SU1671489A1 - Antiglare device - Google Patents

Abstract

This invention relates to devices that experience short-term illumination with harmful radiation according to unpredictable law. The purpose of the invention is to disperse a flow of harmful radiation. The antidazzle device comprises a block 1 comprising photosensitive elements 2 arranged matrixally in the focal plane of the optical focusing system 3, a control unit 4 including an input switch 5, a comparator 6, a basic signal generator 7, an amplifier 8, an output switch 9 and a screen 10 of a liquid crystal display consisting of matrix-arranged electrodes 11. 1 sludge.

Description

The invention relates to devices experiencing short-term illumination by harmful radiation according to an unpredictable law, for example, a car in the dark. ί

The purpose of the invention is the dispersion of the stream of harmful radiation.

The drawing shows a functional diagram of an anti-glare device. 1

The anti-glare device contains a block 1, containing photosensitive elements 2, located matrixically in the focal plane of the optical focusing device 3, control system 4, including an input switch 5, a comparator 6, a reference signal source 7, an amplifier 8 and an output switch 9, a liquid crystal screen 10, consisting of matrix-spaced 2 electrodes 11.

Anti-glare device operates as follows.

The light 12 of the source 13, which has fallen into the field of view of the photosensitive organ 14 and 2 of the block 1, passes through the focusing device 3 and enters one or more photocells 2, generating an electrical signal, which is transmitted to the control system 4. The signal received by input 3 of the switch 5 is transmitted through an amplifier 8 to one of the inputs of the comparator 6, the other input of which receives a signal from the source 7 of the reference signal. In comparator 6, the values of both signals 3 are compared. If the value of the signal from amplifier 8 exceeds the value of the reference signal, then from the comparator 6 the signal is fed to the output switch 9 and then to the electrode 11 of the liquid crystal screen 10, changing the structure of the liquid crystal material and reducing the light transmission in the region covered by this electrode 11 . If the magnitude of the signal coming from amplifier 8. does not exceed 4 the magnitude of the reference signal, then no signal is supplied from the comparator 6 to the output switch 9, and the light transmission is not clear in the region covered by the electrode 11 is getting lost.

When the harmful radiation source 13 moves in the space, the> angle φ between the incident beam and the main optical axis 15 changes, which leads to a shift of the focus point of the rays 12 from the previously illuminated photocell 2 to the neighboring one, from which the electric signal is supplied through the control system 4 to the electrode, located next to the previously diffusing region 11 of the liquid crystal screen 10. In the event that the source 13 of harmful radiation comes out of the field of view of unit 1 and the photosensitive body 14, photocells 2 are electric signals s do not generate and the liquid crystal screen 10, the light transmittance is not reduced.

Device setup, i.e. the combination of 0 on the liquid crystal screen 10 of region 11 with a trace of a beam passing through this screen and blinding the photosensitive organ 14 is made by changing the orientation in space 5 of the main optical axis 15.

Claims (1)

Claim An anti-glare device containing a liquid crystal display screen with electrodes and photosensitive elements, characterized in that, in order to disperse the stream of harmful radiation, it is equipped with an optical focusing device and a control system including input and 5 output switches, a comparator, an amplifier, a reference source signal, while the input of the input switch is connected to photosensitive elements, and the output is to the input of the amplifier, the output of which is connected 0 to one of the inputs of the comparator, the input of which is connected to the source of the reference signal, and the output is to the input of the output switch, the output of which is connected to the electrodes of the LCD screen, while the photosensitive elements are located in the focal plane of the optical focusing device.