SU830083A1 - Solar unit - Google Patents

Description

one

The invention relates to solar technology, in particular to solar high-temperature installations with facet concentrators.

A solar plant is known that contains a solar radiation facet concentrator, each facet of which is equipped with a turning mechanism 1.

The disadvantages of the known installation are difficult operating conditions, due to the fact that the adjustment is carried out by manual movement of the rotation mechanisms of the facets, and to maintain the density of radiation at the receiver, it is necessary to use an additional solar radiation control curtain mechanism.

The purpose of the invention is to facilitate the conditions of operation by automating the alignment of the facet.

The goal is achieved by the fact that the installation additionally contains an adjustment device, a control unit and automatic drives of the rotation mechanisms, and the adjustment device is made in the form of a flat mirror mounted to rotate around the optical axis of the concentrator in a plane perpendicular to this axis, and the sensor reflected from the mirror of the beams, which has the ability to synchronously rotate together with the mirror and change the angle of inclination to the optical axis and connected with the control unit, in the course of which is connected to the automatic drive

0 mechanisms turning facet.

The drawing shows the solar installation.

The solar system contains a solar radiation facet concentrator 1, each facet 2 of which is equipped with a rotation mechanism 3. In addition, the installation contains an adjustment device 4, control unit 5 and automatic actuators

0 6 gears 3 turn the bezel, and the adjustment device is made in the form of a flat mirror 7 installed with the possibility of rotation around the optical axis 8 of the concentrator in a plane perpendicular to this axis, and sensor 9 reflected from the mirror beams, having the possibility of synchronous rotation together with the mirror 7 and the change of the angle of inclination to 0 of the optical axis 8 and associated with the control unit 5, the output of which is connected to the automatic drives 6 of the mechanisms 3 of the rotation facets.

Solar installation works as follows.

Solar radiation is reflected from individual facets 2 of concentrator 1 and gets into focus F. If you need to adjust facets 2, or if you need to adjust the radiation density at focus F of concentrator 1 by reorienting facets 2, an alignment device 4 is used. so that reflected rays from the checked facets, as well as rays from adjacent facets, fall on it. The sensor 9, which rotates synchronously with the mirror 7, is oriented relative to the optical axis 8 of the hub 1 in the direction of the calculated position of the facets. If the facet is oriented incorrectly, then the sensor, by a beam reflected from mirror 7, gives a mismatch signal to the control unit 5 for controlling the automatic drives b of the mechanisms 3 of the turn of the facet. The rotation of the facets occurs before the disappearance of the error signal on the sensor 9. The absence of a signal means that the facet has assumed the estimated adjusted position.

If it is necessary to maintain a given radiation density in the focus, one or several facets can be brought out of the oriented position using actuators b, and then, using the necessary program, again put into operation, i.e. in the approximate position.

The invention makes it possible to significantly simplify the alignment process of the facet concentrator by automating it, improve the quality of the alignment, simplify the operating conditions of the solar installation by selectively checking the alignment position of the facet during the installation operation.

Claims (1)

1. US patent No. 2.987,961, cl. 350-292, publ. 1961.