CN206181518U - Radiating laminar flow plasma generator's of a lot of cooling system - Google Patents
Radiating laminar flow plasma generator's of a lot of cooling system Download PDFInfo
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- CN206181518U CN206181518U CN201621091062.9U CN201621091062U CN206181518U CN 206181518 U CN206181518 U CN 206181518U CN 201621091062 U CN201621091062 U CN 201621091062U CN 206181518 U CN206181518 U CN 206181518U
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Abstract
The utility model belongs to the cooling device field specifically is the plasma generator cooling device field, especially relates to a radiating laminar flow plasma generator's of a lot of cooling system, its characterized in that includes: cooling system main part, heat pipe, supplementary heat pipe, negative pole generator match the groove, the positive pole generator matches groove and fixed slot, cooling system main part, heat pipe, supplementary heat pipe, negative pole generator match the groove, the positive pole generator matches groove and fixed slot integrated into one piece, the inside of cooling system main part is provided with a plurality of fixed slot, the negative pole generator matches the groove and the positive pole generator matches groove setting one side in the cooling system main part, the heat pipe sets up the outside in the cooling system main part, supplementary heat pipe setting is on the heat pipe, and the heat spreader portion of supplementary heat pipe is complete and the heat pipe laminating, be provided with condensing sheet on the heat pipe.
Description
Technical field
This utility model belongs to chiller field, specially plasma generator chiller field, more particularly to one
Plant the cooling system of the repeatedly laminar flow plasma generator of radiating.
Background technology
In modern hot-working field, the processed and applied such as welding, cutting, thermal spraying, Surface heat-treatent is extensive.With science
The continuous development of technology, traditional processing technique is difficult to meet the processing request of new material and special construction.Conventional biography
System thermal source such as alkynes oxygen flame, oxyhydrogen flame application is easy, low cost, but its maximum temperature only has 3000 degrees centigrades, it is difficult to process
Refractory metal, high temperature ceramic material;The thermal source produced using arc discharge is used for welding field, technology maturation, but right
But it is difficult in special welding and ceramics, the welding of composite.In decades recently, the research of high energy beam thermal source is quick to be sent out
Exhibition, is most widely used with the research of laser, electron beam, hot plasma, and these three hot-fluids all have very high energy density,
Processing temperature is high, quick heating.Wherein, laser morning machining accuracy is high, but laser high cost, and one-time investment is big, power also compared with
Little, at present industrial semiconductor pump laser peak power is 10KW or so, adds energy transformation ratio low(20% or so), pole
Limit other greatly industrial to promote the use;Electron beam produces heat energy using the electron bombardment workpiece of acceleration mode, belongs to essence
Degree fine machining method, but processing conditionss are complicated, need a whole set of special equipment and vacuum system, it is expensive, and electron beam
The X-ray that bombardment material is produced can damage human body cell, and safety problem can not be ignored.Heat plasma technology will be general using electric energy
Ventilation volume ionization makes plasma carry energy and be transferred to workpiece to produce plasma, compares with laser and electron beam, has
There is processed and applied simple, equipment cost is low, the advantages of safe.
In plasma system, plasma generator is nucleus equipment, and each element is in one in plasma generator
Hot environment, the stability that this allows for surrounding enviroment article on plasma jet is most important.To provide one surely to beam-plasma
Fixed, balance environment, is typically provided with chiller in plasma generator.But in prior art, chiller efficiency is low,
The purpose of anticipation is not reached;Simultaneously as power supply is powered, anode and cathode emission of ions etc. is high temperature, a complex environment, and show
Some chillers can not balance the stability of internal medium.
Utility model content
For above-mentioned deficiency of the prior art, this utility model provides a kind of laminar flow plasma of multiple radiating to be occurred
The cooling system of device.
A kind of cooling system of the laminar flow plasma generator of multiple radiating, it is characterised in that include:Cooling system main body,
Heat pipe, auxiliary heat pipe, negative electrode generator matching slot, anode generator matching slot and fixed card slot, the cooling system main body, heat
Pipe, auxiliary heat pipe, negative electrode generator matching slot, anode generator matching slot and fixed card slot are integrally formed, the cooling system
Main body is internally provided with multiple fixed card slots, and the negative electrode generator matching slot and anode generator matching slot be arranged on cooling
The side of system body, the heat pipe is arranged on the outside of cooling system main body, and the auxiliary heat pipe is arranged on heat pipe, and auxiliary
The radiator portion for helping heat pipe is fitted completely with heat pipe, and on the heat pipe condensate film is provided with.
The auxiliary heat pipe is that the outlet temperature in order to solve the problems, such as plasma generator is too high, has so both improved heat
The outlet temperature of plasma generator has been dropped by the cooling effectiveness of pipe again simultaneously, it is ensured that the stable operation of integral device.
The heat pipe is cylinder or spiral type.
Multiple condensate films are provided with the heat pipe.
The cooling system main body is resistant to elevated temperatures basalt materials.
The fixed card slot is made up of high-temperature insulation material.
The condensate film is copper cooling fin.
The beneficial effects of the utility model:
1. this utility model is designed according to the profile of plasma generator, so plasma generator is cold
But effect is very good.
2. this utility model is radiated as a result of heat pipe, so cooling system of the present utility model is without frequent
Replacing coolant is carried out, it is possible to so that plasma generator is used for a long time, improve the work of plasma generator
Efficiency.
3. this utility model is easy to use, structure reliability, substantially increases work efficiency.
Description of the drawings
Fig. 1 is structure chart of the present utility model;
Reference
1. cooling system main body, 2. heat pipe, 201, auxiliary heat pipe, 3. negative electrode generator matching slot, 4. anode generator
With groove, 5. fixed card slot, 6. condensate film
Specific embodiment:
Embodiment 1:
A kind of cooling system of the laminar flow plasma generator of multiple radiating, it is characterised in that include:Cooling system main body
1st, heat pipe 2, auxiliary heat pipe 201, negative electrode generator matching slot 3, anode generator matching slot 4 and fixed card slot 5, the cooling system
System main body 1, heat pipe 2, auxiliary heat pipe 201, negative electrode generator matching slot 3, anode generator matching slot 4 and the one of fixed card slot 5
Molding, the cooling system main body 1 is internally provided with multiple fixed card slots 5, and the negative electrode generator matching slot 3 and anode send out
Raw device matching slot 4 is arranged on the side of cooling system main body 1, and the heat pipe 2 is arranged on the outside of cooling system main body 1, described
Auxiliary heat pipe 201 is arranged on heat pipe 2, and the radiator portion of auxiliary heat pipe 201 is fitted completely with heat pipe 2, is set on the heat pipe 2
It is equipped with condensate film 6.
The heat pipe 2 is cylinder or spiral type.
Embodiment 2:
A kind of cooling system of the laminar flow plasma generator of multiple radiating, it is characterised in that include:Cooling system main body
1st, heat pipe 2, auxiliary heat pipe 201, negative electrode generator matching slot 3, anode generator matching slot 4 and fixed card slot 5, the cooling system
System main body 1, heat pipe 2, auxiliary heat pipe 201, negative electrode generator matching slot 3, anode generator matching slot 4 and the one of fixed card slot 5
Molding, the cooling system main body 1 is internally provided with multiple fixed card slots 5, and the negative electrode generator matching slot 3 and anode send out
Raw device matching slot 4 is arranged on the side of cooling system main body 1, and the heat pipe 2 is arranged on the outside of cooling system main body 1, described
Auxiliary heat pipe 201 is arranged on heat pipe 2, and the radiator portion of auxiliary heat pipe 201 is fitted completely with heat pipe 2, is set on the heat pipe 2
It is equipped with condensate film 6.
The heat pipe 2 is cylinder or spiral type.
Multiple condensate films 6 are provided with the heat pipe 2.
Embodiment 3:
A kind of cooling system of the laminar flow plasma generator of multiple radiating, it is characterised in that include:Cooling system main body
1st, heat pipe 2, auxiliary heat pipe 201, negative electrode generator matching slot 3, anode generator matching slot 4 and fixed card slot 5, the cooling system
System main body 1, heat pipe 2, auxiliary heat pipe 201, negative electrode generator matching slot 3, anode generator matching slot 4 and the one of fixed card slot 5
Molding, the cooling system main body 1 is internally provided with multiple fixed card slots 5, and the negative electrode generator matching slot 3 and anode send out
Raw device matching slot 4 is arranged on the side of cooling system main body 1, and the heat pipe 2 is arranged on the outside of cooling system main body 1, described
Auxiliary heat pipe 201 is arranged on heat pipe 2, and the radiator portion of auxiliary heat pipe 201 is fitted completely with heat pipe 2, is set on the heat pipe 2
It is equipped with condensate film 6.
The heat pipe 2 is cylinder or spiral type.
Multiple condensate films 6 are provided with the heat pipe 2.
The cooling system main body is resistant to elevated temperatures basalt materials.
Embodiment 4:
A kind of cooling system of the laminar flow plasma generator of multiple radiating, it is characterised in that include:Cooling system main body
1st, heat pipe 2, auxiliary heat pipe 201, negative electrode generator matching slot 3, anode generator matching slot 4 and fixed card slot 5, the cooling system
System main body 1, heat pipe 2, auxiliary heat pipe 201, negative electrode generator matching slot 3, anode generator matching slot 4 and the one of fixed card slot 5
Molding, the cooling system main body 1 is internally provided with multiple fixed card slots 5, and the negative electrode generator matching slot 3 and anode send out
Raw device matching slot 4 is arranged on the side of cooling system main body 1, and the heat pipe 2 is arranged on the outside of cooling system main body 1, described
Auxiliary heat pipe 201 is arranged on heat pipe 2, and the radiator portion of auxiliary heat pipe 201 is fitted completely with heat pipe 2, is set on the heat pipe 2
It is equipped with condensate film 6.
The heat pipe 2 is cylinder or spiral type.
Multiple condensate films 6 are provided with the heat pipe 2.
The cooling system main body is resistant to elevated temperatures basalt materials.
The fixed card slot 5 is made up of high-temperature insulation material.
Embodiment 5:
A kind of cooling system of the laminar flow plasma generator of multiple radiating, it is characterised in that include:Cooling system main body
1st, heat pipe 2, auxiliary heat pipe 201, negative electrode generator matching slot 3, anode generator matching slot 4 and fixed card slot 5, the cooling system
System main body 1, heat pipe 2, auxiliary heat pipe 201, negative electrode generator matching slot 3, anode generator matching slot 4 and the one of fixed card slot 5
Molding, the cooling system main body 1 is internally provided with multiple fixed card slots 5, and the negative electrode generator matching slot 3 and anode send out
Raw device matching slot 4 is arranged on the side of cooling system main body 1, and the heat pipe 2 is arranged on the outside of cooling system main body 1, described
Auxiliary heat pipe 201 is arranged on heat pipe 2, and the radiator portion of auxiliary heat pipe 201 is fitted completely with heat pipe 2, is set on the heat pipe 2
It is equipped with condensate film 6.
The heat pipe 2 is cylinder or spiral type.
Multiple condensate films 6 are provided with the heat pipe 2.
The cooling system main body is resistant to elevated temperatures basalt materials.
The fixed card slot 5 is made up of high-temperature insulation material.
The condensate film 6 is copper cooling fin.
Claims (6)
1. a kind of cooling system of the laminar flow plasma generator of multiple radiating, it is characterised in that include:Cooling system main body
(1), heat pipe(2), auxiliary heat pipe(201), negative electrode generator matching slot(3), anode generator matching slot(4)And fixed card slot
(5), the cooling system main body(1), heat pipe(2), auxiliary heat pipe(201), negative electrode generator matching slot(3), anode generator
Matching slot(4)And fixed card slot(5)It is integrally formed, the cooling system main body(1)Be internally provided with multiple fixed card slots
(5), the negative electrode generator matching slot(3)With anode generator matching slot(4)It is arranged on cooling system main body(1)Side,
The heat pipe(2)It is arranged on cooling system main body(1)Outside, the auxiliary heat pipe(201)It is arranged on heat pipe(2)On, and it is auxiliary
Help heat pipe(201)Radiator portion completely and heat pipe(2)Laminating, the heat pipe(2)On be provided with condensate film(6).
2. a kind of cooling system of the laminar flow plasma generator of multiple radiating according to claim 1, it is characterised in that:One
Plant the heat pipe(2)For cylinder or spiral type.
3. a kind of cooling system of the laminar flow plasma generator of multiple radiating according to claim 1, it is characterised in that:Institute
State heat pipe(2)On be provided with multiple condensate films(6).
4. a kind of cooling system of the laminar flow plasma generator of multiple radiating according to claim 1, it is characterised in that:Institute
Cooling system main body is stated for resistant to elevated temperatures basalt materials.
5. a kind of cooling system of the laminar flow plasma generator of multiple radiating according to claim 1, it is characterised in that:Institute
State fixed card slot(5)It is made up of high-temperature insulation material.
6. a kind of cooling system of the laminar flow plasma generator of multiple radiating according to claim 1, it is characterised in that:Institute
State condensate film(6)For copper cooling fin.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621091062.9U CN206181518U (en) | 2016-09-29 | 2016-09-29 | Radiating laminar flow plasma generator's of a lot of cooling system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621091062.9U CN206181518U (en) | 2016-09-29 | 2016-09-29 | Radiating laminar flow plasma generator's of a lot of cooling system |
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Publication Number | Publication Date |
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CN206181518U true CN206181518U (en) | 2017-05-17 |
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CN201621091062.9U Active CN206181518U (en) | 2016-09-29 | 2016-09-29 | Radiating laminar flow plasma generator's of a lot of cooling system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114017275A (en) * | 2021-11-29 | 2022-02-08 | 中国科学院合肥物质科学研究院 | Superconducting magnetic plasma propeller heat pipe cooling structure |
-
2016
- 2016-09-29 CN CN201621091062.9U patent/CN206181518U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114017275A (en) * | 2021-11-29 | 2022-02-08 | 中国科学院合肥物质科学研究院 | Superconducting magnetic plasma propeller heat pipe cooling structure |
US11781535B2 (en) | 2021-11-29 | 2023-10-10 | Hefei Institutes Of Physical Science, Chinese Academy Of Sciences | Cooling structure of heat pipe for superconducting magneto plasma dynamic thruster |
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