CN207317604U - A kind of combination heat pipe heat exchanging component for realizing two-way heat transfer - Google Patents

Abstract

A kind of combination heat pipe heat exchanging component for realizing two-way heat transfer is the utility model is related to, belongs to technical field of heat exchange.The utility model realizes the combination heat pipe heat exchanging component of two-way heat transfer, including two axial heat pipes and a radial heat pipe, axial heat pipe includes bringing-up section and condensation segment, the end of two axial heat pipe bringing-up sections is closely adhered to together, radial heat pipe is annular seal housing, shell body is bringing-up section, and inner housing is condensation segment, and inner housing is tightly coated in the bringing-up section of two axial heat pipes.The utility model will be effectively improved the isothermal performance and heat transfer property of heat pipe, improves the advantage of axial heat pipe and radial heat pipe, realizes two-way heat transfer, further strengthen application of the heat pipe in engineering.

Description

A kind of combination heat pipe heat exchanging component for realizing two-way heat transfer

Technical field

A kind of combination heat pipe heat exchanging component for realizing two-way heat transfer is the utility model is related to, belongs to technical field of heat exchange.

Background technology

Heat pipe is a kind of element for being undergone phase transition by internal working fluid and realizing heat transfer.Heat pipe is according to internal work There are two kinds of forms in medium heat-transfer direction：A kind of is that the working media in heat pipe axially carries out heat transfer along heat pipe, and another kind is Work medium for heat pipe carries out heat transfer along the radial direction of radial direction.The former is axial heat pipe, and the latter is radial heat pipe.It is axial Heat pipe belongs to general heat pipe, has good heat transfer property, wide in fields such as solar heating, chemical, aerospaces General application.Radial heat pipe also has fundamental characteristics possessed by general heat pipe, but the change in direction of conducting heat makes it with better again Good isothermal performance, better power transmission performance and higher heat transport limitation performance, and heat pipe wall can be effectively improved Temperature.By axial heat pipe, each characteristic is combined together with radial heat pipe, will more effectively play their respective advantage, improves heat The heat transfer property of pipe.

The content of the invention

It can ensure that long-term realizes the heat pipe heat exchanging of bidirectional high-efficiency heat transfer the purpose of this utility model is to provide a kind of Element.

To reach above-mentioned purpose, the technical solution that the utility model is taken is as follows.

A kind of combination heat pipe heat exchanging component for realizing two-way heat transfer, including two axial heat pipes and a radial heat pipe, axis Include the first bringing-up section and the first condensation segment to heat pipe, the end of two the first bringing-up sections of axial heat pipe is close by adhesive layer Ground is bonded together, and radial heat pipe includes the 3rd bringing-up section and the 3rd condensation segment, and the 3rd condensation segment of radial heat pipe tightly wraps Overlay in the first bringing-up section of two axial heat pipes.

Further improvement of the utility model in addition, the axial heat pipe by the first shell, the first liquid-sucking core closed Formed with heat transfer medium；First liquid-sucking core is silk screen liquid-sucking core；First shell and the first silk screen liquid-sucking core material are copper or carbon steel； It is vacuum state inside first shell；First liquid-sucking core is sticked on the internal face of the first shell；Heat transfer medium is nano-fluid, It is filled in inside the first shell, heat transfer medium is to be distributed in water by metal or nonmetallic nano-scale particle and passed through magnetic agitation It is prepared with ultrasonic vibration.

Further improvement of the utility model on the axial heat pipe condensation segment in addition, be welded with more heat pipe wings；Heat pipe Wing is the second shell of closing, and a diameter of 5mm~20mm of the second shell, length is 50mm~200mm；Second shell one It is the second condensation segment to hold as the second bringing-up section, the other end；Second inner wall of tube shell face paste of heat pipe wing is covered with axial heat pipe Second liquid-sucking core of one liquid-sucking core phase same material, shell are interior filled with the nano-fluid identical with axial heat pipe.

Further improvement of the utility model is in addition, the radial heat pipe is the internal annular seal being evacuated 3rd shell；The shell body of 3rd shell is the 3rd bringing-up section, and inner housing is the 3rd condensation segment, the 3rd inner wall of tube shell Stick the 3rd liquid-sucking core with axial heat pipe the first liquid-sucking core phase same material on face, in shell filled with axial heat pipe phase simultaneous interpretation The nano-fluid of thermal medium.

Further improvement of the utility model is in addition, radially direction cloth inside the 3rd shell of the radial heat pipe It is equipped with liquid-sucking core bridging.

Further improvement of the utility model is in addition, two the first bringing-up sections of axial heat pipe and the first condensation segment all have phase Same size, the size of the 3rd condensation segment of radial heat pipe is 2 times of axial heat pipe the first bringing-up section size.

Further improvement of the utility model is in addition, the adhesive layer is heat resistance binding agent.

The utility model beneficial effect：The isothermal performance and heat transfer property of heat pipe will be effectively improved, improve Axial Thermal The advantage of pipe and radial heat pipe, realizes two-way heat transfer, further strengthens application of the heat pipe in engineering.

Brief description of the drawings

Fig. 1 is a kind of combination heat pipe heat exchanging component figure for realizing two-way heat transfer.

Fig. 2 is A-A sectional views in Fig. 1.

Fig. 3 is B-B sectional views in Fig. 1.

1 is axial heat pipe in figure；2 be the first shell；3 be the first liquid-sucking core；4 be the first bringing-up section；5 be the first condensation Section；6 be heat pipe wing：7 be the second shell；8 be the second liquid-sucking core；9 be the second bringing-up section；10 be the second condensation segment；11 be footpath To heat pipe；12 be the 3rd shell；13 be the 3rd bringing-up section；14 be the 3rd liquid-sucking core；15 put up a bridge for liquid-sucking core；16 be the 3rd condensation Section；17 be adhesive layer.

Embodiment

The specific implementation of 1 pair of the utility model is further described below in conjunction with the accompanying drawings.

First shell 2 of axial heat pipe 1, the first liquid-sucking core 3, the second shell 7 of heat pipe wing 6, the second liquid-sucking core 8, radial direction 3rd shell 12 of heat pipe 11, the 3rd liquid-sucking core 14, the material of liquid-sucking core bridging 15 are copper or carbon steel.

The heat transfer medium of filling is nano-fluid in axial heat pipe 1, heat pipe wing 6 and radial heat pipe 11.The system of nano-fluid Standby is that metal or nonmetallic nano-scale particle are distributed in water, by magnetic agitation 10~20 minutes and ultrasonic vibration 30~ It is prepared within 40 minutes.

After second shell 7 of heat pipe wing 6 and the second liquid-sucking core 8 carry out ultrasonic cleaning, the second liquid-sucking core 8 is attached to the On two shells, 7 internal face, then vacuumize, while fill heat transfer medium to make to be full of nano-fluid in the second liquid-sucking core 8 of heat pipe wing Afterwards, welded encapsulation, completes the processing of heat pipe wing 6, more heat pipe wings 6 is prepared using same method.

After first shell 2 of axial heat pipe 1 and the first liquid-sucking core 3 carry out ultrasonic cleaning, the first liquid-sucking core 3 is pasted respectively It is attached on the internal face of the first shell 2, then more heat pipe wings 6 is respectively welded to the position of the first condensation segment 5 of axial heat pipe 1 On, then the first shell 2 vacuumized, while fill heat transfer medium to make to be full of nano-fluid in the first liquid-sucking core 3 of axial heat pipe Afterwards, welded encapsulation, completes the processing of axial heat pipe.

The 3rd shell 12, the 3rd liquid-sucking core 14 and the liquid-sucking core of radial heat pipe 11 are put up a bridge after 15 progress ultrasonic cleanings, point The 3rd liquid-sucking core 14 is not attached on the inner wall of the 3rd shell 12, liquid-sucking core bridging 15 is diametrically supported on the 3rd pipe In shell 12, then the 3rd shell 12 vacuumized, while fill heat transfer medium to make to be full of nanometer in the 3rd liquid-sucking core 14 of radial heat pipe After fluid, welded encapsulation, completes the processing of radial heat pipe 11.

4 outer end of the first bringing-up section of two axial heat pipes 1 is closely bonded together using binding agent；Then stretched Enter into 12 ring-shaped cavity of the 3rd shell of radial heat pipe 11, make radial heat pipe 11 tightly be coated on two axial heat pipes 1 first In bringing-up section 4, the combination heat pipe heat exchanging component of two-way heat transfer is completed.

When the 3rd bringing-up section 13 of radial heat pipe 11 is heated, the heat transfer medium nano-fluid in capsul is by thermal evaporation The 3rd condensation segment 16 is flowing radially toward, is added after discharging heat along the 3rd liquid-sucking core 14 and liquid-sucking core bridging 15 back to the 3rd On hot arc 13, it is heated again, the repetitive cycling above process, makes heat continuously be passed from the 3rd bringing-up section 13 of radial heat pipe On the 3rd condensation segment 16 being delivered to, the heat transfer process of radial heat pipe 11 is completed；It is close to two Axial Thermals of the 3rd condensation segment 16 After first bringing-up section 4 of pipe 1 is heated, internal heat transfer medium nano-fluid is undergone phase transition after being heated produces steam respectively along two The first condensation segment 5 axially is flowed to, heat is discharged at two the first condensation segments 5, then condenses into liquid further along Axial Thermal First liquid-sucking core 3 of pipe 1 is returned in the first bringing-up section 4 of axial heat pipe 1, and receive to come from radial heat pipe again the 3rd is cold The heat that solidifying section 16 is transmitted, completes two axial heat pipes, 1 respective heat transfer process；First condensation segment 5 of axial heat pipe 1 discharges The heat gone out the second bringing-up section 9 of heat pipe wing 6, heated heat transfer medium heat pipe wing 6 inside, conducts heat again after heated Medium also undergoes phase transition the second condensation segment 10 for producing steam flow heat pipe wing 6, discharge condense into after heat liquid further along Second liquid-sucking core 8 of heat pipe wing 6 flow back into the second bringing-up section 10 of heat pipe wing 6, receives first from two axial heat pipes 1 again The heat that condensation segment transmission comes, completes the heat transfer process of heat pipe wing；By the circulation of heat transfer medium in heat pipe wing, strengthen axis Heat dissipation to the first condensation segment 5 of heat pipe 1, realizes two-way diabatic process, completes combination heat-pipe elements heat transfer process.

Claims (7)

1. a kind of combination heat pipe heat exchanging component for realizing two-way heat transfer, including two axial heat pipes and a radial heat pipe, axial Heat pipe includes the first bringing-up section and the first condensation segment, it is characterised in that：The end of first bringing-up section of two axial heat pipes passes through Adhesive layer is closely adhered to together, and the inner housing of radial heat pipe is tightly coated on the first bringing-up section of two axial heat pipes On.

2. the combination heat pipe heat exchanging component of two-way heat transfer is realized as claimed in claim 1, it is characterised in that：The Axial Thermal Pipe is made of the first shell, the first liquid-sucking core and heat transfer medium closed；First liquid-sucking core is silk screen liquid-sucking core；First shell and First silk screen liquid-sucking core material is copper or carbon steel；It is vacuum state inside first shell；First liquid-sucking core sticks on the first shell Internal face on；Heat transfer medium is nano-fluid, is filled in inside the first shell, and heat transfer medium is by metal or nonmetallic receives Scale particles are distributed in water and are prepared by magnetic agitation and ultrasonic vibration.

3. the combination heat pipe heat exchanging component of two-way heat transfer is realized as claimed in claim 1, it is characterised in that：The Axial Thermal More heat pipe wings are welded with pipework condensation section；Heat pipe wing is the second shell of closing, and a diameter of 5mm~20mm of the second shell is long Spend for 50mm~200mm；Described second shell one end is the second bringing-up section, and the other end is the second condensation segment；The second of heat pipe wing Inner wall of tube shell face paste is covered with the second liquid-sucking core with the first liquid-sucking core phase same material of axial heat pipe, in shell filled with Axial Thermal Manage identical nano-fluid.

4. the combination heat pipe heat exchanging component of two-way heat transfer is realized as claimed in claim 1, it is characterised in that：The radial direction heat Manage the 3rd shell of the annular seal being evacuated for inside；The shell body of 3rd shell is the 3rd bringing-up section, inner casing Body is the 3rd condensation segment；Material identical with first the first liquid-sucking core of shell of axial heat pipe is sticked on the 3rd inner wall of tube shell face 3rd liquid-sucking core of matter, the interior nano-fluid filled with heat transfer medium identical with axial heat pipe of shell.

5. the combination heat pipe heat exchanging component of two-way heat transfer is realized as claimed in claim 4, it is characterised in that：The radial direction heat Radially direction is disposed with liquid-sucking core bridging inside 3rd shell of pipe.

6. the combination heat pipe heat exchanging component of two-way heat transfer is realized as claimed in claim 1, it is characterised in that：Described two axial directions First bringing-up section of heat pipe and the first condensation segment are all of the same size；The size of 3rd condensation segment of radial heat pipe is axial 2 times of heat pipe the first bringing-up section size.

7. the combination heat pipe heat exchanging component of two-way heat transfer is realized as claimed in claim 1, it is characterised in that：The adhesive layer For heat resistance binding agent.