channel. | 12-01-2011 |
20120043067 | HEAT SINK CORE MEMBER AND ITS FABRICATION PROCEDURE - A heat sink core member made by: preparing a predetermined mass of aluminum block, extruding the aluminum block through an extruding machine into a tubular body having one close end wall and then punch-cutting the outside wall of the tubular body to form a plurality of densely distributed and equally spaced vertical retaining grooves. Radiation fins can easily be affixed to the vertical retaining grooves of the tubular body to form a heat sink. | 02-23-2012 |
20120118536 | RADIAL HEAT SINK WITH HEAT PIPE SET THEREIN - A radial heat sink includes a hollow core base with mounting grooves axially located on the inside wall thereof and a locating groove located on an end wall at one end thereof, radiation fins arranged around the periphery of the hollow core base, and heat pipes inserted through the end wall of the hollow core base and press-fitted into the mounting grooves and the locating groove and kept in flush with the end wall of the hollow core base. | 05-17-2012 |
20120175099 | RADIAL HEAT SINK DEVICE - A radial heat sink device includes a central heat conduction member, a plurality of heat sink fins and at least one curved heat conduction pipe. The plurality of heat sink fins are radially disposed around the central heat conduction member and each has a portion connected to an outer peripheral wall of the central heat conduction member. Each of the heat sink fins has a recess disposed at an upper end or a lower end thereof. The curved heat conduction pipe is tightly connected to the bottom of central heat conduction member and flush with the bottom of central heat conduction member and positioned in the recess of each of the heat sink fins. The radial heat sink device has the at least one heat conduction pipe which is flush with the bottom of the central heat conduction member to contact with the heat source. | 07-12-2012 |
20120176017 | LED LIGHT BULB - A light emitting diode (LED) light bulb includes a light shade, a heat conduction base, a plurality of heat sink fins, a heat conduction member and a plurality of LED light emitting elements. The heat conduction base has a circumferential portion connected with the plurality of heat sink fins and a central hole to accommodate the heat conduction member. The heat conduction member has an exposed end formed with a plurality of inclined planes and a top plane by stamping. Each of the inclined planes and the top plane are coupled with at least one of the LED light emitting elements, respectively. With the inclined planes and the top plane, the LED light emitting elements project light in different directions. The heat from the LED light emitting elements is transmitted to the plurality of heat sink fins through the heat conduction member to dissipate the heat quickly. | 07-12-2012 |
20120205084 | HEAT SINK MODULE - A heat sink module includes at least one heat conduction base, at least one heat conduction pipe and a fin heat sink. The heat conduction base has a recess and at least one engaging protrusion on the recess. The heat conduction pipe has a heat absorption end and a heat dissipation end. The heat absorption end is attached to the recess of the heat conduction base and engaged with the engaging protrusion. The heat dissipation end is coupled to the fin heat sink. The fin heat sink is composed of a plurality of fins which are disposed side by side and connected by the heat dissipation end of the heat conduction pipe. The fin heat sink has an engaging groove for engagement of a curved section of a fixing plate of a heat dissipation fan. The heat dissipation fan can be quickly coupled to the fin heat sink, simplifying the assembly of the heat sink module. | 08-16-2012 |
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 |
20120222839 | HEAT PIPE ASSEMBLY - A heat pipe assembly includes a heat-transfer block and at least one heat pipe press-fitted thereon. The heat-transfer block has a surface. A heat pipe groove is formed concavedly on the surface. A fixing rib is protruded from the heat pipe groove. The heat pipe is press-fitted to the heat pipe groove, and the fixing rib impresses into the heat pipe in forming an impression thereon. Thus, the heat pipe is tightly secured onto the heat-transfer block. | 09-06-2012 |
20120222840 | 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. | 09-06-2012 |
20120241132 | NON-BASE BLOCK HEAT SINK - A non-bottom block heat sink includes a radiation module formed of a rack of radiation fins, each radiation fin having a plurality of locating notches located on one peripheral edge thereof and a supporting rib disposed between each two adjacent locating notches, and a plurality of heat pipes each having heat receiving end press-fitted into the locating notches of the radiation fins and engaged with the supporting ribs and peripherally abutted against one another in flush the associating peripheral edge of each radiation fin and a heat discharging end extended from the heat receiving end and fastenable to the radiation fins or an external radiation fin module. | 09-27-2012 |
20120305221 | HEAT PIPE-ATTACHED HEAT SINK - A heat pipe-attached heat sink includes a bottom block having an opening and locating grooves arranged on the flat bottom wall thereof, a radiation fin module consisting of first radiation fins and second radiation fins, each first radiation fin having extension abutment strip that has a flat bottom abutment edge and locating grooves located on the flat bottom abutment edge and dividing the flat bottom abutment edge into a plurality of spacer ribs, the extension abutment strips of the first radiation being tightly plugged into the opening of the bottom block, and heat pipes respectively press-fitted into the locating grooves of the bottom block and the locating grooves of the first radiation fins of the radiation fin module, each heat pipe having a planar peripheral side exposed outside the radiation fin module and the bottom block and kept in flush with the flat bottom abutment edge of the extension abutment strips for direct contact with an external heat source. | 12-06-2012 |
20130014917 | HEAT PIPE-ATTACHED HEAT SINK WITH BOTTOM RADIATION FINSAANM Huang; Tsung-HsienAACI I-Lan HsienAACO TWAAGP Huang; Tsung-Hsien I-Lan Hsien TW - A heat pipe-attached heat sink includes a radiation fin module having a plurality of radiation fins arranged in parallel, each radiation fin having an extension abutment strip, each extension abutment strip having a flat abutment edge extending perpendicular relative to the respective radiation fin and a plurality of locating grooves located on the flat abutment edge, heat pipes respectively press-fitted into the locating grooves of the extension abutment strips each having a flat heat-absorbing face kept in flush with the flat abutment edges of the radiation fins, a bonding agent applied to the locating grooves of the radiation fins to bond the heat pipes to the radiation fins, and stop blocks fastened to the radiation fins and stopped against the flat abutment edges of the radiation fins at one side to reinforce the structural strength. | 01-17-2013 |
20130077323 | LAMP HOLDER OF LED PROJECTION LAMP - A lamp holder of an LED projection lamp includes a heat dissipation pipe, a heat dissipation fin unit, a heat dissipation tray, and a lampshade. The heat dissipation fin unit includes a plurality of heat dissipation fins surrounding and coupled to the heat dissipation pipe. One end of the heat dissipation pipe is tightly connected to the heat dissipation tray to form a specious accommodation surface to accommodate a plurality of LED illumination units therein. The heat dissipation tray is further connected with the lampshade to constitute the lamp holder of the LED projection lamp which can be coupled with more LED illumination units. | 03-28-2013 |
20130105132 | HEAT SINK FIN AND HEAT SINK DEVICE | 05-02-2013 |
20130160982 | HEAT SINK AND A METHOD FOR MAKING THE SAME - A heat sink and a method for making the same include steps of drawing-extrusion, cutting, ripping, inserting, and punching. By the step of drawing-extrusion, an extruded body is extruded and on an upper end thereof forms at least one set of elongated strips. The extruded body is cut into sub rippled bodies, and the elongated strips are ripped at intervals for forming separate sets of holding members. A fin set forms bent flakes with gaps at a bottom end of each fin unit thereof for combining with a radiating seat. Punched by punching molds, the holding members deform for firmly holding the bent flakes on each fin unit of the fin set, thereby achieving a complete combination of the radiating seat and the fin set. Accordingly, the radiating seat is lighter, which saves more materials and reduces manufacturing costs. | 06-27-2013 |
20130186162 | MOLD FOR EXTRUDING AN ALUMINUM SEAT OF A HEAT SINK AND A METHOD FOR MAKING THE SAME - An aluminum seat of a heat sink is made by placing a fixed amount of aluminum material into a forming slot of a lower die to undergo one-time extrusion by a punch of an upper die. A plurality of indentations are longitudinally disposed on an interior wall of the forming slot of the lower die, and the bottom of the forming slot is a closed end. When the fixed amount of aluminum material is distributed over the forming slot and the indentations during the extrusion, corresponding ribs are formed on an exterior wall of the aluminum seat of the heat sink after the dies are drawn off. Each rib facilitates firm insertion of fin units into the seat. The heat sink with radial fin units is produced from the aluminum seat and the fin units. | 07-25-2013 |
20130206381 | HEAT RADIATOR - A heat radiator includes a base and heat radiating fins. The base has a surface formed with grooves for insertion of the heat radiating fins. Each heat radiating fin has a bent portion at one end thereof. The bent portion has spaced protrusions thereon. The bent portion is inserted and embedded in the groove of the base. Then, a press head is aligned with the bent portion for pressing. The press head has an inclined surface to cover the bent portion and a side wall of the groove. After pressing, the bent portion is deformed and enlarged to engage with the groove. The side wall of the groove is compressed by the inclined surface of the press head to be shifted and deformed. The deformed side wall holds against the bent portion, so that the heat radiating fins and the base are connected. | 08-15-2013 |
20130233527 | TUBULAR RADIATING SEAT INTEGRALLY FORMED BY ONE WORKING PROCEDURE - A tubular radiating seat integrally formed by one working procedure comprising a hollow radiating seat structured by punching or extruding (hydraulic) certain aluminum solid disk. A front part or a middle part of the tubular radiating seat has an integral closed end. Several slots are integrally formed on an outer wall of the tubular radiating seat for combining with a correspondent fin set. The closed end formed on the front part of the tubular radiating seat has a protrudent periphery integrally structured. Moreover, a sunken part is integrally structured in the protrudent periphery, and a groove is formed on an inner wall of the sunken part by a turning procedure. Attaching the closed end, the protrudent periphery, or the sunken part to a heating unit contributes to the rapid heat absorbing effect and the favorable heat dispersion efficiency. The design of the groove preferably matches to a light cover. | 09-12-2013 |
20130264043 | HEAT SINK RADIATION FIN AND BASE BLOCK MOUNTING STRUCTURE - A heat sink radiation fin and base block mounting structure includes a base block providing a plurality of grooves at one side thereof, and a plurality of radiation fins each having a bottom edge thereof stamped to provide a plurality of folded portions and hook portions, the folded portions and hook portions of the radiation fins being inserted into the grooves of the base block and then embedded in or clamped to the base block. | 10-10-2013 |
20130277032 | CONNECTION STRUCTURE OF LED LAMP HOLDER AND HEAT RADIATION FINS - A connection structure of an LED lamp holder and heat radiation fins includes a heat radiation fin module, a heat radiation core pipe and an insulation connector. The heat radiation fin module includes a plurality of heat radiation fins surrounding the heat radiation core pipe. Each heat radiation fin has an insertion portion and a stop tab at a distal end thereof. The insulation connector includes a plurality of engaging hooks and engaging holes around an opening corresponding to the heat radiation fins. The heat radiation fins are coupled to the heat radiation core pipe. The insertion portions of the heat radiation fins hold against the engaging hooks and are inserted in the engaging holes of the insulation connector. The stop tab of each heat radiation fin holds against the respective engaging hook so that the insulation connector and the heat radiation fins are connected quickly. | 10-24-2013 |
20130335978 | LED LAMP ASSEMBLY - An LED lamp assembly includes a heat-sink base having insertion notches equiangularly and radially located at a flat inner wall thereof, and a plurality of radiation fins arranged in a radial array, each radiation fin having a plug portion disposed at a top side thereof and respectively inserted into one respective insertion notch of the heat-sink base and fixedly secured thereto using a stamping technique, a lampshade fastened to the radiation fins at the top side, and an insulative connector fastened to the radiation fins at the bottom side. | 12-19-2013 |
20140020871 | HEAT SINK WITH BUILT-IN FAN - A heat sink with a built-in fan includes a heat radiation base, a heat radiation fin module and a fan. The heat radiation base has a plurality of spaced grooves formed on an inner side thereof for engagement of heat radiation fins of the heat radiation fin module. The heat radiation fins are respectively inserted in the grooves of the heat radiation base and compressed in the grooves by stamping so that the heat radiation fins are connected to the heat radiation base. The fan is located inside the heat radiation fin module and surrounded by the plurality of heat radiation fins. When the heat radiation base absorbs heat, the fan is started to dissipate heat quickly. At least one heat conduction pipe is connected between the heat radiation base and the heat radiation fin module to enhance the heat dissipation efficiency of the heat sink. | 01-23-2014 |
20140043816 | LED LAMP BULB WITH A RETAINER RIM - An LED lamp bulb includes a heat sink carrying LEDs, a radiation fin set including multiple radiation fins radially arranged around the heat sink, an insulative lamp bulb base affixed to the bottom side of the radiation fin set, a light-transmission bulb shell having retaining lugs equiangularly spaced around the bottom open side thereof, and a retainer rim set between the radiation fin set and the light-transmission bulb shell and having protruding strips equiangularly spaced around an inner perimeter of a front wall thereof and respectively plugged into the gaps between each two adjacent ones of the radiation fins and retaining notches equiangularly spaced around an outer perimeter of a back wall thereof and respectively forced into engagement with respective retaining lugs of the light transmission bulb shell. | 02-13-2014 |
20140138074 | HEAT SINK MODULE - A heat sink module includes a base block having opposing top wall and bottom wall, insertion grooves located at the top wall, heat pipe grooves located at the bottom wall and rows of equally spaced holes cut through the top and bottom walls in communication between the insertion grooves and the heat pipe grooves and matching the insertion grooves, heat pipes mounted in the heat pipe grooves of the base block, and radiation fins respectively mounted in the insertion grooves of the base block, each radiation fin having heat pipe mating edges respectively inserted into the holes and stopped against the heat pipes for dissipating heat from the heat pipes. | 05-22-2014 |
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 |
20140218932 | HEAT SINK MODULE AND OMNIDIRECTIONAL LED LAMP HOLDER ASSEMBLY USING SAME - An omnidirectional LED lamp holder assembly includes a heat sink module including a heat sink base and radiation fins around the heat sink base, a lampshade and an electrical connector respectively mounted at opposing top and bottom sides of the heat sink module. The heat sink base is a one-piece extruded member defining a tubular heat-transfer base portion, a broad platform and a hollow protruding mount for holding LED chips at different angles. The broad platform horizontally protrudes over the periphery of the tubular heat-transfer base portion, providing a bearing face. The radiation fins are fastened to respective mounting grooves around the periphery of the tubular heat-transfer base portion. Waste heat produced during operation of the LED chips can be rapidly transferred by the hollow protruding mount to the broad platform and the heat-transfer base portion and then dissipated by the radiation fin into the outside open air. | 08-07-2014 |
20140311712 | CORRUGATED RADIATION FIN AND HEAT SINK USING SAME - A heat sink includes one or two heat transfer blocks, and corrugated radiation fins fastened to the heat transfer block(s). Each corrugated radiation fin has a large area corrugated radiation fin body to provide an extended heat dissipation surface area, and a plug portion located at the bottom side of the large area corrugated radiation fin body and press-fitted into one respective mounting groove of the heat transfer block(s). | 10-23-2014 |