RU1794700C - Anti-dazzling device - Google Patents

Description

6, an output switch 7, a liquid crystal screen 8 with electrodes forming light-scattering cells (regions) 9.

The device operates as follows.

The radiation 10 of the source 11, which has fallen into the field of vision of the photosensitive organ 12 and the optical focusing device 2, focuses on the photosensitive elements 1, forming an image of the source 11. The clock generator 4 generates control signals for the input switch 3 and the output switch 7 so that the input switch simultaneously removes the signal from the photosensitive element 1, and the output switch 7 selects (turns on) the electrodes of the liquid crystal screen 8. corresponding to it (the photosensitive element) and the signal level of the photosensitive element 1 exceeded the signal level of the reference voltage source 6. Then, a signal is transmitted from the comparator 5 to the information input of the output switch 7, through which the electrodes selected by it

the liquid crystal screen 8 is energized.

The liquid crystalline substance located between the selected electrodes under the influence of an electric field changes its structure and reduces light transmission. If the signal level of the photosensitive element 1 does not exceed the signal level of the reference voltage source 6, then no signal is supplied from the comparator 5 to the information input of the output switch 7. Therefore, the voltage of the electrodes of the liquid crystal screen 8 selected by the output switch 7 is not applied, and the light transmission of the liquid crystal cell is not reduced.

The use of this anti-glare device will allow high accuracy and reliability to obtain on the LCD screen 8 the coincidence of the light-scattering region 9 and the trace of the blinding ray, which will significantly reduce the illumination of the photosensitive organ 12 by the stream of harmful radiation 10.

Claims (1)

SUMMARY OF THE INVENTION An anti-glare device comprising photosensitive elements located in the focal plane of an optical focusing device connected to the information inputs of an input switch, the output of which is connected to one of the inputs of the comparator, the other input of which is connected to the output of the reference voltage source, and the output to the information input of the output switch, the outputs of which are connected to the electrodes of the liquid crystal screen, characterized in that, in order to increase reliability, a clock generator is provided, and the input and output switches are implemented with address inputs connected to the output of the clock generator.