CN206160784U - Phase transition restraines heat transfer plate - Google Patents

Abstract

The utility model provides a phase transition restraines heat transfer plate, the compulsory heat dissipation channel who is formed with the superconductive pipeline of the heat that has specific shape in the phase transition restraines heat transfer plate and has specific shape, the superconductive pipeline of heat is sealed pipeline, and the superconductive pipeline intussuseption of heat is filled with heat transfer medium, force heat dissipation channel to be located the superconductive pipeline of heat one side. The utility model discloses an outside at the superconductive pipeline of heat sets up compulsory heat dissipation channel, and facilitate the use forced air -cooling or liquid cooling are in order to improve phase transition restraines heat transfer plate's radiating effect, under the prerequisite that reaches the same or more excellent radiating effect, need not use radiating fin, reduced material cost and technology cost, simultaneously, current phase transition restraines heat transfer plate needs to use through the welding cooperation with radiating fin, and the utility model discloses an as an organic wholeization of phase transition restraines heat transfer plate structure, the thermal resistance loss is lower, and the heat conductivility has obtained great improvement, has better reliability.

Description

Phase transformation suppresses heat transfer plate

Technical field

The utility model belongs to phase transformation and suppresses field of heat transfer, and more particularly to a kind of phase transformation suppresses heat transfer plate.

Background technology

Phase transformation suppresses (PCI) heat transfer technology, be it is a kind of by controlling enclosed system in heat transfer medium micro-architectural state and reality The technology of existing efficient heat transfer.With high heat transfer rate and high heat flux.Can be widely applied to Aero-Space, power electronics, lead to The industries such as news, computer, high ferro, electric automobile, solar energy and wind-powered electricity generation.

At present, the swollen phase transformation of one side suppresses heat transfer plate or two-sided swollen phase transformation to suppress heat transfer plate to be double-layer structure, including first Sheet material and the second sheet material, between first sheet material and second sheet material Super-conductive conduit road is formed with.It is applied to requirement higher During heat flow density, such as CPU processor heat transfer plate is to increase the heat flow density that phase transformation suppresses heat transfer plate, and phase transformation suppresses heat transfer Plate need to be used cooperatively with radiating fin group, and radiating fin is welded to the surface that the phase transformation suppresses heat transfer plate by welding procedure. Radiating fin group and phase transformation suppress heat transfer plate with the use of there are problems that technique is complex, relatively costly, thermal resistance loss. Limit phase transformation and suppress application of the heat sink on many field products.Therefore press down in the urgent need to developing a kind of phase transformation of low cost Heat transfer plate processed.

Utility model content

The shortcoming of prior art in view of the above, the purpose of this utility model is to provide a kind of phase transformation to suppress heat transfer Plate, for solving prior art in order to strengthen heat flow density, phase transformation suppress heat transfer plate to use cooperatively with radiating fin group and The problems such as caused complex process, relatively costly, thermal resistance are lost big.

For achieving the above object and other related purposes, the utility model provides a kind of phase transformation and suppresses heat transfer plate, the phase Become and suppress to be formed with the Super-conductive conduit road with given shape and the forced heat radiation passage with given shape in heat transfer plate；Its In, the Super-conductive conduit road is closing pipe line, and heat-transfer working medium is filled with the Super-conductive conduit road；The forced heat radiation passage position In Super-conductive conduit road side.

Suppress a kind of preferred version of heat transfer plate as phase transformation of the present utility model, it is compound that the phase transformation suppresses heat transfer plate Plank frame, the Super-conductive conduit road and the forced heat radiation passage are formed by blowing-up technology.

Suppress a kind of preferred version of heat transfer plate as phase transformation of the present utility model, the phase transformation suppresses heat transfer plate to include the One sheet material, the second sheet material and tri-plate；First sheet material, second sheet material and the tri-plate are sequentially stacked, institute The first sheet material and the tri-plate are stated respectively positioned at the both sides of second sheet material, and passes through roll-in work with second sheet material Skill is combined with each other；

The Super-conductive conduit road is located between first sheet material and second sheet material, the outer surface of first sheet material For plane, second plate surface is formed with first bulge-structure corresponding with the Super-conductive conduit road；

The forced heat radiation passage is located between second sheet material and the tri-plate, the tri-plate surface shape The second corresponding bulge-structure of forced heat radiation passage described in Cheng Youyu.

Suppress a kind of preferred version of heat transfer plate as phase transformation of the present utility model, the phase transformation suppresses heat transfer plate to include the One sheet material, the second sheet material and tri-plate；Second sheet material and the tri-plate are respectively positioned at the two of first sheet material Side, and be combined with each other by rolling process with first sheet material；

The Super-conductive conduit road is located between first sheet material and second sheet material, and second plate surface is formed There is first bulge-structure corresponding with the Super-conductive conduit road；

The forced heat radiation passage is located between first sheet material and the tri-plate, the tri-plate surface shape The second corresponding bulge-structure of forced heat radiation passage described in Cheng Youyu.

Suppress a kind of preferred version of heat transfer plate as phase transformation of the present utility model, the phase transformation suppresses heat transfer plate to include the One sheet material, the second sheet material and tri-plate；First sheet material, second sheet material and the tri-plate are sequentially stacked, institute The first sheet material and the tri-plate are stated respectively positioned at the both sides of second sheet material, and passes through roll-in work with second sheet material Skill is combined with each other；

The Super-conductive conduit road is located between first sheet material and second sheet material, first sheet material and described the The surface of two sheet materials is each formed with first bulge-structure corresponding with the Super-conductive conduit road；

The forced heat radiation passage is located between second sheet material and the tri-plate, the tri-plate surface shape The second corresponding bulge-structure of forced heat radiation passage described in Cheng Youyu.

Suppress a kind of preferred version of heat transfer plate, the lateral dimension on the Super-conductive conduit road as phase transformation of the present utility model Less than the lateral dimension of the forced heat radiation passage.

A kind of preferred version of heat transfer plate, the Super-conductive conduit road is suppressed to be shaped as six as phase transformation of the present utility model Shape cellular, circular cellular, quadrangle in side is cellular, multiple U-shapeds, rhombus, triangle, the annular of head and the tail series connection, or its In any one above figure any combination.

Forced heat radiation passage end described in suppressing a kind of preferred version of heat transfer plate as phase transformation of the present utility model is provided with Forced heat radiation channel entrance, the other end is provided with forced heat radiation channel outlet, and the forced heat radiation passage is communicated with the outside.

The utility model also provides the manufacture method that a kind of phase transformation suppresses heat transfer plate, and the manufacture method includes following step Suddenly：

The first sheet material, the second sheet material and tri-plate totally three blocks of sheet material is provided, by first sheet material and the 3rd plate Material one side hacking, by the second sheet material double face hacking；

The shape on Super-conductive conduit road is defined in the hacking face of first sheet material using graphite print process, and the described 3rd The hacking face of sheet material defines the shape of forced heat radiation passage；Or a dozen hair sides using graphite print process in second sheet material are determined The shape on adopted Super-conductive conduit road, in another hacking face of second sheet material shape of forced heat radiation passage is defined；

First sheet material and the tri-plate are respectively placed in into the second sheet material both sides, first sheet material and institute Fit and align with second sheet material in the hacking face for stating tri-plate；

By the three blocks of sheet material for riveting together be heated to uniform temperature and maintain a period of time after carry out hot rolling To form composite board type structure；

High-pressure fluid is filled with into the composite board type structure to second sheet material and the tri-plate stretcher strain； While second plate surface forms the first bulge-structure, formed between first sheet material and second sheet material The Super-conductive conduit road corresponding with first bulge-structure；The same of the second bulge-structure is formed on the tri-plate surface When, the forced heat radiation corresponding with second bulge-structure is formed between second sheet material and the tri-plate and is led to Road；

Heat-transfer working medium is filled with into the Super-conductive conduit road and the Super-conductive conduit road is sealed.

The utility model also provides the manufacture method that a kind of phase transformation suppresses heat transfer plate, and the manufacture method includes following step Suddenly：

The first sheet material, the second sheet material and tri-plate totally three blocks of sheet material is provided, by second sheet material and the 3rd plate Material one side hacking, by the first sheet material double face hacking；

The shape on Super-conductive conduit road is defined in the hacking face of second sheet material using graphite print process, and the described 3rd The hacking face of sheet material defines the shape of forced heat radiation passage；Or a dozen hair sides using graphite print process in first sheet material are determined The shape on adopted Super-conductive conduit road, in another hacking face of first sheet material shape of forced heat radiation passage is defined；

Second sheet material and the tri-plate are respectively placed in into the first sheet material both sides, second sheet material and institute Fit and align with first sheet material in the hacking face for stating tri-plate；

By the three blocks of sheet material for riveting together be heated to uniform temperature and maintain a period of time after carry out hot rolling To form composite board type structure；

High-pressure fluid is filled with into the composite board type structure to second sheet material and the tri-plate stretcher strain； While second plate surface forms the first bulge-structure, formed between first sheet material and second sheet material The Super-conductive conduit road corresponding with first bulge-structure；The same of the second bulge-structure is formed on the tri-plate surface When, the forced heat radiation corresponding with second bulge-structure is formed between first sheet material and the tri-plate and is led to Road；

Heat-transfer working medium is filled with into the Super-conductive conduit road and the Super-conductive conduit road is sealed.

The utility model also provides the manufacture method that a kind of phase transformation suppresses heat transfer plate, and the manufacture method includes following step Suddenly：

The first sheet material, the second sheet material and tri-plate totally three blocks of sheet material is provided, by first sheet material and the 3rd plate Material one side hacking, by the second sheet material double face hacking；

The shape on Super-conductive conduit road is defined in the hacking face of first sheet material using graphite print process, and the described 3rd The hacking face of sheet material defines the shape of forced heat radiation passage；Or a dozen hair sides using graphite print process in second sheet material are determined The shape on adopted Super-conductive conduit road, in another hacking face of second sheet material shape of forced heat radiation passage is defined；

First sheet material and the tri-plate are respectively placed in into the second sheet material both sides, first sheet material and institute Fit and align with second sheet material in the hacking face for stating tri-plate；

By the three blocks of sheet material for riveting together be heated to uniform temperature and maintain a period of time after carry out hot rolling To form composite board type structure；

High-pressure fluid is filled with into the composite board type structure to second sheet material and the tri-plate stretcher strain； While first sheet material and second plate surface form the first bulge-structure, in first sheet material and described the The Super-conductive conduit road corresponding with first bulge-structure is formed between two sheet materials；Second is formed on the tri-plate surface While bulge-structure, form corresponding with second bulge-structure between second sheet material and the tri-plate Forced heat radiation passage；

Heat-transfer working medium is filled with into the Super-conductive conduit road and the Super-conductive conduit road is sealed.

As described above, phase transformation of the present utility model suppresses heat transfer plate, have the advantages that：The utility model by The outside on Super-conductive conduit road arranges forced heat radiation passage, convenient use air blast cooling or water-cooling, to improve the phase transformation suppression The radiating effect of heat transfer plate processed；Phase transformation of the present utility model suppresses heat transfer plate to suppress heat transfer plate with radiating compared to existing phase transformation The structure that fin is combined, on the premise of identical or more excellent radiating effect is reached, it is not necessary to use radiating fin, reduces material Material cost and process costs；Meanwhile, existing phase transformation suppresses heat transfer plate to use cooperatively by welding with radiating fin, and this reality Suppress heat transfer plate to be integrated with new phase transformation, thermal resistance loss is relatively low, and heat conductivility has obtained larger raising, with compared with Good reliability.

Description of the drawings

The phase transformation that Fig. 1 is shown as being provided in the utility model embodiment one suppresses the section partial structurtes of heat transfer plate to illustrate Figure.

Fig. 2 is shown as being shaped as the Super-conductive conduit road become in suppression heat transfer plate provided in the utility model embodiment one The structural representation of the second sheet material of hexagonal honeycomb shape.

Fig. 3 is shown as the shape on the Super-conductive conduit road in the phase transformation suppression heat transfer plate provided in the utility model embodiment one For the structural representation of crisscross the second netted sheet material.

Fig. 4 is shown as the shape on the Super-conductive conduit road in the phase transformation suppression heat transfer plate provided in the utility model embodiment one For the structural representation of the second sheet material of multiple U-shapeds of head and the tail series connection.

The phase transformation that Fig. 5 is shown as being provided in the utility model embodiment one suppresses have forced heat radiation through hole in heat transfer plate The structural representation of tri-plate.

The phase transformation that Fig. 6 is shown as being provided in the utility model embodiment two suppresses the section partial structurtes of heat transfer plate to illustrate Figure.

The phase transformation that Fig. 7 is shown as being provided in the utility model embodiment three suppresses the section partial structurtes of heat transfer plate to illustrate Figure.

Fig. 8 is shown as the flow chart of the manufacture method of the phase transformation suppression heat transfer plate provided in the utility model embodiment two.

Component label instructions

1 first sheet material

2 second sheet materials

3 tri-plates

4 Super-conductive conduit roads

41 filling exits

42 first bulge-structures

5 forced heat radiation passages

51 forced heat radiation channel entrances

52 forced heat radiation channel outlets

53 second bulge-structures

6 non-pipeline portions

S1～S6 steps

Specific embodiment

Embodiment of the present utility model is illustrated below by way of specific instantiation, those skilled in the art can be by this theory Content disclosed by bright book understands easily other advantages of the present utility model and effect.The utility model can also be by addition Different specific embodiments is carried out or applies, and the every details in this specification can also be based on different viewpoints and answer With, without departing from it is of the present utility model spirit under carry out various modifications and changes.

Fig. 1 to Fig. 8 is referred to it should be noted that the diagram provided in the present embodiment only illustrates in a schematic way this reality With new basic conception, though the component relevant with the utility model is only shown in diagram rather than according to group during actual enforcement Number of packages mesh, shape and size are drawn, and the kenel of each component, quantity and ratio can be a kind of random change during its actual enforcement, And its assembly layout kenel be likely to it is increasingly complex.

Embodiment one

Fig. 1 to Fig. 5 is referred to, the utility model provides a kind of phase transformation and suppresses heat transfer plate, the phase transformation to suppress in heat transfer plate It is formed with the Super-conductive conduit road 4 with given shape and the forced heat radiation passage 5 with given shape；Wherein, the hot superconduction Pipeline 4 is that heat-transfer working medium (not shown) is filled with closing pipe line, the Super-conductive conduit road 4；The forced heat radiation passage 5 is located at The side of Super-conductive conduit road 4.

As an example, the heat-transfer working medium is fluid, it is preferable that the heat-transfer working medium can be gas or liquid or gas With the mixture of liquid, it is further preferable that in the present embodiment, the heat-transfer working medium is the mixture of liquid and gas.

As an example, it is composite board type structure that the phase transformation suppresses heat transfer plate, and the Super-conductive conduit road 4 and the pressure dissipate The passage of heat 5 is formed by blowing-up technology.

As an example, the phase transformation suppresses heat transfer plate to include the first sheet material 1, the second sheet material 2 and tri-plate 3；Described One sheet material 1, second sheet material 2 and the tri-plate 3 are sequentially stacked, and first sheet material 1 and the tri-plate 3 are distinguished Positioned at the both sides of second sheet material 2, and it is combined with each other by rolling process with second sheet material 2；The Super-conductive conduit Road 4 is located between first sheet material 1 and second sheet material 2, and the outer surface of first sheet material 1 is plane, and described second The surface of sheet material 2 is formed with first bulge-structure 42 corresponding with the Super-conductive conduit road 4；The forced heat radiation passage 5 is located at Between second sheet material 2 and the tri-plate 3, the surface of tri-plate 3 is formed with and the phase of forced heat radiation passage 5 Corresponding second bulge-structure 53.

As an example, lateral dimension of the lateral dimension on the Super-conductive conduit road 4 less than the forced heat radiation passage 5.

As an example, the shape on the Super-conductive conduit road 4 can be hexagonal honeycomb shape, circular cellular, quadrangle honeybee Nest shape, multiple U-shapeds, rhombus, triangle, the annular of head and the tail series connection, or any combination of any of which above figure.

As an example, as shown in Fig. 2 the shape on the Super-conductive conduit road 4 can be hexagonal honeycomb shape, six side in Fig. 2 Shape part is non-pipeline portions 6, and the structure for surrounding around each hexagon and being interconnected is the Super-conductive conduit road 4.Need Illustrate, because the Super-conductive conduit road 4 is fabricated by by blowing-up technology, so forming the Super-conductive conduit road 4 During, filling exit 41 can be formed with first sheet material 1 or second sheet material 2, i.e., also it is to fill working medium mouth.The filling After the shape on the Super-conductive conduit road 4 is preliminarily formed, the filling exit 41 is sealed dress mouth 41 by welding manner, to realize The Super-conductive conduit road 4 does not turn on extraneous.Fig. 2 is second sheet material 2 for being shaped as hexagonal honeycomb shape on Super-conductive conduit road 4 Structural representation, so the presence of filling exit 41 still can be seen in fig. 2.

As an example, as shown in figure 3, the shape on the Super-conductive conduit road 4 can also be crisscross netted, in Fig. 3 Each quadrangle is non-pipeline portions 6, around quadrangle surrounding each described and the structure that is interconnected is the hot superconduction Pipeline 4.Above-mentioned Fig. 2 related descriptions are shown in the presence of filling exit 41 in Fig. 3, are not repeated herein.

As an example, as shown in figure 4, the shape on the Super-conductive conduit road 4 can also be multiple U-shapeds of head and the tail series connection, Fig. 4 In be respectively connected with each other U-shaped structure and be the Super-conductive conduit road 4, the part between the Super-conductive conduit road 4 is non-pipe Road part 6.U-tube road in Fig. 4 positioned at the two ends of the second sheet material 2 is by the hot superconduction positioned at the bottom of the second sheet material 2 Pipeline 4 is connected, to realize the closed communication on the whole Super-conductive conduit road 4；But positioned at the U-shaped at the two ends of the second sheet material 2 Pipeline leads to the mode for connecing and is not only limited in this, and the U-tube road positioned at the two ends of the second sheet material 2 can also be by positioned at described The pipeline on the top of the second sheet material 2 is connected, i.e., rotate 180 ° equivalent to the shape by the Super-conductive conduit road 4 in Fig. 4.

Fig. 5 is the structural representation of the 4th sheet material 4 that phase transformation suppresses to have forced heat radiation passage 5 in heat transfer plate, can by Fig. 5 Know, the shape of the longitudinal section of the forced heat radiation passage 5 can be the rectangle that multiple ends are connected, and the forced heat radiation is logical The mutually parallel distribution of multiple rectangles in road 5；Wherein, one end of the forced heat radiation passage 5 is forced heat radiation channel entrance 51, the other end is forced heat radiation channel outlet 52, can be by the forced heat radiation channel entrance 51 and the forced heat radiation passage Outlet 52 is connected with circulated air or circulating water device, and via the forced heat radiation channel entrance 51 is interior cold water or cold wind are filled with, The cold water or cold wind are discharged after the forced heat radiation passage 5 via the forced heat radiation channel outlet 52, by institute The heat for stating the transmission of Super-conductive conduit road 5 is taken away, and strengthens the heat sinking function on the Super-conductive conduit road 5.

As an example, the phase transformation suppresses material (i.e. described first sheet material 1, second sheet material 2 and described of heat transfer plate The material of tri-plate 3) should be the good material of thermal conductivity；Preferably, in the present embodiment, first sheet material 1, described second The material of sheet material 2 and the tri-plate 3 can for copper, copper alloy, aluminium, aluminium alloy, titanium, titanium alloy or any one more than Any combination.

The forced heat radiation passage 5, convenient use air blast cooling or water are arranged by the outside on the Super-conductive conduit road 4 Cold radiating, to improve the radiating effect that the phase transformation suppresses heat transfer plate；Phase transformation of the present utility model suppresses heat transfer plate compared to existing Some phase transformations suppress the structure that heat transfer plate is combined with radiating fin, on the premise of identical or more excellent radiating effect is reached, no Need to use radiating fin, reduce material cost and process costs；Meanwhile, existing phase transformation suppresses heat transfer plate to need and radiating fin Piece is used cooperatively by welding, and phase transformation of the present utility model suppresses heat transfer plate to be integrated, and thermal resistance is lost relatively low, heat conduction Performance has obtained larger raising, with preferable reliability.

Embodiment two

Fig. 6 is referred to, the utility model also provides a kind of phase transformation and suppresses heat transfer plate, and the phase transformation in the present embodiment suppresses The structure of heat transfer plate is roughly the same with the structure of the phase transformation suppression heat transfer plate described in embodiment one, and the difference of the two is：It is real In applying example one, the phase transformation suppresses heat transfer plate to include the first sheet material 1, the second sheet material 2 and tri-plate 3；First sheet material 1, Second sheet material 2 and the tri-plate 3 are sequentially stacked, and first sheet material 1 and the tri-plate 3 are respectively positioned at described The both sides of the second sheet material 2, and be combined with each other by rolling process with second sheet material 2；The Super-conductive conduit road 4 is located at institute State between the first sheet material 1 and second sheet material 2, the outer surface of first sheet material 1 is plane, the surface of the second sheet material 2 It is formed with first bulge-structure 42 corresponding with the Super-conductive conduit road 4；The forced heat radiation passage 5 is located at second plate Between material 2 and the tri-plate 3, the surface of tri-plate 3 is formed with second corresponding with the forced heat radiation passage 5 Bulge-structure 53；And in the present embodiment, the phase transformation suppresses heat transfer plate to include the first sheet material 1, the second sheet material 2 and tri-plate 3； Second sheet material 2 and the tri-plate 3 pass through respectively positioned at the both sides of first sheet material 1 with first sheet material 1 Rolling process is combined with each other；The Super-conductive conduit road 4 is located between first sheet material 1 and second sheet material 2, and described the The surface of two sheet material 2 is formed with first bulge-structure 42 corresponding with the Super-conductive conduit road 4；5, the forced heat radiation passage Between first sheet material 1 and the tri-plate 3, the surface of tri-plate 3 is formed with and the forced heat radiation passage 5 The second corresponding bulge-structure 53.

In addition to the above described differences, the phase transformation in the present embodiment suppresses in the other structures and embodiment one of heat transfer plate The phase transformation suppress heat transfer plate other structures it is identical, specifically refer to embodiment one, be not repeated herein.

Embodiment three

Fig. 7 is referred to, the utility model also provides a kind of phase transformation and suppresses heat transfer plate, and the phase transformation in the present embodiment suppresses The structure of heat transfer plate is roughly the same with the structure of the phase transformation suppression heat transfer plate described in embodiment one, and the difference of the two is：It is real In applying example one, the phase transformation suppresses heat transfer plate to include the first sheet material 1, the second sheet material 2 and tri-plate 3；First sheet material 1, Second sheet material 2 and the tri-plate 3 are sequentially stacked, and first sheet material 1 and the tri-plate 3 are respectively positioned at described The both sides of the second sheet material 2, and be combined with each other by rolling process with second sheet material 2；The Super-conductive conduit road 4 is located at institute State between the first sheet material 1 and second sheet material 2, the surface of first sheet material 1 and second sheet material 2 is each formed with and institute State the first corresponding bulge-structure 42 of Super-conductive conduit road 4；The forced heat radiation passage 5 be located at second sheet material 2 with it is described Between tri-plate 3, the surface of tri-plate 3 is formed with second bulge-structure corresponding with the forced heat radiation passage 5 53；And in the present embodiment, the phase transformation suppresses heat transfer plate to include the first sheet material 1, the second sheet material 2 and tri-plate 3；Described first Sheet material 1, second sheet material 2 and the tri-plate 3 are sequentially stacked, and first sheet material 1 and the tri-plate 3 distinguish position In the both sides of second sheet material 2, and it is combined with each other by rolling process with second sheet material 2；The Super-conductive conduit road 4 Between first sheet material 1 and second sheet material 2, the surface of first sheet material 1 and second sheet material 2 is respectively formed There is first bulge-structure 42 corresponding with the Super-conductive conduit road 4；The forced heat radiation passage 5 is located at second sheet material 2 Between the tri-plate 3, it is convex that the surface of tri-plate 3 is formed with second corresponding with the forced heat radiation passage 5 Play structure 53.

In addition to the above described differences, the phase transformation in the present embodiment suppresses in the other structures and embodiment one of heat transfer plate The phase transformation suppress heat transfer plate other structures it is identical, specifically refer to embodiment one, be not repeated herein.

Example IV

Fig. 8 is referred to, the utility model also provides the manufacture method that a kind of phase transformation suppresses heat transfer plate, and the manufacture method is fitted Heat transfer plate, the manufacture method is suppressed to include in the manufacture such as phase transformation described in embodiment one：

S1：The first sheet material, the second sheet material and tri-plate totally three blocks of sheet material is provided, by first sheet material and the described 3rd Sheet material one side hacking simultaneously blows clean, and by the second sheet material double face hacking and blows clean；

S2：The shape on Super-conductive conduit road is defined in the hacking face of first sheet material using graphite print process, and described The hacking face of tri-plate defines the shape of forced heat radiation passage；Or using graphite print process second sheet material a hacking Face defines the shape on Super-conductive conduit road, and in another hacking face of second sheet material shape of forced heat radiation passage is defined；

S3：First sheet material and the tri-plate are respectively placed in into the second sheet material both sides, first sheet material And the hacking face of the tri-plate is fitted and is alignd with second sheet material；By first sheet material, second sheet material and The tri-plate is along side riveted；

S4：The three blocks of sheet material for riveting together is heated to into uniform temperature and is carried out hot rolling and is added after maintaining a period of time Work is forming composite board type structure；The composite board type structure is carried out into soft annealing, is cooled to after room temperature again to described multiple Filling exit is bored to the graphite circuit in the position for closing plank frame correspondence graphite circuit；

S5：It is filled with high-pressure fluid into the composite board type structure to become to second sheet material and tri-plate stretching Shape；While second plate surface forms the first bulge-structure, between first sheet material and second sheet material Form the Super-conductive conduit road corresponding with first bulge-structure；The second bulge-structure is formed on the tri-plate surface Meanwhile, the forced heat radiation corresponding with second bulge-structure is formed between second sheet material and the tri-plate and is led to Road；

S6：Heat-transfer working medium is filled with into the Super-conductive conduit road and the Super-conductive conduit road is sealed.

Phase transformation described in the present embodiment suppress the phase transformation of the manufacture method manufacture of heat transfer plate suppress heat transfer plate structure and The structure and feature that feature suppresses heat transfer plate with the phase transformation described in embodiment one is identical, specifically see embodiment one, herein It is not repeated.

Embodiment five

The utility model also provides the manufacture method that a kind of phase transformation suppresses heat transfer plate, and the manufacture method is suitable to manufacture strictly according to the facts Applying the phase transformation described in example two suppresses heat transfer plate, the manufacture method to include：

S1：The first sheet material, the second sheet material and tri-plate totally three blocks of sheet material is provided, by second sheet material and the described 3rd Sheet material one side hacking simultaneously blows clean, and by the first sheet material double face hacking and blows clean；

S2：The shape on Super-conductive conduit road is defined in the hacking face of second sheet material using graphite print process, and described The hacking face of tri-plate defines the shape of forced heat radiation passage；Or using graphite print process first sheet material a hacking Face defines the shape on Super-conductive conduit road, and in another hacking face of first sheet material shape of forced heat radiation passage is defined；

S3：Second sheet material and the tri-plate are respectively placed in into the first sheet material both sides, second sheet material And the hacking face of the tri-plate is fitted and is alignd with first sheet material；By first sheet material, second sheet material and The tri-plate is along side riveted；

S4：The three blocks of sheet material for riveting together is heated to into uniform temperature and is carried out hot rolling and is added after maintaining a period of time Work is forming composite board type structure；The composite board type structure is carried out into soft annealing, is cooled to after room temperature again to described multiple Filling exit is bored to the graphite circuit in the position for closing plank frame correspondence graphite circuit；

S5：It is filled with high-pressure fluid into the composite board type structure to become to second sheet material and tri-plate stretching Shape；While second plate surface forms the first bulge-structure, between first sheet material and second sheet material Form the Super-conductive conduit road corresponding with first bulge-structure；The second bulge-structure is formed on the tri-plate surface Meanwhile, the forced heat radiation corresponding with second bulge-structure is formed between first sheet material and the tri-plate and is led to Road；

S6：Heat-transfer working medium is filled with into the Super-conductive conduit road and the Super-conductive conduit road is sealed.

Phase transformation described in the present embodiment suppress the phase transformation of the manufacture method manufacture of heat transfer plate suppress heat transfer plate structure and The structure and feature that feature suppresses heat transfer plate with the phase transformation described in embodiment two is identical, specifically see embodiment two, herein It is not repeated.

Embodiment six

The utility model also provides the manufacture method that a kind of phase transformation suppresses heat transfer plate, and the manufacture method is suitable to manufacture strictly according to the facts Applying the phase transformation described in example three suppresses heat transfer plate, the manufacture method to include：

S1：The first sheet material, the second sheet material and tri-plate totally three blocks of sheet material is provided, by first sheet material and the described 3rd Sheet material one side hacking simultaneously blows clean, and by the second sheet material double face hacking and blows clean；

S2：The shape on Super-conductive conduit road is defined in the hacking face of first sheet material using graphite print process, and described The hacking face of tri-plate defines the shape of forced heat radiation passage；Or using graphite print process second sheet material a hacking Face defines the shape on Super-conductive conduit road, and in another hacking face of second sheet material shape of forced heat radiation passage is defined；

S3：First sheet material and the tri-plate are respectively placed in into the second sheet material both sides, first sheet material And the hacking face of the tri-plate is fitted and is alignd with second sheet material；By first sheet material, second sheet material and The tri-plate is along side riveted；

S4：The three blocks of sheet material for riveting together is heated to into uniform temperature and is carried out hot rolling and is added after maintaining a period of time Work is forming composite board type structure；The composite board type structure is carried out into soft annealing, is cooled to after room temperature again to described multiple Filling exit is bored to the graphite circuit in the position for closing plank frame correspondence graphite circuit；

S5：It is filled with high-pressure fluid into the composite board type structure to become to second sheet material and tri-plate stretching Shape；While first sheet material and second plate surface form the first bulge-structure, in first sheet material and institute State and the Super-conductive conduit road corresponding with first bulge-structure is formed between the second sheet material；Formed on the tri-plate surface While second bulge-structure, form relative with second bulge-structure between second sheet material and the tri-plate The forced heat radiation passage answered；

S6：Heat-transfer working medium is filled with into the Super-conductive conduit road and the Super-conductive conduit road is sealed.

Phase transformation described in the present embodiment suppress the phase transformation of the manufacture method manufacture of heat transfer plate suppress heat transfer plate structure and The structure and feature that feature suppresses heat transfer plate with the phase transformation described in embodiment three is identical, specifically see embodiment three, herein It is not repeated.

In sum, the utility model provides a kind of phase transformation suppression heat transfer plate, and the phase transformation suppresses to be formed with heat transfer plate Super-conductive conduit road with given shape and the forced heat radiation passage with given shape；Wherein, the Super-conductive conduit road is envelope Stopped pipe road, is filled with heat-transfer working medium in the Super-conductive conduit road；The forced heat radiation passage is located at Super-conductive conduit road side. The utility model arranges forced heat radiation passage, convenient use air blast cooling or water-cooling by the outside on Super-conductive conduit road, To improve the radiating effect that the phase transformation suppresses heat transfer plate；Phase transformation of the present utility model suppresses heat transfer plate compared to existing phase transformation The structure for suppressing heat transfer plate to be combined with radiating fin, on the premise of identical or more excellent radiating effect is reached, it is not necessary to use Radiating fin, reduces material cost and process costs；Meanwhile, existing phase transformation suppresses heat transfer plate to pass through weldering with radiating fin Connect and use cooperatively, and phase transformation of the present utility model suppresses heat transfer plate to be integrated, thermal resistance loss is relatively low, and heat conductivility is obtained Larger raising, with preferable reliability.

Above-described embodiment only illustrative principle of the present utility model and its effect are new not for this practicality is limited Type.Any person skilled in the art all can be carried out under without prejudice to spirit and the scope of the present utility model to above-described embodiment Modifications and changes.Therefore, such as those of ordinary skill in the art without departing from the essence disclosed in the utility model All equivalent modifications completed under god and technological thought or change, should be covered by claim of the present utility model.

Claims (8)

1. a kind of phase transformation suppresses heat transfer plate, it is characterised in that the phase transformation suppresses to be formed with given shape in heat transfer plate Super-conductive conduit road and the forced heat radiation passage with given shape；Wherein, the Super-conductive conduit road is closing pipe line, and the heat is super Heat-transfer working medium is filled with rodding；The forced heat radiation passage is located at Super-conductive conduit road side.

2. phase transformation according to claim 1 suppresses heat transfer plate, it is characterised in that：It is composite plate that the phase transformation suppresses heat transfer plate Formula structure, the Super-conductive conduit road and the forced heat radiation passage are formed by blowing-up technology.

3. phase transformation according to claim 1 suppresses heat transfer plate, it is characterised in that：The phase transformation suppresses heat transfer plate to include first Sheet material, the second sheet material and tri-plate；First sheet material, second sheet material and the tri-plate are sequentially stacked, described First sheet material and the tri-plate pass through rolling process respectively positioned at the both sides of second sheet material with second sheet material It is combined with each other；

The Super-conductive conduit road is located between first sheet material and second sheet material, and the outer surface of first sheet material is flat Face, second plate surface is formed with first bulge-structure corresponding with the Super-conductive conduit road；

The forced heat radiation passage is located between second sheet material and the tri-plate, and the tri-plate surface is formed with Second bulge-structure corresponding with the forced heat radiation passage.

4. phase transformation according to claim 1 suppresses heat transfer plate, it is characterised in that：The phase transformation suppresses heat transfer plate to include first Sheet material, the second sheet material and tri-plate；Second sheet material and the tri-plate are located at respectively the both sides of first sheet material, And be combined with each other by rolling process with first sheet material；

The Super-conductive conduit road be located between first sheet material and second sheet material, second plate surface be formed with The first corresponding bulge-structure of the Super-conductive conduit road；

The forced heat radiation passage is located between first sheet material and the tri-plate, and the tri-plate surface is formed with Second bulge-structure corresponding with the forced heat radiation passage.

5. phase transformation according to claim 1 suppresses heat transfer plate, it is characterised in that：The phase transformation suppresses heat transfer plate to include first Sheet material, the second sheet material and tri-plate；First sheet material, second sheet material and the tri-plate are sequentially stacked, described First sheet material and the tri-plate pass through rolling process respectively positioned at the both sides of second sheet material with second sheet material It is combined with each other；

The Super-conductive conduit road is located between first sheet material and second sheet material, first sheet material and second plate The surface of material is each formed with first bulge-structure corresponding with the Super-conductive conduit road；

The forced heat radiation passage is located between second sheet material and the tri-plate, and the tri-plate surface is formed with Second bulge-structure corresponding with the forced heat radiation passage.

6. phase transformation according to claim 1 suppresses heat transfer plate, it is characterised in that：The lateral dimension on the Super-conductive conduit road is little In the lateral dimension of the forced heat radiation passage.

7. phase transformation according to claim 1 suppresses heat transfer plate, it is characterised in that：The Super-conductive conduit road is shaped as six sides Shape is cellular, circle is cellular, quadrangle is cellular, multiple U-shapeds, rhombus, triangle, the annular of head and the tail series connection, or wherein Any combination of any one above figure.

8. phase transformation according to claim 1 suppresses heat transfer plate, it is characterised in that：The forced heat radiation passage end is provided with by force Heat dissipation channel import processed, the other end is provided with forced heat radiation channel outlet, and the forced heat radiation passage is communicated with the outside.