SU808790A1 - Solar energy facet-type concentrator - Google Patents

Description

The invention relates to solar engineering, in particular to installations with solar energy concentrators designed for pulsed irradiation.

Known facet concentrator of solar energy containing mirror elements mounted on a supporting frame by means of hinges [1]. ,

Mirror elements with the help ^of ball- ¹ nirov “Hooke” are mounted on three screws mounted on a supporting frame.

A disadvantage of the known facet concentrator is the great complexity of adjusting the mirror elements 15, for example, to change the focal length, since during adjustment it is necessary to consistently change the position of all screws.

The purpose of the invention is to improve the quality of the hub.

To achieve this goal, the facet solar energy concentrator additionally contains a radiation density control mechanism made in the form of a screw fixed to a bearing frame and a circular sliding sleeve mounted on it, having an annular groove with levers located in it, and mirror elements - 30 by means of the latter are connected with the coupling, and the hinges are made cylindrical and have axes located perpendicular to the axis of the screw.

In FIG. 1 shows a concentrator in plan, general view) in FIG. 2 - a mechanism for regulating radiation density, cross section.

The facet solar energy concentrator contains mirror elements 1 mounted on the carrier frame 2 by means of hinges 3. The concentrator further comprises a radiation density control mechanism made in the form of a screw 4 mounted on the carrier frame 2 and a circular slip sleeve 5 mounted thereon having an annular groove with levers 6 located in it, and the mirror elements 1 are connected by means of the latter to the coupling 5, and the hinges 3 are made cylindrical and have axes located perpendicular to the axis of the screw 4. On the lever 6 reinforced leaf springs 7.

The hub works as follows.

Solar radiation is reflected from the mirror elements of the 1. facet concentrator and is collected in focus.

I e

If necessary, change the focal length of the hub turn the screw 4, mounted on the supporting frame 2, and mounted on it a circular slip clutch 5 having an annular groove with levers 6 located therein. When the screw 4 is rotated, the clutch 5 moves along the axis of the screw 4 and by means of levers 6 at the same time rotates the mirror elements 1 around the cylindrical hinges Z. In order to avoid possible oscillations of the mirror elements * 1 due to the gap between the levers 6 in the groove of the coupling 5, leaf springs 7 are installed on the levers 6. So to a hinge axis perpendicular to the axis 3 of the screw 4, at the same odnovret Mein and turning mirror elements 1 varies the focal length of the hub.

The invention allows using the control mechanism to quickly change the alignment of the mirror elements by changing the focal length of the facet hub, while changing the radiation density in focus, which improves the quality of the hub.

Claims (1)

The invention relates to solar technology, in particular to installations with solar concentrators intended for pulsed operation. A faceted solar energy concentrator is known, containing mirror elements mounted on the carrier frame by means of hinges. Mirror elements using Tuke balls are mounted on three screws mounted on the carrier frame. A disadvantage of the known facet concentrator is that it is very difficult to adjust the mirror elements, for example, to change the focal length, since during adjustment, it is necessary to sequentially change the position of all screws. The goal of the acquisition is to increase the quality of the concentrator. To achieve this goal, the solar power facet concentrator additionally contains a radiation density control mechanism, made in the form of a screw mounted on a carrier frame, and a circular slip clutch mounted on it, having an annular groove with lever arms located in it, and mirror elements by means of the latter with coupling, and the hinges are cylindrical and have axes perpendicular to the axis of the screw. FIG. 1 shows a concentrator in plan, a general view; in fig. 2 - radiation density control mechanism, cross section. The solar concentrator contains pin-hole elements 1 mounted on the carrier frame 2 by means of hinges 3. The concentrator further includes a radiation density control mechanism, made in the form of a screw 4 mounted on the carrier frame 2, and a circular slip sleeve 5 mounted on it, having an annular groove with the levers 6 located in it, and the mirror elements 1 are connected to the coupling 5 by means of the latter, and the sharntsra 3 are cylindrical and have axes that are perpendicular to the axis of the screw 4. Chaga 6 reinforced leaf springs 7. The hub works as follows. Solar radiation is removed by 6 tons of mirror elements 1. The facet hub is assembled in focus. If it is necessary to change the focal distance of the hub, turn the BcUOT screw 4, mounted on the carrier frame 2, and the circular slip coupling 5 mounted on it, having an annular groove with levers 6 located in it. 6 simultaneously rotates the mirror elements 1 into the circle of cylindrical hinges Z. To run out of possible oscillations of the mirror elements 1 due to the gap between the levers 6 in the groove of the coupling 5, plate springs 7 are installed on the levers b. the axis of the hinges 3 are perpendicular to the axis of the screw 4, then at the same time and the same mirror elements 1 the focal distance of the hub changes. The invention allows the adjustment mechanism to quickly change the alignment of the mirror elements, changing the focal length of the facet hub, while changing the density of radiation in the focus. which improves the quality of the hub. Claims. A solar power facet concentrator containing mirror elements mounted on the carrier frame by means of hinges, is made in such a way that, in order to improve the quality of the concentrator, it additionally contains a radiation density control mechanism, made in the form of a screw fixed to the carrier frame, and a circular slip clutch mounted on it, having an annular groove with levers located therein, and mirror elements by means of the latter are connected to the clutch, and the hinges are cylindrical and dissolved axis extending perpendicularly to the screw axis. Sources of information taken into account in the examination 1. US patent 2,987,761, cl. 350-292, publ. 1961. fe rs Г Fig.1