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Medium heat-conductive pressure-bearing photo-electric-heat conversion solar vacuum glass composite transducing tube

A technology of solar vacuum glass and composite energy exchange heat pipe, applied in the field of solar energy application, can solve problems such as inability to meet pressure operation, and achieve the effects of easy processing and high safety

Inactive Publication Date: 2007-08-29
徐宝安
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

It cannot satisfy the pressure-bearing operation of the system, and cannot make the solar vacuum heat collection tubes well applied to solar heat collection projects

Method used

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  • Medium heat-conductive pressure-bearing photo-electric-heat conversion solar vacuum glass composite transducing tube
  • Medium heat-conductive pressure-bearing photo-electric-heat conversion solar vacuum glass composite transducing tube
  • Medium heat-conductive pressure-bearing photo-electric-heat conversion solar vacuum glass composite transducing tube

Examples

Experimental program
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Effect test

Embodiment Construction

[0067] In the first embodiment: a light-transmitting outer glass tube 12, a photovoltaic cell 15, a battery connection wire 7, a heat dissipation plate 11, a thermally conductive material 10 for a heat dissipation plate, a heat exchange inner glass tube 9, a glass-sealed metal electrode 13, and a getter 19 , positioning elastic metal support card 18, exhaust pipe sealing nozzle 21, pressure-bearing pipe 5, pressure-bearing pipe heat-conducting material 8, etc. constitute the medium heat conduction pressure-bearing photoelectric heat conversion solar vacuum glass composite energy-conversion heat pipe, and the positive electrode of the photovoltaic cell 15 is welded by metal The paste or conductive adhesive 26 is compounded and connected with the heat dissipation plate 11 with tubular mounting holes to form a power generation and heat dissipation assembly. The heat dissipation plate 11 is set on the heat exchange inner glass tube 9, and the heat conduction material 10 of the heat...

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Abstract

A through solar vacuum glass composite transducing pipe with medium thermal-conduction bearing load based on photoelectric thermal transition contains outer glass pipe, photovoltaic battery, conducting wires, heating panel, heat-exchanging inner glass pipe, glass-housed metal electrode, getter metal spring card and blast pipe hush etc. to form the glass ring cavity pipe. Load-bearing pipe and heating-conducting medium are set in the heat-exchanging inner glass pipe. Positive pole of the photovoltaic battery connects with the heating panel with tubal mounting holes. The heating panel is packaged on the heat-exchanging inner glass pipe and heat-conducting medium is fixed with them by a clamp device. Positive poles of photovoltaic battery are electrical insulating. The positive and negative poles are connected in series to join the heat-exchanging inner glass pipe. Positive and negative poles of the photovoltaic battery group are led out by glass-housed metal electrode linking to conducting wires. A housed load-bearing pipe is equipped in the heat-exchanging inner glass pipe and heat-conducting medium is filled between them, which is sealed and connected by the closed end cap between glass locating nozzle and the load-bearing pipe.

Description

Technical field [0001] The invention relates to a medium heat conduction pressure photoelectric heat conversion solar vacuum glass composite energy exchange heat pipe, which belongs to the field of solar energy application. Background technique [0002] The current all-glass solar vacuum heat collectors are unable to withstand pressure due to structural characteristics, cannot make full use of sunlight, and cannot obtain heat energy while generating electricity. Especially in terms of solar energy engineering, once a single tube bursts, the entire system is paralyzed. The pressure-bearing operation of the system cannot be satisfied, and the solar vacuum heat collection tube can not be well applied to the solar heat collection project. Contents of the invention [0003] The purpose of the present invention is to provide a medium heat conduction pressure photoelectric device that can make full use of sunlight, obtain heat energy while generating electricity, track the sun, ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F24J2/46
CPCY02E10/40F24S10/45Y02E10/44
Inventor 徐宝安
Owner 徐宝安
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