CN108981433A - A kind of heating of rotating heat pipe, cooling and safety device - Google Patents
A kind of heating of rotating heat pipe, cooling and safety device Download PDFInfo
- Publication number
- CN108981433A CN108981433A CN201810934571.0A CN201810934571A CN108981433A CN 108981433 A CN108981433 A CN 108981433A CN 201810934571 A CN201810934571 A CN 201810934571A CN 108981433 A CN108981433 A CN 108981433A
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- heat pipe
- cooling
- sleeve
- heating
- rotating heat
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28D—HEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
- F28D15/00—Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls ; Heat-exchange apparatus employing intermediate heat-transfer medium or bodies
- F28D15/02—Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls ; Heat-exchange apparatus employing intermediate heat-transfer medium or bodies in which the medium condenses and evaporates, e.g. heat pipes
- F28D15/0208—Heat-exchange apparatus with the intermediate heat-transfer medium in closed tubes passing into or through the conduit walls ; Heat-exchange apparatus employing intermediate heat-transfer medium or bodies in which the medium condenses and evaporates, e.g. heat pipes using moving tubes
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- Engineering & Computer Science (AREA)
- Life Sciences & Earth Sciences (AREA)
- Sustainable Development (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)
Abstract
A kind of heating of rotating heat pipe, cooling and safety device, including rotating heat pipe, insulating layer, are respectively equipped with evaporator section heating device and condensation segment cooling device at the both ends of rotating heat pipe;The evaporator section heating device includes chuck, rotating heat pipe shaft, equal thermal sleeve, heating coil and evaporator section heat preservation sleeve;Make to keep the temperature sleeve by heating coil and uniformly heat up and accumulation of heat, the temperature difference progress radiation heat transfer between the inner wall and rotating heat pipe evaporator section outer wall by keeping the temperature sleeve is heated;The condensation segment radiator includes condensation segment insulating layer, condensation segment heat preservation sleeve, cooling collar, cooling tube, flowmeter, refrigeration machine, water pump and water tank;The condensation segment insulating layer is located on condensation segment heat preservation sleeve, it is adjusted by the wheel speed of water pump and carries out flow control, and the control of coolant temperature is carried out by the adjusting of refrigeration machine, the radiation heat transfer for passing through cooling collar inner wall and heat pipe condenser section outer wall again, realizes the control to condensation segment temperature.
Description
Technical field
It is especially a kind of for the contactless of rotating heat pipe the present invention relates to a kind of non-contact heating and cooling device
Heating and cooling device.
Background technique
Heat pipe is a kind of high-performance heat transfer components, evaporation, condensation of the heat by its internal working medium in vacuum sealed tube
It is efficiently transmitted with reflux cycle realization.Rotating heat pipe is a kind of heat pipe of special shape, by American scholar Gray in 1969
It is put forward for the first time.Compared with general heat pipe, most significant difference is exactly: the condensate liquid reflux of general heat pipe is by capillary force or again
Power, and the centrifugation power drive liquid phase working fluid reflux that rotating heat pipe is then generated by rotation.
Rotating heat pipe has diversified forms, can be divided into axial-rotation heat pipe, radial rotary heat pipe, frustum of a cone rotating heat pipe
Deng, wherein axial-rotation heat pipe is most commonly seen, and structure is also the simplest.The working principle of rotating heat pipe is as shown in Figure 1, when height
When speed rotation, liquid refrigerant, by thermal evaporation, under the action of axial pressure difference, flows to condensation segment condensation heat in evaporator section, and liquid
Mutually due to being subject to centrifugal forces, evaporator section is flowed back into from condensation segment along tube wall.Along with one of working medium state change
Circulation, heat are transmitted to condensation segment by evaporator section.Since centrifugal force can provide powerful and stable driving force, and flow resistance compared with
It is small, so the heat-transfer capability of rotating heat pipe is much larger than general heat pipe.Meanwhile capillary limitation is not present in rotating heat pipe, is also not easy out
Existing entrainment limit.Further, since the vapor space of rotating heat pipe is usually larger, it is generally less prone to sonic limit.
Since spinning heat pipe comes out, many experts and scholar have been attracted to study it, so that rotating heat pipe obtains
Rapid development.Meanwhile rotating heat pipe is also applied in many engineering practices, important application is exactly to revolution
Mechanical cold and hot protection, for example rotating heat pipe is integrated in the rotary parts such as shaft, the blender of generator quickly to export
Heat;Rotating heat pipe is integrated in rectification cover inner surface, using the protection of radome fairing, reaches cooling purpose.Thus for rotation
Correlative study, which is unfolded, in heat pipe has important theory significance and engineering significance.
When due to rotating heat pipe work, evaporator section needs enough heats to vaporize working medium, meanwhile, condensation segment is also required to one
Fixed cooling capacity makes working medium liquefaction reflux generate heat when passing through electric current in heating coil.Due to needing one when rotating heat pipe work
Fixed revolving speed, therefore can not directly wind heating wire on it and be heated, and the high airtightness and high revolving speed of rotating heat pipe itself,
Make directly the evaporator section of rotating heat pipe heat to be difficult to realize, rotating heat pipe only could shape in the case where high-speed rotation
At heat transfer cycle, in this case, the heating and cooling that realize opposite heat tube are with regard to the more of difficulty.Therefore, development and design can
The device for being heated and being cooled down to rotating heat pipe under high speed rotation state is scene problem anxious to be resolved.
Summary of the invention
Technical problem: the invention aims to overcome shortcoming in the prior art, provide it is a kind of can high speed revolve
Turn heating, cooling and safety device that rotating heat pipe is realized under state.
Technical solution: heating, cooling and the safety device of a kind of rotating heat pipe of the invention, including rotating heat pipe,
The insulating layer being located on rotating heat pipe is respectively equipped with evaporator section heating device at the rotating heat pipe both ends and condensation segment is cooling
Device;The evaporator section heating device includes chuck, rotating heat pipe shaft, equal thermal sleeve, heating coil and evaporator section heat preservation
Sleeve;Described rotating heat pipe shaft one end is located in chuck, and the other end protrudes into evaporator section heat preservation sleeve, with rotating heat pipe
It is connected, is set with evaporator section insulating layer on the evaporator section heat preservation sleeve outer wall;Evaporator section, which is kept the temperature, is equipped with hanging set in sleeve
Equal thermal sleeve mounted in rotating heat pipe left part is wound with the heating coil being connected with heating power supply, soaking on equal thermal sleeve
Casing is suspended vacantly by the screw being symmetricly set on evaporator section heat preservation sleeve;Heat preservation sleeve is risen uniformly by heating coil
Temperature and accumulation of heat, the temperature difference between inner wall and rotating heat pipe evaporator section outer wall by keeping the temperature sleeve carry out radiation heat transfer and are added
Heat;
The condensation segment radiator include condensation segment insulating layer, condensation segment heat preservation sleeve, cooling collar, cooling tube,
Flowmeter, refrigeration machine, water pump and water tank;The condensation segment insulating layer is located on condensation segment heat preservation sleeve, the coolant jacket
Pipe is vacantly sleeved on the right part of rotating heat pipe, and cooling collar is hanging by being symmetricly set on the screw that condensation segment is kept the temperature on sleeve
Fixed, winding is equipped with the cooling tube of coolant on cooling collar, and coolant is in cooling tube, flowmeter, refrigeration machine, water pump and water tank
It is circulated in the closed circuit of composition;Water outlet one end of cooling tube successively enters with flowmeter, refrigeration machine, water pump and water tank
The mouth of a river is connected, and water outlet one end of water tank is connected with water inlet one end of cooling tube, is adjusted and is carried out by the wheel speed of water pump
Flow control, and the control of the adjusting progress coolant temperature by refrigeration machine, then condensed by cooling collar inner wall and heat pipe
The radiation heat transfer of section outer wall, realizes the control to condensation segment temperature.
The charcoal for strengthening Radiant exothermicity is painted on the evaporator section tube wall of the rotating heat pipe and the inner wall of equal thermal sleeve
Black coating.
The charcoal for strengthening Radiant exothermicity is painted on inner wall at the cooling collar and the cooperation of rotating heat pipe condensation segment
Black coating.
The rotating heat pipe is made by copper, aluminum alloy materials, the working medium in pipe select according to actual needs water or
Alcohol.
The heating power of the rotating heat pipe is 5-100W.
The inner wall of the evaporator section heat-preservation cylinder is painted with the plating silver coating of high reflectance, to reduce equal thermal sleeve and heat preservation
Heat transfer temperature difference between cylinder.
The equal thermal sleeve is made of the higher stainless steel of thermal conductivity.
Coolant composition in the cooling tube equipped with coolant is determined according to the temperature of the specific operating condition of heat pipe, if being lower than
0 DEG C, glycol water is selected, selects water if 0 DEG C or more.
The utility model has the advantages that by adopting the above-described technical solution, the present invention solve can be to rotation under high speed rotation state
Heat pipe is heated and is cooled down.It is realized using heating coil and equal thermal sleeve in the case where not contacting rotating heat pipe tube body,
Realize heating to rotating heat pipe, by equal thermal sleeve heated in the way of, since equal thermal sleeve is made of stainless steel, and interior
Surface is diffusing surface, and metal works are put into equal thermal sleeve, can avoid coil and is unevenly wrapped on heat pipe, so as to cause
Heat is uneven, and the Joule heat that can ensure that coil generates is uniformly transferred to heat pipe, and tube body of heat pipe is made to realize rapid and uniform heating.
It when heat is radiated on object, is partially absorbed by object, is partially reflected, the stronger non-body of albedo,
Its absorbability is weaker.Meanwhile to heat ray absorption with reflection largely additionally depend on body surface situation,
The factors such as roughness, when surface irregularity degree be less than projection radiation wavelength when, can be formed mirror reflection, for evaporator section heat-preservation cylinder with
Equal thermal sleeve dissipates to reduce heat, and evaporator section heat-preservation cylinder inner wall is processed by shot blasting and adds high reflectivity coating to subtract
Heat exchange between few equal warm sleeve and heat-preservation cylinder.It has the advantages that compared with prior art
1, by the present invention in that playing machine while not influencing rotating heat pipe normal rotation with fixed metal shell
The effect of tool protection, ensure that the safety of operator;
2, heating of the invention and the cooling mode for being all made of radiation heat transfer, guarantee high-speed rotating rotating heat pipe with it is static
Heating-cooling device between realize good heat transfer effect;
3, present invention process it is simple, it is cheap, be easy to get, it is low in cost.
4, the present invention requires mounting condition low, can be installed and be used under severe conditions, applicability is good.
Detailed description of the invention
Fig. 1 is the heat exchange principle figure of rotating heat pipe;
Fig. 2 is rotating heat pipe heating, heat dissipation and protective device overall diagram of the invention;
Fig. 3 is the structure chart of evaporator section heating device of the invention;
Fig. 4 is the structure chart of condensation segment radiator of the invention.
In figure: 1- chuck, 2- rotating heat pipe shaft, the equal thermal sleeve of 3-, 4- heating coil, 5- evaporator section keep the temperature sleeve, 6-
Screw, 7- rotating heat pipe, 8- condensation segment insulating layer, 9- condensation segment keep the temperature sleeve, 10- cooling collar, 11- cooling tube, 12- flow
Meter, 13- refrigeration machine, 14- water pump, 15- water tank, 16- heating power supply, 17- evaporator section insulating layer.
Specific embodiment
The invention will be further described for embodiment in reference to the accompanying drawing:
As shown in Fig. 2, the heating of rotating heat pipe of the invention, cooling and safety device, mainly by rotating heat pipe 7,
The insulating layer being located on rotating heat pipe 7 and evaporator section heating device, the condensation segment cooling device structure for being located at 7 both ends of rotating heat pipe
At;The rotating heat pipe 7 is made by the high metal material of the thermal conductivities such as copper, aluminium alloy, and the working medium in pipe is according to reality
It needs to select water or alcohol.
The evaporator section heating device includes chuck 1, rotating heat pipe shaft 2, equal thermal sleeve 3, heating coil 4 and evaporation
Duan Baowen sleeve 5;The equal thermal sleeve 3 is made of the higher stainless steel of thermal conductivity, can Quick uniform heat up and realize accumulation of heat,
Its inner wall further ensures that the amount of radiation of its opposite heat tube is uniform, the rotating heat pipe to realize diffusion radiation for rough surface
2 one end of shaft is located in chuck 1, and the other end protrudes into evaporator section heat preservation sleeve 5, is connected with rotating heat pipe 7, the evaporator section
It is set with evaporator section insulating layer 17 on heat preservation 5 outer wall of sleeve, the common heat preservation for completing evaporator section.The evaporator section heat-preservation cylinder 5
Inner wall be painted with the plating silver coating of high reflectance, to reduce the heat transfer temperature difference between equal thermal sleeve 3 and heat-preservation cylinder 5.Described
The carbon black coating for strengthening Radiant exothermicity is painted on the evaporator section tube wall of rotating heat pipe 7 and the inner wall of equal thermal sleeve 3.Evaporator section
It is equipped with the equal thermal sleeve 3 for being vacantly sleeved on 7 left part of rotating heat pipe in heat preservation sleeve 5, is wound on equal thermal sleeve 3 and heating electricity
The heating coil 4 that source 16 is connected, 4 uniform winding of heating coil pass through conducting wire and heating power supply 16 in equal 3 surface of thermal sleeve
Connect and compose circuit;Equal thermal sleeve 3 is suspended vacantly by the screw 6 being symmetricly set on evaporator section heat preservation sleeve 5 in evaporator section
Inside heat-preservation cylinder 5;Equal thermal sleeve 3 is not in contact with each other with heat-preservation cylinder 5, and evaporator section heat preservation cartridge exterior package insulating layer 17 is simultaneously fixed on
On bracket, the evaporator section of rotating heat pipe is placed between two heating muffs, the casing due to the heating of heating coil 4, in coil
Temperature increases, and radiation heat transfer is carried out by the outer wall of internal surface of sleeve pipe and rotating heat pipe 7, to achieve the purpose that heating;I.e. by adding
Heat coil 4 make keep the temperature sleeve 5 uniformly heating and accumulation of heat, by keep the temperature sleeve 57 evaporator section outer wall of inner wall and rotating heat pipe between
The temperature difference carry out radiation heat transfer heated;
The condensation segment radiator is mainly by condensation segment insulating layer 8, condensation segment heat preservation sleeve 9, cooling collar 10, cold
But pipe 11, flowmeter 12, refrigeration machine 13, water pump 14 and water tank 15 are constituted;The condensation segment insulating layer 8 is located at condensation segment heat preservation
On sleeve 9, the cooling collar 10 is vacantly sleeved on the right part of rotating heat pipe 7, and cooling collar 10 is by being symmetricly set on
Screw on condensation segment heat preservation sleeve 9 is suspended vacantly, and winding is equipped with the cooling tube 11 of coolant, cooling tube 11 on cooling collar 10
It is connected with flowmeter 12, refrigeration machine 13, water pump 14, water tank 15 and constitutes circuit, completes cooling and the runoff investigation of recirculated water.It is cooling
It is circulated in the closed circuit that agent is constituted in cooling tube 11, flowmeter 12, refrigeration machine 13, water pump 14 and water tank 15;It is cooling
Water outlet one end of pipe 11 is successively connected with the water inlet of flowmeter 12, refrigeration machine 13, water pump 14 and water tank 15, and water tank 15 goes out
Mouth of a river one end is connected with water inlet one end of cooling tube 11, and the cooling capacity of condensation segment is provided by refrigeration machine 13, and flowmeter 12 is flowed
The measurement of amount, water pump 14 provide driving force for entire cooling circuit.Cooling tube 11 and cooling collar 10 are in close contact, cold to ensure
But 10 temperature of casing is uniformly distributed and abundant cold-storage, while cooling capacity being uniformly transferred to rotating heat pipe, rotating heat pipe condensation segment with
Condensation segment heat-preservation cylinder inner wall carries out radiation heat transfer, achievees the purpose that cooling.Condensation segment heat-preservation cylinder 9 and cooling collar 10 are non-contact,
The Radiant exothermicity occurred therebetween is minimized by the low emissivity coatings of 9 inner wall of heat-preservation cylinder.It is cold in the cooling tube 11
But agent ingredient is determined according to the temperature of the specific operating condition of heat pipe, if being lower than 0 DEG C, is selected glycol water, is selected if 0 DEG C or more
Water.It is adjusted by the wheel speed of water pump 14 and carries out flow control, and coolant temperature is carried out by the adjusting of refrigeration machine 13
Control, then pass through the radiation heat transfer of 10 inner wall of cooling collar and 7 condensation segment outer wall of heat pipe, realize the control to condensation segment temperature.
The carbon black coating for strengthening radiation heat transfer is painted on inner wall at the cooling collar 10 and 7 condensation segment cooperation of rotating heat pipe.
The heating power of the rotating heat pipe 7 is 5-100W.By taking heating power 20W as an example, heat pipe evaporator section wall surface temperature
Degree is 40 DEG C, and evaporator section soaking internal surface of sleeve pipe temperature is 60 DEG C, and heat pipe condenser section wall surface temperature is 10 DEG C, the equal thermal sleeve of condensation segment
Inner wall temperature is -23.9 DEG C.
The course of work:
1, heating coil 4 is uniformly wrapped in equal 3 outer surface of thermal sleeve, equal thermal sleeve 3 is fixed on evaporation by screw 6
Inside Duan Baowen sleeve 5, thermal insulation material is filled between the two, the evaporator section of rotating heat pipe 7 is placed in inside equal thermal sleeve 3, is revolved
The wall surface of the shell and equal thermal sleeve 3 that turn 7 evaporator section of heat pipe carries out blacking processing, and evaporator section heat preservation 5 inner surface of sleeve is thrown
Light simultaneously whitewashes processing.Evaporator section heat preservation sleeve 5 is mounted on fixed bracket and wraps up insulating layer 17 in outside.Rotating heat pipe turns
Axis 2 is fixed on chuck 1, is driven rotating heat pipe 7 to rotate and is simultaneously reached stabilized (steady-state) speed, in rotary course, rotating heat pipe shell with plus
The wall surface holding of thermal sleeve 6 is not in contact with each other;
2, radiation heat transfer is carried out in the evaporator section outside wall surface of rotating heat pipe 7 and equal 3 inner wall of thermal sleeve, to reach heating
Purpose.And start the equipment such as flowmeter 12 in radiator, refrigeration machine 13, water pump 14.11 uniform winding of cooling tube is filled cooling
10 surface of cooling collar set, cooling collar 10 are fixed on condensation segment by screw 6 and keep the temperature inside sleeve 9, condensation segment muff
Cylinder 9 is fixed on bracket and wraps up insulating layer 8 in outside.Cooling tube 11 and water tank 15, water pump 14, refrigeration machine 13, flowmeter 12,
Complete cooling and the runoff investigation of recirculated water.Condensation segment is cooled down by the radiation heat transfer between cooling tube.
Claims (8)
1. a kind of heating of rotating heat pipe, cooling and safety device, including rotating heat pipe (7), it is located on rotating heat pipe (7)
Insulating layer, it is characterised in that: it is cooling to be respectively equipped with evaporator section heating device and condensation segment at described rotating heat pipe (7) both ends
Device;The evaporator section heating device includes chuck (1), rotating heat pipe shaft (2), equal thermal sleeve (3), heating coil (4)
Sleeve (5) are kept the temperature with evaporator section;Described rotating heat pipe shaft (2) one end is located in chuck (1), and the other end protrudes into evaporator section
It keeps the temperature in sleeve (5), is connected with rotating heat pipe (7), be set with evaporator section heat preservation on described evaporator section heat preservation sleeve (5) outer wall
Layer (17);The equal thermal sleeve (3) for being vacantly sleeved on rotating heat pipe (7) left part, equal hot jacket are equipped in evaporator section heat preservation sleeve (5)
The heating coil (4) being connected with heating power supply (16) is wound on pipe (3), equal thermal sleeve (3) is by being symmetricly set on evaporation
Screw (6) on Duan Baowen sleeve (5) is suspended vacantly;Make to keep the temperature sleeve (5) uniformly heating and accumulation of heat by heating coil (4),
The temperature difference between inner wall and rotating heat pipe (7) evaporator section outer wall by keeping the temperature sleeve (5) carries out radiation heat transfer and is heated;
The condensation segment radiator includes condensation segment insulating layer (8), condensation segment heat preservation sleeve (9), cooling collar (10), cold
But (11), flowmeter (12), refrigeration machine (13), water pump (14) and water tank (15) are managed;The condensation segment insulating layer (8) is located at cold
On solidifying section heat preservation sleeve (9), the cooling collar (10) is vacantly sleeved on the right part of rotating heat pipe (7), cooling collar
(10) it is suspended vacantly by the screw being symmetricly set in condensation segment heat preservation sleeve (9), winding is equipped with cold on cooling collar (10)
But the cooling tube (11) of agent, coolant is in cooling tube (11), flowmeter (12), refrigeration machine (13), water pump (14) and water tank (15)
It is circulated in the closed circuit of composition;Water outlet one end of cooling tube (11) successively with flowmeter (12), refrigeration machine (13), water
Pump (14) is connected with the water inlet of water tank (15), water outlet one end of water tank (15) and water inlet one end phase of cooling tube (11)
Even, it is adjusted by the wheel speed of water pump (14) and carries out flow control, and coolant temperature is carried out by the adjusting of refrigeration machine (13)
The control of degree, then pass through the radiation heat transfer of cooling collar (10) inner wall and heat pipe (7) condensation segment outer wall, it realizes to condensation segment temperature
Control.
2. heating, cooling and the safety device of a kind of rotating heat pipe according to claim 1, it is characterised in that: institute
The carbon black painting for strengthening Radiant exothermicity is painted on the evaporator section tube wall for the rotating heat pipe (7) stated and the inner wall of equal thermal sleeve (3)
Layer.
3. heating, cooling and the safety device of a kind of rotating heat pipe according to claim 1, it is characterised in that: institute
The carbon black painting for strengthening Radiant exothermicity is painted on inner wall at the cooling collar (10) stated and rotating heat pipe (7) condensation segment cooperation
Layer.
4. heating, cooling and the safety device of a kind of rotating heat pipe according to claim 1, it is characterised in that: institute
The rotating heat pipe (7) stated is made by copper, aluminum alloy materials, and the working medium in pipe selects water or alcohol according to actual needs.
5. a kind of heating device based on rotating heat pipe according to claim 1, it is characterised in that: the rotating heat pipe
(7) heating power is 5-100W.
6. heating, cooling and the safety device of a kind of rotating heat pipe according to claim 1, it is characterised in that: institute
The inner wall for the evaporator section heat-preservation cylinder (5) stated is painted with the plating silver coating of high reflectance, to reduce equal thermal sleeve (3) and heat-preservation cylinder
(5) heat transfer temperature difference between.
7. heating, cooling and the safety device of a kind of rotating heat pipe according to claim 1, it is characterised in that: institute
The equal thermal sleeve (3) stated is made of the higher stainless steel of thermal conductivity.
8. heating, cooling and the safety device of a kind of rotating heat pipe according to claim 1, it is characterised in that: institute
The coolant composition stated in the cooling tube (11) equipped with coolant is determined according to the temperature of the specific operating condition of heat pipe, if being lower than 0 DEG C, choosing
Spent glycol aqueous solution selects water if 0 DEG C or more.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201810934571.0A CN108981433A (en) | 2018-08-16 | 2018-08-16 | A kind of heating of rotating heat pipe, cooling and safety device |
Applications Claiming Priority (1)
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CN201810934571.0A CN108981433A (en) | 2018-08-16 | 2018-08-16 | A kind of heating of rotating heat pipe, cooling and safety device |
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Publication Number | Publication Date |
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CN108981433A true CN108981433A (en) | 2018-12-11 |
Family
ID=64552909
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CN201810934571.0A Pending CN108981433A (en) | 2018-08-16 | 2018-08-16 | A kind of heating of rotating heat pipe, cooling and safety device |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110026404A (en) * | 2019-05-21 | 2019-07-19 | 上海制驰智能科技有限公司 | A kind of high-temperature gas discharger |
CN110118498A (en) * | 2019-05-23 | 2019-08-13 | 中国科学院理化技术研究所 | A kind of cryogenic heat transfer device and cryogenic heat transfer system |
CN110988029A (en) * | 2019-12-27 | 2020-04-10 | 西安交通大学 | Thermal-structural characteristic testing system of high-speed rotating shaft with built-in parallel-shaft rotating heat pipe |
CN117308659A (en) * | 2023-11-29 | 2023-12-29 | 南京航空航天大学 | Heat pipe radiation heat dissipation system based on magnetorheological fluid damping and working method |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110026404A (en) * | 2019-05-21 | 2019-07-19 | 上海制驰智能科技有限公司 | A kind of high-temperature gas discharger |
CN110118498A (en) * | 2019-05-23 | 2019-08-13 | 中国科学院理化技术研究所 | A kind of cryogenic heat transfer device and cryogenic heat transfer system |
CN110988029A (en) * | 2019-12-27 | 2020-04-10 | 西安交通大学 | Thermal-structural characteristic testing system of high-speed rotating shaft with built-in parallel-shaft rotating heat pipe |
CN110988029B (en) * | 2019-12-27 | 2020-12-22 | 西安交通大学 | Thermal-structural characteristic testing system of high-speed rotating shaft with built-in parallel-shaft rotating heat pipe |
CN117308659A (en) * | 2023-11-29 | 2023-12-29 | 南京航空航天大学 | Heat pipe radiation heat dissipation system based on magnetorheological fluid damping and working method |
CN117308659B (en) * | 2023-11-29 | 2024-03-08 | 南京航空航天大学 | Heat pipe radiation heat dissipation system based on magnetorheological fluid damping and working method |
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Application publication date: 20181211 |