CN209295481U - A kind of cold-storage heat-collecting part and its cooling device - Google Patents

Abstract

The utility model discloses a kind of cold-storage heat-collecting part and its cooling devices.Cold-storage heat-collecting part includes two thermal conductive surfaces, a thermal conductive surface be the heat in cold-storage heat-collecting part is forced it is derived go out hot face, another described thermal conductive surface is that extraneous heat is imported to the hot face that enters in cold-storage heat-collecting part, it is described enter hot face be flexible.Cooling device includes that cold-storage heat-collecting part, the cold-storage heat-collecting part go out hot face and the thermally conductive connection of thermal component as elucidated before.The cold-storage heat-collecting part and thermal component pass through the thermally conductive connection of aforementioned refrigeration part.The hot thermally conductive connection in face out of the chill surface of the refrigeration part and the cold-storage heat-collecting part, the radiating surface of the refrigeration part and the thermally conductive connection of the thermal component.The utility model can not only be realized by other components and force to cool, moreover, it is also possible to which the face different on different high temp objects can be more fully bonded, be conducive to improve cooling efficiency.

Description

A kind of cold-storage heat-collecting part and its cooling device

Technical field

The utility model relates to one kind can be by the component of high temp objects fast cooling and its device more particularly to a kind of cold-storage Heat-collecting part and its cooling device.

Background technique

In industrial and agricultural production, in order to improve yield and quality, the labor intensity of employee is reduced, by the fast prompt drop of high temp objects There are many demand of temperature.Such as: it when to hang top splash guard in tunnel, just to be lifted completely by worker, because in welding waterproof After plate, splash guard is very soft before high temperature does not disperse, it is easy to be opened because splash guard is very heavy, after to wait until to cool down When to lower temperature, just there is sufficient intensity, especially in tall building of high temperature day, environment temperature is higher, each especially in tunnel Kind construction generates a large amount of heat, is enclosed in and is not easy to shed in tunnel.As being welded, oxygen-acetylene gas cutting, forklift, excavator, respectively Kind haulage vehicle, the high fever etc. generated and when theing cement solidifies.Cooling range is small, and cooling time is long, and worker lifts labor intensity Greatly.In the prior art in order to accelerate cooling velocity, usually first towel is impregnated with cold water, then, by the hair after immersion cold water Towel folding is blocking to be posted on weld, to achieve the purpose that fast cooling.Although this method is quicker than natural cooling, very It is limited.Working efficiency is difficult to be significantly improved, and the labor intensity of worker is difficult have apparent reduction.Especially towel can only lead to It crosses water to cool to high temp objects, but can not be realized by other components and force to cool.In addition, such as copper or aluminium metal It although body heating conduction is preferable, can be used for cooling to high temp objects, can also be realized by other components and force cooling drop Temperature, still, since the face of metallic object is difficult more fully to be bonded with faces of different shapes various on high temp objects firmly very much, often It is that the face on the face of metallic object and some high temp objects can be more fully bonded, is conducive to improve cooling efficiency, still, and it is another Face on some high temp objects cannot be more fully bonded, and be unfavorable for improving cooling efficiency, if according to different high temp objects On the different metallic object of output of looking unfamiliar still, in advance can not fully known different high temp objects to improve cooling efficiency All how many different faces, therefore, it is unpractical for doing so.Although have in non-metallic body some materials be it is relatively soft, have More fully be bonded conducive to a variety of different faces of high temp objects, can also by other components realize force cool but It is their poor thermal conductivity, should not be cooled with non-metallic body to high temp objects.

Utility model content

First technical problem to be solved in the utility model is to provide a kind of cold-storage heat-collecting part, the cold-storage heat-collecting part It can not only be realized by other components and force to cool, moreover, it is also possible to which the face different on different high temp objects can It is more fully bonded, is conducive to improve cooling efficiency.

Second technical problem to be solved in the utility model is to provide a kind of cooling device, which not only can be with It realizes and forces to cool, moreover, it is also possible to which the face different on different high temp objects can be more fully bonded, be conducive to mention High cooling efficiency can significantly improve working efficiency in turn, it will be apparent that reduce the labor intensity of worker.

For component, in order to solve above-mentioned first technical problem, the utility model provides a kind of cold-storage thermal-arrest portion Part, including two thermal conductive surfaces, a thermal conductive surface is that the heat in cold-storage heat-collecting part is forced to derived hot face out, another A thermal conductive surface is that extraneous heat is imported to the hot face that enters in cold-storage heat-collecting part, it is described enter hot face be flexible.

The cold-storage heat-collecting part is solid cold-storage heat-collecting part or gas cold-storage heat-collecting part or liquid cold-storage thermal-arrest portion Part or lotion cold-storage heat-collecting part or utricule cold-storage heat-collecting part.

The solid cold-storage heat-collecting part includes cold-storage heat collection body.

The shape of the cold-storage heat collection body is in four prisms cylinder or hexagonal prism or eight prisms or cylindrical body or Elliptic Cylinder.

The cold-storage heat collection body is made of metal material.Alternatively, the cold-storage heat collection body is by flexible high-temperature resistant composite heat-conducting Material is made.Alternatively, the cold-storage heat collection body is made of deformable conductive structure material.

The metal material is copper or iron or aluminium or zinc or aluminium alloy or stainless steel.

The flexible high-temperature resistant composite heat conducting material is combined by flexible high-temperature resistant base-material and heat filling.

The flexible high-temperature resistant base-material is high molecular polymer.

The high molecular polymer is polytetrafluoroethylene (PTFE).

The heat filling is copper particle or abrasive grit or aluminum shot or zinc granule or their mixture.Alternatively, the heat filling It is copper end or iron end or aluminium end or zinc end or their mixture.

The copper particle or the abrasive grit or the aluminum shot or the zinc granule are grade or micron particles.

The copper end or iron end or aluminium end or zinc end nanometer grade powder.

The weight fraction ratio of the flexible high-temperature resistant base-material and the heat filling is 3:7~1:1.

The deformable conductive structure material is made of silica gel and wire belt.

The wire belt is by bending and/or is wound silk ribbon group, then silk ribbon group is built up with silica gel and is integrally formed The deformable conductive structure material.

The wire belt is beryllium copper silk ribbon.

Beryllium copper silk ribbon is beryllium copper silk and/or beryllium copper band.

First beryllium copper silk is bent to form plane wave band repeatedly, then plane wave tape wrapping is formed into clusters at cylinder.

Beryllium copper band is first curved into helical spring, then helical spring is wound in cylinder and forms clusters.

The side wall of the cold-storage heat collection body is coated with heat-barrier material.

The heat-barrier material is ABS high polymer material or PA high molecular material or PE high molecular material or PP material macromolecule Material.

The thermally conductive connection in upper surface of the chill surface of the refrigeration part and the cold-storage heat collection body.

The lower end surface of the cold-storage heat collection body made of metal is provided with the first flexible high-temperature resistant heat-conducting layer.

Be below the first flexible high-temperature resistant heat-conducting layer it is described enter hot face.

The first flexible high-temperature resistant heat-conducting layer is made of flexible high-temperature resistant composite heat conducting material.

Bayonet is distributed in the lower end surface of the cold-storage heat collection body, correspondingly, the first flexible high-temperature resistant heat-conducting layer it is upper Face is provided with clamp, is connected together between the first flexible high-temperature resistant heat-conducting layer and the cold-storage heat collection body.Alternatively,

Clamp is distributed in the lower end surface of the cold-storage heat collection body, correspondingly, the first flexible high-temperature resistant heat-conducting layer it is upper Face is provided with bayonet, is connected together between the first flexible high-temperature resistant heat-conducting layer and the cold-storage heat collection body.Alternatively,

The lower end surface of the cold-storage heat collection body is distributed with threaded securing bores, the first flexible high-temperature resistant heat-conducting layer with it is described It is fixedly connected by fixed strip with sunk screw between cold-storage heat collection body.

The gas cold-storage heat-collecting part includes cold-storage collecting plate.

The lower end surface of the cold-storage collecting plate is provided with the second flexible high-temperature resistant heat-conducting layer.

Be below the second flexible high-temperature resistant heat-conducting layer it is described enter hot face.

The cold-storage collecting plate and flexible wall and the first conductive cover surround a sealing cavity.

Heat-conducting gas is marked in the sealing cavity.

The heat-conducting gas is hydrogen or helium or argon gas or neon or ammonia or their gaseous mixture.

The flexible wall is made of heat-barrier material.

The heat-barrier material is ABS high polymer material or PA high molecular material or PE high molecular material or PP material macromolecule Material.

The flexible wall is cylindricality bellows.

The first heat-conducting part is distributed in the inner surface of the cold-storage collecting plate.

The second heat-conducting part is distributed in the inner surface of first conductive cover.

First conductive cover or the cold-storage collecting plate or the flexible wall are provided with valve.

The valve is embedded in the outer surface of first conductive cover or the outer surface of the cold-storage collecting plate or described flexible The outer surface of wall.

The liquid cold-storage heat-collecting part includes cold-storage heat collecting sheet.

The cold-storage heat collecting sheet is red copper film or pellosil.

The shape of the cold-storage heat collecting sheet is in the spherical surface heaved outward.

The connection of the sealed bottom of the cold-storage heat collecting sheet and annular sidewall.

The annular sidewall is made of heat-barrier material.Alternatively, the annular sidewall is made of metal, the annular sidewall Outer surface is coated with heat-barrier material.Alternatively, the annular sidewall is made of metallic framework by coating heat-barrier material.

The top of the annular sidewall is tightly connected by sealing ring and the second conductive cover.

The cold-storage heat collecting sheet, the annular sidewall, second conductive cover enclose thermally conductive cavity.

Conductive fluid is marked in the thermally conductive cavity.

The conductive fluid is anti-icing fluid or low temperature conduction oil or cold-storage material.

Constant pressure component is provided in the thermally conductive cavity.

The constant pressure component is elastic balloon or elastic membrane.

The shape of the elastic balloon is in shell.

The shell is at least provided with an air inlet/outlet.

The annular sidewall is provided with open-work.

The open-work of the air inlet/outlet and the annular sidewall is tightly connected and and air communication.

The shell is spherical shell or elliposoidal shell or tube body.

Elastomer is provided in the shell.

The elastomer is sponge and/or foam.

The elastic membrane is made of rubber.

The annular sidewall is provided with open-work.

The elastic membrane and the open-work are tightly connected.

The annular sidewall is provided with liquid injection port.

The liquid injection port is configured with screw plug.

The lotion cold-storage heat-collecting part is that the conductive fluid in the liquid cold-storage heat-collecting part is replaced with heat-conducting cream structure At.

The utricule cold-storage heat-collecting part includes Nang Bao.

The Nang Bao is made of skin silica gel or graphene.

Fluid cold-storage collection thermit powder is filled in the capsule packet.

The fluid cold-storage collection thermit powder be liquid cold-storage collection thermit powder or gas cold-storage collection thermit powder or lotion cold-storage collection thermit powder or Colloid cold-storage collection thermit powder.

The liquid cold-storage collection thermit powder is anti-icing fluid or low temperature conduction oil or cold-storage material.

The gas cold-storage collection thermit powder is hydrogen or helium or argon gas or neon or ammonia or their gaseous mixture.

The lotion cold-storage collection thermit powder is silicone grease.

The colloid cold-storage collection thermit powder is heat-conducting glue.

The Nang Bao is placed in metal heat-conducting shell.

The bottom of the metal heat-conducting shell is provided with opening.

The edge of the metal heat-conducting shell opening is flared out.

Protrude the opening of the metal heat-conducting shell in the lower part of the Nang Bao.

The opening of the Nang Bao is equipped with thermally conductive cover.

The thermally conductive cover is made of skin silica gel or graphene.

The running-on of the thermally conductive cover is in shrink mouth shape.

The lateral wall of the thermally conductive enclosure mouth offers hoop and sets mouth for installing flexible banding component.

The flexibility banding component is tightrope or rubber band or adhesive plaster or wire or plastic wire.

The lateral wall of the metal heat-conducting shell is coated with insulating layer.

The cold-storage heat-collecting part of the utility model has the advantages that compared with prior art.

1, the technical program is that the heat in cold-storage heat-collecting part is forced export due to using a thermal conductive surface Go out hot face, another described thermal conductive surface is that extraneous heat is imported to the hot face that enters in cold-storage heat-collecting part, it is described enter hot face The heat of the technological means being flexible, object can rapidly be collected by cold-storage heat-collecting part, and cold-storage heat-collecting part is collected To heat can rapidly be distributed by thermal component, so, it is real which can not only pass through other components It now forces to cool, moreover, it is also possible to which the face different on different high temp objects can be more fully bonded, is conducive to improve Cooling efficiency.

2, the technical program is solid cold-storage heat-collecting part or gas cold-storage collection due to using the cold-storage heat-collecting part The technological means of thermal part or liquid cold-storage heat-collecting part, so, a variety of cooling dresses can be produced according to the demand of different user It sets.

3, the technical program includes cold-storage heat collection body due to using the solid cold-storage heat-collecting part；The cold-storage thermal-arrest The shape of body is in the technological means of four prisms cylinder or hexagonal prism or eight prisms or cylindrical body or Elliptic Cylinder, so, it can root A variety of cooling devices are produced according to actual conditions.

4, the technical program is made of metal material due to using the cold-storage heat collection body；The metal material be copper or The technological means of iron or aluminium or zinc, so, it is greatly improved the heating conduction of cold-storage heat collection body.

5, the technical program is coated with heat-barrier material due to using the side wall of the cold-storage heat collection body；The refrigeration part Chill surface and the upper surface of the cold-storage heat collection body lead hot linked technological means, so, be conducive to save electric energy.

6, the technical program includes cold-storage collecting plate due to using the gas cold-storage heat-collecting part；The cold-storage thermal-arrest Plate and flexible wall and the first conductive cover surround a sealing cavity；Heat-conducting gas is marked in the sealing cavity；The thermal conductivity gas Body is the technological means of hydrogen or helium or argon gas or neon or ammonia or their gaseous mixture, so, it is greatly improved gas The heating conduction of cold-storage heat-collecting part.

7, the technical program is made due to using the flexible wall of heat-barrier material；The heat-barrier material is ABS high score The technological means of sub- material or PA high molecular material or PE high molecular material or PP material high molecular material, so, be conducive to save About electric energy.

8, the technical program due to use the flexible wall be cylindricality bellows technological means, so, can be further Improve the heating conduction of gas cold-storage heat-collecting part.

9, the first heat-conducting part is distributed with due to using the inner surface of the cold-storage collecting plate in the technical program；Described first The technological means of the second heat-conducting part is distributed in the inner surface of conductive cover, so, it can further improve gas cold-storage heat-collecting part Heating conduction.

10, the technical program is due to using first conductive cover or the cold-storage collecting plate or the flexible wall setting There is the technological means of valve, so, inflation and tonifying Qi can be facilitated.

11, the technical program due to use the valve be embedded in first conductive cover outer surface or the cold-storage collection The technological means of the outer surface of hot plate or the outer surface of the flexible wall, so, be conducive to cooling down operation.

12, the technical program includes cold-storage heat collecting sheet due to using the liquid cold-storage heat-collecting part；The cold-storage collection Backing is the technological means of red copper film or pellosil, so, it is greatly improved the heating conduction of liquid cold-storage heat-collecting part.

13, the technical program is due to using the shape of the cold-storage heat collecting sheet in the technology hand for the spherical surface heaved outward Section, so, it can further improve the heating conduction of liquid cold-storage heat-collecting part.

14, the technical program is connected due to using the sealed bottom of the cold-storage heat collecting sheet and annular sidewall；The ring Shape side wall is made of heat-barrier material.Alternatively, the annular sidewall is made of metal, the outer surface of the annular sidewall be coated with every Hot material.Alternatively, the technological means that the annular sidewall is made of metallic framework by coating heat-barrier material, so, be conducive to Save electric energy.

15, the technical program is connected due to using the top of the annular sidewall by sealing ring and the sealing of the second conductive cover The technological means connect, so, it can further improve the heating conduction of liquid cold-storage heat-collecting part.

16, the technical program is enclosed due to using the cold-storage heat collecting sheet, the annular sidewall, second conductive cover At thermally conductive cavity；Conductive fluid is marked in the thermally conductive cavity；The conductive fluid be anti-icing fluid or low temperature conduction oil or cold-storage material or The technological means of heat-conducting cream, so, the heating conduction of liquid cold-storage heat-collecting part can be further improved again.

17, the technical program is provided with the technological means of constant pressure component due to using in the thermally conductive cavity, so, it can Still further improve the heating conduction of liquid cold-storage heat-collecting part.

18, the technical program due to use the constant pressure component be elastic balloon or elastic membrane technological means, so, A variety of cooling devices can be produced according to the demand of different user.

19, the technical program is due to using the shape of the elastic balloon in shell；The shell is at least provided with one A air inlet/outlet；The annular sidewall is provided with open-work；The open-work of the air inlet/outlet and the annular sidewall is tightly connected simultaneously With the technological means of air communication, so, constant pressure effect is good.

20, the technical program is due to using the technology hand that the shell is spherical shell or elliposoidal shell or tube body Section, so, a variety of cooling devices can be produced according to the actual situation.

21, the technical program is provided with elastomer due to using in the shell；The elastomer is sponge and/or bubble The technological means of foam, so, the elasticity of shell can be increased.

22, the technical program is made of rubber due to using the elastic membrane；The annular sidewall is provided with open-work；Institute The technological means of elastic membrane and open-work sealed connection is stated, so, structure is simple, is easy to make.

23, the technical program is provided with liquid injection port due to using the annular sidewall；The liquid injection port is configured with screw thread The technological means of plug, so, be conducive to conductive fluid and concentrate on and replace.

24, the technical program includes Nang Bao due to using the utricule cold-storage heat-collecting part；The Nang Bao is by skin silicon Glue or graphene are made；The technological means of fluid cold-storage collection thermit powder is filled in the capsule packet, so, even pressure effect is best, leads Thermal efficiency highest.

25, the technical program is liquid cold-storage collection thermit powder or gas cold-storage collection due to using the fluid cold-storage collection thermit powder Thermit powder or lotion cold-storage collection thermit powder or colloid cold-storage collection thermit powder；The liquid cold-storage collection thermit powder be anti-icing fluid or low temperature conduction oil or Cold-storage material；The gas cold-storage collection thermit powder is hydrogen or helium or argon gas or neon or ammonia or their gaseous mixture；The cream Body cold-storage collection thermit powder is silicone grease；The colloid cold-storage collection thermit powder is the technological means of heat-conducting glue, so, it can be according to client not A variety of cooling devices are produced with demand.

26, the technical program is placed in metal heat-conducting shell due to using the Nang Bao；The metal heat-conducting shell Bottom is provided with opening；The edge of the metal heat-conducting shell opening is flared out；Protrude the metal in the lower part of the Nang Bao The opening of heat conduction shell；The opening of the Nang Bao is equipped with the technological means of thermally conductive cover, so, it is beneficial to prevent Nang Bao and excessively becomes Shape.

27, the technical program is made due to using the thermally conductive cover of skin silica gel or graphene；The thermally conductive cover Running-on is in shrink mouth shape；The lateral wall of the thermally conductive enclosure mouth offers hoop and sets mouth for installing flexible banding component；The flexibility Banding component is tightrope or rubber band or adhesive plaster or wire or plastic wire；The lateral wall of the metal heat-conducting shell is coated with guarantor The technological means of warm layer, so, be conducive to increase thermal conductivity, thermally conductive cover is not easy to fall off, is not easy to strangle bad thermally conductive cover.

For device, in order to solve above-mentioned second technical problem, the utility model provides a kind of cooling device, packet Cold-storage heat-collecting part as elucidated before is included, the cold-storage heat-collecting part goes out hot face and the thermally conductive connection of thermal component.

The cold-storage heat-collecting part and thermal component are by stating the thermally conductive connection of refrigeration part.

The hot thermally conductive connection in face out of the chill surface of the refrigeration part and the cold-storage heat-collecting part, the refrigeration part Radiating surface and the thermally conductive connection of the thermal component.

Including cold-storage heat-collecting part, refrigeration part, thermal component, the chill surface of the refrigeration part and the cold-storage thermal-arrest Pieces conduct heat connection, the radiating surface of the refrigeration part and the thermally conductive connection of the thermal component.

Stating refrigeration part is cooling piece.

The shape of the cooling piece is square or round or rectangle or ellipse.

The cooling piece has one, alternatively, the cooling piece have it is multiple.

Multiple cooling pieces are put together, alternatively, multiple cooling pieces are stacked into alternatively, multiple cooling pieces It is first put together to be stacked again and form.

The chill surface for the multiple cooling pieces being put together is located at the same side, the multiple cooling pieces being put together Radiating surface is located at the same other side.

In multiple cooling pieces made of stacked, the heat dissipation of the chill surface and cooling piece adjacent thereto of a cooling piece Face is opposite, and the radiating surface of cooling piece and the chill surface of cooling piece adjacent thereto are opposite.

It is directly connected between two adjacent cooling pieces, is coated with silicone grease between two adjacent cooling pieces；Or Person is provided with conducting-heat elements between two adjacent cooling pieces, is coated with silicon between the conducting-heat elements and the cooling piece Rouge；

From the thermal component to the cold-storage heat-collecting part, the area of cooling piece is from gradually becoming smaller greatly, the function of cooling piece Rate is from gradually becoming smaller greatly；

The conducting-heat elements are heat-conducting plate or thermally conductive sheet.

The heat-conducting plate and thermally conductive sheet are to be made by copper material or be made by aluminium.

The power supply line of multiple cooling pieces is in parallel or is connected in series.

The thermal component includes radiator.

The radiator at least one.

The radiator is gilled radiator or needle type heat radiator.

The radiator is fixed with radiator fan.

Radiator fan at least one.

One radiator fan is horizontal radiator fan.

The radiator has one.

One radiator fan is located at the top of the radiator.

There are two the radiators.

Two radiators pass through the thermally conductive connection of heat-conducting copper pipe.

One radiator fan is located between two radiators.

The radiator fan is vertically-arranged radiator fan.

There are two the radiators.

Two radiators pass through the thermally conductive connection of heat-conducting copper pipe.

The lower part of the heat-conducting copper pipe and the thermally conductive connection of conductive base plate.

The radiator fan is located between two radiators.

The radiator fan is configured with shield.

The shield is net-shaped protective cover and/or grid shield.

The protection is covered with one or two.

Gap between the shield and the flabellum of the radiator fan is greater than or equal to two millimeters.

Gap between two shields is greater than or equal to two millimeters.

The thermal component is fixedly connected with the cold-storage heat-collecting part by screw or bolt.

The refrigeration part is clamped between the thermal component and the cold-storage heat-collecting part.

The chill surface and radiating surface of the refrigeration part are coated respectively with heat-conducting silicone grease.

The radiating surface of the refrigeration part is congruent to the lower surface of the thermal component conductive base plate, the refrigeration part Chill surface is congruent to the upper surface of the cold-storage heat-collecting part.Alternatively, the radiating surface of the refrigeration part is less than the radiating part The lower surface of part conductive base plate, what the lower surface of the thermal component conductive base plate was not covered by the radiating surface of the refrigeration part It is partially covered with heat-barrier material, and/or, the chill surface of the refrigeration part is less than the upper surface of the cold-storage heat-collecting part, institute The upper surface for stating cold-storage heat-collecting part is not partially covered with heat-barrier material by what the chill surface of the refrigeration part covered.

The heat-barrier material is Bao Pao Droplets plate.

The thickness of the Bao Pao Droplets plate is less than the half of the cold part thickness.

Draining seam is formed between the Bao Pao Droplets plate of the thermal component and the Bao Pao Droplets plate of the cold-storage heat-collecting part.

It is fixedly connected between the thermal component and bracket.

It is fixedly connected between the thermal component and bracket by screw or bolt.

The bracket includes frame body.

The frame body is connect with two arched arms.

Handle is connected in the middle part of two arched arms.

The frame body, two arched arms, the handle are integrally formed part.

One end of the handle is provided with switch and indicator light.

The other end of the handle is provided with temperature controller.

There are two temperature sensors for the temperature controller configuration.

The thermally conductive connection in upper surface of one temperature sensor and the cold-storage heat-collecting part.

Another described temperature sensor and the thermally conductive connection of the radiator.

It is electrically connected between the temperature sensor and the temperature controller.

The bracket is provided with cabling channel.

The cold-storage heat-collecting part is configured with seal receptacle.

The seal receptacle is made of heat-barrier material.

The seal receptacle includes support frame and support plate.

The shape of support frame as described above is in the train of dress shape opened.

Circumferentially distributed along support frame as described above has lightening hole.

The top surface of the support plate is downwardly concaved to form insulated cavity.

The edge of the insulated cavity is circumferentially arranged to have right angle recess to form sealing cavity.

The cooling device of the utility model has the advantages that compared with prior art.

1, the technical program leads hot linked skill due to using hot face and the thermal component out of the cold-storage heat-collecting part Art means, so, cooling velocity can be accelerated with forced heat radiation.

2, the technical program is due to using the cold-storage heat-collecting part and thermal component by stating the thermally conductive company of refrigeration part It connects；The hot thermally conductive connection in face out of the chill surface of the refrigeration part and the cold-storage heat-collecting part, the heat dissipation of the refrigeration part Face and the thermal component lead hot linked technological means, so, can further forced heat radiation, further speed up cooling velocity.

3, the technical program due to use the refrigeration part be cooling piece technological means, so, structure is simple, has Conducive to the volume for reducing cooling device.

4, the technical program due to use the cooling piece shape is square or round or rectangle or ellipse；Institute Stating cooling piece has one, alternatively, the cooling piece have it is multiple；Multiple cooling pieces are put together and (can increase thermal transfer surface Product), and/or, multiple cooling pieces are stacked to form (refrigeration effect can be improved)；The multiple cooling pieces being put together Chill surface is located at the same side, and the radiating surface for the multiple cooling pieces being put together is located at the same other side；It is multiple made of stacked In the cooling piece, the chill surface of cooling piece and the radiating surface of cooling piece adjacent thereto are opposite, and cooling piece dissipates The chill surface of hot face and cooling piece adjacent thereto is opposite, is provided with heat-conducting plate or thermally conductive sheet between two adjacent cooling pieces； The heat-conducting plate and thermally conductive sheet are to be made by copper material or be made by aluminium；The power supply line phase of multiple cooling pieces is simultaneously The technological means for joining or being connected in series, so, a variety of cooling devices can be produced according to the actual situation.

5, the technical program includes radiator due to using the thermal component；The radiator be gilled radiator or Needle type heat radiator；The radiator is fixed with the technological means of radiator fan, so, structure is simple, good heat dissipation effect.

6, the technical program is configured with shield due to using the radiator fan；The shield is net-shaped protective cover And/or grid shield；The protection is covered with one or two；Between between the shield and the flabellum of the radiator fan Gap is greater than or equal to two millimeters；Gap between two shields is greater than or equal to two millimeters of technological means, so, it can Greatly improve the safety of cooling down operation.

7, the technical program is solid by screw or bolt due to using the thermal component and the cold-storage heat-collecting part Fixed connection；The refrigeration part is clamped in the technological means between the thermal component and the cold-storage heat-collecting part, so, Be conducive to the installation and removal of cooling device.

8, the technical program is due to being coated respectively with heat-conducting silicone grease using the chill surface and radiating surface of the refrigeration part Technological means, so, it is greatly improved cold-storage heat-collecting part, refrigeration part, the heating conduction between thermal component.

9, the technical program is congruent under the thermal component bottom plate due to using the radiating surface of the refrigeration part Surface, the chill surface of the refrigeration part are congruent to the upper surface of the cold-storage heat-collecting part.Alternatively, the refrigeration part dissipates Hot face is less than the lower surface of the thermal component bottom plate, and the lower surface of the thermal component bottom plate is not by the scattered of the refrigeration part What hot face covered is partially covered with heat-barrier material, and/or, the chill surface of the refrigeration part is less than the cold-storage heat-collecting part Upper surface, the upper surface of the cold-storage heat-collecting part are not partially covered with heat-insulated material by what the chill surface of the refrigeration part covered The technological means of material, so, a variety of cooling devices can be produced according to the actual situation, meanwhile, be beneficial to prevent thermal component and Reversed heat transmitting between cold-storage heat-collecting part.

10, the technical program is Bao Pao Droplets plate due to using the heat-barrier material；The thickness of the Bao Pao Droplets plate is less than The half of the refrigeration part thickness；The Bao Pao Droplets plate of the thermal component and the Bao Pao Droplets plate of the cold-storage heat-collecting part Between form the technological means of draining seam, so, be conducive to be discharged from air from the water condensed.

11, the technical program is fixedly connected between the thermal component and bracket due to using；The thermal component with It is fixedly connected between bracket by screw or bolt；The bracket includes frame body；The frame body is connect with two arched arms； The technological means of handle is connected in the middle part of two arched arms, so, be conducive to the gripping of cooling device.

12, the technical program is integrally formed part due to using the frame body, two arched arms, the handle Technological means, so, the strength and stiffness of bracket can be substantially increased.

13, the technical program is provided with switch and indicator light due to using one end of the handle；The handle it is another One end is provided with temperature controller；The temperature controller is configured with temperature sensor；The temperature sensor and the cold-storage The thermally conductive connection in the upper surface of heat-collecting part；It is electrically connected between the temperature sensor and the temperature controller；The branch is set up It is equipped with the technological means of cabling channel, so, greatly facilitate the cooling down operation of worker.

14, the technical program is configured with seal receptacle due to using the cold-storage heat-collecting part；The seal receptacle is by heat-insulated Material is made；The seal receptacle includes support frame and support plate；The shape of support frame as described above is in the train of dress shape opened；Along described The circumferentially distributed of support frame has lightening hole；The top surface of the support plate is downwardly concaved to form insulated cavity；The insulated cavity The technological means that edge is circumferentially arranged to have right angle recess to form sealing cavity, so, it is not only advantageous to energy conservation, moreover, can be It is first cooling to cold-storage heat-collecting part before cooling down operation, in this way, can substantially increase between cold-storage heat-collecting part and high temp objects The temperature difference greatly improves cooling speed.

Detailed description of the invention

The cooling device of the utility model is described in further detail with reference to the accompanying drawings and detailed description.

Fig. 1 is the integrally-built stereoscopic schematic diagram of cooling device of present embodiment.

Fig. 2 is the schematic view of the front view of the first solid cold-storage heat-collecting part in the cooling device of present embodiment.

Fig. 3 is the schematic view of the front view of second of solid cold-storage heat-collecting part in the cooling device of present embodiment.

Fig. 4 is the present invention looks up structural representation of second of solid cold-storage heat-collecting part in the cooling device of present embodiment.

Fig. 5 is the schematic view of the front view (gold of the third solid cold-storage heat-collecting part in the cooling device of present embodiment After belonging to silk ribbon bending).

Fig. 6 is that the structure of the main view of the third solid cold-storage heat-collecting part in the cooling device of present embodiment is (curved Wire belt after folding is rolled, pours to form solid cold-storage heat-collecting part).

Fig. 7 is that the structure schematic top plan view of the third solid cold-storage heat-collecting part in the cooling device of present embodiment is (curved Wire belt after folding is rolled, pours to form solid cold-storage heat-collecting part).

Fig. 8 is the schematic view of the front view of gas cold-storage heat-collecting part in the cooling device of present embodiment.

Fig. 9 is the schematic view of the front view of liquid cold-storage heat-collecting part in the cooling device of present embodiment.

Figure 10 is the schematic view of the front view of seal receptacle in the cooling device of present embodiment.

Figure 11 is the schematic view of the front view of utricule cold-storage heat-collecting part in the cooling device of present embodiment.

Figure 12 is the structural schematic diagram that four cooling pieces are put together in the cooling device of present embodiment.

Structural schematic diagram made of Figure 13 is stacked for two cooling pieces in the cooling device of present embodiment.

Figure 14 is the structural schematic diagram of the first thermal component in the cooling device of present embodiment.

Figure 15 is the structural schematic diagram of second of thermal component in the cooling device of present embodiment.

Figure 16 is the structural schematic diagram of the third thermal component in the cooling device of present embodiment.

Figure 17 is the structural schematic diagram of the 4th kind of thermal component in the cooling device of present embodiment.

The reference numerals are as follows.

1~cold-storage heat-collecting part；

1-1~solid cold-storage heat-collecting part；

1-1-1~cold-storage heat collection body；

1-1-1-1~wire belt；

1-1-1-2~pour building body；

1-1-2~thermal insulation layer；

The flexible high-temperature resistant heat-conducting layer of 1-1-3~first；

1-1-4~bayonet；

1-1-5~screw；

1-1-6~separation prevention bar；

1-1-7~separation sleeve；

1-2~gas cold-storage heat-collecting part；

1-2-1~cold-storage collecting plate；

The heat-conducting part of 1-2-2~first；

1-2-3~flexible wall；

The conductive cover of 1-2-4~first；

The heat-conducting part of 1-2-5~second；

1-2-6~heat-conducting gas；

1-2-7~screw plug；

The flexible high-temperature resistant heat-conducting layer of 1-2-8~second；

1-3~liquid cold-storage heat-collecting part；

1-3-1~cold-storage heat collecting sheet；

1-3-2~annular sidewall；

1-3-3~constant pressure component；

1-3-4~sealing ring；

The conductive cover of 1-3-5~second；

1-3-6~conductive fluid；

1-3-7~screw plug；

2~refrigeration part；

2-1~conducting-heat elements；

3~thermal component；

3-1~radiator；

3-2~radiator fan；

3-3~heat-conducting copper pipe；

3-4 conductive base plate；

3-5~shield；

4~bracket；

4-1~arched arm；

4-2~handle；

4-3~switch；

4-4~temperature controller；

4-5~frame body；

4-6~indicator light；

5~seal receptacle；

5-1~support frame；

5-2~support plate；

5-3~insulated cavity；

5-4~sealing cavity；

5-5~lightening hole；

6~draining seam；

7~aviation plug；

8~electromagnetism welding gun mainframe box；

9~power supply line.

Specific embodiment

As shown in Figure 1, Figure 2, shown in Fig. 8, Fig. 9, Figure 11, present embodiments provide for a kind of cold-storage heat-collecting parts 1, including two Thermal conductive surface, a thermal conductive surface are that the heat in cold-storage heat-collecting part 1 is forced to derived hot face out, another is described thermally conductive Face is that extraneous heat is imported to the hot face that enters in cold-storage heat-collecting part 1, it is described enter hot face be flexible.

The cold-storage heat-collecting part is can be to collect heat when saving cooling capacity, and makes the component of heat and cooling capacity neutralization. In other words, the cold-storage heat-collecting part be can component heat to be discharged when collecting heat.In other words, cold-storage thermal-arrest portion Part is the component that can first save cooling capacity to regather heat, and neutralize heat and cooling capacity.In other words, the cold-storage heat-collecting part It is that the component that heat regathers heat can first be discharged.

Present embodiment as use a thermal conductive surface be will be derived from heat in cold-storage heat-collecting part forces Hot face out, another described thermal conductive surface are that extraneous heat is imported to the hot face that enters in cold-storage heat-collecting part, it is described enter hot face be The heat of technological means flexible, object can rapidly be collected by cold-storage heat-collecting part, and cold-storage heat-collecting part is collected into Heat can rapidly be distributed by thermal component, so, which can not only be realized by other components Pressure cools, moreover, it is also possible to which the face different on different high temp objects can be more fully bonded, is conducive to improve cold But efficiency.

As shown in Fig. 2, the cold-storage heat-collecting part 1 is solid cold-storage heat-collecting part 1-1.It is of course also possible to be such as Fig. 8 institute Show, the cold-storage heat-collecting part 1 is gas cold-storage heat-collecting part 1-2.It can also be as shown in figure 9, the cold-storage heat-collecting part 1 It is liquid cold-storage heat-collecting part 1-3.It is also possible that the cold-storage heat-collecting part 1 is lotion cold-storage heat-collecting part.Can also be as Shown in Figure 11, the cold-storage heat-collecting part 1 is utricule cold-storage heat-collecting part 1-4.

Present embodiment is solid cold-storage heat-collecting part or gas cold-storage thermal-arrest due to using the cold-storage heat-collecting part The technological means of component or liquid cold-storage heat-collecting part, so, a variety of cooling devices can be produced according to the demand of different user.

As shown in Fig. 2, the solid cold-storage heat-collecting part 1-1 includes cold-storage heat collection body 1-1-1.

The shape of the cold-storage heat collection body 1-1-1 is in four prisms cylinder.It is of course also possible to be the cold-storage heat collection body 1-1-1 Shape be in hexagonal prism.It is also possible to the shape of the cold-storage heat collection body 1-1-1 in eight prisms.It is also possible to the storage The shape of cold heat collection body 1-1-1 is in cylindrical body.It is also possible to the shape of the cold-storage heat collection body 1-1-1 in Elliptic Cylinder.

Present embodiment includes cold-storage heat collection body due to using the solid cold-storage heat-collecting part；The cold-storage heat collection body Shape in four prisms cylinder or hexagonal prism or eight prisms or cylindrical body or Elliptic Cylinder technological means, so, can basis Actual conditions produce a variety of cooling devices.

As shown in Fig. 2, the cold-storage heat collection body 1-1-1 is made of metal material.It is of course also possible to be the cold-storage collection Hot body 1-1-1 is made of skin silica gel or graphene.

The metal material is copper material.It is of course also possible to be, the metal material is ferrous material.It is also possible to The metal material is aluminum material.Being also possible to the metal material is zinc material.It is also possible to the metal material It is aluminum alloy materials.Being also possible to the metal material is stainless steel material.

Present embodiment is made of metal material due to using the cold-storage heat collection body；The metal material is copper or iron Or the technological means of aluminium or zinc or aluminium alloy or stainless steel, so, it is greatly improved the heating conduction of cold-storage heat collection body.

It is made as shown in Fig. 2, being also possible to the cold-storage heat collection body 1-1-1 of flexible high-temperature resistant composite heat conducting material.

Present embodiment is as using cold-storage heat collection body technology made of flexible high-temperature resistant composite heat conducting material Means, so, be conducive to cold-storage heat collection body and be closely bonded with object to be cooled, greatly improve cold-storage heat collection body with will quilt Heating conduction between cooling object.

As shown in Fig. 2, the flexible high-temperature resistant composite heat conducting material is compound by flexible high-temperature resistant base-material and heat filling It forms.

Present embodiment is by flexible high-temperature resistant base-material and to lead due to using the flexible high-temperature resistant composite heat conducting material The technological means that hot filler is combined, so, manufacturing cost can be substantially reduced.As a further preference, the flexibility is resistance to High temperature composite heat conducting material is to be combined by flexible high-temperature resistant base-material and heat filling by foam process.

As shown in Fig. 2, the flexible high-temperature resistant base-material is high molecular polymer；The high molecular polymer is polytetrafluoroethyl-ne Alkene.

The heat filling is copper particle or abrasive grit or aluminum shot or zinc granule or their mixture；Alternatively, the heat filling It is copper end or iron end or aluminium end or zinc end or their mixture.

Present embodiment is high molecular polymer due to using the flexible high-temperature resistant base-material；The high molecular polymer It is polytetrafluoroethylene (PTFE)；The heat filling is copper particle or abrasive grit or aluminum shot or zinc granule or their mixture；Alternatively, described thermally conductive Filler is copper end or iron end or aluminium end or zinc end or the technological means of their mixture, so, it is multiple that flexible high-temperature resistant can be improved Close the thermal conductivity of Heat Conduction Material.

As shown in Fig. 2, the copper particle or the abrasive grit or the aluminum shot or the zinc granule are grade or micron particles.

The copper end or iron end or aluminium end or the zinc end are nanometer grade powders.

The weight fraction ratio of the flexible high-temperature resistant base-material and the heat filling is 3:7~1:1.

Present embodiment due to use the copper particle or the abrasive grit or the aluminum shot or the zinc granule be grade or Micron particles；The copper end or iron end or aluminium end or the zinc end are nanometer grade powders；The flexible high-temperature resistant The weight fraction ratio of base-material and the heat filling is the technological means of 3:7~1:1, so, it can further improve flexible resistance to height The thermal conductivity of warm composite heat conducting material.

As shown in Figures 5 to 7, it is also possible to the cold-storage heat collection body 1-1-1 to be made of deformable conductive structure material.

The deformable conductive structure material is constituted by pouring building body 1-1-1-2 and wire 1-1-1-1.

The building body 1-1-1-2 that pours is silica gel or graphene.

The wire 1-1-1-1 is by bending and/or is wound clusters, then clusters are built with building body 1-1-1-2 is poured Integrally constitute the deformable conductive structure material.From figure 5 it can be seen that wire 1-1-1-1 is curved, bending Place is in expand head.

Present embodiment due to using the deformable conductive structure material is made of silica gel and wire thing band；Institute Wire belt is stated by bending and/or is wound silk ribbon group, then silk ribbon rolled into a ball built up with silica gel be integrally formed it is described deformable The technological means of conductive structure material, so, it can be ensured that deformable conductive structure material is not only deformable but also can be thermally conductive.

As shown in Figures 5 to 7, the wire belt is beryllium copper silk ribbon.

Beryllium copper silk ribbon is beryllium copper silk and/or beryllium copper band.

First beryllium copper silk is bent to form plane wave band repeatedly, then plane wave tape wrapping is formed into clusters at cylinder.? It can be, beryllium copper band is first curved into helical spring, then helical spring is wound in cylinder and forms clusters.

Present embodiment is beryllium copper silk ribbon due to using the wire belt；Beryllium copper silk ribbon is beryllium copper silk and/or beryllium copper Band；First beryllium copper silk is bent to form plane wave band repeatedly, then plane wave tape wrapping is formed into clusters at cylinder；First by beryllium copper Band curves helical spring, then helical spring is wound in the technological means that cylinder forms clusters, so, it is greatly improved deformable The elasticity and thermal conductivity of conductive structure material.

As shown in Fig. 2, the side wall of the cold-storage heat collection body 1-1-1 is coated with heat-barrier material.

The heat-barrier material is ABS high polymer material or PA high molecular material or PE high molecular material or PP material macromolecule Material.

The thermally conductive connection in upper surface of the chill surface of the refrigeration part 2 and the cold-storage heat collection body 1-1-1.

Present embodiment is coated with heat-barrier material due to using the side wall of the cold-storage heat collection body；The heat-barrier material is ABS high polymer material or PA high molecular material or PE high molecular material or PP material high molecular material；The system of the refrigeration part Hot linked technological means is led in the upper surface of huyashi-chuuka (cold chinese-style noodles) and the cold-storage heat collection body, so, be conducive to save electric energy.

As shown in Figure 2 and Figure 4, the lower end surface of the cold-storage heat collection body 1-1-1 made of metal is provided with first Flexible high-temperature resistant heat-conducting layer 1-1-3.

The first flexible high-temperature resistant heat-conducting layer 1-1-3 is made of flexible high-temperature resistant composite heat conducting material.Certainly, may be used It is silica gel or graphene to be the first flexible high-temperature resistant heat-conducting layer 1-1-3.

Present embodiment is provided with first due to using the lower end surface of the cold-storage heat collection body made of metal Flexible high-temperature resistant heat-conducting layer；The first flexible high-temperature resistant heat-conducting layer is the technology made of flexible high-temperature resistant composite heat conducting material Means, so, the heating conduction of cold-storage heat collection body can be not only greatly improved, moreover, it is also possible to greatly improve cold-storage heat collection body With want the thermal conductivity between object to be cooled.

As shown in Fig. 2, bayonet 1-1-4 is distributed in the lower end surface of the cold-storage heat collection body 1-1-1, and correspondingly, described first The upper surface of flexible high-temperature resistant heat-conducting layer 1-1-3 is provided with clamp, the first flexible high-temperature resistant heat-conducting layer 1-1-3 and the cold-storage It is connected together between heat collection body 1-1-1.

It is of course also possible to be, clamp is distributed in the lower end surface of the cold-storage heat collection body 1-1-1, and correspondingly, described first is soft Property the upper surface of thermostable heat-conductive layer 1-1-3 be provided with bayonet, the first flexible high-temperature resistant heat-conducting layer 1-1-3 and the cold-storage collection It is connected together between hot body 1-1-1.

It can also be that bayonet 1-1-4 and spiral shell is distributed in the lower end surface of the cold-storage heat collection body 1-1-1 as shown in Figure 3 to Figure 4 Line fixation hole, and separation prevention bar 1-1-6 is fixed on to by screw 1-1-5 and separation sleeve 1-1-7 the lower end of cold-storage heat collection body 1-1-1 On face, there are gaps between the lower end surface and separation prevention bar 1-1-6 of cold-storage heat collection body 1-1-1, later, in cold-storage heat collection body 1-1-1 Lower end surface poured by way of pouring and build up the first flexible high-temperature resistant heat-conducting layer 1-1-3.

Bayonet is distributed with due to using the lower end surface of the cold-storage heat collection body in present embodiment, correspondingly, described first The upper surface of flexible high-temperature resistant heat-conducting layer is provided with clamp, between the first flexible high-temperature resistant heat-conducting layer and the cold-storage heat collection body It is connected together；Alternatively, clamp is distributed in the lower end surface of the cold-storage heat collection body, correspondingly, first flexible high-temperature resistant is thermally conductive The upper surface of layer is provided with bayonet, is connected together between the first flexible high-temperature resistant heat-conducting layer and the cold-storage heat collection body；Alternatively, Bayonet and threaded securing bores is distributed in the lower end surface of the cold-storage heat collection body, and is fixed on separation prevention bar by screw and separation sleeve On the lower end surface of cold-storage heat collection body, there are gaps between the lower end surface and separation prevention bar of cold-storage heat collection body, later, in cold-storage heat collection body Lower end surface the technological means for building up the first flexible high-temperature resistant heat-conducting layer is poured by way of pouring, so, not only can be improved Thermal conductivity, moreover, falling off for the first flexible high-temperature resistant heat-conducting layer also can be effectively prevented.

As shown in figure 8, the gas cold-storage heat-collecting part 1-2 includes cold-storage collecting plate 1-2-1.

The cold-storage collecting plate 1-2-1 and flexible wall 1-2-3 and the first conductive cover 1-2-4 surround a sealing cavity.

Heat-conducting gas 1-2-6 is marked in the sealing cavity.

The heat-conducting gas 1-2-6 is hydrogen.It is of course also possible to be, the heat-conducting gas 1-2-6 is helium.It can also be with It is that the heat-conducting gas 1-2-6 is argon gas.Being also possible to the heat-conducting gas 1-2-6 is neon.It is also possible to described thermally conductive Gas 1-2-6 is ammonia.Being also possible to the heat-conducting gas 1-2-6 is by two in hydrogen, helium, argon gas, neon, ammonia The gaseous mixture obtained after kind gas or two or more gas mixings.

Present embodiment includes cold-storage collecting plate due to using the gas cold-storage heat-collecting part；The cold-storage collecting plate A sealing cavity is surrounded with flexible wall and the first conductive cover；Heat-conducting gas is marked in the sealing cavity；The heat-conducting gas It is the technological means of hydrogen or helium or argon gas or neon or ammonia or their gaseous mixture, so, it is greatly improved gas storage The heating conduction of cold heat-collecting part.

As shown in figure 8, the flexible wall 1-2-3 is made of heat-barrier material.

The heat-barrier material is ABS high polymer material.It is of course also possible to be, the heat-barrier material is PA high molecular material. Being also possible to the heat-barrier material is PE high molecular material.Being also possible to the heat-barrier material is PP material high molecular material.

Present embodiment is made due to using the flexible wall of heat-barrier material；The heat-barrier material is ABS macromolecule The technological means of material or PA high molecular material or PE high molecular material or PP material high molecular material, so, be conducive to save Electric energy.

As shown in figure 8, the flexible wall 1-2-3 is cylindricality bellows.

Present embodiment due to use the flexible wall be cylindricality bellows technological means, so, can further mention The heating conduction of high gas cold-storage heat-collecting part.

As shown in figure 8, the first heat-conducting part 1-2-2 is distributed in the inner surface of the cold-storage collecting plate 1-2-1.

The second heat-conducting part 1-2-5 is distributed in the inner surface of the first conductive cover 1-2-4.

The first heat-conducting part is distributed with due to using the inner surface of the cold-storage collecting plate in present embodiment；Described first leads The technological means of the second heat-conducting part is distributed in the inner surface of heat lid, so, it can further improve gas cold-storage heat-collecting part Heating conduction.

As shown in figure 8, the first conductive cover 1-2-4 is provided with valve 1-2-7.It is of course also possible to be the cold-storage collection Hot plate 1-2-1 is provided with valve 1-2-7.The flexible wall 1-2-3 is provided with valve 1-2-7.

Present embodiment is provided with due to using first conductive cover or the cold-storage collecting plate or the flexible wall The technological means of valve, so, inflation and tonifying Qi can be facilitated.

As shown in figure 8, the valve 1-2-7 is embedded in the outer surface of the first conductive cover 1-2-4.Similarly, the valve 1-2-7 is embedded in the outer surface of the cold-storage collecting plate 1-2-1.The valve 1-2-7 is embedded in the appearance of the flexible wall 1-2-3 Face.

Present embodiment due to use the valve be embedded in first conductive cover outer surface or the cold-storage thermal-arrest The technological means of the outer surface of plate or the outer surface of the flexible wall, so, be conducive to cooling down operation.

As shown in figure 8, the outer surface of the cold-storage collecting plate 1-2-1 is provided with the second flexible high-temperature resistant heat-conducting layer 1-2-8.

Present embodiment is led since the outer surface using the cold-storage collecting plate 1-2-1 is provided with the second flexible high-temperature resistant The technological means of thermosphere 1-2-8, so, the heating conduction of cold-storage heat collection body can be not only greatly improved, moreover, it is also possible to greatly It is big to improve cold-storage heat collection body and want the thermal conductivity between object to be cooled.

As shown in figure 9, the liquid cold-storage heat-collecting part 1-3 includes cold-storage heat collecting sheet 1-3-1.

The cold-storage heat collecting sheet 1-3-1 is red copper film or pellosil.

Present embodiment includes cold-storage heat collecting sheet due to using the liquid cold-storage heat-collecting part；The cold-storage heat collecting sheet It is the technological means of red copper film or pellosil, so, it is greatly improved the heating conduction of liquid cold-storage heat-collecting part.

As shown in figure 9, the shape of the cold-storage heat collecting sheet 1-3-1 is in the spherical surface heaved outward.

Present embodiment is due to the technological means that the shape for using the cold-storage heat collecting sheet is in the spherical surface heaved outward, institute Can further improve the heating conduction of liquid cold-storage heat-collecting part.

As shown in figure 9, the cold-storage heat collecting sheet 1-3-1 is connect with the sealed bottom of annular sidewall 1-3-2.

The annular sidewall 1-3-2 is made of heat-barrier material.It is of course also possible to be, the annular sidewall 1-3-2 is by metal It is made, the outer surface of the annular sidewall 1-3-2 is coated with heat-barrier material.It is also possible that the annular sidewall 1-3-2 is by metal Skeleton is made up of cladding heat-barrier material.

Present embodiment is connected due to using the sealed bottom of the cold-storage heat collecting sheet and annular sidewall；The annular side Wall is made of heat-barrier material.Alternatively, the annular sidewall is made of metal, the outer surface of the annular sidewall is coated with heat-insulated material Material.Alternatively, the technological means that the annular sidewall is made of metallic framework by coating heat-barrier material, so, be conducive to save Electric energy.

As shown in figure 9, the top of the annular sidewall 1-3-2 is sealed by sealing ring 1-3-4 and the second conductive cover 1-3-5 Connection.

Present embodiment is tightly connected due to using the top of the annular sidewall by sealing ring and the second conductive cover Technological means, so, can further improve the heating conduction of liquid cold-storage heat-collecting part.

As shown in figure 9, the cold-storage heat collecting sheet 1-3-1, the annular sidewall 1-3-2, the second conductive cover 1-3-5 enclose Synthesize thermally conductive cavity.

Conductive fluid 1-3-6 is marked in the thermally conductive cavity.

The conductive fluid 1-3-6 is anti-icing fluid or low temperature conduction oil or cold-storage material.

Present embodiment is enclosed due to using the cold-storage heat collecting sheet, the annular sidewall, second conductive cover Thermally conductive cavity；Conductive fluid is marked in the thermally conductive cavity；The conductive fluid is anti-icing fluid or low temperature conduction oil or cold-storage material or leads The technological means of hot cream, so, the heating conduction of liquid cold-storage heat-collecting part can be further improved again.

As shown in figure 9, being provided with constant pressure component 1-3-3 in the thermally conductive cavity.

Present embodiment is provided with the technological means of constant pressure component due to using in the thermally conductive cavity, so, it can be also Further improve the heating conduction of liquid cold-storage heat-collecting part.

As shown in figure 9, the constant pressure component 1-3-3 is elastic balloon or elastic membrane.

Present embodiment due to use the constant pressure component be elastic balloon or elastic membrane technological means, so, can A variety of cooling devices are produced according to the demand of different user.

As shown in figure 9, the shape of the elastic balloon is in shell.

The shell is at least provided with an air inlet/outlet.

The annular sidewall 1-3-2 is provided with open-work.

The open-work of the air inlet/outlet and the annular sidewall 1-3-2 are tightly connected and and air communication.

Present embodiment is in shell due to the shape for using the elastic balloon；The shell at least provided with one into Gas outlet；The annular sidewall is provided with open-work；The open-work of the air inlet/outlet and the annular sidewall be tightly connected and with sky The technological means of gas connection, so, constant pressure effect is good.

As shown in figure 9, the shell is spherical shell.It is of course also possible to be, the shell is elliposoidal shell.It can also To be, the shell is tube body.

Present embodiment is due to using the technological means that the shell is spherical shell or elliposoidal shell or tube body, institute A variety of cooling devices can be produced according to the actual situation.

As shown in figure 9, being provided with elastomer in the shell.

The elastomer is sponge.It is of course also possible to be, the elastomer is foam.Being also possible to the elastomer is Sponge and foam.

Present embodiment is provided with elastomer due to using in the shell；The elastomer is sponge and/or foam Technological means, so, the elasticity of shell can be increased.

As shown in figure 9, the elastic membrane is made of rubber.

The annular sidewall 1-3-2 is provided with open-work.

The elastic membrane and the open-work are tightly connected.

Present embodiment is made of rubber due to using the elastic membrane；The annular sidewall is provided with open-work；It is described The technological means that elastic membrane and the open-work are tightly connected, so, structure is simple, is easy to make.

As shown in figure 9, the annular sidewall 1-3-2 is provided with liquid injection port.

The liquid injection port is configured with screw plug 1-3-7.

Present embodiment is provided with liquid injection port due to using the annular sidewall；The liquid injection port is configured with screw plug Technological means, so, be conducive to conductive fluid and concentrate on and replace.

The lotion cold-storage heat-collecting part is to replace with the conductive fluid 1-3-6 in the liquid cold-storage heat-collecting part 1-3 What heat-conducting cream was constituted.

As shown in figure 11, the utricule cold-storage heat-collecting part 1-4 includes capsule packet 1-4-1.

The capsule packet 1-4-1 is made of skin silica gel or graphene.

Fluid cold-storage collection thermit powder 1-4-2 is filled in the capsule packet 1-4-1.

Present embodiment includes Nang Bao due to using the utricule cold-storage heat-collecting part；The Nang Bao by skin silica gel or Graphene is made；The technological means of fluid cold-storage collection thermit powder is filled in the capsule packet, so, even pressure effect is best, thermally conductive effect Rate highest.

The fluid cold-storage collection thermit powder 1-4-2 is liquid cold-storage collection thermit powder or gas cold-storage collection thermit powder or lotion cold-storage thermal-arrest Agent or colloid cold-storage collection thermit powder.

As shown in figure 11, the liquid cold-storage collection thermit powder is anti-icing fluid or low temperature conduction oil or cold-storage material.

The gas cold-storage collection thermit powder is hydrogen or helium or argon gas or neon or ammonia or their gaseous mixture.

The lotion cold-storage collection thermit powder is silicone grease.

The colloid cold-storage collection thermit powder is heat-conducting glue.

Present embodiment is liquid cold-storage collection thermit powder or gas cold-storage thermal-arrest due to using the fluid cold-storage collection thermit powder Agent or lotion cold-storage collection thermit powder or colloid cold-storage collection thermit powder；The liquid cold-storage collection thermit powder is anti-icing fluid or low temperature conduction oil or storage Cryogen；The gas cold-storage collection thermit powder is hydrogen or helium or argon gas or neon or ammonia or their gaseous mixture；The lotion Cold-storage collection thermit powder is silicone grease；The colloid cold-storage collection thermit powder is the technological means of heat-conducting glue, so, it can be according to the difference of client Demand produces a variety of cooling devices.

As shown in figure 11, the capsule packet 1-4-1 is placed in metal heat-conducting shell 1-4-3.

The bottom of the metal heat-conducting shell 1-4-3 is provided with opening.

The edge of the metal heat-conducting shell 1-4-3 opening is flared out.

Protrude the opening of the metal heat-conducting shell 1-4-3 in the lower part of the capsule packet 1-4-1.

The opening of the capsule packet 1-4-1 is equipped with thermally conductive cover 1-4-4.

Present embodiment is placed in metal heat-conducting shell due to using the Nang Bao；The bottom of the metal heat-conducting shell It is provided with opening；Protrude the opening of the metal heat-conducting shell in the lower part of the Nang Bao；The open people edge of the Nang Bao is outside It opens；The opening of the Nang Bao is equipped with the technological means of thermally conductive cover, so, it is beneficial to prevent capsule packet excessive deformation.

As shown in figure 11, the thermally conductive cover 1-4-4 is made of skin silica gel or graphene.

The running-on of the thermally conductive cover 1-4-4 is in shrink mouth shape.

The lateral wall of the thermally conductive cover 1-4-4 running-on offers hoop and sets mouth for installing flexible banding component 1-4-5.

The flexibility banding component 1-4-5 is tightrope or rubber band or adhesive plaster or wire or plastic wire.

The lateral wall of the metal heat-conducting shell 1-4-3 is coated with insulating layer 1-4-6.It can be seen from fig. 11 that described Rapid cooling device is electrically connected by power supply line 9, aviation plug 7 with electromagnetism welding gun host 8, and electromagnetism welding gun host 8 is electrically connected with power supply It connects.It is of course also possible to be, the rapid cooling device is electrically connected to a power source by power supply adaptor.

Present embodiment is made due to using the thermally conductive cover of skin silica gel or graphene；The running-on of the thermally conductive cover In shrink mouth shape；The outside armlet of the thermally conductive enclosure mouth is equipped with flexible banding component；The flexibility banding component is tightrope or rubber Rubber band；The lateral wall of the metal heat-conducting shell is coated with the technological means of insulating layer, so, be conducive to increase thermal conductivity, lead Heat cover is not easy to fall off, is not easy to strangle bad thermally conductive cover.

As shown in Figure 1, Figure 2, shown in Fig. 8, Fig. 9, Figure 11, present embodiments provide for a kind of cooling devices, including such as front institute The cold-storage heat-collecting part 1 stated, the cold-storage heat-collecting part 1 go out hot face and the thermally conductive connection of thermal component 3.

Present embodiment leads hot linked technology with thermal component due to using the hot face that goes out of the cold-storage heat-collecting part Means, so, cooling velocity can be accelerated with forced heat radiation.

As the various improvement of present embodiment, details are as follows.

The cold-storage heat-collecting part (1) and thermal component (3) are by stating refrigeration part (2) thermally conductive connection；

The hot thermally conductive connection in face out of the chill surface of the refrigeration part (2) and the cold-storage heat-collecting part (1), the refrigeration The radiating surface of component (2) and the thermal component (3) thermally conductive connection；

Present embodiment is due to using the cold-storage heat-collecting part and thermal component by stating the thermally conductive connection of refrigeration part； The chill surface of the refrigeration part and the cold-storage heat-collecting part go out the hot thermally conductive connection in face, the radiating surface of the refrigeration part with The thermal component leads hot linked technological means, so, can further forced heat radiation, further speed up cooling velocity.

As shown in Figure 12 to Figure 13, the refrigeration part 2 is cooling piece.

Present embodiment due to use the refrigeration part be cooling piece technological means, so, structure is simple, favorably In the volume for reducing cooling device.

As shown in figure 12, the shape of the cooling piece is square.It is of course also possible to be, the shape of the cooling piece is in It is round.It is also possible to the shape of the cooling piece in rectangle.The shape for being also possible to the cooling piece is oval.

As shown in figure 9, the cooling piece has one.It is of course also possible to be as shown in Figure 12 and Figure 13, the cooling piece has It is multiple.

As shown in figure 12, four cooling pieces are put together.It is of course also possible to be two systems as shown in figure 13 Cold stacked to form.

As shown in figure 12, the chill surface for four cooling pieces being put together is located at the same side, four to be put together The radiating surface of the cooling piece is located at the same other side.

As shown in figure 13, made of being stacked in two cooling pieces, the chill surface of cooling piece and adjacent thereto The radiating surface of cooling piece is opposite, and the radiating surface of cooling piece and the chill surface of cooling piece adjacent thereto are opposite.

It is directly connected between two adjacent cooling pieces, is coated with silicone grease between two adjacent cooling pieces.When So, it is also possible to be provided with conducting-heat elements 2-1 between two adjacent cooling pieces, the conducting-heat elements 2-1 and the system Silicone grease is coated between cold.

From the thermal component 3 to the cold-storage heat-collecting part 1, the area of cooling piece from gradually becoming smaller greatly, cooling piece Power is from gradually becoming smaller greatly.

The conducting-heat elements 2-1 is heat-conducting plate or thermally conductive sheet.

The heat-conducting plate and thermally conductive sheet are made by copper material, be can also be and are made by aluminium.

The power supply line of multiple cooling pieces is in parallel.It is of course also possible to be, the power supply line of multiple cooling pieces is mutually gone here and there Connection.

Present embodiment due to use the cooling piece shape is square or round or rectangle or ellipse；It is described Cooling piece has one, alternatively, the cooling piece have it is multiple；Multiple cooling pieces are put together and (can increase area of heat transfer), And/or multiple cooling pieces are stacked into (refrigeration effect can be improved)；The refrigeration for the multiple cooling pieces being put together Face is located at the same side, and the radiating surface for the multiple cooling pieces being put together is located at the same other side；It is multiple described made of stacked In cooling piece, the chill surface of cooling piece and the radiating surface of cooling piece adjacent thereto are opposite, the radiating surface of a cooling piece It is opposite with the chill surface of cooling piece adjacent thereto, heat-conducting plate or thermally conductive sheet are provided between two adjacent cooling pieces；It is described Heat-conducting plate and thermally conductive sheet are to be made by copper material or be made by aluminium；The power supply line of multiple cooling pieces be in parallel or The technological means being connected in series, so, a variety of cooling devices can be produced according to the actual situation.

As shown in Fig. 2, Fig. 8, Fig. 9, Figure 11, Figure 14 to Figure 17, the thermal component 3 includes radiator 3-1.

The radiator 3-1 has one, it is of course also possible to there are two, can also have multiple.

The radiator 3-1 is gilled radiator.It is of course also possible to be, the radiator 3-1 is needle type heat radiator.Also It can be, the radiator 3-1 is the radiator that cooling fin is in bent moon thread form.

The radiator 3-1 is copper radiator.It is of course also possible to be, the radiator 3-1 is aluminium radiator.Also It can be, the radiator 3-1 is Cu and Al combination formula radiator.

The radiator 3-1 is fixed with radiator fan 3-2.

Present embodiment includes radiator due to using the thermal component；The radiator is gilled radiator or needle Formula radiator；The radiator is fixed with the technological means of radiator fan, so, structure is simple, good heat dissipation effect.

As shown in Figure 14 to Figure 15, the radiator fan 3-2 is horizontal radiator fan.

Present embodiment due to use the radiator fan be horizontal radiator fan technological means, so, be conducive to The design of radiator and radiator fan is installed.

As shown in figure 14, the radiator 3-1 has one.

One radiator fan 3-2 is located at the top of a radiator 3-1.

Present embodiment has one due to using the radiator.The radiator fan is located at the top of the radiator Technological means, so, advantageously reduce cost of manufacture.

As shown in figure 15, there are two the radiator 3-1.

Two radiator 3-1 pass through the thermally conductive connection of heat-conducting copper pipe 3-3.

The radiator fan 3-2 is located between two radiator 3-1.

Present embodiment due to use the radiator there are two；Two radiators pass through the thermally conductive company of heat-conducting copper pipe It connects；The radiator fan is located at the technological means between two radiators, so, be conducive to increase heat dissipation capacity, meanwhile, it dissipates Hot-air fan is hardly damaged.

As shown in figure 16, the radiator fan 3-2 is vertically-arranged radiator fan.

The vertically-arranged radiator fan has one.

There are two the radiator 3-1.

Two radiator 3-1 pass through the thermally conductive connection of heat-conducting copper pipe 3-3.

The lower part of the heat-conducting copper pipe 3-3 and the thermally conductive connection of conductive base plate 3-4.

The vertically-arranged radiator fan is located between two radiator 3-1.

Present embodiment is vertically-arranged radiator fan due to using the radiator fan；There are two the radiators；Two The radiator passes through the thermally conductive connection of heat-conducting copper pipe；The lower part of the heat-conducting copper pipe and the thermally conductive connection of conductive base plate；The heat dissipation Fan is located at the technological means between two radiators, so, be conducive to reduce heat dissipation resistance, extend the longevity of radiator fan Life.

As shown in figure 17, there are two the vertically-arranged radiator fans.

The radiator 3-1 has one.

One radiator 3-1 is located between two vertically-arranged radiator fans.

Present embodiment due to use the vertically-arranged radiator fan there are two；The radiator has one；Described in one Radiator is located at the technological means between two vertically-arranged radiator fans, so, be conducive to reduce heat dissipation resistance, extend heat dissipation The service life of fan.

As shown in figure 9, the radiator fan 3-2 is configured with shield 3-5.

The shield 3-5 is net-shaped protective cover.It is of course also possible to be, the shield 3-5 is grid shield.

The shield 3-5 has one or two.

Gap between the shield 3-5 and the flabellum of the radiator fan 3-2 is greater than or equal to two millimeters.

Gap between two shield 3-5 is greater than or equal to two millimeters.

Present embodiment is configured with shield due to using the radiator fan；The shield is net-shaped protective cover And/or grid shield；The protection is covered with one or two；Between between the shield and the flabellum of the radiator fan Gap is greater than or equal to two millimeters；Gap between two shields is greater than or equal to two millimeters of technological means, so, it can Greatly improve the safety of cooling down operation.

As shown in figure 9, the thermal component 3 is fixedly connected with the cold-storage heat-collecting part 1 by screw or bolt.

The refrigeration part 2 is clamped between the thermal component 3 and the cold-storage heat-collecting part 1.

Present embodiment is fixed with the cold-storage heat-collecting part by screw or bolt due to using the thermal component Connection；The refrigeration part is clamped in the technological means between the thermal component and the cold-storage heat-collecting part, so, have Conducive to the installation and removal of cooling device.

As shown in figure 9, the chill surface and radiating surface of the refrigeration part 2 are coated respectively with heat-conducting silicone grease.

Present embodiment is coated respectively with the skill of heat-conducting silicone grease due to the chill surface and radiating surface that use the refrigeration part Art means, so, it is greatly improved cold-storage heat-collecting part, refrigeration part, the heating conduction between thermal component.

As shown in Fig. 2, Fig. 8, the radiating surface of the refrigeration part 2 is congruent under the 3 conductive base plate 3-4 of thermal component Surface, the chill surface of the refrigeration part 2 are congruent to the upper surface of the cold-storage heat-collecting part 1.It is of course also possible to be such as Fig. 9 Shown, the radiating surface of the refrigeration part 2 is less than the lower surface of the 3 conductive base plate 3-4 of thermal component, the thermal component 3 The lower surface of conductive base plate 3-4 is not partially covered with heat-barrier material, the refrigeration by what the radiating surface of the refrigeration part 2 covered The chill surface of component 2 is less than the upper surface of the cold-storage heat-collecting part 1, and the upper surface of the cold-storage heat-collecting part 1 is not described The chill surface covering of refrigeration part 2 is partially covered with heat-barrier material.

The following table that present embodiment is congruent to the thermal component bottom plate due to using the radiating surface of the refrigeration part Face, the chill surface of the refrigeration part are congruent to the upper surface of the cold-storage heat-collecting part.Alternatively, the heat dissipation of the refrigeration part Face is less than the lower surface of the thermal component bottom plate, and the lower surface of the thermal component bottom plate is not by the heat dissipation of the refrigeration part What face covered is partially covered with heat-barrier material, and/or, the chill surface of the refrigeration part is less than the upper of the cold-storage heat-collecting part Surface, the upper surface of the cold-storage heat-collecting part are not partially covered with heat-barrier material by what the chill surface of the refrigeration part covered Technological means, so, a variety of cooling devices can be produced according to the actual situation, meanwhile, be beneficial to prevent thermal component and storage Reversed heat transmitting between cold heat-collecting part.

As shown in figure 9, the heat-barrier material is Bao Pao Droplets plate.

The thickness of the Bao Pao Droplets plate is less than the half of 2 thickness of refrigeration part.

Draining seam 6 is formed between the Bao Pao Droplets plate of the thermal component 3 and the Bao Pao Droplets plate of the cold-storage heat-collecting part 1.

Present embodiment is Bao Pao Droplets plate due to using the heat-barrier material；The thickness of the Bao Pao Droplets plate is less than described The half of cold part thickness；Shape between the Bao Pao Droplets plate of the thermal component and the Bao Pao Droplets plate of the cold-storage heat-collecting part At the technological means of draining seam, so, be conducive to be discharged from air from the water condensed.

As shown in figure 9, being fixedly connected between the thermal component 3 and bracket 4.

It is fixedly connected between the thermal component 3 and bracket 4 by screw or bolt.

The bracket 4 includes frame body 4-5.

The frame body 4-5 is connect with two arched arm 4-1.

Handle 4-2 is connected in the middle part of two arched arm 4-1.

Present embodiment is fixedly connected between the thermal component and bracket due to using；The thermal component and bracket Between be fixedly connected by screw or bolt；The bracket includes frame body；The frame body is connect with two arched arms；Two The technological means of handle is connected in the middle part of the arched arm, so, be conducive to the gripping of cooling device.

As shown in figure 9, the frame body 4-5, two arched arm 4-1, the handle 4-2 are integrally formed part.

The skill that present embodiment is integrally formed part due to using the frame body, two arched arms, the handle Art means, so, the strength and stiffness of bracket can be substantially increased.

As shown in figure 9, one end of the handle 4-2 is provided with switch 4-3 and indicator light 4-6.

The other end of the handle 4-2 is provided with temperature controller 4-4.

There are two temperature sensor (not drawing in figure) for the temperature controller 4-4 configuration.

The thermally conductive connection in upper surface of one temperature sensor and the cold-storage heat-collecting part 1.It is of course also possible to be, One temperature sensor is arranged between the cold-storage heat-collecting part 1 and the refrigeration part 2.

Another described temperature sensor and the thermally conductive connection of radiator 3-1.It is of course also possible to be, described in another Temperature sensor is between the radiator 3-1 and the refrigeration part 2；

It is electrically connected between the temperature sensor and the temperature controller 4-4.

The bracket 4 is provided with cabling channel.

Present embodiment is provided with switch and indicator light due to using one end of the handle；The other end of the handle It is provided with temperature controller；The temperature controller is configured with temperature sensor；The temperature sensor and the cold-storage thermal-arrest The thermally conductive connection in the upper surface of component；It is electrically connected between the temperature sensor and the temperature controller；The bracket is provided with The technological means of cabling channel, so, the cooling down operation of worker is greatly facilitated, is conducive to protect cold-storage heat-collecting part and refrigeration section Part.

As shown in Figure 10, the cold-storage heat-collecting part 1 is configured with seal receptacle 5.

The seal receptacle 5 is made of heat-barrier material.

The seal receptacle 5 includes support frame 5-1 and support plate 5-2.

The shape of support frame as described above 5-1 is in the train of dress shape opened.

Circumferentially distributed along support frame as described above 5-1 has lightening hole 5-5.

The top surface of the support plate 5-2 is downwardly concaved to form insulated cavity 5-3.

The edge of the insulated cavity 5-3 is circumferentially arranged to have right angle recess to form sealing cavity 5-4.

Present embodiment is configured with seal receptacle due to using the cold-storage heat-collecting part；The seal receptacle is by heat-barrier material It is made；The seal receptacle includes support frame and support plate；The shape of support frame as described above is in the train of dress shape opened；Along the support The circumferentially distributed of frame has lightening hole；The top surface of the support plate is downwardly concaved to form insulated cavity；The edge of the insulated cavity The circumferentially arranged technological means for thering is right angle recess to form sealing cavity, so, it is not only advantageous to energy conservation, moreover, can be in cooling First cooling to cold-storage heat-collecting part before operation, cold-storage heat-collecting part can be cooled to subzero 20 degrees Celsius, in this way, can increase The temperature difference between big cold-storage heat-collecting part and high temp objects, greatly improves cooling speed.

Claims (5)

1. a kind of cold-storage heat-collecting part, it is characterised in that: including two thermal conductive surfaces, a thermal conductive surface is by cold-storage thermal-arrest portion Heat in part (1) forces derived hot face out, another described thermal conductive surface is that extraneous heat is imported cold-storage heat-collecting part (1) enter hot face in, it is described enter hot face be flexible.

2. cold-storage heat-collecting part according to claim 1, it is characterised in that:

The cold-storage heat-collecting part (1) is that solid cold-storage heat-collecting part (1-1) or gas cold-storage heat-collecting part (1-2) or liquid store Cold heat-collecting part (1-3) or lotion cold-storage heat-collecting part or utricule cold-storage heat-collecting part (1-4)；

The solid cold-storage heat-collecting part (1-1) includes cold-storage heat collection body (1-1-1)；

The shape of the cold-storage heat collection body (1-1-1) is in four prisms cylinder or hexagonal prism or eight prisms or cylindrical body or cylindroid Body；

The cold-storage heat collection body (1-1-1) is made of metal material；Alternatively, the cold-storage heat collection body (1-1-1) is by flexible resistance to height Warm composite heat conducting material is made；Alternatively, the cold-storage heat collection body (1-1-1) is made of deformable conductive structure material；

The metal material is copper or iron or aluminium or zinc or aluminium alloy or stainless steel；

The flexible high-temperature resistant composite heat conducting material is combined by flexible high-temperature resistant base-material and heat filling；

The flexible high-temperature resistant base-material is high molecular polymer；

The high molecular polymer is polytetrafluoroethylene (PTFE)；

The heat filling is copper particle or abrasive grit or aluminum shot or zinc granule or their mixture；Alternatively, the heat filling is copper End or iron end or aluminium end or zinc end or their mixture；

The copper particle or the abrasive grit or the aluminum shot or the zinc granule are grade or micron particles；

The copper end or iron end or aluminium end or zinc end nanometer grade powder；

The weight fraction ratio of the flexible high-temperature resistant base-material and the heat filling is 3:7~1:1；

The deformable conductive structure material is made of silica gel and wire；

The wire belt is by bending and/or is wound silk ribbon group, then silk ribbon group built up with silica gel be integrally formed it is described Deformable conductive structure material；

The wire belt is beryllium copper silk ribbon；

Beryllium copper silk ribbon is beryllium copper silk and/or beryllium copper band；

First beryllium copper silk is bent to form plane wave band repeatedly, then plane wave tape wrapping is formed into clusters at cylinder；

Beryllium copper band is first curved into helical spring, then helical spring is wound in cylinder and forms clusters；

The side wall of the cold-storage heat collection body (1-1-1) is coated with heat-barrier material；

The heat-barrier material is ABS high polymer material or PA high molecular material or PE high molecular material or PP material macromolecule material Material；

The thermally conductive connection of chill surface of the upper surface and refrigeration part (2) of the cold-storage heat collection body (1-1-1)；

The lower end surface of the cold-storage heat collection body (1-1-1) made of metal is provided with the first flexible high-temperature resistant heat-conducting layer (1-1-3)；

Be below the first flexible high-temperature resistant heat-conducting layer (1-1-3) it is described enter hot face；

The flexible high-temperature resistant heat-conducting layer (1-1-3) is made of flexible high-temperature resistant composite heat conducting material；

Bayonet (1-1-4) is distributed in the lower end surface of the cold-storage heat collection body (1-1-1), correspondingly, first flexible high-temperature resistant The upper surface of heat-conducting layer (1-1-3) is provided with clamp；Alternatively, clamp, phase is distributed in the lower end surface of the cold-storage heat collection body (1-1-1) Ying Di, the upper surface of described first flexible high-temperature resistant heat-conducting layer (1-1-3) are provided with bayonet；

It is connected together between the first flexible high-temperature resistant heat-conducting layer (1-1-3) and the cold-storage heat collection body (1-1-1)；

Alternatively,

Bayonet (1-1-4) and threaded securing bores are distributed in the lower end surface of the cold-storage heat collection body (1-1-1), and pass through screw (1- 1-5) separation prevention bar (1-1-6) is fixed on the lower end surface of cold-storage heat collection body (1-1-1) with separation sleeve (1-1-7), cold-storage thermal-arrest There are gaps between the lower end surface and separation prevention bar (1-1-6) of body (1-1-1), later, in the lower end surface of cold-storage heat collection body (1-1-1) It is poured by way of pouring and builds up the first flexible high-temperature resistant heat-conducting layer (1-1-3)；

The gas cold-storage heat-collecting part (1-2) includes cold-storage collecting plate (1-2-1)；

The lower end surface of the cold-storage collecting plate (1-2-1) is provided with the second flexible high-temperature resistant heat-conducting layer (1-2-8)；

Be below the second flexible high-temperature resistant heat-conducting layer (1-2-8) it is described enter hot face；

The cold-storage collecting plate (1-2-1) and flexible wall (1-2-3) and the first conductive cover (1-2-4) surround a sealing cavity；

Heat-conducting gas (1-2-6) is marked in the sealing cavity；

The heat-conducting gas (1-2-6) is hydrogen or helium or argon gas or neon or ammonia or their gaseous mixture；

The flexible wall (1-2-3) is made of heat-barrier material；

The flexible wall (1-2-3) is cylindricality bellows；

The first heat-conducting part (1-2-2) is distributed in the inner surface of the cold-storage collecting plate (1-2-1)；

The second heat-conducting part (1-2-5) is distributed in the inner surface of first conductive cover (1-2-4)；

First conductive cover (1-2-4) or the cold-storage collecting plate (1-2-1) or the flexible wall (1-2-3) are provided with valve (1-2-7)；

The valve (1-2-7) is embedded in outer surface or the cold-storage collecting plate (1-2-1) of first conductive cover (1-2-4) Outer surface or the outer surface of the flexible wall (1-2-3)；

The liquid cold-storage heat-collecting part (1-3) includes cold-storage heat collecting sheet (1-3-1)；

The cold-storage heat collecting sheet (1-3-1) is red copper film or pellosil；

The shape of the cold-storage heat collecting sheet (1-3-1) is in the spherical surface heaved outward；

The cold-storage heat collecting sheet (1-3-1) connect with the sealed bottom of annular sidewall (1-3-2)；

The annular sidewall (1-3-2) is made of heat-barrier material；Alternatively, the annular sidewall (1-3-2) is made of metal, it is described The outer surface of annular sidewall (1-3-2) is coated with heat-barrier material；Alternatively, the annular sidewall (1-3-2) is passed through by metallic framework Heat-barrier material is coated to constitute；

The top of the annular sidewall (1-3-2) is tightly connected by sealing ring (1-3-4) and the second conductive cover (1-3-5)；

The cold-storage heat collecting sheet (1-3-1), the annular sidewall (1-3-2), second conductive cover (1-3-5) enclose thermally conductive Cavity；

Conductive fluid (1-3-6) is marked in the thermally conductive cavity；

The conductive fluid (1-3-6) is anti-icing fluid or low temperature conduction oil or cold-storage material；

Constant pressure component (1-3-3) is provided in the thermally conductive cavity；

The constant pressure component (1-3-3) is elastic balloon or elastic membrane；

The shape of the elastic balloon is in shell；

The shell is at least provided with an air inlet/outlet；

The annular sidewall (1-3-2) is provided with open-work；

The open-work of the air inlet/outlet and the annular sidewall (1-3-2) are tightly connected and and air communication；

The shell is spherical shell or elliposoidal shell or tube body；

Elastomer is provided in the shell；

The elastomer is sponge and/or foam；

The elastic membrane is made of rubber；

The elastic membrane and the open-work are tightly connected；

The annular sidewall (1-3-2) is provided with liquid injection port；

The liquid injection port is configured with screw plug (1-3-7)；

The lotion cold-storage heat-collecting part is to replace with the conductive fluid (1-3-6) in the liquid cold-storage heat-collecting part (1-3) What heat-conducting cream was constituted；

The utricule cold-storage heat-collecting part (1-4) includes Nang Bao (1-4-1)；

The Nang Bao (1-4-1) is made of skin silica gel or graphene；

Fluid cold-storage collection thermit powder (1-4-2) is filled in the Nang Bao (1-4-1)；

The fluid cold-storage collection thermit powder (1-4-2) is liquid cold-storage collection thermit powder or gas cold-storage collection thermit powder or lotion cold-storage collection thermit powder Or colloid cold-storage collection thermit powder；

The liquid cold-storage collection thermit powder is anti-icing fluid or low temperature conduction oil or cold-storage material；

The gas cold-storage collection thermit powder is hydrogen or helium or argon gas or neon or ammonia or their gaseous mixture；

The lotion cold-storage collection thermit powder is silicone grease；

The colloid cold-storage collection thermit powder is heat-conducting glue；

The Nang Bao (1-4-1) is placed in metal heat-conducting shell (1-4-3)；

The bottom of the metal heat-conducting shell (1-4-3) is provided with opening；

The open edge of the metal heat-conducting shell (1-4-3) is flared out；

Protrude the opening of the metal heat-conducting shell (1-4-3) in the lower part of the Nang Bao (1-4-1)；

The opening of the metal heat-conducting shell (1-4-3) is equipped with thermally conductive cover (1-4-4)；

The thermally conductive cover (1-4-4) is made of skin silica gel or graphene；

The running-on of the thermally conductive cover (1-4-4) is in shrink mouth shape；

The lateral wall of described thermally conductive cover (1-4-4) running-on offers hoop and sets mouth for installing flexible banding component (1-4-5)；

The flexibility banding component (1-4-5) is tightrope or rubber band or adhesive plaster or wire or plastic wire；

The lateral wall of the metal heat-conducting shell (1-4-3) is coated with insulating layer (1-4-6).

3. a kind of cooling device, it is characterised in that: including cold-storage heat-collecting part (1) as claimed in claim 1 or 2, the storage Cold heat-collecting part (1) goes out hot face and thermal component (3) thermally conductive connection.

4. cooling device according to claim 3, it is characterised in that:

The cold-storage heat-collecting part (1) and thermal component (3) are by stating refrigeration part (2) thermally conductive connection；

The hot thermally conductive connection in face out of the chill surface of the refrigeration part (2) and the cold-storage heat-collecting part (1), the refrigeration part (2) radiating surface and the thermal component (3) thermally conductive connection；

The refrigeration part (2) is cooling piece；

The shape of the cooling piece is square or round or rectangle or ellipse；

The cooling piece has one, alternatively, the cooling piece have it is multiple；

Multiple cooling pieces are put together, and form alternatively, multiple cooling pieces are stacked, alternatively, multiple cooling pieces are first It is put together to be stacked again and form；

The chill surface for the multiple cooling pieces being put together is located at the same side, the heat dissipation for the multiple cooling pieces being put together Face is located at the same other side；

In multiple cooling pieces made of stacked, the chill surface of cooling piece and the radiating surface phase of cooling piece adjacent thereto Right, the radiating surface of cooling piece and the chill surface of cooling piece adjacent thereto are opposite；

It is directly connected between two adjacent cooling pieces, is coated with silicone grease between two adjacent cooling pieces；Alternatively, phase It is provided with conducting-heat elements (2-1) between two adjacent cooling pieces, is applied between the conducting-heat elements (2-1) and the cooling piece There is silicone grease；

From the thermal component (3) to the cold-storage heat-collecting part (1), the area of cooling piece from gradually becoming smaller greatly, cooling piece Power is from gradually becoming smaller greatly；

The conducting-heat elements (2-1) are heat-conducting plate or thermally conductive sheet；

The heat-conducting plate and thermally conductive sheet are to be made by copper material or be made by aluminium；

The power supply line of multiple cooling pieces is in parallel or is connected in series；

The thermal component (3) includes radiator (3-1)；

The radiator (3-1) at least one；

The radiator (3-1) is gilled radiator or needle type heat radiator or gilled tube radiator；

The radiator (3-1) is fixed with radiator fan (3-2)；

The radiator fan (3-2) at least one；

The radiator fan (3-2) is configured with shield (3-5)；

The shield (3-5) is net-shaped protective cover and/or grid shield；

The shield (3-5) has one or two；

Gap between the shield (3-5) and the flabellum of the radiator fan (3-2) is greater than or equal to two millimeters；

Gap between two shields (3-5) is greater than or equal to two millimeters；

The thermal component (3) is fixedly connected with the cold-storage heat-collecting part (1) by screw or bolt；

The refrigeration part (2) is clamped between the thermal component (3) and the cold-storage heat-collecting part (1)；

The chill surface and radiating surface of the refrigeration part (2) are coated respectively with heat-conducting silicone grease；

The radiating surface of the refrigeration part (2) is congruent to the lower surface of the thermal component (3) conductive base plate (3-4), the system The chill surface of cold part (2) is congruent to the upper surface of the cold-storage heat-collecting part (1)；Alternatively, the heat dissipation of the refrigeration part (2) Face is less than the lower surface of the thermal component (3) conductive base plate (3-4), the following table of thermal component (3) conductive base plate (3-4) Face is not partially covered with heat-barrier material by what the radiating surface of the refrigeration part (2) covered, and/or, the refrigeration part (2) Chill surface is less than the upper surface of the cold-storage heat-collecting part (1), and the upper surface of the cold-storage heat-collecting part (1) is not by the refrigeration The chill surface covering of component (2) is partially covered with heat-barrier material；

The heat-barrier material is Bao Pao Droplets plate；

The thickness of the Bao Pao Droplets plate is less than the half of the cold part (2) thickness；

Draining seam is formed between the Bao Pao Droplets plate of the thermal component (3) and the Bao Pao Droplets plate of the cold-storage heat-collecting part (1) (6)；

It is fixedly connected between the thermal component (3) and bracket (4)；

It is fixedly connected between the thermal component (3) and bracket (4) by screw or bolt；

The bracket (4) includes frame body (4-5)；

The frame body (4-5) connect with two arched arms (4-1)；

Handle (4-2) is connected in the middle part of two arched arms (4-1)；

The frame body (4-5), two arched arms (4-1), the handles (4-2) are integrally formed part；

One end of the handle (4-2) is provided with switch (4-3) and indicator light (4-6)；

The other end of the handle (4-2) is provided with temperature controller (4-4)；

There are two temperature sensors for temperature controller (4-4) configuration；

The thermally conductive connection in upper surface of one temperature sensor and the cold-storage heat-collecting part (1)；Alternatively, a temperature Sensor is between the cold-storage heat-collecting part (1) and the refrigeration part (2)；

Another described temperature sensor and the radiator (3-1) thermally conductive connection；Alternatively, another described temperature sensor position Between the radiator (3-1) and the refrigeration part (2)；

It is electrically connected between two temperature sensors and the temperature controller (4-4)；

The bracket (4) is provided with cabling channel；

The cold-storage heat-collecting part (1) is configured with seal receptacle (5)；

The seal receptacle (5) is made of heat-barrier material；

The seal receptacle (5) includes support frame (5-1) and support plate (5-2)；

The shape of support frame as described above (5-1) is in the train of dress shape opened；

Circumferentially distributed along support frame as described above (5-1) has lightening hole (5-5)；

The top surface of the support plate (5-2) is downwardly concaved to form insulated cavity (5-3)；

The edge of the insulated cavity (5-3) is circumferentially arranged to have right angle recess to form sealing cavity (5-4).

5. cooling device according to claim 4, it is characterised in that:

The radiator fan (3-2) is horizontal radiator fan；

The horizontal radiator fan (3-2) has one；

The radiator (3-1) has one；

One horizontal radiator fan is located at the top of a radiator (3-1)；

Alternatively,

There are two the radiators (3-1)；

Two radiators (3-1) pass through heat-conducting copper pipe (3-3) thermally conductive connection；

One horizontal radiator fan is located between two radiators (3-1)；

Alternatively,

The radiator fan (3-2) is vertically-arranged radiator fan；

The vertically-arranged radiator fan has one；

There are two the radiators (3-1)；

Two radiators (3-1) pass through heat-conducting copper pipe (3-3) thermally conductive connection；

The lower part of the heat-conducting copper pipe (3-3) and conductive base plate (3-4) thermally conductive connection；

One vertically-arranged radiator fan is located between two radiators (3-1)；

Alternatively,

There are two the vertically-arranged radiator fans；

The radiator (3-1) has one；

One radiator (3-1) is located between two vertically-arranged radiator fans.