CN205921875U - Integral heat pipe radiator - Google Patents

Abstract

The utility model belongs to the technical field of heat dissipation control, concretely relates to heat pipe cooling ware. Integral heat pipe radiator, its technical scheme is: it includes: heat pipe body (1), radiator fin (2), heat pipe body (1) one side and heat source contact, the another side in heat pipe body (1) is arranged in radiator fin (2), just with heat pipe body (1) integrated into one piece. The utility model discloses can the at utmost reduce between heat source and heat pipe body (1) and the thermal resistance between heat pipe body (1) and radiator fin (2), reduce the heat transfer difference in temperature, simultaneously, because integrated into one piece technology is adopted in heat pipe body (1) and radiator fin (2), leave out heat pipe body (1) assembly link with radiator fin (2), simplified the process flow of heat pipe cooling ware greatly, be favorable to reduction in production cost.

Description

Integral heat pipe radiator

Technical field

This utility model belongs to radiating control technical field and in particular to a kind of heat-pipe radiator.

Background technology

With the raising of high-power electronic device, high-power light-emitting device power, especially large scale integrated circuit is integrated The raising of degree and the increase of operating frequency, its caloric value also dramatically increases therewith.In these fields, the radiating of device is often straight Connect the lifting further being related to components and parts life-span and properties of product.Therefore, heat-pipe radiator radiates in high performance components Aspect is used widely.

Generally, the heat producing during high performance components work is passed in the form of heat conduction by its installed surface Then heat is transferred to the radiating fin of condensation end, finally transfers heat to by installation base plate by heat pipe from installation base plate In environment.At present, the radiating fin of heat-pipe type radiator all adopts split type processing, is then assembled.This form dissipate Hot device, not only assembly technology is complicated, and heat transfer path is longer, and system thermal resistance is larger.When components and parts power density increases When to a certain extent, between heat pipe and installation base plate, and between heat pipe and radiating fin, the temperature difference dramatically increases so that radiator Hydraulic performance decline.Increase further with the power density of high performance components is it would be highly desirable to exploitation thermal resistance is less, heat transfer temperature difference is lower Heat pipe radiating system.

Content of the invention

The purpose of this utility model is: for the heat dissipation problem of current high performance components, provides one kind can significantly drop Low system thermal resistance and the Integral heat pipe radiator of heat transfer temperature difference.

The technical solution of the utility model is: Integral heat pipe radiator, and it includes: heat pipe body, heat radiator fin, heat Tube body one side is contacted with thermal source, and another side is disposed with heat radiator fin, and heat radiator fin is integrally formed with heat pipe body.

Beneficial effect: this utility model can at utmost reduce between thermal source and heat pipe body and heat pipe body with Thermal resistance between heat radiator fin, reduces heat transfer temperature difference；Simultaneously as heat pipe body and heat radiator fin are using being integrally formed work Skill, eliminates the assembling link of heat pipe body and heat radiator fin, enormously simplify the technological process of heat-pipe radiator, be conducive to Reduce production cost.

Brief description

Fig. 1 is structural representation of the present utility model；

Fig. 2 is the schematic rear view of this utility model embodiment；

Fig. 3 is the schematic cross-section of this utility model specific embodiment.

Specific embodiment

Develop simultaneously embodiment below in conjunction with the accompanying drawings, and this utility model is described in detail.

Referring to accompanying drawing 1, Integral heat pipe radiator, it includes: heat pipe body 1, heat radiator fin 2, heat pipe body 1 one side Contact with thermal source, heat radiator fin 2 is arranged in the another side of heat pipe body 1, and be integrally formed with heat pipe body 1.

Referring to accompanying drawing 2,3, further, the section of heat pipe body 1 is I-shaped, and it includes: body 11, upper fin 12nd, lower fin 13 and tube core 14；Upper fin 12 is arranged in parallel with lower fin 13, and body 11 connects upper fin 12, lower fin 13； Tube core 14 is axially disposed in body 11；Upper fin 12 is used for contacting with thermal source, and lower fin 13 is become with heat radiator fin 2 one Type；The radiator installing hole 3 running through is provided with upper fin 12, lower fin 13 and heat radiator fin 2.

In such scheme, tube core 14 preferably uses metal dust tube core, metal gauze tube core, metal dust tube core or above-mentioned The combination of tube core.

In such scheme, the working medium in tube core 14 preferably uses water, ammonia, freon class cold-producing medium or hydrocarbon system Cryogen.

Claims (4)

1. Integral heat pipe radiator, it includes: heat pipe body (1), heat radiator fin (2) it is characterised in that: described heat pipe this Body (1) is simultaneously contacted with thermal source, and described heat radiator fin (2) is arranged in the another side of described heat pipe body (1), and with described heat Tube body (1) is integrally formed.

2. Integral heat pipe radiator as claimed in claim 1 it is characterised in that: the section of described heat pipe body (1) is I-shaped, it includes: body (11), upper fin (12), lower fin (13) and tube core (14)；Described upper fin (12) and institute State lower fin (13) to be arranged in parallel, described body (11) connects described upper fin (12), described lower fin (13)；Described tube core (14) it is axially disposed in described body (11)；Described upper fin (12) be used for contact with thermal source, described lower fin (13) and Described heat radiator fin (2) is integrally formed；Fin (12), described lower fin (13) and described heat radiator fin on described (2) it is provided with the radiator installing hole (3) running through.

3. Integral heat pipe radiator as claimed in claim 2 it is characterised in that: described tube core (14) selects metal powder pipe Core or metal gauze tube core.

4. Integral heat pipe radiator as claimed in claim 2 or claim 3 it is characterised in that: the working medium in described tube core (14) is Water, ammonia, freon class cold-producing medium or hydrocarbon cold-producing medium.