CN102709261A - Radiating module and manufacturing method thereof - Google Patents

Abstract

The invention relates to a radiating module and a manufacturing method thereof. The radiating module is characterized by comprising a heat pipe, at least one first connector, at least one second connector and an assembly provided with a plurality of butting parts, wherein each first connector and each second connector are respectively provided with a first groove and a second groove for accommodating and connecting two sides opposite to one end of the heat pipe, and a plurality of first receiving parts and a plurality of second receiving parts which are connected with the corresponding butting parts, so that each first connector, each second connector, the assembly and the heat pipe are combined into a whole. By the radiating module, the heat pipe can directly adsorb heat, heat resistance is effectively reduced, and heat transfer efficiency is improved.

Description

Heat radiation module and manufacturing approach thereof

Technical field

The present invention is relevant for a kind of heat radiation module and manufacturing approach thereof, and especially a kind of have the thermal resistance of minimizing with the hot transfer efficiency of effective lifting, and then get the heat radiation module and the manufacturing approach thereof of effectively saving cost effectiveness.

Background technology

Along with the progress of semiconductor technology, the volume of integrated circuit also dwindles gradually, and in order to make integrated circuit can handle more data; Integrated circuit under the equal volume can hold than Duo the electronic building brick more than the several times in the past, when the electronic building brick quantity in the integrated circuit is more and more; The heat energy that is produced when making these electronic building brick work is also increasing; As being example with common central processing unit (CPU), when the fully loaded workload of height, central processing unit can produce quite high heat; So if fail in real time aforementioned heat to be guided away; Cause unusual easily or electronic building brick damage (as burning), therefore, the heat radiation module of integrated circuit becomes important problem already.

Yet; Existing heat radiation module generally adopts conduction pattern to distribute the heat that aforementioned central processing unit produces; As consult the said known heat radiation module of Fig. 1 and comprise a pedestal 10, a heat pipe 12 and a radiating fin group 14; Wherein said pedestal 10 is constituted with copper material; And second end face 102 with one first end face 101 and opposite said first end face; Be provided with perforation 103 usefulness between said first end face 101 and second end face and wear fixingly for an end of said heat pipe 12, said second end face 102 is attached on the corresponding heat generating component 16 (like central processing unit, north and south bridge chip), mainly is the heat that is produced in order to absorption heat generating component 16 and is delivered on the heat pipe 12 in the said perforation 103.

Aforementioned heat pipe 12 has an endothermic section 121 and a radiating part 123; Said endothermic section 121 (being an end of aforementioned heat pipe 12) is contained in the said perforation 103; And see through the soldering mode endothermic section 121 and pedestal 10 are combined into one, said radiating part 123 docks with aforementioned radiating fin group 14; So when heat generating component 16 produces heat; Second end face 102 of said pedestal 10 can be transmitted to the heat that receives on the endothermic section 121 in the said perforation 103; Just outwards dispel the heat the heat on the pedestal 10 being conducted to the radiating fin group 14 that radiating part 123 connects on it by endothermic section 121, so be able to reach radiating effect.

But; Though above-mentioned convention heat radiation module can reach the purpose of heat radiation to heat generating component 16; Fruit is not obviously cited but it looses, and specifies as the back: when reason convention heat radiation module dispels the heat to heat generating component 16, must see through said pedestal 10 and transmit heat; So making the heat of heat generating component 16 is via pedestal 10 indirect transfer to the said heat pipe 12 radiating fin group 14 on it again; To cause hot biography approach can produce thermal chocking than length and its in process, institute is so that cause the overall thermal transfer efficiency not good, and relative integral heat sink effect is also not good.

In addition, convention heat radiation module must use a large amount of tin materials to let heat pipe 12 be fixed on the pedestal 10 in making to go up, thereby increase and cost raising when causing worker.Moreover; Some dealer is that pedestal with above-mentioned copper material changes the pedestal that is designed to aluminium material for the practice that reduces whole cost; And the mode of see through electroplating plates the layer of metal material to the pedestal of said aluminium material, and then heat pipe is fixed on the pedestal of said aluminium material by the soldering mode; Yet the convention utilization changes the pedestal material and reduces a little cost, but the endothermic effect that serious problems take place is exactly the pedestal of aforementioned aluminium material is much worse than the endothermic effect of the pedestal of said copper material, so cause the reduction of integral heat sink effect.

The above, known techniques has disadvantage:

1. hot transfer efficiency is not good;

2. increase during worker and cost improves;

3. radiating effect is not good.

Therefore, how to solve above-mentioned problem of commonly using and disappearance, the inventor who is this case desires most ardently the direction place that research improves with the relevant manufacturer that is engaged in the industry.

Summary of the invention

For effectively solving the above problems, main purpose of the present invention provides a kind of see through first and second connector and an assembled body and the design that heat pipe is combined into one, with the heat radiation module of the hot transfer efficiency of effective lifting.

Secondary objective of the present invention provides a kind of cost-effective heat radiation module that has.

Secondary objective of the present invention provides a kind of minimizing of reaching thermal resistance that has, to promote the heat radiation module making method of hot transfer efficiency.

Secondary objective of the present invention, provide a kind of have reduce work hours and cost-effective heat radiation module making method.

For achieving the above object; The present invention provides a kind of heat radiation module; It is characterized in that, comprising: heat pipe, at least one first connector, at least one second connector and an assembled body, wherein said heat pipe have an endothermic section and one from said endothermic section outward extending radiating part; Said first and second connector is respectively equipped with one first groove and one second groove, and is installed with the both sides of said relatively endothermic section jointly.

Plural number first receiving portion and plural second receiving portion are located at respectively and are close to said second groove of next-door neighbour on said first groove and second connector on said first connector; Aforementioned assembled body is located on the end of said relatively endothermic section and first and second connector; And have plural docking section and join, to be combined into one with said heat pipe with first and second corresponding receiving portion; See through the design of above-mentioned heat radiation module, can effectively reduce thermal resistance and promote hot transfer efficiency, and then more can reach cost-effective effect.

The present invention also provides a kind of heat radiation module making method; A heat pipe, at least one first connector, at least one second connector and the assembled body with plural docking section at first are provided; Wherein said first connector has first groove of first receiving portion and said first receiving portion of next-door neighbour; Said second connector has second groove of plural second receiving portion and said second receiving portion of a next-door neighbour; Aforementioned first and second connector is arranged at the both sides of said heat pipe one end respectively, and said assembled body is located on the end face of said relatively heat pipe and joint portion, and simultaneously said first and second connector and assembled body exerted pressure towards heat pipe; Make both sides and said first and second receiving portion of said relatively heat pipe one end of said first and second groove applying join, to integrally combine with said heat pipe with corresponding docking section; Through the design of the method for the present invention, can effectively save man-hour and reduce cost, and then effectively reach excellent radiating effect again.

Description of drawings

Fig. 1 is the schematic perspective view of convention;

Fig. 2 is the local combination of the heat radiation module schematic perspective view of first preferred embodiment of the present invention;

Fig. 3 is the heat radiation module exploded schematic perspective view of first preferred embodiment of the present invention;

Fig. 4 is another local combination schematic perspective view of heat radiation module of first preferred embodiment of the present invention;

Fig. 5 is another exploded schematic perspective view of heat radiation module of first preferred embodiment of the present invention;

Fig. 6 A is the heat radiation module partial cutaway schematic of first preferred embodiment of the present invention;

Fig. 6 B is another partial cutaway schematic of heat radiation module of first preferred embodiment of the present invention;

Fig. 7 is that heat radiation module of the present invention is implemented the aspect sketch map;

Fig. 8 is the schematic flow sheet of first preferred embodiment of the present invention;

Fig. 9 A is the heat radiation module partial cutaway schematic of second preferred embodiment of the present invention;

Fig. 9 B is another partial cutaway schematic of heat radiation module of second preferred embodiment of the present invention.

[primary clustering symbol description]

Heat pipe 2 first end faces 511

Endothermic section 21 second end faces 512

211 perforation 53 of first heat-absorbent surface

Second heat-absorbent surface, 212 extensions 54

The 3rd heat-absorbent surface 213 free ends 541

The 4th heat-absorbent surface 214 radiating fin groups 6

Radiating part 22 heat generating components 7

First connector 3

First groove 31

First receiving portion 32

First side 331

Second side 332

The 3rd side 333

The 4th side 334

Second connector 4

Second groove 41

Second is connect 42

The 5th side 431

The 6th side 432

Heptalateral 433

The 8th side 434

Assembled body 5

Docking section 51

Embodiment

Characteristic on above-mentioned purpose of the present invention and structure thereof and the function will be explained according to appended graphic preferred embodiment.

The invention provides a kind of heat radiation module and manufacturing approach thereof; See also the sketch map of Fig. 2,3, first preferred embodiment of the present invention shown in 7; Said heat radiation module comprises a heat pipe 2, at least one first connector 3, at least one second connector 4 and an assembled body 5; Wherein aforementioned heat pipe 2 have an endothermic section 21 and one from said endothermic section 21 outward extending radiating parts 22; Said endothermic section 21 is provided with one first heat-absorbent surface 211, one second heat-absorbent surface 212, the 3rd heat-absorbent surface 213 and one the 4th heat-absorbent surface 214; Said first, second, third and fourth heat-absorbent surface 211,212,213,214 next-door neighbours connect; And said first heat-absorbent surface 211 is attached on the heat generating component 7 (like central processing unit, north and south bridge chip, display chip or other pyrotoxin), and heat transferred to the radiating part 22 that it is produced in order to the said heat generating component 7 of direct absorption sees through at least one radiating fin group 6 that said radiating part 22 wears on it and outwards dispels the heat.

Aforementioned in addition first connector 3 has one first groove 31 and said first groove 31 of plural first receiving portion, 32 next-door neighbours; And it more is provided with one first side 331, one second side 332, the 3rd side 333 and one the 4th side 334 opposite said the 3rd sides 333; Wherein said first side, 331 opposite said the 3rd sides 333; And itself and 211 truncations of said first heat-absorbent surface, said first groove 31 is arranged with formation from said the 4th side 334, and is installed with mutually with said relatively second heat-absorbent surface 212; And aforementioned first receiving portion 32 is a convex body, and said convex body axially protrudes out formation on said second side 332.

Aforementioned in addition second connector 4 has one second groove 41 and said second groove 41 of plural second receiving portion, 42 next-door neighbours; And it more is provided with one the 5th side 431, one the 6th side 432, a heptalateral 433 and one the 8th side 434 opposite said heptalaterals 433; Wherein said the 5th side 431 opposite said the 6th sides 432; And said first heat-absorbent surface 211 of its truncation and first side 331; Said second groove 41 is arranged with formation from said the 8th side 434; And be installed with mutually with said relatively the 4th heat-absorbent surface 214, in brief, promptly aforementioned first and second groove 31,41 is the both sides (being said second, four heat-absorbent surfaces 212,214) that are installed with the said relatively endothermic section 21 of connection respectively.

Continue and consult Fig. 3, aforementioned second receiving portion 42 is all convex body mutually with first receiving portion 32, and said convex body axially protrudes out formation on the 6th side 432.Said assembled body 5 is located on the end face of said relatively endothermic section 21 and first and second connector 3,4; And second end face 512 with plural docking section 51, first end face 511 and opposite said first end face 511; Said docking section 51 is a shrinkage pool; Said shrinkage pool provides and is formed on said first and second end face 511,512; And with corresponding convex body (first and second promptly corresponding receiving portion 32,42) tabling (or engaging), make aforementioned the 3rd heat-absorbent surface 213 and second, six sides 332,432 be close to and lean against on said first end face 511, to be combined into one with said heat pipe 2.Wherein said first and second connector 3,4 and assembled body 5 are constituted with metal (like copper, gold, silver, aluminium or alloy) material.

The person is chimeric or engaging in the connected mode of aforementioned first and second connector 3,4 of said preferable enforcement and assembled body 5 in addition, but is not limited to this; During practical implementation, compactness between alternate manners such as welding also capable of using or gluing first and second connector 3,4 of enhancing and assembled body 5.

Moreover have two kinds of aspects in the aforementioned assembled body 5 of said preferable enforcement: as to consult first aspect shown in Fig. 2,3, the 6A be that said assembled body 5 more is provided with plurality of through holes 53; Said perforation 53 provides two sides that are formed on adjacent said assembled body 5 or place, four corners respectively, and it is used to wear for relative plural fixture (like screw) and is fixed on the machine plate (not shown).

It is continuous that to consult second aspect shown in Fig. 4,5, the 6B be that said assembled body 5 more is provided with plural extension 54; Said extension 54 is from 5 liang of opposite external side of said assembled body formation that stretches out; And it has more a free end 541, provides a perforation 53 usefulness on the said free end 541 and wears for the fixture (like screw) of correspondence and be fixed on the aforementioned machine plate (not shown).

Therefore see through first and second connector 3,4 and assembled body 5 of the present invention; Be combined into one with heat pipe 2; And the endothermic section 21 that sees through heat pipe 2 directly will adsorb heat and guided to the design that the said radiating part 22 radiating fin group 6 on it is dispelled the heat; Can effectively reduce thermal resistance and use lifting overall thermal transfer efficiency, and then can reach excellent radiating effect person again.

See also Fig. 3,8, wherein Fig. 8 shows of the present invention first schematic block follow diagram than embodiment; Said heat radiation module making method comprises the following steps:

(200) beginning;

(201) provide a heat pipe, at least one have one first groove and plural first receiving portion first connector, at least one has second connector of one second groove and plural second receiving portion;

Provide a heat pipe 2, at least one have one first groove 31 and plural first receiving portion 32 first connector 3, at least one has second connector 4 of one second groove 41 and plural second receiving portion 42; Wherein said first and second connector 3,4 and assembled body 5 are constituted with metal (like copper, gold, aluminium, silver or alloy etc.) material; Said first and second receiving portion 32,42 is a convex body, and it axially protrudes out formation respectively on a side (being above-mentioned second side 332 and the 6th side 432) of aforementioned first connector 3 and second connector, 4 relative assembled bodies 5.

Aforementioned first groove 31 is arranged with and is formed on the 4th side 334, and it is close to said first receiving portion 32, and 41 of said second grooves are arranged with and are formed on the 8th side 434, and it is close to said second receiving portion 42; And said docking section 51 is shrinkage pool, and it provides and is formed on said assembled body 5 one sides (being above-mentioned first and second end face 511,512).When practical implementation, the user can be in advance according to the assembling and the manufacturing convenience demand of heat radiation module, and designing aforementioned first and second receiving portion 32,42 is shrinkage pool, and aforementioned docking section 51 is a convex body, closes first Chen Ming.

(202) said first and second connector is arranged at the both sides of said heat pipe one end respectively; And said assembled body is located on the end face of said relatively heat pipe and first and second connector; And simultaneously said first and second connector and assembled body are exerted pressure towards heat pipe; Make both sides and said first and second receiving portion of said relatively heat pipe one end of said first and second groove applying join, to integrally combine with said heat pipe with corresponding docking section.

Provide a mould (not shown) with first and second groove 31,41 of aforementioned first and second connector 3,4 respectively correspondence be arranged at the both sides of said heat pipe 2 one ends (being the endothermic section 21 of above-mentioned heat pipe 2); And said assembled body 5 is located on the end face of said relatively heat pipe 2 and first and second connector 3,4 (first end face 511 that is about to above-mentioned assembled body 5 is positioned at said relatively the 3rd heat-absorbent surface 213 and second, six sides, 332,432 tops), see through then said mould simultaneously to first and second connector 3,4 and assembled body 5 towards heat pipe 2 processing of exerting pressure;

Make first and second groove 31,41 of said first and second connector 3,4 be installed with respectively and be close to second, four heat-absorbent surfaces 212,214 of the endothermic section 21 of leaning on corresponding said heat pipe 2; And said first and second receiving portion 32,42 and corresponding docking section 51 tablings, make said first and second connector 3,4 and assembled body 5 and heat pipe 2 be combined into one.

Therefore; Through the design of the method for the present invention, make and effectively shorten the reduction of man-hour and cost in making to go up, and then when the heat radiation module dispels the heat to heat generating component 7; Can effectively avoid the generation of thermal resistance, with effective lifting overall thermal transfer efficiency and reach excellent radiating effect.

See also the sketch map of second preferred embodiment of the present invention shown in Fig. 9 A, the 9B; Said preferred embodiment roughly connection relationship and the effect thereof with the aforementioned first preferable enforcement is identical; Said preferred embodiment mainly changes first and second receiving portion of aforementioned first preferred embodiment and is designed to shrinkage pool; And docking section 51 changes and is designed to convex body; That is said first and second receiving portion 32,42 is to be shrinkage pool; It is arranged with formation from a side of aforementioned first connector 3 and the said relatively assembled body 5 of second connector 4 respectively, that is said shrinkage pool is arranged with formation from said second side 332 and the 6th side 432.

Said docking section 51 is a convex body, and it axially protrudes out formation on said assembled body 5 one sides, that is said convex body axially protrudes out formation from said first end face 511, and with corresponding shrinkage pool tabling.

The above, the present invention has advantage compared to convention:

1. hot transfer efficiency is good;

2. excellent in heat dissipation effect;

3. shortening man-hour and cost reduces.

The above is merely preferable feasible embodiment of the present invention, and the variation that utilizes the above-mentioned method of the present invention, shape, structure, device to do such as all should be contained in the interest field of this case.

Claims (18)

1. a heat radiation module is characterized in that, comprising:

A heat pipe, have an endothermic section and one from said endothermic section outward extending radiating part;

At least one first connector, it has one first groove, and plural first receiving portion is close to said first groove;

At least one second connector, it has one second groove, reach plural second receiving portion and be close to said second groove, and said first and second groove is installed with the both sides of the said relatively endothermic section of connection respectively; And

An assembled body is located on the end face of said relatively endothermic section and first and second connector, and has plural docking section and join with first and second corresponding receiving portion, to integrally combine with said heat pipe.

2. heat radiation module as claimed in claim 1 is characterized in that, wherein said endothermic section has one first heat-absorbent surface, second heat-absorbent surface, the 3rd heat-absorbent surface and one the 4th heat-absorbent surface, and said first, second, third and fourth heat-absorbent surface next-door neighbour connects.

3. heat radiation module as claimed in claim 2; It is characterized in that; Wherein said first connector has one first side, second side, the 3rd side and one the 4th side; Said first heat-absorbent surface of the said first side truncation, said first groove is arranged with formation from said the 4th side, and is installed with mutually with said relatively second heat-absorbent surface.

4. heat radiation module as claimed in claim 3; It is characterized in that; Wherein said second connector has one the 5th side, one the 6th side, a heptalateral and one the 8th side; Said first heat-absorbent surface of said the 5th side-line truncation and first side, said second groove are to be arranged with formation from said the 8th side, and are installed with mutually with said relatively the 4th heat-absorbent surface.

5. heat radiation module as claimed in claim 4 is characterized in that, wherein said assembled body has one first end face and opposite said first end face of one second end face, and aforementioned the 3rd heat-absorbent surface and second, six sides are close to and are leaned against on said first end face.

6. heat radiation module as claimed in claim 5 is characterized in that, wherein said first and second receiving portion is a convex body; It axially protrudes out formation respectively on aforementioned second side and the 6th side; Said docking section is a shrinkage pool, and it provides and is formed on said first and second end face, and with corresponding convex body tabling.

7. heat radiation module as claimed in claim 5 is characterized in that, wherein said first and second receiving portion is a shrinkage pool; It is arranged with formation from aforementioned second side and the 6th side respectively; Said docking section is a convex body, and it axially protrudes out formation from said first end face, and with corresponding shrinkage pool tabling.

8. like claim 6 or 7 described heat radiation modules, it is characterized in that wherein said assembled body more is provided with plurality of through holes, said perforation provides the place, four corners that is formed on adjacent said assembled body respectively, and it is used and wears fixing for relative plural fixture.

9. like claim 6 or 7 described heat radiation modules; It is characterized in that; Wherein said assembled body more is provided with plural extension; Said extension is from the said assembled body two opposite external side formation that stretches out, and it has a free end, provides a perforation on the said free end and uses a fixture for correspondence to wear fixing.

10. heat radiation module as claimed in claim 1 is characterized in that, the connected mode of wherein said assembled body and first and second connector is chimeric or engaging.

11. heat radiation module as claimed in claim 2 is characterized in that, wherein said first heat-absorbent surface is attached on the relative heat generating component.

12. heat radiation module as claimed in claim 1 is characterized in that, wherein said radiating part is equipped with at least one radiating fin group.

13. heat radiation module as claimed in claim 1 is characterized in that, wherein aforementioned first and second connector and assembled body are constituted with metal material.

14. a heat radiation module making method is characterized in that, comprising:

Provide a heat pipe, at least one have one first groove and plural first receiving portion first connector, at least one has second connector of one second groove and plural second receiving portion; And

Said first and second connector is arranged at the both sides of said heat pipe one end respectively, and said assembled body is located on the end face of said relatively heat pipe and first and second connector, and simultaneously said first and second connector and assembled body exerted pressure towards heat pipe,

Make both sides and said first and second receiving portion of said relatively heat pipe one end of said first and second groove applying join, to integrally combine with said heat pipe with corresponding docking section.

15. heat radiation module making method as claimed in claim 14; It is characterized in that; Wherein said first and second receiving portion is a convex body, and it axially protrudes out formation respectively on a side of aforementioned first connector and the said relatively assembled body of second connector, and said docking section is to be shrinkage pool; It provides and is formed on the said assembled body, and fastens with corresponding convex body.

16. heat radiation module making method as claimed in claim 15; It is characterized in that; Wherein said first and second receiving portion is a shrinkage pool, and it is arranged with formation from a side of aforementioned first connector and the said relatively assembled body of second connector respectively, and said docking section is a convex body; It axially protrudes out formation on said assembled body one side, and fastens with corresponding shrinkage pool.

17. heat radiation module making method as claimed in claim 14 is characterized in that, the connected mode of wherein said assembled body and first and second connector is chimeric or engaging.

18. heat radiation module making method as claimed in claim 14 is characterized in that, wherein aforementioned first and second connector and assembled body are constituted with metal material.

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