RU2485417C1 - Solar collector - Google Patents

Abstract

FIELD: power engineering.SUBSTANCE: proposed solar collector comprises two side profiles, every of which is made in the form of a vertical wall, having bulges at the ends with guide slots, perpendicular to the wall, a transparent barrier made of glass fixed at sides in upper slots of side profiles, a rear wall fixed at sides in lower slots of side profiles, an absorber with tubes for a coolant flow arranged between the glass and the rear wall, and heat insulation arranged between the absorber and the rear wall. Cavities of side profiles between slots are filled with side heat insulation. The collector is equipped with two end "?"-shaped profiles and two end covers. The glass is additionally fixed at end sides between end covers and upper shelves of the end "?"-shaped profiles and is made at the inner side with photoelectric elements. The rear wall is additionally fixed at the end sides between end covers and lower shelves of end "?"-shaped profiles. The cavities of the end "?"-shaped profiles between shelves are filled with end heat insulation. The absorber is made as adjacent to photoelectric elements. Upper slots of side profiles are arranged with width that exceeds thickness of glass fixed in them, and upper shelves of upper slots at the end are equipped with a ledge.EFFECT: simplified manufacturing of a solar collector and its increased reliability.3 cl, 6 dwg

Description

The invention relates to solar technology and can be used, in particular, in devices that convert the electromagnetic radiation of the sun into thermal energy for heating a liquid coolant.

A solar collector is known comprising two lateral fasteners, a convex transparent guard made of a single or multi-layer flexible material, a rear wall, an absorber located between the transparent guard and the rear wall, thermal insulation located between the absorber and the rear wall, and two end caps, side fasteners are made with an inclined guide groove, a transparent fence is fixed on the sides in the grooves of the side fasteners, the rear wall is made tight her lateral fasteners and holding a bent transparent fence from straightening (see RU 2407957 C1, IPC F24J 2/04, 2010).

A solar collector is also known, containing two side and two end profiles, each of which is made in the form of a vertical wall, having at the ends of the bulge with guide grooves perpendicular to the wall, a transparent fence made of glass fixed on the side and end sides in the upper grooves of the side and end profiles, a rear wall fixed on the side and end sides in the lower grooves of the side and end profiles, an absorber with tubes for a coolant duct, located between the glass and the back nkoya people, and thermal insulation disposed between the absorber and the rear wall, and side and end cavity sections between the grooves of the side and end filled with thermal insulation (see. DE 20319300 U1, IPC F24J 2/46, 2004).

Since the side and end profiles of the known collector are joined at an angle of 45 °, this design has the following disadvantages.

In the manufacture of this collector, it is necessary to cut each of the profiles on both sides with high accuracy vertically at an angle of 45 °, while maintaining the identity of the length of the opposing profiles. Even small distortions when cutting the profile vertically will cause cracks at the corner joints, and the difference in the length of the opposing profiles will cause the collector to deviate from the rectangular shape, which will create problems when installing rectangular glass in the groove. Then you need to connect these side and end profiles so that the grooves in the profiles exactly match at the corner joints, otherwise the glass and the back cover, when installed in the grooves, will jam or chip at the joints. These problems will be exacerbated by thermal expansion and cooling of mating parts. Any distortions during the mechanical load on the collector, during its operation and transportation will also lead to additional stresses in the glass, in the corner joints and cause the risk of glass breaking.

The present invention is to develop a solar collector design devoid of these disadvantages.

The technical result from the use of the present invention is to simplify the manufacture of the solar collector and increase its reliability.

The problem is solved and the technical result is achieved by the fact that the solar collector containing two side profiles, each of which is made in the form of a vertical wall, having at the ends of the thickening with guide grooves perpendicular to the wall, a transparent enclosure made of glass fixed on the sides to the upper grooves of the side profiles, the rear wall fixed on the sides in the lower grooves of the side profiles, an absorber with tubes for the coolant duct, located between the glass and the back with according to the invention, it is equipped with two end U-shaped profiles and two end caps, the glass is additionally fixed along the end sides between the end caps and the upper shelves, and the thermal insulation located between the absorber and the rear wall, and the cavities of the side profiles between the grooves are filled with lateral thermal insulation end U-shaped profiles and made on the inside with photovoltaic elements, the rear wall is additionally fixed on the end sides between the end caps and bottom with them, the shelves of the end П-shaped profiles, the cavities of the end П-shaped profiles between the shelves are filled with end thermal insulation, the absorber is made adjacent to the photoelectric elements, the upper grooves of the side profiles are made with a width exceeding the thickness of the glass fixed in them, and the upper shelves of the upper grooves at the end equipped with a protrusion.

The problem is solved and the technical result is also achieved by the fact that the cavity end of the U-shaped profiles can be turned towards the absorber.

The problem is solved and the technical result is also achieved by the fact that the end caps can be made with grooves covering the end parts of the side profiles.

Figure 1 presents a cross section of the proposed solar collector.

Figure 2 - node a of figure 1.

Figure 3 is a longitudinal section of the proposed solar collector.

Figure 4 - node B of figure 3.

Figure 5 - node B of figure 3 at the outlet of the fitting.

Figure 6 - end cap made with grooves covering the end parts of the side profiles.

The proposed solar collector (Fig.1-4) contains two side profiles 1, each of which is made in the form of a vertical wall 2, having at the ends of the bulge with guide grooves 3, 4, perpendicular to the wall 2, two end U-shaped profile 5, two end caps 6, a transparent guard made of glass 7 fixed on the sides in the upper grooves 3 of the side profiles 1 and on the end sides between the end caps 6 and the upper shelves 8 of the end U-shaped profiles 5, the rear wall 9, fixed on the sides in lower p the basics 4 of the side profiles 1 and on the end sides between the end caps 6 and the lower shelves 10 of the end U-shaped profiles 5, the absorber 11 with tubes 12 for the coolant duct, located between the glass 7 and the rear wall 9, and thermal insulation 13, located between the absorber 11 and the rear wall 9. The glass 7 is made on the inside with photovoltaic cells 14. The absorber 11 is adjacent to the photovoltaic cells 14. The cavities of the side profiles 1 between the grooves 3, 4 are filled with lateral thermal insulation 15, and the end cavities are U-shaped profiles 5 between the shelves 8, 10 are filled with end thermal insulation 16 and facing the absorber 11. The upper grooves 3 of the side profiles 1 are made with a width exceeding the thickness of the glass 7 fixed in them, and the upper shelves 17 of the upper grooves 3 at the end are provided with a protrusion 18. The projection 18 narrows the width of the grooves 3 to a size close to the thickness of the glass 7, and forms inside chamber 3 slots to accommodate sealant retains elastic properties throughout the range of operating temperatures. When installing glass 7, the sealant spreads over the entire space of the grooves 3, and its excess is squeezed out and removed. This design allows you to compensate for the thermal expansion of the articulated parts and provides reliable sealing of the internal volume of the collector from the sides. The upper shelves 8 of the end U-shaped profiles 5 support the glass 7 on the end sides, and the lower shelves 10 of the profiles 5 transfer the load from the side of the glass 7 to the rear wall 9 and through it to the end caps 6 (Fig.6). End caps 6 cover the outside of the glass 7, side profiles 1 and the rear wall 9, ensuring the connection of all elements of the collector body into a single unit. The end caps 6 can be made with grooves 19 covering the end parts of the side profiles 1. Before installing on the inner surfaces of the end caps 6 in the contact areas of the mating surfaces of the glass 7, the end parts of the side profiles 1, the end U-shaped profiles 5 and the back wall 9 is applied elastic sealant that provides sealing of the internal volume of the collector from the end sides and does not interfere with the mutual movement of the mating parts during heating and cooling. Tubes 12 for the flow of the heat carrier of the absorber 11 are in communication with the collection pipes 20 connected to the inlet and outlet fittings 21, through which the coolant is supplied and removed (Fig. 5). When withdrawing from the end side, the fittings 21 pass through the end thermal insulation 16, the end U-shaped profiles 5 and the end caps 6, and the additional fixing of the end caps 9 is performed using the nuts 22 and gaskets 23 installed on the fittings 21.

The described collector operates as follows.

The sun's rays pass through the glass 7 (Fig.1, 3), fall on its thin-film photoelectric elements 14 and are absorbed by them. Photovoltaic cells 14 have a high absorption coefficient, as a result of which their temperature rises, and the surface of the absorber 11, which is adjacent to the photovoltaic cells 14, is heated. A liquid coolant enters the collector through fittings 21 and prefabricated pipes 20, which, passing through the tubes 12 of the absorber 11 located on its rear side, removes heat from its surface and photoelectric elements 14 and heats up to a level acceptable for practical use, and photoelectric elements 14 due to cooling generate electricity with increased efficiency.

Claims (3)

1. A solar collector comprising two side profiles, each of which is made in the form of a vertical wall having at the ends of the thickening with guide grooves perpendicular to the wall, a transparent fence made of glass fixed on the sides in the upper grooves of the side profiles, a rear wall, fixed on the sides in the lower grooves of the side profiles, an absorber with tubes for a coolant duct located between the glass and the back wall, and thermal insulation located between the absorber and the back wall d, moreover, the cavities of the side profiles between the grooves are filled with lateral thermal insulation, characterized in that it is equipped with two end U-shaped profiles and two end covers, the glass is additionally fixed on the end sides between the end caps and the upper shelves of the end U-shaped profiles and is made with the inner side with photovoltaic cells, the rear wall is additionally fixed on the end sides between the end caps and the lower shelves of the end U-shaped profiles, the cavity of the end U-shaped the profiles between the shelves are filled with end thermal insulation, the absorber is made adjacent to the photoelectric elements, the upper grooves of the side profiles are made with a width exceeding the thickness of the glass fixed in them, and the upper shelves of the upper grooves at the end are provided with a protrusion. 2. The collector according to claim 1, characterized in that the cavity end of the U-shaped profiles facing the absorber. 3. The collector according to claim 1 or 2, characterized in that the end caps are made with grooves covering the end parts of the side profiles.

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