SU1364834A1 - Device for measuring optical-energetic characteristics of surface - Google Patents

Abstract

The invention relates to solar technology and allows to expand the range of operation of the device by providing control of the dustiness of the surface. The photosensitive sensors 1 and 4 are electrically connected to the recording device 3 via an amplifier 2, which is differential. The movable screen of the sensor 4 is made in the form of a shell mounted on the measured surface, seals and covers. The difference between the signals of sensors 1 and 4 is fed to the device 3. When the maximum dust content of the surface is reached, a comparator 25 is activated, which supplies a signal to the computer. As a result, it is possible to control the dustiness of the surfaces of solar power plants, to clean the solar power plants from the pier at the most optimal time, to automate the process of cleaning surfaces, which reduces the cost of their maintenance. 3 il. i (L

Description

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The invention relates to solar technology, in particular, to devices for measuring the optical-energy characteristics of a surface.

The purpose of the invention is to expand the range of operation by controlling the surface dustiness.

Fig. 1 shows an electrical circuit of a device for measuring the optical-energy characteristics of a surface; in fig. 2 - a device for controlling the dust content of a transparent fence of a solar collector; in fig. 3 - a device for controlling the dustiness of the mirror surface of the heliostat.

The device for measuring the opto-energy characteristics of the surface contains a photosensitive sensor 1 (Fig. 1) and a recording device 3 electrically connected with it through an amplifier 2.

The device is equipped with a second photosensitive sensor 4 with a movable screen 5 (figures 2 and 3). The amplifier 2 (Fig. 1) is made differential and the second sensor 4 through it is electrically connected with the recording device 3. The movable screen 5 (Figs. 2 and 3) is made in the form of a shell 6, mounted on the measured surface 7, seal 8 and cover 9 with an axis 10 having a shank 11 coupled to a solenoid 12 and a spring 13. On the axis 10, the coupling half 14 is slidably mounted abutting the spring through the spring 15 on the cap 9. The device has a bracket 16 mounted on the measured surface 7, on which fixed coupling half 17, interacting with olumuftoy 14 and loosely fitted on the axis 10. The sensors 1 and 4 are set near the measured surface 7 and depending on the type of solar may be attached to brackets 18 (presence of dust on the surface 19 7 shown in phantom).

The device also contains a balancing resistor 20, a bridge circuit 21, a load resistor 22, a zener diode 23, a resistor 24, a threshold setting for the comparator 25, made on the basis of a differential amplifier 26 and a relay 27, a power switch 28 and a coil 29 of the solenoid 12.

The device for measuring the opto-energy characteristics of the surface works as follows.

Pre-adjust the device, for which, with a clean surface 7 of the heliostat mirror (FIG. 3), power is supplied by the switch 28 (FIG. 1). The resistor 20 exhibits a zero reading of the device 3 by the signals of sensor 1 and 4, the radiation access to the latter of which is ensured by the operation of the solenoid 12

The resistor 24 sets the threshold for the comparator 25, which provides an alarm on the dustiness of the surface 7, then the power is turned off.

Dust control can be carried out automatically (for example, from a timer) or manually. At that, the solenoid 12 (FIG. 3) is turned on, which provides the rotation of the axis 10, the coupling half 14 interacts with the fixed coupling half 17 and the spring 15 pushes the cover 9 of the screen 5 away from the seal 8. The cover 9 on the axis 10 rotates and opens radiation to the sensor 4. Surface 7 under Kryshka 9 is protected from failure. The radiation to the sensor 1 enters, passing a layer of dust 19 on the surface 7.

The difference between the signals from sensors 1 and 4 through the differential amplifier 2 goes to the registering device 3. When the dust limit of the surface 7 is reached, a comparator 25 triggers, which sends a signal to the computer.

The proposed device allows controlling the dustiness of the surfaces of representative solar power plants and cleaning the solar power plants from dust in the most optimal time.

It is possible to automate the process of cleaning surfaces of solar power plants, which reduces the cost of their maintenance.

Claims (1)

Invention Formula A device for measuring the opto-energy characteristics of a surface, which contains a photosensitive sensor and a recording device connected electrically to it through an amplifier, characterized in that, in order to expand the range of operation by monitoring the surface dustiness, it is equipped with a second photosensitive sensor / J Fig.z