RU2032196C1 - Antiblinding device - Google Patents

Abstract

FIELD: automotive transport, electric arc welding. SUBSTANCE: antiblinding device has groups of optical sensors 1 and 2, optical focusing devices 3 and 4, input switch 5, comparator 6, reference signal source 7, output switch 8, control signal shaper 9 and liquid crystal screen 10. EFFECT: enlarged operating capabilities. 1 dwg

Description

 The invention is used in devices experiencing illumination by harmful radiation in an unpredictable way, for example, in cars at night or in electric welding equipment. The preferred area of application is transport and electric welding equipment.

 Known devices that protect the eyes of the driver from lighting with headlights of oncoming cars. The most common type of shield devices are those in which translucent or opaque elements are placed between the radiation source and the organs of vision. In some cases, the protective elements are in the form of liquid crystal screens. The technical literature mentions the use of liquid crystals to create anti-glare filters on a car windshield and rear-view mirrors (Dyakov A. B. Night traffic safety of a car. M: Transport, p. 155).

 However, in this device, anti-glare filters are made with only one pair of electrodes and occupy a large place in the driver’s field of view in the mode of light scattering. The need for this is explained by the desire to protect the organs of vision from lighting at different positions of the headlights of oncoming cars, but this leads to the fact that the anti-glare filters scatter light from low-illuminated objects that are also in the driver's field of vision, and they become less noticeable or cease to be noticeable to the eyes the driver.

 Closest to the proposed one is an anti-glare device that contains elements located in the image field of the optical focusing photosensitivity device connected to the information inputs of the 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 the input of the output switch, the outputs of which are connected to the electrodes of the liquid crystal screen, while the input and output switching The tori are made with address inputs connected to the output of the clock generator.

 However, in such a device, from one source of harmful radiation on the liquid crystal screen, only one region with reduced light transmission can be created, i.e. if the device is used on a vehicle and the dimensions of the light-scattering region are comparable to the size of the track mark on the screen from a blinding beam, then it will protect only one eye of the driver from blinding, which does not completely solve the problem. If the sizes of the light-scattering region are such that it includes traces of both blinding rays on the liquid crystal screen, then the efficiency of using this light-scattering region will be low and will be less than 3%.

 The aim of the invention is to increase the efficiency of dispersion of the radiation stream.

 The goal is achieved by the fact that the device contains photosensitive elements located in the image field of the optical focusing device connected to the information inputs of the 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 reference signal 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, while the address inputs of the input and output switch are connected to the output of the ator control signal, wherein it is further provided with at least one optical focusing device positioned with its field of photosensitive picture elements connected to the data inputs of the input switch in parallel or in series available photosensitive elements.

 A significant difference between this anti-glare device and the known ones is the inclusion in the circuit of an additional group of photosensitive elements, with the help of which an additional light-scattering region is created on the existing liquid crystal screen.

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

 The anti-glare device contains a group of photosensitive elements (sensors) 1 and 2, optical focusing devices 3 and 4, an input switch 5, a comparator 6, a reference signal source 7, an output switch 8, a control signal driver 9 and a liquid crystal screen 10.

 The device operates as follows.

 The radiation 11 of the source 12, which has fallen into the field of view of the photosensitive organs 13 and 14 and optical focusing devices 3 and 4, focuses on the photosensitive elements belonging to the groups of sensors 1 and 2, forming images of the source 12 on them.

 Shaper 9 of the control signal generates control signals for the information inputs of the input and outputs of the output switches. The sensors are connected to the input switch in such a way that for each information input of the input switch there are two photosensitive elements belonging to different groups of sensors. The arrangement of the sensors in groups is similar to each other and similar to the location of the cells of the liquid crystal screen 10. As a result of sequential polling of the state of the pairs of sensors at the output of the input switch, signals are generated whose levels are the sum of the signal levels of two photosensitive elements. The signal level of the reference signal source 7 is set so that it is lower than the signal level taken from at least one illuminated sensor, i.e. the output switch 8 supplies voltage to the electrodes of the liquid crystal screen if at least one of the sensors corresponding to it is illuminated, and even more so, voltage is supplied if both of the sensors corresponding to it are illuminated. The selection of the electrodes of the liquid crystal screen 10, to which voltage is supplied, is carried out by the switch 8 according to the data received from the driver 9 of the control signal. The liquid crystal substance located between the electrodes, to which the switch 8 is supplied, under the influence of an electric field, changes its structure and reduces light transmission.

 If the signal value at the output of the input switch did not exceed the value of the reference signal, then a signal is supplied from the output of the comparator 6 to the information input of the switch 8, through which voltage is not applied to the electrodes of the liquid crystal screen 10 and the light transmission through regions 15 or 16 is not reduced.

 When the source 12 changes its location relative to the optical focusing devices 3 and 4, the position of its images on the photosensitive elements belonging to the groups of sensors 1 and 2 changes. During the next cycle of polling the state of the photosensitive elements, new positions of the images of the source 12 are registered and the switch 8 supplies voltage to those electrodes liquid crystal screen 10, which correspond to the new position of the image source 12.

 The use of this anti-glare device allows you to get on the LCD screen two light-scattering areas, each of which coincides with one of the traces of rays passing from the source 12 to the photosensitive organs 13 and 14.

Claims (1)

 ANTI-BLINDING DEVICE containing photosensitive elements located in the image field of the optical focusing device connected to the information inputs of the 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 reference signal source, and the output to the information input of the output switch, the outputs of which connected to the electrodes of the liquid crystal screen, while the address inputs of the input and output switches are connected to the output of the For the control signal, characterized in that, in order to increase the efficiency of dispersion of the radiation flux, it is additionally equipped with at least one optical focusing device with photosensitive elements located in its image field connected to the information inputs of the input switch in parallel or sequentially with photosensitive elements.