RU2028558C1 - Solar plant - Google Patents

Abstract

FIELD: solar engineering. SUBSTANCE: solar plant has solar panel 5, bedplate 1, and telescopic rods 2 connected to panel 5 through ball joints 4 and to bedplate 1 through cylindrical joints 3. Panel 5 has round bore whose center is equally spaced from axes of ball joints 4 and internal space of telescopic rods is filled with liquid having high coefficient of volumetric expansion, such as methyl alcohol. Outer surface of telescopic rods 2 is covered with light-absorbing coat; each rod 2 is provided with light-reflecting screen 7 whose mouth is directed towards bore axis. EFFECT: improved design. 3 dwg

Description

 The invention relates to solar technology, in particular to devices for the utilization of solar energy.

 Known solar thermal collector (1), comprising a housing placed in it with the formation of channels for the passage of the coolant absorber and partitions and a rotation mechanism mounted on the base and connected to the housing, made in the form of hydraulic cylinders and tanks filled with low-boiling liquid in pairs placed around the perimeter of the housing moreover, the hydraulic cylinders are in communication with oppositely placed containers and pivotally fixed to the bottom of the housing, and the absorber is provided with elastic elements associated with the base.

 The known solar thermal collector efficiently uses solar energy by increasing the accuracy of the orientation of the collector in the sun, however, the design of the known collector is complex.

 Known heliostat, selected as a prototype (2), containing a solar panel and a drive made in the form of telescopic rods connected to the base using cylindrical joints, and to the solar panel using ball.

 The advantage of the known heliostat is the simplicity of its design, however, it has such a significant drawback as the inefficient use of solar energy, since the solar panel does not orient the sun due to the lack of solar sensors.

 The objective of the invention is to increase the accuracy of orientation of the solar panel.

 This task is achieved by the fact that in a solar installation containing a solar panel, a base plate and telescopic rods connected to the panel using spherical, and with the base plate using cylindrical joints, a circular hole is made in the solar panel, the center of which is equidistant from the axes of the ball joints and the inner cavity of the telescopic rods is filled with a liquid with a large coefficient of volume expansion, for example, methyl alcohol, while the light absorbing material is applied to the outer surface of the telescopic rods opening, with each telescopic rod equipped with a reflective screen, the bell of which is directed towards the axis of the hole made in the solar panel.

 In FIG. 1 shows a general view of a solar panel; in FIG. 2 is a section AA of FIG. 1; in FIG. 3 is a section BB of FIG. 2.

 The solar installation comprises a base plate 1, telescopic rods 2 connected to the base plate 1 by cylindrical hinges 3. Ball joints 4 connect the telescopic rods 2 to a solar panel 5 composed of photoconverters. The panel 5 has a circular hole 6, the center of which is equidistant from the axes of the ball joints 4. A light-absorbing coating is applied to the outer surface of the telescopic rods 2. Each telescopic rod 2 is equipped with a reflective screen 7, the bell of which is directed towards the hole 6. The axis of the spherical joints 4 are at equal distances from each other.

 The solar installation works as follows.

 The sun's rays (shown in Figs. 1–3 by arrows), falling on the solar panel 5, pass through the hole 6 and fall on the telescopic rod 2, on which a light-absorbing coating is applied. The liquid with a large coefficient of volume expansion, enclosed in the cavity of the telescopic rod 2, is heated, expands and the solar panel 5 rotates towards the sun's rays. As the sun moves around the horizon, the sun's rays gradually pass from one telescopic rod 2 to another, while both telescopic rods 2 will be lit at some point in time, which will also lead to the panel 5 turning towards the sun's rays. Reflective screens 7 perform a dual function. Firstly, they concentrate the sun's rays on the telescopic rods 2, and secondly, in the event of sunlight falling horizontally (morning and evening) they prevent the heating of the telescopic rods 2 located closer to the ring.

Claims (1)

 A SUNNY INSTALLATION comprising a solar panel, a base plate and telescopic rods connected to the solar panel using ball joints, and to the base plate using cylindrical joints, characterized in that the solar panel has a circular hole, the center of which is equidistant from the axes of the ball joints and the inner cavity of the telescopic rods is filled with liquid with a large coefficient of volume expansion, the outer surface of the telescopic rods has a light-absorbing coating, and each rod is equipped with and a reflective screen, the bell oriented towards the openings of the solar panel.

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