RU2036496C1 - Anti-glare glasses - Google Patents

Abstract

FIELD: optics. SUBSTANCE: anti-glare glasses have eye-pieces made of two glass substrates provided with two vertical and horizontal transparent electrodes applied onto the substrates. There is a liquid crystal layer between the electrodes. The electrodes are connected with light-sensitive linear arrays through control units. The cylindrical lenses are mounted vertically and horizontally correspondingly in front of the linear arrays. Light from car lights is focused onto parts of light-sensitive linear arrays which turn corresponding horizontal and vertical electrodes through control units. Liquid crystal between them is darkened creating darkened spot onto pupil of the eye. EFFECT: improved efficiency. 3 cl, 6 dwg

Description

 The invention relates to anti-glare devices designed to protect the eyes of drivers of vehicles in the production of welding, as sunglasses.

 The aim of the invention is to create a shadow spot on the pupil when the oncoming light flux.

 In FIG. 1 and 3 depict a diagram of the eyepiece; figure 2 and 4 of the eyepiece in section; 5 and 6 are a diagram of a matrix of photosensitive cells.

 Known glasses for protection against glare [1] containing eyepieces, retroreflective reflectors, a line of photoconductors, a power source.

 Glasses [1] were selected for the prototype; their disadvantages include: a complex system of the passage of light flux to the line of photodetectors, dimming in the form of strips along the entire height of the eyepiece occupies the useful area of the eyepiece.

 Three variants of the invention are proposed.

 Option 1.

 The essence of the invention lies in the fact that the luminous flux is focused by two cylindrical lenses in the form of light strips on the lines of photosensitive elements, with one lens and a ruler standing behind it, located horizontally, and the other lens and ruler vertically. Each element of the line is electrically connected through the control unit with the corresponding transparent electrode.

 The glasses consist of two eyepieces, including (Fig. 2) the outer 1 and inner 2 glass transparent substrates with transparent electrodes 3 and 4 deposited on them in the form of strips, with the electrodes on the substrate 1 vertically and horizontally on the substrate 2 , a layer of liquid crystals 5 between the substrates, the light-responsive device is made of two cylindrical lenses 6 and 7 located horizontally and vertically in the same plane, behind them there are lines of photosensitive elements 8 and 9 at a distance of the focus of the lenses, than the rulers are semicircular behind the lenses. Each element of the line 8 and 9 is connected through the control nodes 10 and 11 with the corresponding transparent electrodes 3 and 4.

 Points work as follows.

 The light flux passing through the lenses 6 and 7 is focused in the form of light strips on the corresponding sections of the lines 8 and 9 of the photosensitive elements, the signal from the irradiated elements is detected by the control nodes 10 and 11, which include the transparent electrodes 3 and 4 associated with them. Each crystal 5 darkens at the intersection of the included transparent electrodes. Spots appear on the eyepieces that create a shadow on the pupil of the eye, and structurally the light receiving device and eyepiece of the glasses are made so that, when paired, the shadow created on the pupil when the light flux appears does not move anywhere, regardless of the displacement of the light source and the darkened spot on the eyepiece.

 Option 2

 In contrast to option 1, the light-recording device of the light-protective glasses (Fig. 3) consists of a short-focusing collecting lens 12, an array 13 of photosensitive cells that are connected so that they form vertical and horizontal elements. Elements through the control lenses 10 and 11 are connected to the corresponding transparent electrodes 3 and 4.

 Points work as follows.

 The luminous flux (Fig. 3) is focused by a collecting lens 12 in the form of a light spot on the matrix 13 of photosensitive cells, and since the cells are connected in vertical and horizontal elements, the signal obtained from the action of the light spot from the matrix 13 through the control nodes 10 and 11 includes the corresponding vertical and horizontal transparent electrodes 3 and 4, between which there is a darkening of the area of the liquid crystal 5, which obscures the rays going to the pupil. When the light source is shifted to the side, the focused light spot is shifted to another part of the matrix 13, respectively, other transparent electrodes 3 and 4 are turned on and the layer of liquid crystals 3 is darkened between the transparent electrodes. Structurally, the light-recording device and eyepieces work in pairs, create a shadow on the pupil when the light flux appears, regardless of the angle of exposure to the light flux and the amount of light source.

 Option 3

 In contrast to options 1 and 2, the cells made of liquid crystals 5 (FIG. 4) are made in the eyepiece and connected through the control unit to the corresponding photosensitive cells of the matrix 14.

 Points work as follows.

 The luminous flux is focused by a collecting short-focus lens 12 in the form of a light spot on the matrix 14 of photosensitive cells. The signal from the cells affected by the light spot is registered by the nodes 10 and 11, which act on the corresponding cells of the liquid crystals 5, which darken and impede the passage of light, creating a shadow on the pupil. With several light sources, everything is registered by the light receiving device, and the corresponding liquid crystal cells are switched on via the control units 6.

 Thus, anti-glare glasses protect the eyes, improve the viewing conditions with oncoming light sources, which is very important for drivers of vehicles.

Claims (3)

 1. ANTI-BLINDING GLASSES containing a frame, eyepieces, transparent electrodes located on two parallel substrates, between which a layer of liquid crystals is placed, a line of photosensitive elements, a power source, characterized in that a second line of photosensitive elements is introduced into the glasses, perpendicular to the first, and two cylindrical lenses located in one plane perpendicular to one another, while both rulers are located behind the cylindrical lenses at a distance of the focus of the lenses and are made in the form of cyl surface, and the transparent electrodes located on one substrate are perpendicular to the transparent electrodes located on another substrate and connected through control nodes to the photosensitive elements of the corresponding line.  2. Anti-glare glasses containing a frame, eyepieces, transparent electrodes located on two parallel substrates, a liquid crystal, photosensitive elements and a power source, characterized in that each photosensitive element is made in the form of a matrix of individual cells interconnected perpendicular to each other , a short-focus collecting lens placed in front of the matrix at a distance of its focus is additionally introduced into the glasses, and transparent electrodes located on the same substrate are perpendicular to transparent electrodes located on another substrate, and are connected through control nodes with photosensitive elements of the corresponding line.  3. Anti-glare glasses containing a frame, eyepieces, transparent electrodes located on two parallel substrates, a liquid crystal, a line of photosensitive elements, a power source, characterized in that each photosensitive element is made in the form of a matrix of individual cells interconnected perpendicularly to one another, a short-focusing collecting lens placed in front of the matrix at a distance of its focus is additionally introduced into the glasses, and the liquid crystal is also made in the form of a matrix of individual cells, each of which is connected to the corresponding cell of the matrix of the photosensitive element through the control nodes.

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