superconducting heat sink
A superconducting and radiator technology, applied in indirect heat exchangers, heat exchanger sealing devices, heat exchange equipment, etc., can solve the problems of low heat conduction temperature, low heat dissipation efficiency, and high production cost, and achieve high heat dissipation efficiency and production. The effect of low cost and fast conduction speed
Active Publication Date: 2018-08-28
WEIHAI ZHENYU INTELLIGENT TECH CO LTD
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Problems solved by technology
[0002] At present, existing radiators are used in many fields, including indoor heating radiators, automobile radiators, and engineering machinery radiators. The heating method is usually to add hot water, or heat transfer oil, or steam, or fill the radiator The electric heating element conducts heat, and the structure of the radiator is also various. Some are composed of multiple single heating pipes connected in series on the heat conduction pipe. The number of combinations of the single heating pipes depends on the heating area. The disadvantages of the above-mentioned types of radiators are that when heating, it is necessary to heat all the medium in the inner cavity of the radiator to conduct the required heat. , which wastes a lot of energy, high production cost, low heat conduction temperature, and low heat dissipation efficiency
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[0013] Below in conjunction with accompanying drawing, the present invention is further described:
[0014] As shown in the drawings, a superconducting radiator is characterized in that it is provided with a heating pipe 1, an energy-saving superconducting heat transfer pipe 2 and a medium conveying pipe 3, and the two ends of the medium conveying pipe 3 are respectively sealed and connected, and the medium conveying pipe 3 One end of the sealed cavity is provided with an air charging valve 4, and the side wall of the medium delivery pipe 3 has more than two connecting through holes in a linear array along the axial direction. The other end is cross-sealedly connected with the side wall of the heating tube 1, and the sealed cavity where the energy-saving superconducting heat transfer tube 2 and the medium delivery tube 3 are connected is provided with a gas thermal superconducting medium.
[0015] The inflation valve 4 of the present invention is composed of a sealing plug 5, ...
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The invention relates to a radiator, in particular to a superconduction radiator. The superconduction radiator is characterized in that a heating pipe, an energy-saving superconduction heat energy conveying pipe and a medium conveying pipe are arranged, wherein the two ends of the medium conveying pipe are respectively in sealed connection by sealing plugs; an air charge valve is arranged in a sealing cavity at one end of the medium conveying pipe; more than two connecting through holes are formed in the side wall of the medium conveying pipe in axial linear array; one end of the energy-saving superconduction heat energy conveying pipe is in sealed communication with the medium conveying pipe by the connecting through holes, and the other end of the energy-saving superconduction heat energy conveying pipe is in cross sealed connection with the side wall of the heating pipe; and a gas heat superconduction medium is arranged in a sealing cavity, communicated with the medium conveying pipe, of the energy-saving superconduction heat energy conveying pipe. As the structure is adopted, the superconduction radiator can use a smaller heat source for quickly increase the needed space temperature in a short time; and the superconduction radiator has such advantages as novel structure, low energy consumption, quick transduction speed, high cooling efficiency, long service life, low production cost and convenience for mounting.
Description
technical field [0001] The invention relates to a radiator, in particular to a superconducting radiator. Background technique [0002] At present, existing radiators are used in many fields, including indoor heating radiators, automobile radiators, and engineering machinery radiators. The heating method is usually to add hot water, or heat transfer oil, or steam, or fill the radiator The electric heating element conducts heat, and the structure of the radiator is also various. Some are composed of multiple single heating pipes connected in series on the heat conduction pipe. The number of combinations of the single heating pipes depends on the heating area. The disadvantages of the above-mentioned types of radiators are that when heating, it is necessary to heat all the medium in the inner cavity of the radiator to conduct the required heat. , thus wasting a lot of energy, high production cost, low heat conduction temperature, and low heat dissipation efficiency. Contents...
Claims
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IPC IPC(8): F28D15/00F28F11/02F16K15/20
Inventor 李杰李平王志远奚红亮马腾飞
Owner WEIHAI ZHENYU INTELLIGENT TECH CO LTD