SU883617A2 - Tracking sensor for solar plant - Google Patents

Description

'The invention relates to solar technology. nickname and can be used as a sensor of an automatic tracking system of a geotechnical installation.

By main auto No. 759806, a tracking sensor for a solar installation is known, which contains photosensitive elements located on a substrate and separated by opaque partitions, a screen mounted above the partitions, and a housing made in the lower part opaque and mounted on the substrate ”[1J.

A disadvantage of the known sensor is the dependence of the accuracy of tracking the Sun on the linear dimensions (length) of the sensor case, due to the fact that when disorienting at a certain angle, the linear magnitude of the shadow on the substrate, where the photosensitive elements are located, is determined by the distance from the substrate to the screen. To increase the accuracy of '4 tracking, it is necessary to increase the length of the housing.

In addition, for tracking in rough and fine modes in the known sensor, two photosensitive elements are installed in each sector of the substrate at different distances from the center.

The purpose of the invention is to increase the accuracy of tracking the Sun.

This goal is achieved in that the sensor is equipped with an additional photosensitive element and a casing with an opaque cover mounted above the screen, the additional element being mounted on the cover inside the casing, and the screen is made mirror on both sides.

Moreover, the screen has a peripheral frosted ring from the side of the casing.

In addition, the substrate and partitions are made mirrored.

The drawing shows a tracking sensor of a solar installation.

The sensor contains photosensitive elements 1 located on the substrate 2 and separated by opaque · partitions 3, a screen 4 mounted above the partitions 3, and a housing

5, made in the lower part opaque and mounted on a substrate

2. The sensor is equipped with an additional photosensitive element 6 and a casing 7 with an opaque cover 8 mounted above the screen 4, made mirror on both sides. An additional element 6 is installed on the cover 8 inside the casing 7. The screen has a peripheral matte ring 9 from the casing 7 side. The substrate 2 and the partition 3 are made mirror-like.

The arrows show the rays of the Sun falling on the sensor at different angles of disorientation.

The sensor operates as follows.

At large angles of disorientation, the sunbeam through the transparent wall of the casing 7 hits the mirror surface of the screen 4, is reflected and hits the photosensitive element

6, affecting the tracking speed of actuators (not shown) of the solar installation, while the photosensitive elements 1 determine the tracking direction, since they are not uniformly illuminated due to opaque partitions 3. When the element 6 is illuminated, the rough tracking mode is carried out with high speed.

As the sensor approaches the Sun-oriented position, the shadow from the cover 8 approaches the edge of the screen 4. The sun's rays fall on the matte ring 9, the photosensitive element 6 is in the shadow, and the sensor puts the actuators in accurate tracking mode at low speed. In this 5 mode, the actuators are controlled by elements 1. In this case, the sun's rays pass through the transparent walls of the housing 5 to the mirror substrate 2, are reflected on the mirror screen 10 4 and fall on the elements 1.

The installation of an additional casing with a translucent element on the cover and the presence of a mirror screen increases the sensitivity of the sensor to 15 large disorientation angles, and multiple re-reflections of the rays between the substrate and the screen make it possible to increase the accuracy of tracking the Sun without increasing the length of the body.

Claims (3)

The invention relates to solar technology and can be used as a sensor of an automatic tracking system of a geo-equipment installation. According to the main auth. No. 759806 is known for the sensor of a late solar power plant, comprising light-sensitive elements located on the substrate and separated by non-transparent partitions, a screen mounted above the partitions, and the body made opaque at the bottom and mounted on the substrate ij. A disadvantage of the known sensor is the dependence of the accuracy of the latent Sun behind the linear dimensions (the width of the sensor body, due to the fact that when disoriented to a certain angle, the linear amount of shadow on the substrate where the photosensitive elements are located, is determined by the distance from the substrate to the screen In order to increase the accuracy of tracking, it is necessary to increase the length of the body. In addition, two photosensitive elements in each sector of the substrate and in the sensor are installed in coarse and precise modes in each known sensor. different distances from the center. The purpose of the invention is to follow the accuracy of tracking the sun. on both sides, the screen has a peripheral frosted ring on the side of the case, and the substrate and partitions are mirrored. 3 The drawing shows a sensor for tracking a solar installation. The sensor contains light-sensitive elements 1, located on a sub-spoon 2 and separated by opaque partitions 3, a screen 4 mounted above the partitions 3, and a building 5, made in the lower part opaque and installed on the substrate 2. The sensor is equipped with an additional photosensitive element 6 and a pin 7 with an opaque cover 8 mounted above the screen 4, made a mirror on both sides. Additional temperature 6 is installed on the cover 8 inside the casing 7. The screen 4 has a peripheral frosted ring 9 on the side of the casing 7. The substrate 2 and the partitions 3 are made mirror. The arrows indicate the rays of the Sun falling on the sensor at different angles of disorientation. The sensor works as follows. At high angles of disorientation, the sunbeam through the transparent wall of the casing 7 hits the mirror surface of the screen 4, reflects and hits the photosensitive element 6 affecting the tracking speed of the actuators (the solar technology unit 1 is not shown). , because they are illuminated unequally due to opaque partitions 3. At illumination of the element 6, the coarse tracking mode is carried out at high speed. Sun-oriented position, the shadow of the cover 8 approaches the edge of screen 4. The sun's rays fall on the frosted ring 9, the photosensitive element 6 is in the shade, and the sensor puts the actuators into accurate tracking at low speed. the actuators control elements 1. In this case, the sun's rays fall through the transparent walls of the housing 5 onto the mirror substrate 2, are reflected onto the mirror screen 4 and fall onto the elements 1. Installing an additional casing with translucent the element on the roof and the presence of a mirror screen increase the sensitivity of the sensor to large angles of disorientation, and multiple reflections of the rays between the substrate and the screen make it possible to increase the tracking accuracy of the Sun without increasing the length of the body. Claims of the invention 1. The tracking sensor of the solar plant according to the author. No. 759806, characterized in that, in order to increase the tracking accuracy of the Sun, the sensor is equipped with an additional photosensitive element and a casing with an opaque crack installed above the screen, the additional element being installed on the inside of the casing, and the screen is mirrored on both sides. 2. A sensor according to claim 1, characterized in that the shield on the housing side has a peripheral frosted ring. 3. The sensor pop. 1, is also distinguished by the fact that the substrate and the partitions are mirrored. Sources of information taken into account in the examination 1. USSR Author's Certificate No. 759806, cl. F 24 J 3/02, 1978.