CN105261597B - A kind of heat dissipation of pipeline module - Google Patents

Abstract

The invention discloses a kind of heat dissipation of pipeline module, described heat dissipation of pipeline module includes pipeline and at least one radiating module, described pipeline is provided with slot, described radiating module includes the heat conducting pipe of both absorber, fin and connection, described fin is made up of multiple T-shaped monolithics, described fin is arranged inside pipeline by slot, and at least 2 are provided with corrugated heat pipe in described multiple T-shaped monolithics, for connecting fin and heat conducting pipe.Fin is arranged in pipeline, and monolithic fin is in T-shape circle distribution, and liquid state fluid flows through from pipeline to be come, and is flowed through between fin, heat is taken away.The fluid power plant such as fan or liquid pump is arranged on outside heater working space; save space; avoid ambient temperature effect; the heat interference of other electronically or mechanically elements is effectively protected, can be applicable to the cooling system of high-end large-scale electronic equipment, mechanical and power equipment, chemical reactor, power equipment etc..

Description

A kind of heat dissipation of pipeline module

Technical field

The present invention relates to field of radiating, more particularly, to a kind of heat dissipation of pipeline module.

Background technology

Radiating mode refers to that the radiator distributes the major way of heat.In thermodynamics, radiating is exactly heat transfer, and The transfer mode of heat mainly has three kinds：Heat transfer, thermal convection current and heat radiation.Material in itself or when material contacts with material, The transmission of energy is thus referred to as heat transfer, and this is a kind of most common thermaltransmission mode.Such as cooling fin fin base and thermal source it is direct The mode that heat is taken away in contact just belongs to heat transfer.Thermal convection current refers to the fluid of flowing（Gas or liquid）The heat that the torrid zone is walked Transfer mode, relatively common in the cooling system of cabinet is that radiator fan drives gas flow " pressure thermal convection current " to radiate Mode.Heat radiation refer to by ray radiation transmit heat, it is daily it is most common be exactly solar radiation.These three radiating modes It is not isolated, in daily heat transfer, these three radiating modes are all to occur simultaneously, are concured.

Heat pipe is a kind of heat transfer element with very high thermal conductivity, and it passes through the steaming of the liquid in Totally enclosed vacuum pipe Hair transmits heat with condensing, and it plays the effect similar to freezer compressor refrigeration using fluid principles such as capillarities.Have High thermal conductivity, good isothermal, the heat transfer area of cold and hot both sides can arbitrarily change, can remotely transferring, controllable temperature The series of advantages such as degree.But the structure inside fan, and the design etc. of fluid resistance, turn into the bottleneck of its development.

The content of the invention

It is an object of the present invention to design a kind of i.e. saving space, radiating efficiency is again high, and the heat abstractor in pipeline is again Firm pipe method.

The present invention discloses a kind of heat dissipation of pipeline module first, and heat dissipation of pipeline module includes pipeline and at least one radiating mould Block, pipeline are provided with slot, and radiating module includes the heat conducting pipe of both absorber, fin and connection, and fin is by multiple T Type monolithic is formed, and fin is arranged inside pipeline by slot, and at least 2 are provided with corrugated heat pipe in multiple T-shaped monolithics, is used In connection fin and heat conducting pipe.

Radiating module also includes seal closure, and seal closure is used to close slot, and seal closure is provided with two grooves and is used to pass through Heat conducting pipe, and there are two corresponding heat pipe sealing blocks to be sealed.

Seal closure is withstood at the T-shaped top of at least one T-shaped monolithic in multiple T-shaped monolithics.

Withstand seal closure in the T-shaped top for preferably there are two or three T-shaped monolithics in multiple T-shaped monolithics.

Corrugated heat pipe can also be arranged at the middle part of T-shaped monolithic.

Fin is typically formed by 8 ~ 25 T-shaped monolithics are evenly distributed.

Heat conducting pipe is U-shaped, and half nose circle position is connected with fin, and other end is connected with absorber.

The present invention has advantages below：

After absorber absorbs heat, heat pipe, adopting heat pipes for heat transfer to fin are transferred heat to.Fin is arranged on pipeline Interior, monolithic fin is in T-shape circle distribution, and steam state or fluid liquid flow through from pipeline to be come, and is flowed through between fin, by heat Amount is taken away.The fluid power plant such as fan or liquid pump is arranged on outside heater working space, saves space.By heat dissipation of pipeline, Ambient temperature effect is avoided, effectively protects the heat interference of other electronically or mechanically elements.

The present invention devises the T-shaped monolithic of different length, so as to be connected with seal closure, forms ribs, so that Radiator element is not easy to loosen.

The present embodiment is more beneficial for applying and set in high-end large-scale electronic equipment, mechanical and power equipment, chemical reactor, electric power The standby cooling system waited.

Brief description of the drawings

Fig. 1 is the structural representation of heat dissipation of pipeline module.

Fig. 2 is the structural representation of radiating module.

Wherein, 1 is radiating module, and 2 be slot, and 3 be pipeline, and 4 be absorber, and 5 be heat pipe sealing block, and 6 be heat conducting pipe, 7 It is seal closure for fin, 8,9 be corrugated heat pipe, and 10 be ribs.

Embodiment

The present invention is further described with specific embodiment below in conjunction with the accompanying drawings.Unless stated otherwise, the present invention uses Reagent, apparatus and method be the art routinely reagent, equipment and conventional use of method purchased in market.

Embodiment 1

A kind of heat dissipation of pipeline module, heat dissipation of pipeline module includes pipeline and at least one radiating module, pipeline are provided with slotting Groove, radiating module include the heat conducting pipe of both absorber, fin and connection, and fin is made up of 20 T-shaped monolithics, is radiated Piece is arranged inside pipeline by slot, has 5 to be provided with corrugated heat pipe in T-shaped monolithic, for connecting fin and heat conducting pipe.Dissipate Thermal modules also include seal closure, and seal closure is used to close slot, and seal closure is provided with two grooves and is used to pass through heat conducting pipe, and has Two corresponding heat pipe sealing blocks are sealed.Withstand seal closure in the T-shaped top for there are 3 T-shaped monolithics in T-shaped monolithic.Heat pipe Groove can also be arranged at the middle part of T-shaped monolithic.

Fin monolithic is in that radiating effect and fluid are considered when T-shape circle distribution, T-shaped monolithic quantity and size design Resistance.Fin is provided with multiple ribs, and for being fixed on seal closure, what is be resistant to lives the impulsive force of fluids within pipes.Radiating Piece is provided with corrugated heat pipe, and heat pipe semicircle one end is arranged in corrugated heat pipe, and the other end is installed together through seal closure and absorber.Heat Seal of tube block blocks breach, is sealing after assembling, and fluid will not be revealed.

Embodiment 2

A kind of heat dissipation of pipeline module, heat dissipation of pipeline module includes pipeline and at least one radiating module, pipeline are provided with slotting Groove, radiating module include the heat conducting pipe of both absorber, fin and connection, and fin is made up of 16 T-shaped monolithics, is radiated Piece is arranged inside pipeline by slot, has 3 to be provided with corrugated heat pipe in T-shaped monolithic, for connecting fin and heat conducting pipe.Dissipate Thermal modules also include seal closure, and seal closure is used to close slot, and seal closure is provided with two grooves and is used to pass through heat conducting pipe, and has Two corresponding heat pipe sealing blocks are sealed.Withstand seal closure in the T-shaped top for there are 5 T-shaped monolithics in T-shaped monolithic.Heat pipe Groove can also be arranged at the middle part of T-shaped monolithic.

Embodiment 3

A kind of heat dissipation of pipeline module, heat dissipation of pipeline module includes pipeline and at least one radiating module, pipeline are provided with slotting Groove, radiating module include the heat conducting pipe of both absorber, fin and connection, and fin is made up of 25 T-shaped monolithics, is radiated Piece is arranged inside pipeline by slot, has 2 to be provided with corrugated heat pipe in T-shaped monolithic, for connecting fin and heat conducting pipe.Dissipate Thermal modules also include seal closure, and seal closure is used to close slot, and seal closure is provided with two grooves and is used to pass through heat conducting pipe, and has Two corresponding heat pipe sealing blocks are sealed.Withstand seal closure in the T-shaped top for there are 5 T-shaped monolithics in T-shaped monolithic.Heat pipe Groove can also be arranged at the middle part of T-shaped monolithic.

Claims (4)

1. a kind of heat dissipation of pipeline module, it is characterised in that described heat dissipation of pipeline module includes pipeline and at least one radiating mould Block, described pipeline are provided with slot, and described radiating module includes the heat conducting pipe of both absorber, fin and connection, Described fin is made up of multiple T-shaped monolithics, and described fin is arranged inside pipeline by slot, described multiple T At least 2 are provided with corrugated heat pipe in type monolithic, for connecting fin and heat conducting pipe；Described radiating module also includes sealing Cover, described seal closure are used to close slot, and described seal closure is provided with two grooves and is used to pass through heat conducting pipe, and has two Corresponding heat pipe sealing block is sealed；The T-shaped top of at least one T-shaped monolithic is withstood in described multiple T-shaped monolithics Seal closure；Described corrugated heat pipe is arranged at the middle part of T-shaped monolithic.

2. heat dissipation of pipeline module according to claim 1, it is characterised in that have in described multiple T-shaped monolithics two or Withstand seal closure in the T-shaped top of three T-shaped monolithics.

3. heat dissipation of pipeline module according to claim 1, it is characterised in that described fin is by 8 ~ 25 T-shaped monolithics Evenly distributed composition.

4. heat dissipation of pipeline module according to claim 1, it is characterised in that described heat conducting pipe to be U-shaped, half nose circle position with Fin is connected, and other end is connected with absorber.