TWI303969B - The protective cap for thermal grease of heat sink - Google Patents

Description

1303969 IX. Description of the Invention: [Technical Field] The present invention relates to a ######## 。 鳟 濩 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 [Prior Art] Surface addition; St: Sub-component heat dissipation field, usually expressed in electronic components, to make it scattered? Λ ': It will produce the ... ^ interface H in close contact with the surface of the electronic component to reduce one", and ▲ industry usually between the heat sink and electronic components; ΐ 1 乂 good viscosity and higher The thermal conductivity of the heat transfer medium makes the surface contact of the >^:I heat-generating electronic component more tight, thereby enhancing the heat conduction effect. j Since the heat transfer medium is a paste-like and easily polluting chemical, the rice is one. It is necessary to protect the heat transfer medium. As shown in Figure 1, the bottom of the heat sink base coated with the heat transfer medium is provided with a cap and a protective cover. On the boss, the protection device is fixed by the two sides of the side, and the heat sink base is fixed. If the protection device is #^, the connection between the protection device and the heat sink base is too tight or cannot be assembled. If the protection device is large = media protection P w illusion is easy to cause heat mass transfer protection, the farmer is easy to drop, and then securely: move the 'heat transfer media area, occupy a large space, the material is also set: the product is much larger than Heat I was wasted. (s 6 1303969 [Invention content] This issue The invention provides a heat transfer medium protection device which is firmly connected and compact. The invention is a heat transfer medium protection device, which is coated on a heat sink, the protection device comprises a protective cover and a connecting belt, the protection The cover forms a concave protection space and is disposed above the heat transfer medium, and the connection belt is connected to the protective cover and surrounds at least three sides of the heat sink to be connected with the heat sink, thereby fixing the protective cover to the heat sink The connecting strip and the protective cover together form a closed loop around the surface of the heat sink. The heat transfer medium protection device of the present invention is fixed on the surface of the heat sink by the connecting belt, the connection mode is simple and firm, and the protective cover has a simple structure. The size of the protective cover can be designed according to the area of the heat transfer medium coated on the heat sink. The material can be effectively saved. The assembly and removal of the heat transfer medium protection device are convenient. The present invention will be described below with reference to the accompanying drawings. [Embodiment] FIG. 2 is a first embodiment of the present invention, and a heat transfer medium protection device 10 includes a protective cover 10. 0 and a connecting strip 120 attached to the protective cover 100, the protective cover 100 forms a protective space 102 to protect the heat transfer medium 300 applied to the heat sink 200. The protective cover 100 can be made of a material having elastic deformation, 1303969 The utility model comprises a top wall 104 and a side wall 106 which is vertically bent and extended by the edge of the top wall i〇4. The top wall 1〇4 and the side wall 106 form a concave and thin space 1〇2. The strip has a continuous elongate strip comprising an outer surface 122 and an inner surface 124. The inner surface 124 is an adhesive surface. The connecting strip 120 has a tearing portion 126 at the end. The heat sink 200 has a base. 202. The susceptor 202 has a heat conducting surface 204 for contacting a heat generating electronic component (not shown). A surface opposite to the heat conducting surface 204 extends perpendicularly from the plurality of heat sinks 210. The heat sink 210 has two opposite sidewalls. 212 and a top 214. Referring to FIG. 2, FIG. 3 and FIG. 4, the heat transfer medium 300 is applied to the center of the heat conducting surface 204 of the base 202 of the heat sink 200, and the protective cover 100 is placed on the heat conducting surface 204 and covered by the protective space 102. The heat transfer medium 300, the connecting strip 120 is adhered in the direction perpendicular to the side wall 21 2 of the heat sink 200, and the middle portion of the inner surface 124 is pasted in the middle of the top wall 1〇4 of the protective cover 100, and the remaining portion of the inner surface 124 is along the heat sink. 200 surface symmetry is attached to the heat conducting surface 204, the side wall 212 and the top 214 of the heat sink 210. At the center of the top 214, the connecting strip 12 is connected at both ends and bonded to each other to form a closed loop around the heat sink. The cover 100 is protected from the surface of the cover 100 to fix the protective cover 100 to the heat sink 200. The ends of the connecting strip 120 are torn by the tearing portion 126, so that the protective cover 100 can be easily removed from the heat sink 2〇〇. .1303969 FIG. 5 and FIG. 6 are the second embodiment of the heat transfer medium protection device of the present invention. The protection device 20 is different from the protection device in the first embodiment in that the connection belt 12 is connected in a continuous manner in the first embodiment. The belt of the belt of the second embodiment is 12", and the two belts are adhered to each other and the connecting belt 120 is shorter than the connecting belt 120. Compared with the real example, the connecting belt 1 2 0 is not continuously pasted. The top wall 1 of the protective cover is connected by the connecting belt 120, and the two connecting strips are respectively adhered to the ends of the top wall 1〇4 by the inner surface 124' of one end thereof, and each of the inner surfaces 124' of the other end is mutually The bond forms a half closed loop attached to the surface of the heat sink 200. FIG. 7 shows a third embodiment of the heat transfer medium protection device of the present invention. In the third embodiment, the protection device 30 is different from the protection device 10 of the first embodiment in that the connection belt 150 replaces the connection belt of the first embodiment. 120. The connecting strip 150 is a hard material, such as a hard plastic, having an inner surface H4. The connecting strip 150 is bonded to the protective cover 1 by an inner surface 154, and each end of the connecting strip 150 has a hook. 152, the hook 152 is used to be fastened in the groove 414 disposed on the two sidewalls 412 of the heat sink 400, so that the heat transfer medium protection device 30 is combined with the heat sink 400 to protect the coating on the base 402. Heat transfer medium 300. FIG. 8 shows a fourth embodiment of the heat transfer medium protection device of the present invention, which is different from the third embodiment in that the protection device 3 (V replaces the protection device 30, that is, the connection belt 352 from the side wall 3 of the protective cover 350 5 is extended integrally. • 1303969 FIG. 9 is a fifth embodiment of the heat transfer medium protection device of the present invention. In the fifth embodiment, the protection device 5 is different from the protection device 10 in that the connection tape take-up tape 120 is The connecting strip 16 has an inner surface 164. The strip 160 is bonded to the protective cover by the inner surface 164 and is provided with a short pin at the end of the connecting strip 160; [66, for connecting with the other end of the connecting end One of the through holes 162 is sleeved to fit the size of the heat sink. Figure 10 shows the heat transfer medium protection device of the present invention. The difference between this embodiment and the fifth embodiment is that the protection 5 0 ' replaces Bao Han The device 50', that is, the connecting belt 552 extends integrally from the protective side wall 555. In summary, the heat transfer medium protecting device of the present invention is connected by the connecting belts 120, 120, 150 of different embodiments. 160, 552, so that the protective cover is firmly fixed to the heat sink and The protection is as compact as possible. 4 The occupied space is small. In summary, the present invention meets the patent requirements of the invention and proposes a patent application. However, the above is only a case of the present invention, and those who are familiar with the skill of the present invention are in the wheat. The equivalent modifications or variations made by the present invention are to be included in the following patents. [Simplified Schematic] FIG. 1 is a schematic exploded view of a heat transfer medium of a heat sink in the prior art. Connected, together, with 160 different embodiments of the protective device cover 550 10 borrowed ~ 352, on the device, according to the law, according to the law, the application of the protective device 10 • 1303969 FIG. 2 is a heat transfer medium according to the first embodiment of the present invention Figure 3 is a schematic view of the combination of Figure 2. Figure 4 is a schematic view of the heat transfer medium protection device of the second embodiment of the present invention. Figure 6 is a schematic view of the present invention. FIG. 7 is a schematic diagram of the heat transfer medium protection device and the heat sink according to the third embodiment of the present invention. FIG. 8 is a schematic diagram of the heat transfer medium protection device and the heat sink. FIG. 9 is a schematic diagram of the heat transfer medium protection device and the heat sink according to the fifth embodiment of the present invention. FIG. 10 is a heat transfer medium protection device according to Embodiment 6 of the present invention. Schematic diagram of the heat sink. [Main component symbol description] Protection device 10 Protective cover 100 Protective space 102 Top wall 104 Side wall 106 Connecting strip 120, 120 Outer surface 122 Inner surface 124, 124 Peeling portion 126 Connecting strip 150 Hook 152 Inner surface 154 11 , 1303969 Connecting strip 160 Through hole 162 Inner surface 164 Short pin 166 Protection device 20 Heat sink 200 Base 202 Thermally conductive surface 204 Heat sink 210 Side wall 212 Top 214 Protection device 30, 30 Heat transfer medium 300 Protective cover 350 Connection strip 352 Side wall 354 Heat sink 400 base 402 side wall 412 groove 414 protection device 50, 5 (V protective cover 550 connection belt 552 side wall 554 12

Claims (1)

1303969 X. Patent Application Scope 1. A heat transfer medium protection device, the heat transfer medium being coated on a diffuser comprising: a protective cover forming _I Λ/, ”, above the medium; and connecting The f-connecting strap is connected to the protective cover and surrounds the heat sink, and is connected to the heat sink on three sides, thereby fixing the protective cover to the government, the αα and the connecting strip and the protective cover. - The closed loop is placed around the surface of the heat sink. For example, please ask for the scope of patents! The heat transfer medium protection device includes a top wall and a side wall extending from the edge of the top wall, the protection space being surrounded by the top wall and the side wall. 3. The heat transfer medium protection device according to item 2 of the patent scope includes the two connection belts. The ends of each connection belt are respectively connected to the protection raft, and the other ends are connected to each other. 4 Apply for the heat transfer medium protection device described in item 3 of the patent scope, 5 such as the mother application? One end of the Γ(4) has a - (four) face and a top wall of the protective cover. The heat transfer mentioned in item 3 of the patent scope is provided, and the end of the female connecting band extends integrally from the side sill of the protective cover. 6=Application of the heat transfer medium protection mentioned in item i of the patent scope|Settings;: The belt has an adhesive surface which is combined with the top wall of the protective cover: the two ends of the yoke are formed to form a closed-closed (four) attached to the radiator : (S ) 13 • 1303969 7. If you apply for a patent scope! The heat transfer medium protection device of item 6, wherein the connecting strip has a tear-off portion at one end. 8. If you apply for a patent scope! Item or the heat transfer device f according to Item 6, wherein the connecting belt has an inner surface, the inner surface and the protective cover are dry: 'the connecting belt-end is provided with a short pin, and the connecting belt is provided with a plurality of ends ^ Read to be worn in the through hole - the through hole allows the connecting band to form a closed loop attached around the surface of the heat sink. 9. A heat transfer medium protection device, the heat transfer medium is coated on a heat sink having a groove on each of the opposite side walls, comprising: a cover, the protective cover forming a recessed space and covering Above the heat transfer medium; and 'and surrounding the heat sink of the heat sink at each end of the connecting strip, thereby securing a connecting strip, the connecting strip and the protective cover are connected to at least three faces and the heat sink The connection, a latch, is fastened to the heat sink by the side cover of the heat sink. The heat transfer medium protection device described in claim 9 of the patent application has a - (four) face, and the (four) face is combined with the protective cover. In the heat transfer medium protection device according to Item 9, the money connection π includes two connection belts, and each of the side side body extensions. Touched by the manufacturer J 14 1303969 XI, schema: 15 1303969 VII. Designated representative map: (1) The representative representative of the case is: Figure (2). (2) Brief description of the components of the representative figure: Protective device 10 Protective cover 100 Protective space 102 Top wall 104 Side wall 106 Connecting strip 120 External surface 122 Inner surface 124 Peeling portion 126 Heat sink 200 Base 202 Thermal conductive surface 204 Heat sink 210 Side wall 212 Top 214 Heat transfer medium 300 8. If there is a chemical formula in this case, please disclose the chemical formula that best shows the characteristics of the invention = 5