CN107664452B - Temperature-uniforming plate and heat pipe combination structure and combinations thereof method - Google Patents

Abstract

The present invention is to be related to a kind of temperature-uniforming plate and heat pipe combination structure and combinations thereof method, and wherein temperature-uniforming plate and heat pipe combination structure include heat pipe, temperature-uniforming plate and working fluid.Heat pipe includes a tube body, a fixed section and one first capillary structure.Temperature-uniforming plate includes metal-back on one, once metal-back, a cavity and one second capillary structure being arranged in cavity.Working fluid is filled in cavity, and wherein the fixed section of heat pipe connects upper metal-back, connect the first capillary structure with the second capillary structure.Whereby, connection and fixation are worn conducive to heat pipe, and is able to ascend the back-flow velocity of gaseous working fluid.

Description

Temperature-uniforming plate and heat pipe combination structure and combinations thereof method

Technical field

The present invention relates to a kind of thermally conductive technology, espespecially a kind of temperature-uniforming plate and heat pipe combination structure and combinations thereof method.

Background technique

As the arithmetic speed of electronic building brick is constantly promoted, generated heat is also higher and higher, in order to effectively solve Certainly the problem of this golf calorific value, industry is by heat pipe (Heat Pipe) and temperature-uniforming plate (Vapor with good heat conductive characteristic Chamber the use of popularity) is carried out, although wherein heat pipe has and makes the flow direction property of internal gaseous working fluid consistent, Because the heat that the inflexible limit of volume causes it that can conduct is fairly limited, though there is another temperature-uniforming plate spacious heating surface area to provide Directly attach conduction to pyrotoxin, but its gaseous working fluid flows to comparable disorder, so will all limit its heat loss through conduction Efficiency.

Heat pipe and temperature-uniforming plate are subject to group and connect and form a combination knot by industry in order to solve the problems of aforementioned point Structure, wherein heat pipe be wear a side connect in temperature-uniforming plate, and allow heat pipe inner space and temperature-uniforming plate inner space it is mutual Connection.

However, existing temperature-uniforming plate and heat pipe combination structure, although the efficiency with heat loss through conduction, there are following The problem of: it is mutually amplexiformed since the capillary structure of its inside heat pipe fails the capillary structure inside temperature-uniforming plate, thus leads to liquid State working fluid interrupts or discontinuous situation to generate during flowing back, and the effect of its heat loss through conduction will all be greatly reduced Energy.In addition, the wall thickness of temperature-uniforming plate is generally all comparable thin, in order to allow what heat pipe can be stable to be retained on temperature-uniforming plate, Shi Biyou Bulge loop is shaped to provide the bearing of heat pipe in the siding of temperature-uniforming plate, so will all cause the increasing of the cumbersome and cost of manufacture of process Add, is to need to be improved.

Summary of the invention

The purpose of the present invention is to provide a kind of temperature-uniforming plate and heat pipe combination structure and combinations thereof methods, are not only conducive to heat Pipe wears connection and fixation, and is able to ascend the back-flow velocity of gaseous working fluid.

In order to reach above-mentioned purpose, the present invention provides a kind of temperature-uniforming plate and heat pipe combination structure, including heat pipe, temperature-uniforming plate And working fluid.Heat pipe includes a tube body, the fixed section extended from tube body one end and is arranged in intracorporal one first capillary of pipe Tissue.Temperature-uniforming plate includes metal-back and the metal-back once of corresponding upper metal-back contiguity sealing on one, in upper metal-back and lower gold Belong to one second capillary structure for being formed with a cavity between shell and being arranged in cavity.Lower metal-back then has a vertical plate, vertical What plate offered connection cavity one penetrates portion, and wherein heat pipe, which is worn, meets the portion of penetrating and fixed section connects upper metal-back, to make first Capillary structure is connect with the second capillary structure.Working fluid is filled in cavity.

Preferably, above-mentioned tubular body has a closed end and an open end, and above-mentioned fixed section is to extend this from the open end It is formed outside tube body, above-mentioned upper metal-back then has the portion of amplexiforming with respect to the fixed section.

Preferably, above-mentioned tubular body also includes a cutting edge, which, which extends, connects above-mentioned fixed section, and it is parallel on State the portion of amplexiforming.

Preferably, the shape of above-mentioned fixed section is a tabular, and the above-mentioned portion of amplexiforming then is a flat surface.

Preferably, above-mentioned fixed section is the arc between the wing plate and two wing plate each extended over from two side of cutting edge Shape pipe portion, the above-mentioned portion of amplexiforming then are an arc groove.

Preferably, above-mentioned first capillary structure from above-mentioned tubular body extend to above-mentioned fixed section and with above-mentioned second capillary structure Connection.

Preferably, above-mentioned temperature-uniforming plate further includes most supporters, and each supporter is erected respectively in above-mentioned upper metal-back and upper It states between lower metal-back.

Preferably, above-mentioned each supporter uprightly extends to the second of above-mentioned upper metal-back from a bottom plate of above-mentioned lower metal-back Second capillary structure is also laid on capillary structure, the surface of each supporter.

Preferably, above-mentioned tubular body one end is additionally provided with plurality of radiating fins.

Preferably, the above-mentioned portion of penetrating is a perforation or a wears groove.

It preferably, also include the third capillary group for connecting above-mentioned first capillary structure with above-mentioned second capillary structure It knits.

To reach above-mentioned purpose, the present invention also provides the combined method of a kind of temperature-uniforming plate and heat pipe, step includes: a) The one end for providing a tube body, which has extended to form, is equipped with one first capillary structure in a fixed section and the tube body；B) this will fixes Metal-back inner wall in the tube body connection one of section, coating metal powder metal-back inner wall on this are sintered to form one second mao It is thin to organize and connect with first capillary structure；C) by the corresponding contiguity of the metal-back once sealing of metal-back on this, metal on this It is formed with a cavity between shell and the lower metal-back, and an at least vertical plate for the lower metal-back is also provided with to wear for the tube body and connect One penetrates portion；And d) working fluid is inserted in the cavity and is sealed after imposing degasification.

Preferably, it is further included before above-mentioned steps a) and the tube body is cut into a cutting edge, so that the fixed section is formed one flat Plate or two wing plates being formed by connecting by an arc pipe portion two sides.

Preferably, when each wing plate that above-mentioned arc pipe portion two sides are formed by connecting is connect with above-mentioned upper metal-back inner wall, also Including an arc groove is made into be correspondingly connected with the arc pipe portion in above-mentioned upper metal-back.

Preferably, in above-mentioned steps b), above-mentioned fixed section be in such a way that spot welding or plasma-based are welded with above-mentioned upper metal Shell inner wall is affixed.

Preferably, it further includes in above-mentioned steps b) while by after above-mentioned lower metal-back inner wall coating metal powder, and it is upper Metal-back is stated to be sintered together to form the second capillary structure.

Preferably, in above-mentioned steps c), a bottom plate of above-mentioned lower metal-back is more integrally formed and is uprightly extended with majority Supporter, each supporting body surface also coating metal powder are simultaneously sintered and form the second capillary structure.

Preferably, in above-mentioned steps b) after further include with a third capillary structure by above-mentioned second capillary structure with it is upper State the connection of the first capillary structure.

The present invention also has effects that following, utilizes the first capillary structure and the second capillary structure to attach and contacts and then promote work Make the back-flow velocity of fluid.Portion is amplexiformed by what the fixed section of different structure was close to corresponding upper metal-back, except making the first capillary Tissue can also make the working fluid of liquid be back to the cavity of temperature-uniforming plate rapidly outside contacting with the easy attaching of the second capillary structure It is interior, effectively promote heat conduction efficiency of the invention.In addition, upper metal-back of the invention can be consolidated in response to what various different structures changed Determine section, be correspondingly arranged into the portion of amplexiforming, then be bonded with welded seal, to achieve the effect that conduct heat and fixed heat pipe.

Detailed description of the invention

Fig. 1 is the stereogram exploded view of the first preferred embodiment of the invention.

Fig. 2 is the constitutional diagram of the first preferred embodiment of the invention.

Fig. 3 is the assembled sectional view of the first preferred embodiment of the invention.

Fig. 4 is the stereogram exploded view of the second preferred embodiment of the invention.

Fig. 5 is the constitutional diagram of the second preferred embodiment of the invention.

Fig. 6 is the assembled sectional view of the second preferred embodiment of the invention.

Fig. 7 is another assembled sectional view of the second preferred embodiment of the invention.

Fig. 8 is the use of the second preferred embodiment of the invention with reference to figure.

Fig. 9 is the process block diagram of temperature-uniforming plate of the present invention and heat pipe combination method.

[main component symbol description]

10 heat pipes

12 tube bodies

14 fixed sections

16 first capillary structures

18 closed ends

20 open ends

22 cutting edges

24 wing plates

26 arc pipe portions

30 temperature-uniforming plates

Metal-back on 32

322 amplexiform portion

34 lower metal-backs

36 supporters

38 vertical plates

40 penetrate portion

42 bottom plates

46 cavities

50 second capillary structures

60 working fluids

70 radiating fins

Step a, b, c, d

Specific embodiment

The detailed description of the related present invention and technology contents, cooperation Detailed description of the invention is as follows, however appended attached drawing only provides ginseng It examines and illustrates to use, be not intended to limit the present invention.

Shown in please referring to Fig.1 to Fig.3, for the relevant indicators of the first preferred embodiment of the invention.As shown, this hair It is bright that a kind of temperature-uniforming plate and heat pipe combination structure are provided, it mainly include a heat pipe 10, a temperature-uniforming plate 30 and a working fluid 60.Institute Stating temperature-uniforming plate and heat pipe combination structure can be applicable in the heat dissipation technology such as main frame, server or industrial host.

Heat pipe 10 includes a tube body 12, the fixed section 14 extended from 12 one end of tube body and setting in tube body 12 and along solid Determine one first capillary structure 16 of the setting of section 14.Tube body 10 can be the good materials of thermal conductivity such as copper, aluminium or other suitable alloy Made by material, there is a closed end 18 and an open end 20, fixed section 14 be extend the outside of tube body 12 from open end 20 and It is formed.

Tube body 12 is also including, for example, with a cutting edge 22 made of cutter or cutting tool cutting, 22 side of cutting edge extends It is connected and fixed section 14,14 shape of fixed section is made to form a tabular.As shown in figure 3,22 one end vertical tube 12 of cutting edge, another End is then connected obliquely fixed section 14, in order to which fixed section 14 is formed the tabular.First capillary structure 16 can be metal Made by mesh grid, fibre bundle, metal powder sintered object or other suitable material.First capillary structure 16 is arranged in tube body 12 Inner wall and along 14 inner wall of fixed section be arranged.

Temperature-uniforming plate 30 includes metal-back 32 on one, the metal-back once 34 of the contiguity of metal-back 32 sealing and most branch in correspondence Support body 36.One second capillary for being formed with a cavity 46 between upper metal-back 32 and lower metal-back 34 and being arranged in cavity 46 Tissue 50.Upper metal-back 32 has one to amplexiform portion 322, and lower metal-back 34 then has most vertical plates 38, for example, 4 and make temperature-uniforming plate 30 rectangular shells, offer connection cavity 46 in an at least vertical plate 38 one penetrate portion 40.Upper metal-back 32, lower metal-back 34 And most supporters 36 can be for made by the conductive materials such as copper, aluminium or its alloy.Second capillary structure 50 then can be metal knitted Made by net, fibre bundle, metal powder sintered object or other suitable material.

Each supporter 36 is erected respectively between upper metal-back 32 and lower metal-back 34, one end more with the second capillary structure 50 It is close to attach contact, and then prevent temperature-uniforming plate 30 from deforming under room temperature or the condition of high temperature.Each supporter 36 is preferably from lower metal-back 34 bottom plate 42 uprightly extends to the second capillary structure 50 of metal-back 32, and the surface of each supporter 36 also lays second mao Thin tissue 50.The shape of each supporter 36 including but not limited to cylindric, triangle, ellipse or other suitable shape, and It does not limit.

In this first specific embodiment, fixed section 14 preferably directly extends from 22 two sides of cutting edge, and parallel patch Socket part 322 is arranged.That is, the shape of fixed section 14 is a tabular, amplexiforms portion 322 and be then a flat surface, make fixed section 14 It is tightly attached to the portion of amplexiforming 322, so that heat pipe 10 is worn and is connect with the portion 40 that penetrates that open end 20 corresponds to vertical plate 38, and by fixed section 14 for example amplexiform portion 322 with welding to be fixed in temperature-uniforming plate 30.

The portion 40 that penetrates in the present embodiment is preferably a wears groove；However in various other embodiments, portion 40 is penetrated also It can be a perforation or the hole that up/down metal-back 32,34 is collectively formed.In addition, the present embodiment also includes by the first capillary structure 16 and the second third capillary structure (figure omit) that connects of capillary structure 50.

Please also refer to the relevant indicators for shown in Fig. 4 to Fig. 8, being the second preferred embodiment of the invention.The present embodiment It is with the difference of previous embodiment, the wing plate that the fixed section 14 in the present embodiment can also be each extended over from 22 2 side of cutting edge 24 and the two arc pipe portions 26 between wing plate 24, upper metal-back 32 to amplexiform portion 322 then be an arc groove 322, with arc Shape pipe portion 26 is closely connected.

Working fluid 60 is filled in cavity 46, wherein heat pipe 10 wear connect the portion of penetrating 40 and fixed section 14 connection amplexiform portion 322, so that the first capillary structure 16 be made to connect with the second capillary structure 50.It can so make the gaseous working fluid 60 of reflux from the One capillary structure 16 smoothly flows through the second capillary structure 50, and then promotes the back-flow velocity of gaseous working fluid 60.

The working fluid 60 of the present embodiment is preferably water or its mixture, and transmission one enters liquid gas removing pipe (not shown go out) and holds Chamber 46 is interconnected, and working fluid 40 is inserted upper metal-back 11 and lower metal-back 12 is formed by cavity 46, and by entering Liquid gas removing pipe carries out degasification processing and imposes sealing operation to liquid gas removing pipe is entered, and then completes the temperature-uniforming plate and heat pipe of the present embodiment Composite structure.

It is the process block diagram of the combined method of temperature-uniforming plate of the present invention and heat pipe please further refer to shown in Fig. 9.It is aforementioned equal Warm plate and heat pipe combination structure, can following preparation method obtain, step includes:

A) one end for providing a tube body 12 has extended to form a fixed section 14 and tube body 12 along fixed section 14 is equipped with one the One capillary structure 16.Tube body 10 in this step can be for made by the conductive materials such as copper, aluminium or its alloy.This step it Before, it further includes and tube body 14 is cut into a cutting edge 22, fixed section 14 is made to form a tabular or be connected by 26 two sides of an arc pipe portion Two wing plate 24 made of connecing.

B) by 32 inner wall of metal-back in the connection of tube body 14 one with fixed section 14, coating metal powder (figure omits) is in upper gold Belong to 32 inner wall of shell, is sintered to form one second capillary structure 50 and be connect with the first capillary structure 16.In this step, fixed section 14 are preferably welded and fixed with spot welding, plasma-based welding or other suitable welding manner with upper 32 inner wall of metal-back.In addition, more wrapping It includes while by after lower 34 inner wall coating metal powder of metal-back, is sintered together with upper metal-back 32 to form the second capillary group Knit 50.

C) by the corresponding contiguity of the metal-back 34 once sealing of upper metal-back 32, the shape between upper metal-back 32 and lower metal-back 34 Cheng Youyi cavity 46, and an at least vertical plate 38 for lower metal-back 34 is also provided with and wears connect one for tube body 14 and penetrate portion 40.Herein In step, upper metal-back 34 and lower metal-back 34 can be made by the conductive materials such as copper, aluminium or its alloy, by upper 32 He of metal-back Lower about 34 metal-back is corresponding repeatedly to be connect and is welded and sealed to its each periphery.One bottom plate 42 of lower metal-back 34 is more integrated It forms and is uprightly extended with most supporters 36, each 36 surface of supporter also coating metal powder is simultaneously sintered and forms second Capillary structure 50.

D) working fluid 60 is inserted in cavity 46 and is sealed after imposing degasification.Working fluid 60 in this step can For or mixtures thereof water, transmission one enters liquid gas removing pipe (figure omits) and is interconnected with cavity 46, and working fluid 40 is inserted upper metal Shell 11 and lower metal-back 12 are formed by cavity 46, and degasification processing and apply to liquid gas removing pipe is entered by liquid gas removing pipe is entered With sealing operation, and then complete the temperature-uniforming plate and heat pipe combination structure of the present embodiment.

In a preferred embodiment of step a), cutting edge 22 is for example cut with cutter or cutting tool, then is bent Flatten into the fixed section 14.However in a further preferred embodiment, each wing plate 24 being formed by connecting when 26 two sides of arc pipe portion When being connect with upper 32 inner wall of metal-back, further include upper metal-back 32 is made into an arc groove (amplexiforming portion 322) with arc The corresponding welding of shape pipe portion 26.

In step b), the second capillary structure 50 can also be laid by metal net, fibre bundle or other composite materials It forms, does not limit.In addition, the connection in relation to the second capillary structure 50 and the first capillary structure 16 also includes with a third capillary Tissue (figure omits) connects the two.That is, by the first formed capillary structure 16 in tube body 12 and in upper metal-back 32 The formed accordingly setting of second capillary structure 50, is sintered after coating metal powder therebetween, is thusly-formed the The third capillary structure of two capillary structures 50 and the connection of the first capillary structure 16.It further include close to closed end in the present embodiment 18 12 over-assemble several dissipation fins 70 of tube body, to increase heat dissipation effect.

In conclusion the temperature-uniforming plate of the present invention and heat pipe combination structure and combinations thereof method, really can reach the use of expection Purpose, and existing missing is solved, and because of great novelty and progressive, comply fully with application for a patent for invention condition, according to patent Method is filed an application, and detailed survey and quasi- this case patent please be grant, to ensure the right of inventor.

Claims (17)

1. a kind of temperature-uniforming plate and heat pipe combination structure, characterized by comprising:

One heat pipe including a tube body, the fixed section extended from the tube body one end and is arranged in be arranged in the tube body one first Capillary structure；

One temperature-uniforming plate, the metal-back once including metal-back on one and corresponding metal-back contiguity sealing on this, metal-back on this One second capillary structure for being formed with a cavity between the lower metal-back and being arranged in the cavity, the lower metal-back then have One vertical plate, the vertical plate offer be connected to the cavity one penetrate portion, wherein the heat pipe, which is worn, connects that this penetrates portion and the fixed section connects Metal-back on this is connect, so that first capillary structure be made to connect with second capillary structure；And

One working fluid is filled in the cavity；

Above-mentioned tubular body has a closed end and an open end, and above-mentioned fixed section is to extend outside the tube body from the open end and shape At above-mentioned upper metal-back then has the portion of amplexiforming with respect to the fixed section.

2. temperature-uniforming plate according to claim 1 and heat pipe combination structure, it is characterised in that above-mentioned tubular body also includes a cutting Side, which, which extends, connects above-mentioned fixed section, and parallel above-mentioned amplexiforms portion.

3. temperature-uniforming plate according to claim 1 and heat pipe combination structure, it is characterised in that the shape of above-mentioned fixed section is one Tabular, the above-mentioned portion of amplexiforming then are a flat surface.

4. temperature-uniforming plate according to claim 2 and heat pipe combination structure, it is characterised in that above-mentioned fixed section is from the cutting The arc pipe portion between a wing plate and two wing plate that two side of side each extends over, the above-mentioned portion of amplexiforming then is an arc groove.

5. temperature-uniforming plate according to claim 1 and heat pipe combination structure, it is characterised in that above-mentioned first capillary structure is from upper Tube body is stated to extend to above-mentioned fixed section and connect with above-mentioned second capillary structure.

6. temperature-uniforming plate according to claim 1 and heat pipe combination structure, it is characterised in that above-mentioned temperature-uniforming plate further includes majority Supporter, each supporter are erected respectively between above-mentioned upper metal-back and above-mentioned lower metal-back.

7. temperature-uniforming plate according to claim 6 and heat pipe combination structure, it is characterised in that above-mentioned each supporter is under above-mentioned One bottom plate of metal-back uprightly extends to the second capillary structure of above-mentioned upper metal-back, the surface of each supporter also lay this second Capillary structure.

8. temperature-uniforming plate according to claim 1 and heat pipe combination structure, it is characterised in that above-mentioned tubular body one end is additionally provided with Plurality of radiating fins.

9. temperature-uniforming plate according to claim 1 and heat pipe combination structure, it is characterised in that the above-mentioned portion of penetrating be one perforation or One wears groove.

10. temperature-uniforming plate according to claim 1 and heat pipe combination structure, it is characterised in that also include by above-mentioned first capillary Organize the third capillary structure connected with above-mentioned second capillary structure.

11. the combined method of a kind of temperature-uniforming plate and heat pipe, it is characterised in that its step includes:

A) one end for providing a tube body, which has extended to form, is equipped with one first capillary structure in a fixed section and the tube body；

B) by with the fixed section the tube body connection one on metal-back inner wall, coating metal powder metal-back inner wall on this, Sintering is to form one second capillary structure and connect with first capillary structure；

C) by the corresponding contiguity of the metal-back once sealing of metal-back on this, one is formed between metal-back and the lower metal-back on this Cavity, and an at least vertical plate for the lower metal-back is also provided with one for wearing and connecing for the tube body and penetrates portion；And

D) working fluid is inserted in the cavity and is sealed after imposing degasification.

12. the combined method of temperature-uniforming plate according to claim 11 and heat pipe, it is characterised in that before above-mentioned steps a) It further includes and the tube body is cut into a cutting edge, the fixed section is made to form a tabular or be formed by connecting by an arc pipe portion two sides Two wing plates.

13. the combined method of temperature-uniforming plate according to claim 12 and heat pipe, it is characterised in that when above-mentioned arc pipe portion two It further include that an arc is made into above-mentioned upper metal-back is recessed when each wing plate that side is formed by connecting is connect with above-mentioned upper metal-back inner wall Slot with the arc pipe portion to be correspondingly connected with.

14. the combined method of temperature-uniforming plate according to claim 11 and heat pipe, it is characterised in that in above-mentioned steps b), on It is affixed with above-mentioned upper metal-back inner wall in such a way that spot welding or plasma-based are welded for stating fixed section.

15. the combined method of temperature-uniforming plate according to claim 11 and heat pipe, it is characterised in that in above-mentioned steps b) more Including being sintered together to form second with above-mentioned upper metal-back simultaneously by after above-mentioned lower metal-back inner wall coating metal powder Capillary structure.

16. the combined method of temperature-uniforming plate according to claim 15 and heat pipe, it is characterised in that in above-mentioned steps c), on The bottom plate for stating lower metal-back is more integrally formed and is uprightly extended with most supporters, each supporting body surface also coating metal powder And it is sintered and forms the second capillary structure.

17. the combined method of temperature-uniforming plate according to claim 11 and heat pipe, it is characterised in that in above-mentioned steps b) it After further include and connect above-mentioned second capillary structure with above-mentioned first capillary structure with a third capillary structure.