CN110360866A - A kind of inside and outside wing heat-dissipating pipe - Google Patents

Abstract

The present invention discloses a kind of inside and outside wing heat-dissipating pipe, including the tube body that radiates, the outer fin of several annular uniform intervals settings is formed on the heat-dissipating pipe body outer wall, the lumen centers of the heat dissipation tube body form the newel extended along the heat-dissipating pipe body length direction, the inner fin of several annular uniform intervals settings, the inner fin one end and the newel integrally connected far from the heat dissipation tube body are formed on the inner wall of the heat dissipation tube body；Inner cavity between the newel and the heat dissipation tube body is separated into equal with the inner fin quantity and independent liquid channel excessively by several described inner fins；The heat dissipation tube body, outer fin, inner fin and newel are squeezed by mold and are integrally formed.The present invention has the characteristics that excellent in heat dissipation effect and is easy molding.

Description

A kind of inside and outside wing heat-dissipating pipe

Technical field

The present invention relates to heat-dissipating pipe fields, and in particular to be a kind of inside and outside wing heat-dissipating pipe.

Background technique

Heat-dissipating pipe is prevalent in many heat dissipation equipments, by being arranged inside and outside different media in pipe, passes through heat-dissipating pipe Realize heat exchange.In existing heat-dissipating pipe manufacture, the connection of fin and tube body is to be welded to connect, and there is heat conduction for seam crossing Bad phenomenon affects the heat dissipation effect of heat-dissipating pipe.

In view of this, the applicant furthers investigate in view of the above-mentioned drawbacks in the prior art, there is this case generation then.

Summary of the invention

The main purpose of the present invention is to provide a kind of inside and outside wing heat-dissipating pipes, with excellent in heat dissipation effect and are easy molding Feature.

In order to achieve the above objectives, solution of the invention is:

A kind of inside and outside wing heat-dissipating pipe, wherein including the tube body that radiates, be formed with several on the heat-dissipating pipe body outer wall The lumen centers of the outer fin of annular uniform intervals setting, the heat dissipation tube body are formed along the heat-dissipating pipe body length side To the newel of extension, the inner fin of several annular uniform intervals settings, institute are formed on the inner wall of the heat dissipation tube body State inner fin one end and the newel integrally connected far from the heat dissipation tube body；Several described inner fins will be described in Inner cavity between stem and the heat dissipation tube body is separated into equal with the inner fin quantity and independent liquid channel excessively； The heat dissipation tube body, outer fin, inner fin and newel are squeezed by mold and are integrally formed.

Further, the material of the heat dissipation tube body, outer fin, inner fin and newel is aluminium alloy.

Further, the shape of the newel is cylinder.

Further, the outer diameter of the heat dissipation tube body and the diameter ratio of the newel outer diameter are 10:1.

Further, the inner fin is equal with the thickness of outer fin.

Further, the outer fin and heat dissipation pipe outer wall junction are formed with fillet, the inner fin and the heat-dissipating pipe Inner body wall and newel junction are formed with fillet.

Further, the quantity of the inner fin is 3, and the quantity of the outer fin is 28.

Further, the quantity of the inner fin is 4, and the quantity of the outer fin is 20.

Further, the heat-dissipating pipe body outer wall and outer fin surface are formed with the oxidation film formed through blackening process.

Further, the inner wall for crossing liquid channel is formed with the oxidation film formed through blackening process.

After adopting the above structure, a kind of inside and outside wing heat-dissipating pipe of the present invention, at least has the advantages that

One, the heat for the first fluid crossed in liquid channel is transferred to the heat dissipation by the newel and the inner fin Tube body passes to the second fluid outside heat-dissipating pipe using the outer fin；Due to inner fin and the newel In the presence of, the heat of the first fluid far from the heat dissipation tube body can be collected conduction by inner fin and newel, from And improve the radiating efficiency of heat-dissipating pipe.

Two, heat-dissipating pipe is squeezed by mold and is integrally formed, so that the connection of outer fin and the heat-dissipating pipe body outer wall, institute The connection for stating inner fin and the heat-dissipating pipe inner body wall and newel has more preferably continuity, more preferably conducts heat to have Effect.There is no because the bad problem of caused heat transfer is welded to connect, so as to avoid junction because of heat Transmit bad caused bottleneck problem of conducting heat.

Three, heat-dissipating pipe is squeezed by mold and is integrally formed, easily manufactured, heat dissipation tube body and the outer fin and inner fin Connection it is relatively reliable securely, there is no the risks of desoldering.

Detailed description of the invention

Fig. 1 is that there are four the schematic diagrames of the heat-dissipating pipe of inner fin for tool.

Fig. 2 is that there are three the schematic diagrames of the heat-dissipating pipe of inner fin for tool.

In figure:

Radiate tube body 1；Outer fin 2；Inner fin 3；Newel 4；Cross liquid channel 5.

Specific embodiment

In order to further explain the technical solution of the present invention, being explained in detail below by specific embodiment the present invention It states.

It as shown in Figure 1 to Figure 2, is a kind of inside and outside wing heat-dissipating pipe of the present invention, including heat dissipation tube body 1, it is described The outer fin 2 of several annular uniform intervals settings, the inner cavity of the heat dissipation tube body 1 are formed on heat dissipation 1 outer wall of tube body It is centrally formed the newel 4 extended along heat dissipation 1 length direction of tube body, is formed on the inner wall of the heat dissipation tube body 1 Have an inner fin 3 of several annular uniform intervals settings, the one end of the inner fin 3 far from the heat dissipation tube body 1 with it is described 4 integrally connected of newel；Several described inner fins 3 separate the inner cavity between the newel 4 and the heat dissipation tube body 1 At equal with 3 quantity of inner fin and independent liquid channel 5 excessively；The heat dissipation tube body 1, outer fin 2, inner fin 3 It is squeezed and is integrally formed by mold with newel 4.

In this way, a kind of inside and outside wing heat-dissipating pipe of the present invention, crosses the heat of the first fluid in liquid channel 5 described in Newel 4 and the inner fin 3 are transferred to the heat dissipation tube body 1, pass to outside heat-dissipating pipe using the outer fin 2 Second fluid；Due to the presence of inner fin 3 and the newel 4, the heat of the first fluid far from the heat dissipation tube body 1 Amount can be collected conduction by inner fin 3 and newel 4, to improve the radiating efficiency of heat-dissipating pipe.

Heat-dissipating pipe is squeezed by mold and is integrally formed, so that the connection of outer fin 2 and heat dissipation 1 outer wall of tube body, institute The connection for stating inner fin 3 and heat dissipation 1 inner wall of tube body and newel 4 has more preferably continuity, to have more preferably Heat-transfer effect.There is no because of the bad problem of heat transfer caused by being welded to connect, so as to avoid junction because Heat transfer bottleneck problem caused by heat transfer is bad.Heat-dissipating pipe is squeezed by mold and is integrally formed, easily manufactured, and radiate tube body 1 is relatively reliable securely with the connection of the outer fin 2 and inner fin 3, and there is no the risks of desoldering.

Preferably, the material of the heat dissipation tube body 1, outer fin 2, inner fin 3 and newel 4 is aluminium alloy.Aluminium alloy Material has preferable heat transfer efficiency, also has the characteristics that light-weight, uncorruptible.

Preferably, the shape of the newel 4 is cylinder.The spy that cylindrical newel 4 has conducive to extrusion forming Point is conducive to the yield rate for improving extrusion forming and reduces mold finished product.The outer diameter and the newel of the heat dissipation tube body 1 The diameter ratio of 4 outer diameters is 10:1.Such as radiate tube body outer diameter be 30 millimeters, newel outer diameter be 3 millimeters.

As the another embodiment of the newel 4, the cross section of the newel 4 may be number of edges with it is described The identical regular polygon of 3 quantity of inner fin, the inner fin 3 are connected to correspondingly on the side of regular polygon.

Preferably, the inner fin 3 is equal with the thickness of outer fin 2.

Preferably, the outer fin 2 is formed with fillet, the inner fin 3 and the heat dissipation with heat dissipation pipe outer wall junction 1 inner wall of tube body and 4 junction of newel are formed with fillet.The fillet is set first is that playing transitional function in junction, just In extrusion forming, second is that, raising enables heat in junction smooth transfer, to improve heat-transfer effect.

Preferably, as shown in Fig. 2, the quantity of the inner fin 3 is 3, the quantity of the outer fin 2 is 28.Such as figure Shown in 1, as the another embodiment of heat-dissipating pipe, the quantity of the inner fin 3 is 4, and the quantity of the outer fin 2 is 20 It is a.

Preferably, heat dissipation 1 outer wall of tube body and 2 surface of outer fin are formed with the oxidation film formed through blackening process. The inner wall for crossing liquid channel 5 is formed with the oxidation film formed through blackening process.The oxidation film can be improved the resistance to of heat-dissipating pipe Corrosive nature is improved service life with reducing the corrosion of first fluid and second fluid to heat-dissipating pipe.

Above-described embodiment and schema and non-limiting product form and style of the invention, any technical field it is common The appropriate changes or modifications that technical staff does it all should be regarded as not departing from patent category of the invention.

Claims (10)

1. a kind of inside and outside wing heat-dissipating pipe, which is characterized in that including the tube body that radiates, if being formed on the heat-dissipating pipe body outer wall The outer fin of dry annular uniform intervals setting, the lumen centers of the heat dissipation tube body form long along the heat dissipation tube body The newel that direction extends is spent, the interior wing of several annular uniform intervals settings is formed on the inner wall of the heat dissipation tube body Piece, the inner fin one end and the newel integrally connected far from the heat dissipation tube body；Several described inner fins will Inner cavity between the newel and the heat dissipation tube body is separated into mistake equal and independent with the inner fin quantity Liquid channel；The heat dissipation tube body, outer fin, inner fin and newel are squeezed by mold and are integrally formed.

2. a kind of inside and outside wing heat-dissipating pipe as described in claim 1, which is characterized in that the heat dissipation tube body, outer fin, interior wing The material of piece and newel is aluminium alloy.

3. a kind of inside and outside wing heat-dissipating pipe as described in claim 1, which is characterized in that the shape of the newel is cylinder.

4. a kind of inside and outside wing heat-dissipating pipe as claimed in claim 3, which is characterized in that the outer diameter of the heat dissipation tube body with it is described The diameter ratio of newel outer diameter is 10:1.

5. a kind of inside and outside wing heat-dissipating pipe as described in claim 1, which is characterized in that the thickness phase of the inner fin and outer fin Deng.

6. a kind of inside and outside wing heat-dissipating pipe as described in claim 1, which is characterized in that the outer fin is connect with heat dissipation pipe outer wall Place is formed with fillet, the inner fin and the heat-dissipating pipe inner body wall and newel junction is formed with fillet.

7. a kind of inside and outside wing heat-dissipating pipe as described in claim 1, which is characterized in that the quantity of the inner fin is 3, described The quantity of outer fin is 28.

8. a kind of inside and outside wing heat-dissipating pipe as described in claim 1, which is characterized in that the quantity of the inner fin is 4, described The quantity of outer fin is 20.

9. a kind of inside and outside wing heat-dissipating pipe as described in claim 1, which is characterized in that the heat-dissipating pipe body outer wall and outer fin Surface is formed with the oxidation film formed through blackening process.

10. a kind of inside and outside wing heat-dissipating pipe as described in claim 1, which is characterized in that the inner wall for crossing liquid channel is formed with The oxidation film formed through blackening process.