CN201060682Y - Heat radiating module - Google Patents

Abstract

A heat dissipation die set is formed by combining a plurality of cooling plates. Each cooling plate comprises a main plate body, two side walls and at least two locked subassemblies. The main plate body is provided with a first surface and a second surface; the two side walls are formed at the two relative side edges by being pressed and bended upwards. Each locked subassembly is respectively provided with a locked and supported part and a buckled piece, wherein, the locked and supported part is formed on the main plate body and is close to the side walls, the locked and supported part is provided with a locked and supported hole, the buckled piece is arranged on the side wall corresponding to the locked and supported part, and the buckled piece is formed with a hooked part. Due to the bending of the buckled piece of one of the cooling plates, the hooked part of the buckled piece is locked and supported in a locked and supported hole of the locked and supported part of the other cooling plate in the contraposition way, thereby being convenient for each cooling plate to pile for forming the heat dissipation die set.

Description

The heat radiation module

Technical field

The utility model is about a kind of heat radiation module, and particularly bending to roll in several heat radiator upper punches about a kind of utilization forms a blocking part and a buckling piece, so that the mutual snaps into position of these several heat radiator forms the heat radiation module of a heat radiation module.

Background technology

A kind of existing heat radiation module is as described in M289496 number " stacking heat radiator button group structure " novel patent of TaiWan, China patent, and it is to be made of several heat radiator, and this heat radiator comprises a main body, two vertical plates and several connection assemblies.This main body is to be a plate body, and its metal material that is selected from the high capacity of heat transmission of a tool is made, for example: silver, copper and alloy thereof etc.The relative dual side-edge of this main body is that upwards punching press is bent to form this two vertical plate, to form two side walls of this main body.This each connection assembly be comprise a through hole, a locating slot, a location protuberance, one first clipping block, one second clipping block, a protruding handle and compresses part, this through hole and compress part and be formed on this main body, this locating slot, positioning convex portion, protruding handle and first, second clipping block then are formed on this vertical plate.This through hole is opened on this main body, and is adjacent to a side of this vertical plate.This compresses the part punching press that makes progress and is bent to form a end in this through hole.The top of this two vertical plate is that correspondence bends inwards and extends upward respectively and forms this protruding handle, and this two vertical plate is bent to form also corresponding this locating slot of formation in position of this protruding handle, and this positioning convex portion is to should locating slot being convexly set in the bottom of this vertical plate simultaneously.This first clip certainly is to be convexly set in a respectively side of this protruding handle; This second clipping block then is convexly set in the relative inner face of this two vertical plate, and this second clipping block is this through hole of next-door neighbour, and the back side of this protruding handle is arranged with a clip recess to shape that should second clipping block.

When utilizing existing heat radiation module to make up several these heat radiator, its step is as follows: the protruding handle contraposition of this heat radiator below will being positioned at is by the through hole of this heat radiator above being positioned at; Then, make the second clipping block contraposition clip of heat radiator of this top in the clip recess of the heat radiator of this below; At last, the heat radiator of this top compressed part towards this through hole direction bending, on first clipping block with the heat radiator that is resisted against this below, avoid second clipping block of the heat radiator of this top to break away from the clip recess of the heat radiator of this below arbitrarily by this, and then promote in conjunction with fiduciary level.

Generally speaking, above-mentioned existing heat radiation module has following shortcoming, and for example: the setting of the connection assembly on this heat radiator is too numerous and diverse, not only at the procedure for processing of making this heat radiator in difficulty, and increase the cost of manufacture of this heat radiator.Simultaneously, also cause assembling process too loaded down with trivial details, and reduce packaging efficiency.For the foregoing reasons, it is necessary further to improve above-mentioned existing heat radiation module really.

The utility model content

In view of this, the utility model is improved the shortcoming of above-mentioned existing heat radiation module, fundamental purpose of the present utility model provides a kind of heat radiation module, it is by at least two engaging assemblies are set on a heat radiator, this engaging assembly is provided with a blocking part and a buckling piece, so that the corresponding bending of each buckling piece of another heat radiator is fastened on each blocking part of this heat radiator, makes the utility model have really and imitate the purpose that promotes bond strength, simplifies lock structure and promote packaging efficiency.

Secondary objective of the present utility model provides a kind of heat radiation module, wherein this blocking part is provided with a clip hole, one hook portion of this buckling piece is that bending is sticked in this clip hole, with the effect of avoiding respectively mobile arbitrarily between this heat radiator, make the utility model have really simplifying lock structure and promoting packaging efficiency.

To achieve these goals, heat radiation module of the present utility model, it is made of several heat radiator combinations, and these heat radiator comprise a mainboard body, two side walls and at least two engaging assemblies.This mainboard body has a first surface and a second surface; The punching press that makes progress of this two side wall is bent to form relative two lateral margins in this mainboard body, and this respectively engages assembly and has a blocking part and a buckling piece respectively, and this blocking part is formed on this mainboard body, and near this side wall, this blocking part is provided with a clip hole; Then to being arranged on this side wall by blocking part, this buckling piece is formed with a hook portion to this buckling piece.By bending this wherein buckling piece of a heat radiator, the hook portion contraposition clip that makes this buckling piece is formed this heat radiation module so that this each heat radiator piles up in the clip hole of the blocking part of this another heat radiator.

The utility model is by at least two engaging assemblies are set on a heat radiator, this engaging assembly is provided with a blocking part and a buckling piece, when piling up this heat radiator on another heat radiator, be fastened on each blocking part of the heat radiator of this top via each buckling piece contraposition of the heat radiator of this below, make the utility model can strengthen respectively bond strength between this heat radiator and assemble stable really by this, simultaneously also simplify this heat radiation module, and then reach the purpose of promoting packaging efficiency.

Description of drawings

[brief description of drawingsfig]

Fig. 1: the combination stereogram of the heat radiation module of the utility model preferred embodiment.

Fig. 2: amplify and skeleton view the part of the heat radiation module of the utility model preferred embodiment.

Fig. 3: the combination of the heat radiation module of the utility model preferred embodiment is analysed and observe and synoptic diagram.

Fig. 4: the partial enlarged drawing after the combination of the heat radiation module group of the utility model preferred embodiment.

[main element symbol description]

10 perforation of 1 mainboard body

11 first surfaces, 12 second surfaces

2 side walls, 21 short slots

3 engaging assemblies, 31 blocking parts

311 clip holes, 312 end faces

313 lateral surfaces, 32 buckling pieces

321 boards, 322 hook portions

324 second sides, 323 first sides

Embodiment

For above-mentioned and other purpose of the present utility model, feature and advantage can be become apparent, preferred embodiment of the present utility model cited below particularly, and conjunction with figs. are described in detail below:

Please refer to shown in Fig. 1 and 2, the heat radiation module of the utility model preferred embodiment is to be formed by several heat radiator combinations, and each heat radiator all comprises a mainboard body 1, two side walls 2 and at least two engaging assemblies 3.This mainboard body 1 is preferably by the metal material of the high capacity of heat transmission of a tool (for example: silver, copper and alloy thereof etc.) and makes, and it offers at least one perforation 10, wears for the corresponding assembling of at least one heat pipe (not illustrating).Relative two side surfaces of this mainboard body 1 are respectively a first surface 11 and a second surface 12, and the configuration of first surface 11 and second surface 12 is preferably parallel to each other.This two side wall 2 be respectively upwards punching press be bent to form relative two lateral margins in this mainboard body 1, and this two side wall 2 is preferably parallel to each other.Each member of this at least two engagings assembly 3 is corresponding respectively one-body molded being arranged on this mainboard body 1 and two side walls 2.

Shown in Fig. 1 and 2, the engaging assembly 3 of the utility model preferred embodiment comprises a blocking part 31 and a buckling piece 32, this blocking part 31 is to be formed at the position of this mainboard body 1 in abutting connection with this two side wall 2, and an end of this blocking part 31 is linked to the root edge of this side wall 2.This two side wall 2 is preferably position that should blocking part 31 is provided with at least one short slot 21, and this short slot 21 is selected from del short slot structure, and this buckling piece 32 also forms in the short slot 21 of this two side wall 2 by the impact style bending.

Shown in Fig. 1 and 2, the blocking part 31 of the utility model preferred embodiment is provided with a clip hole 311, an end face 312 and a lateral surface 313, and these clip hole 311 correspondences are opened in abutting connection with the position of this buckling piece 32.This buckling piece 32 has a board 321 and a hook portion 322, and an end of this board 321 is that the end with this blocking part 31 is connected; 322 other ends that are formed at this board 321 of this hook portion, its in order to corresponding fastener in this clip hole 311.The relative two side faces of this board 321 is respectively one first side 323 and one second side 324.

Shown in Fig. 1 and 2, the engaging assembly 3 of the utility model preferred embodiment is preferably and utilizes this mainboard body 1 direct punching press to form, at first after this mainboard body 1 runs through this clip hole 311 of formation, utilize impact style to keep a suitable distance towards the ora terminalis of these second surface 12 bending these blocking parts 31 of shaping and this blocking part 31 relative these mainboard bodies 1 from the first surface 11 of this mainboard body 1; Then, to should being processed to form this short slot 21 and buckling piece 32 simultaneously in the ora terminalis position of this mainboard body 1 in clip hole 311, and bend an end of this buckling piece 32, with the hook portion 322 that forms this buckling piece 32; At last, the lateral margin with this blocking part 31 serves as that the bending fulcrum utilizes impact style upwards to be bent to form the side of this side wall 2 in this mainboard body 1.

Please refer to shown in Fig. 3 and 4, when the heat radiator of the utility model preferred embodiment makes up, at first bend the blocking part 31 of a heat radiator A, make this blocking part 31 relatively perpendicular to this mainboard body 1; Then, with the first surface 11 of another heat radiator B second surface 12, be resisted against the first surface 1 of this heat radiator B and the internal face of side wall 2 respectively until the end face 312 and the lateral surface 313 of the blocking part 31 of this heat radiator A near this heat radiator A; At last, by first side 323 that compresses this buckling piece 32, bend towards this blocking part 31 with buckling piece 32, hook portion 322 contrapositions of this buckling piece 32 are concealed in this clip hole 311, and second side 324 of this buckling piece 32 is resisted against the lateral surface 313 of this blocking part 31 this heat radiator B.Utilize above-mentioned package program to make each buckling piece 32 correspondence of this heat radiator B be sticked in each blocking part 31 of this heat radiator A, this heat radiator A can combine closely with this heat radiator B.In like manner, these other heat radiator also can be carried out as above-mentioned package program, and then combine with this heat radiator A, B and other heat radiator.By this, the utility model only needs simultaneously buckling piece 32 correspondences of heat radiator that will this below to be sticked in the blocking part 31 of heat radiator of this top, this each heat radiator can be assembled into this heat radiation module fast, and then effectively simplify assembled component and promote packaging efficiency, and keep good assembling fiduciary level.

As mentioned above, compared to existing heat radiation module not only at the procedure for processing of making this heat radiator in difficulty, and cause increasing cost of manufacture, simultaneously, assembling process is also too loaded down with trivial details, cause shortcomings such as reducing packaging efficiency, the utility model is by this at least two engagings assembly 3 is set on this each heat radiator, when this heat radiator A is stacked on this another heat radiator B, be fastened on via hook portion 322 contrapositions of each buckling piece 32 of this heat radiator B in the clip hole 311 of each blocking part 31 of this heat radiator A, further assembling forms this heat radiation module.By this, make the utility model can strengthen the respectively assembling fiduciary level between this heat radiator really, also simplify this heat radiation module simultaneously, and then promote packaging efficiency.

Claims (5)

1. heat radiation module, its be by several heat radiator in conjunction with constituting, it is characterized in that: described heat radiator comprises:

A mainboard body, it has a first surface and a second surface;

Two side walls, the vertical first surface that protrudes in this mainboard body that extends of its relative two lateral margins by this mainboard body; And

At least two engaging assemblies, it has a blocking part and a buckling piece respectively, and this blocking part is arranged on this mainboard body, and near described side wall, this blocking part is provided with a clip hole, and this buckling piece is to being arranged on this side wall by blocking part, and this buckling piece is formed with a hook portion;

Wherein by the buckling piece of this one of them heat radiator of bending, the hook portion contraposition of this buckling piece conceals in the clip hole of the blocking part of this another heat radiator.

2. heat radiation module according to claim 1 is characterized in that: described two side walls are respectively equipped with at least one short slot to position that should blocking part, and this buckling piece correspondence is formed in this short slot.

3. heat radiation module according to claim 1 is characterized in that: an end of described blocking part is linked to the root edge of this side wall.

4. heat radiation module according to claim 1 is characterized in that: described clip hole correspondence is opened in the position in abutting connection with this buckling piece.

5. heat radiation module according to claim 1 is characterized in that: this buckling piece has a board in addition, and an end of this board and an end of this blocking part are connected, and the hook portion of this buckling piece is formed at the other end of this board.

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