SU1089365A1 - Solar radiation concentrator - Google Patents

Description

The invention relates to solar technology, in particular, to (solar concentrators. A solar concentrator is known, made in the form of a conical light guide 13. The single radiation falls on a larger section of the optical fiber (entrance surface) and re-reflects from the side walls to a smaller section (output surface) of the optical fiber The disadvantage of this concentrator is the high consumption of materials and the large amount of light loss in the fiber. The greater consumption of materials of the conical fiber is explained by the small convergence angles walls due to the need for the effect on the walls of the effect of total internal reflection of light radiation and, consequently, a large extent (depth of the optical fiber. Large light loss due to the same reasons. The radiation is repeatedly reflected from the side walls of the optical fiber and comes to the exit surface at large angles This will also adversely affect the operation of certain types of radiation detectors, for example, photoconverters. A solar concentrator is known, which contains an optically transparent focusing prism with a trogsonic cross section, having an acute angle of entrance and re-reflection of radiation and a concentrated radiation output and a device of concentrated radiation and a reflection device passing through the focusing prism of radiation located relative to the latter with a gap from the side of the re-reflection of the radiation 2. The reflection device in a known hub is made in the form of a plane mirror. Pa, but positioned parallelepiped prism faces multipath. Solar radiation passes through the focusing prism, is reflected by a flat mirror and returns to the prism again. The sharp angle between the faces of the entrance and the re-reflection of the prism provides the condition of total internal reflection of the Radiation introduced into the prism by the mirror. However, the degree of concentration of radiation in this case is limited by the minimum value of the angle of total internal reflection and is associated with the septic properties of the prism material. The purpose of the invention is to increase the degree of radiation concentration. The goal is achieved by the fact that in a well-known solar radiation concentrator containing a transparent focusing prism with a triangular GM cross section, having an acute angle forming the entrance and re-reflection radiation and the output edge of the concentrated radiation, and a reflection device passing through the focusing radiation prism, located relative to the latter with a gap on the side of the radiation re-reflection edge, the radiation reflecting device is made in the form of at least one prism with a triangle n a cross-sectional view, having an acute angle forming the faces of the entrance of the radiation passing through the focusing prism and the specular reflection of the radiation and unidirectionally located at its acute angle with the acute angle of the focusing prism. Figure 1 shows the optical layout of the solar concentrator; Fig. 2 shows an embodiment of a concentrator with a reflection device passing through a radiation focusing prism in the form of a set of prisms. The solar concentrator comprises an optically transparent focusing prism 1 (Fig. 1) with a triangular cross section, which form an acute angle with (. The edges 2 and 3 of the entrance and the re-reflection of the radiation, respectively, and the edge 4 of the concentrated radiation output, and the reflection device 5 passing through & pruning prism of radiation I, located relative to the latter with a gap 6 on the side of the radiation re-reflection face 3. The radiation reflecting device 5 is made in the form of at least one prism 7 with a triangular cross A cross-sectional area has sharp-edge p-forming edges 8 and 9 of the radiation passing through the focusing prism 1 and the specular reflection of the radiation and located at its acute angle l unidirectionally with the sharp angle C of the focusing prism 1. made in the form of a set of prisms 7 with the same sharp corners of the river.

Claims (1)

A SOLAR RADIATION CONCENTRATOR, containing an optically transparent focusing prism with a triangular / angular cross section having an acute angle of the input and re-reflection face of radiation and an output face of concentrated radiation, and a reflection device passing through the focusing radiation prism located relative to the latter with a gap from the side of the re-reflection of radiation, with the exception that in order to increase the degree of concentration of radiation, the radiation reflection device is made in the form of nshey least one prism having a triangular cross sechoiiem having an acute angle forming the input face, passing through the focusing lens of the radiation and the specular reflection of the radiation and situated odkrnapravlenno their acute angle with the acute angle of the focusing prism. Figure 1