CN203554879U - Heat conduction structure and heat conduction base thereof - Google Patents

Abstract

A thermal conductive structure and its thermal conductive base. The thermal conductive structure includes a thermal conductive base and a heat pipe. The thermal conductive base is provided with an accommodating groove, and a fixed rib is protruding from the inner wall of the accommodating groove. The heat pipe is embedded in the accommodation tank. The heat pipe is fixed in the accommodating groove by inserting the fixing ribs in the accommodating groove into the heat pipe.

Description

Conductive structure and heat conducting base thereof

Technical field

The utility model relates to a kind of heat conducting base, particularly in a kind of storage tank of its heat conducting base, is provided with the conductive structure of fixing rib.

Background technology

Heat pipe (heat pipe) is the element of extensive use in electronic radiation field, and it is generally the body of two end sealings, and inside heat pipe is provided with capillary structure and is filled with liquid working fluid.Heat pipe is that the heat energy for a pyrotoxin is produced takes away pyrotoxin, and the set-up mode of general heat pipe can be by a wherein termination contact heating source of heat pipe, and the other end is positioned at compared with pyrotoxin low temperature place.The liquid working fluid vaporization that inside heat pipe is filled in by wherein one end heating of pyrotoxin opposite heat tube, the working fluid pressure of vaporization increases and flows to the other end of heat pipe, gaseous working fluid flows to heat release after the other end contact low temperature of heat pipe and replys liquid state, then the capillary force providing by capillary structure is back to pyrotoxin.Heat energy pyrotoxin being produced by aforesaid circulation takes away pyrotoxin.

For example, because the external form of heat pipe only can be done limited change (bending or slightly flattening), in order to make the heat energy that pyrotoxin produces can import more efficiently heat pipe into, generally the one end in heat pipe contact heating source can be embedded in a metal derby, contact-making surface between script heat pipe and pyrotoxin, more can from the side of heat pipe, extend by metal derby, to assist the contact area that increases heat pipe and pyrotoxin, make pyrotoxin to import more heat energy into heat pipe by metal derby.The existing mode that is embedded is on metal derby, to offer a groove, then one end of heat pipe is inserted in groove and crimp and make its build-in in groove.Between groove and heat pipe, only rely on extruding packing and be fixedly easy to come off, therefore generally can inwardly be convexly equipped with flange at the inner edge of the opening part of groove comes off from groove to prevent heat pipe, but the flange of this structure is coated on heat pipe, can reduce the contact area of script heat pipe and pyrotoxin.

Utility model content

The purpose of this utility model is providing a kind of conductive structure, and it is effectively fixed on heat pipe heat conducting base and does not reduce the contact area between heat pipe and pyrotoxin.

For reaching above-mentioned purpose, the utility model provides a kind of conductive structure, and it comprises:

One heat conducting base, has a storage tank, convexes with at least one fixing rib on the internal face of this storage tank, and this fixing rib and this storage tank edge of opening have spacing; And

One heat pipe, is embedded in this storage tank, and this fixing rib embeds this heat pipe.

Preferably, aforesaid conductive structure, wherein the edge of opening of this storage tank has a salient angle.

Preferably, aforesaid conductive structure, wherein this fixing rib is positioned on the side wall surface of this storage tank.

Preferably, aforesaid conductive structure, wherein this heat pipe connects the outer rim of this storage tank and forms a plane.

Preferably, aforesaid conductive structure, wherein this heat pipe has a hot conducting surface, and this hot conducting surface is flat condition, and this hot conducting surface exposes this storage tank and connects the outer rim of this storage tank and form a plane.

Preferably, aforesaid conductive structure, wherein convexes with respectively this fixing rib on two side wall surfaces in this storage tank.

Preferably, aforesaid conductive structure, wherein this two fixing rib is oppositely arranged.

For reaching above-mentioned purpose, the utility model also provides a kind of heat conducting base, and for being embedded a heat pipe, it comprises:

One body, offers a storage tank, convexes with at least one fixing rib on the internal face of this storage tank, and this fixing rib and this storage tank edge of opening have spacing, and described heat pipe is embedded in this storage tank, and this fixing rib embeds described heat pipe.

Preferably, aforesaid heat conducting base, wherein the edge of opening of this storage tank has a salient angle, and this fixing rib is positioned on the side wall surface of this storage tank, and described heat pipe connects the outer rim of this storage tank and forms a plane.

Preferably, aforesaid heat conducting base, wherein convexes with respectively this fixing rib on two side wall surfaces in this storage tank, and this two fixing rib is oppositely arranged.

The utility model embeds heat pipe and heat pipe is fixed in storage tank by the fixing rib being located in storage tank, the flange of opening inner edge that relies on storage tank compared to prior art is to fix heat pipe, structure of the present utility model makes can have larger contact area and promote heat conduction efficiency compared with prior art between heat pipe and pyrotoxin, has therefore effectively improved the shortcoming of prior art.

Below in conjunction with the drawings and specific embodiments, the utility model is described in detail, but not as to restriction of the present utility model.

Accompanying drawing explanation

The schematic diagram of heat pipe and heat conducting base in the conductive structure of Fig. 1 the utility model preferred embodiment;

The cutaway view (inserting state) of heat pipe and heat conducting base in the conductive structure of Fig. 2 the utility model preferred embodiment;

The cutaway view (collapsed state) of heat pipe and heat conducting base in the conductive structure of Fig. 3 the utility model preferred embodiment;

The cutaway view of the conductive structure of Fig. 4 the utility model preferred embodiment;

The schematic diagram of the conductive structure of Fig. 5 the utility model preferred embodiment

Wherein, Reference numeral

100 heat conducting bases

110 bodies

120 storage tanks

121 openings

122 salient angles

130 fixing rib

200 heat pipes

210 hot conducting surfaces

300 instruments

Embodiment

Consult Fig. 1, preferred embodiment of the present utility model provides a kind of conductive structure, be for contacting a pyrotoxin (not shown) so that the heat energy that this pyrotoxin was produced is taken away to pyrotoxin, conductive structure of the present utility model comprises a heat conducting base 100 and a heat pipe 200 (heat pipe).

Heat conducting base 100 has a body 110, and in the present embodiment, body 110 is preferably flat rectangular block made of copper, but the utility model does not limit its profile, and body 110 can be also that aluminium or the higher metal of other heat biography coefficients are made.On body 110, offer a storage tank 120, storage tank 120 is for being embedded heat pipe 200, and the external diameter that therefore width of the opening 121 of storage tank 120 is slightly wider than heat pipe 200 is inserted with heating tube 200, in the present embodiment, storage tank 120 is preferably across rectangle setting, but the utility model is not limited to this.On side wall surface in storage tank 120, convex with at least one fixing rib 130 for heat pipe 200 is fixed in storage tank 120, and fixing rib 130 has spacing with the edge of the opening 121 of storage tank 120.Fixing rib 130 is longitudinally extending along storage tank 120, in this example, preferably in storage tank 120, on two side wall surfaces, convex with respectively a fixing rib 130, two fixing rib 130 are oppositely arranged, but the utility model is not limited to this, for example, also can only on the wherein side wall surface in storage tank 120, be convexly equipped with multiple fixing rib 130.In the present embodiment, opening 121 inner edges of storage tank 120 preferably also can have a salient angle 122 to assist the bed knife that increases opposite heat tube 200.

Consult Fig. 2 and Fig. 3, in the present embodiment, heat pipe 200 embeds the mode of heat conducting base 100, be that wherein one end of heat pipe 200 is inserted in storage tank 120, then towards storage tank 120, provide pressure and for example, by heat pipe 200 flattening deformations (vertical pressurization or with roller roll extrusion) with an instrument 300.Preferably, heat pipe 200 makes its cross section be Elliptical circle through precompressed, the opening of storage tank 120 is slightly narrower than storage tank 120, and the long axis length of heat pipe 200 Elliptical circular cross-sections, circular Elliptical along heat pipe 200 cross sections long axis direction is inserted to storage tank 120 by heat pipe 200, be beneficial to by this make heat pipe 200 by the opening part of storage tank 120.

Consult Fig. 3 to Fig. 5, heat pipe 200 distortion that is squeezed makes the outer wall of heat pipe 200 fit in the inwall of storage tank 120, and two fixing rib 130 embed respectively the outer wall of heat pipe 200 and heat pipe 200 is fixed in storage tank 120.By instrument 300, in the outer wall extruding of heat pipe 200, form a plane hot conducting surface 210, hot conducting surface 210 be exposed to the opening 121 of storage tank 120 and connect this storage tank 120 opening 121 outer rim and form a burnishing surface (plane), by this burnishing surface contact heating source and extend heat pipe 200 with the contact area of pyrotoxin to increase heat conduction efficiency.

Consult Fig. 4 and Fig. 5, the utility model embeds heat pipe 200 and heat pipe 200 is fixed in storage tank 120 by the fixing rib 130 of being located in storage tank 120, is different from the flange of opening inner edge that prior art relies on groove to fix heat pipe.Therefore in the utility model, opening 121 places of storage tank 120 can be convexly equipped with less salient angle 122 compared to prior art, salient angle 122 also can be set or its storage tank 120 openings 121 also can expand outwardly, this structure makes compared with prior art, can have larger contact area between heat pipe 200 and pyrotoxin, thereby promotes the heat conduction efficiency between heat pipe 200 and pyrotoxin.

Certainly; the utility model also can have other various embodiments; in the situation that not deviating from the utility model spirit and essence thereof; those of ordinary skill in the art are when making various corresponding changes and distortion according to the utility model, but these corresponding changes and distortion all should belong to the protection range of the appended claim of the utility model.

Claims (10)

1. a conductive structure, is characterized in that, comprises:

One heat conducting base, has a storage tank, convexes with at least one fixing rib on the internal face of this storage tank, and this fixing rib and this storage tank edge of opening have spacing; And

One heat pipe, is embedded in this storage tank, and this fixing rib embeds this heat pipe.

2. conductive structure according to claim 1, is characterized in that, the edge of opening of this storage tank has a salient angle.

3. conductive structure according to claim 1, is characterized in that, this fixing rib is positioned on the side wall surface of this storage tank.

4. conductive structure according to claim 1, is characterized in that, this heat pipe connects the outer rim of this storage tank and forms a plane.

5. conductive structure according to claim 1, is characterized in that, this heat pipe has a hot conducting surface, and this hot conducting surface is flat condition, and this hot conducting surface exposes this storage tank and connects the outer rim of this storage tank and form a plane.

6. conductive structure according to claim 1, is characterized in that, convexes with respectively this fixing rib on two side wall surfaces in this storage tank.

7. conductive structure according to claim 6, is characterized in that, this two fixing rib is oppositely arranged.

8. a heat conducting base, for being embedded a heat pipe, is characterized in that, comprises:

One body, offers a storage tank, convexes with at least one fixing rib on the internal face of this storage tank, and this fixing rib and this storage tank edge of opening have spacing, and described heat pipe is embedded in this storage tank, and this fixing rib embeds described heat pipe.

9. heat conducting base according to claim 8, is characterized in that, the edge of opening of this storage tank has a salient angle, and this fixing rib is positioned on the side wall surface of this storage tank, and described heat pipe connects the outer rim of this storage tank and forms a plane.

10. heat conducting base according to claim 8, is characterized in that, convexes with respectively this fixing rib on two side wall surfaces in this storage tank, and this two fixing rib is oppositely arranged.

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