SU1332112A1 - Solar heat collector - Google Patents

Abstract

The invention relates to solar technology and makes it possible to increase the economics of using solar energy. The translucent shell 1 forms, with a heat-absorbing tube (TT) 2 which is concentrically installed in it, an annular cavity 3 filled with air. On the inner side of the shell 1 there is a semi-cylindrical shell (PO) 5 reflecting solar radiation. The supporting transverse protrusions 6 of the PO 5 are in contact with the TT 2. An eye located outside of the PO 5 serves to attach the collector. When direct solar radiation strikes the internal surface of PO 5, they are reflected on the rear side of the TT 2 and thus increase the thermal capacity of the collector. The fixed position of the PO 5 eliminates operational shifts of the reflector. 3 il. c b O) FIG. 2

Description

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The invention relates to solar technology, specifically to devices for generating heat used for heating or hot water supply,

The purpose of the invention is to increase the efficiency of solar energy use.

Fig, 1 shows the proposed solar collector, a general view; FIG. 2 is a section A-A in FIG. 1; FIG. 3 is a view B of FIG. 1,

The solar thermal collector contains a translucent shell 1 and a heat-absorbing pipe 2 installed concentrically in it, forming with the shell 1 an annular cavity 3 filled with air and sealed with a seal.4. The shell 1 is provided with a semi-cylindrical shell 5 reflecting solar radiation, equipped with supporting transverse projections 6 , and the outside eye 7,

Solar collector works as follows.

When exposed to solar radiation, the helio-warmth passes through the translucent shell 1, is perceived by the heat-absorbing surface of the pipe 2 and is transferred to the heat-carrier circulating inside it. The heat exchange between the collector and the environment is prevented by air filling the 1st annular cavity 3, which is separated from the atmosphere by compaction 4, and convective currents of air in cavity 3 are weakened due to a small gap. Radiation loss is not known

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as the collector is shielded by a reflective semi-cylindrical shell 5, which also creates additional resistance to heat transfer on the line of contact between it and the shell 1, supporting the tube 2 to the protrusion 6 promotes the dispersion of the weight load, which makes it possible to use ordinary transparent glass as shell 1 glass. When direct solar radiation hits the internal surface of the half-cylinder, they are reflected on the back side of the pipe 2 and thus increase the thermal capacity of the collector. Fixed using the eyelet 7, the optimal position of the shell 5 eliminates operational shift of the reflecting surface.

Claims (1)

Invention Formula A solar thermal collector containing a translucent shell and concentrically installed in it — by means of ribs — a heat-absorbing tube that forms a target cavity filled with air and sealed by an airtight seal, characterized in that, in order to increase the economical use of solar energy, the shell from the inner side, it is equipped with a semi-cylindrical shell reflecting solar radiation, equipped with supporting transverse protrusions, which contact with the heat-absorbing a ruby, and a lug located outside of it for fastening the collector. / 7 / gx / xxx / xx // xx x / x // xx / x /// / AND/  TP iU HJ JJ ™ L  DI II. 1n 1YG / I 1G | Ti / / to S 6 Fig.Z