UA16978U - Optical device for protecting eyes - Google Patents

Abstract

The proposed optical device for protecting eyes is designed as an optical filter with a lens. The light transmission coefficient of the lens is 7 % within one marginal zone of the lens and 80 ... 95 % within the other zone. The intermediate zone starts at a distance from the edge of the lens that isequal to one-third part of the lens. The area of the intermediate zone does not exceed one-third part of the lens area.

Description

Description of the invention

The useful model belongs to optics, in particular to glasses designed to protect human eyes from 2 differences in the intensity of optical radiation in a large range, in particular, to protect the eye with frequent changes in brightness, as well as from blinding lighting by the headlights of oncoming traffic in the dark.

At the current stage of the development of optics, glasses are widely used to protect human eyes from powerful light sources, the glass of which is made of smoky, blue-gray or greenish-gray color 70 Yediv.: Popular medical encyclopedia. - Ed. 7th, stereotypical. - Moscow: Soviet Encyclopedia, 1969. - P.568-570).

The disadvantage of the known technical solution is that it is practically unsuitable for preventing the blinding of the driver of a moving vehicle in the dark.

Another way of combating the blinding effect of headlights is physical action on the light flux 12 directly near the driver's eyes. For example, creating a device that protects the driver's eyes from direct headlights.

The design of anti-glare glasses on a liquid crystal is known (ZO 1413577 1988). The principle of operation of which consists in the fact that under the action of the photocurrent coming from the source of glare, the liquid crystal darkens in the corresponding narrow strip, which shields direct rays from the headlights. In this case, the darkened stripes are dynamic in nature and appear only in the necessary area of the driver's field of vision, depending on the number of blinding sources.

The disadvantage of this device is the very complex design of the glasses and the need for an additional power source. In addition, this device is very inertial with respect to the activation time.

As the closest analog of a useful model, an optical element for eye protection is taken, described in patent O5 5975695), which is a light filter, the light transmission coefficient of which increases from one edge to the opposite. It has a clearly pronounced sharp transition from a section with a lower coefficient of light transmission to a section with a higher coefficient of light transmission, forming a transition line of transmittance at the border. The light filter is monochrome. The area with greater light transmission does not exceed 80905, and the transition line of transmittance runs in the middle.

The disadvantage of this device is that the sharp transition does not reduce the time of dark or light adaptation of the eyes, which increases their stress. In a monochrome light filter, there is no neutralization of the unfavorable part - the radiation range, namely, in blue-violet.

The creation of a useful model is based on the task of developing an optical element for eye protection, in which, by changing the parameters of light transmission across the entire plane of the light filter and creating opportunities to transfer the central line of sight from one area to another through the transition zone of light transmission, a reduction in the tension of the adaptation mechanisms of the eye is achieved. normal operation of photochemical processes on the retina of the eye is ensured with frequent changes in brightness and increased loads during tempo and light adaptation. In addition, the optical element has an additional technical result, namely, it allows prevention "

The task is solved by the fact that the optical element for eye protection is a light filter, the light transmission coefficient of which increases from one edge to the opposite, according to a useful model, the light filter is polychrome, the light transmission coefficient in one part of the lens does not exceed 795, and in

From" the other part is in the range of 80-9595, the transition zone between these parts of the light filter begins at the level of the third part of the lens and does not exceed a third of the total area of the optical element.

Figure 1 shows an optical element on the background of the eye, where 1 is a zone of an optical element with a low coefficient of light transmission, 2 is a zone of an optical element with a high coefficient of light transmission, C is a transition zone, and 4 is the pupil of the eye.

Gee! An optical element is made as follows. A colorless lens is immersed in a hot aqueous solution of a light-filtering composition of organic dyes. The lens can be made both zero and optical. At the same time, the first layer of light-filtering compositions is applied, which provides 9095 reflection of ultraviolet and 20 radiation, especially in the range of 288-290 nm, absorbs the visible spectrum of optical radiation in the blue-violet region in the range of 400-50 Ohm, and provides chromatic transmittance in the range of 560-58 Ohm . Then, similarly, a second layer of light-filtering paint is applied, which corrects the visible area of optical radiation only in the upper third of the optical element in the range of 480-5 bOhm, and with a light transmission coefficient of 3-79. After that, reducing the immersion time of the lens, darken the transition zone to 25 light transmission coefficient 50-6095. The lower zone of the optical element remains unchanged with a light penetration coefficient of 80-9590.

During the patient's optometry, the finished optical element is installed in such a way that the upper part of the lens, which has a low light transmission coefficient, was on the upper edge of the pupil. The use of an optical element is possible in glasses, masks or protective individual screens. 60 optical element is used as follows. To protect the eyes from intense lighting by tilting the head by 12-15 degrees, the direction of vision is transferred from the zone with a high coefficient of light transmission to the zone with a low coefficient of light transmission gradually through the transition zone, which ensures a smooth inertial transition of perception, reducing the load on the macular region of the retina, gives time for the eye to adapt to a change in the intensity of the light flux, which provides light and dark adaptation of the eye. All this ensures an increase in visual acuity, the function of contrast sensitivity of the eye, as well as prevention of the development of macular dystrophy and degenerative changes in the central and peripheral part of the retina.

Claims (1)

The formula of the invention An optical element for eye protection, which is a light filter, the light transmission coefficient of which increases from one edge to the opposite, which is distinguished by the fact that the light filter is made of polychrome, the light transmission coefficient in one part of the lens does not exceed 7905, and in the other part it is within 70 80-9595, the transition zone between these parts of the light filter begins at the level of the third part of the lens and does not exceed a third of the total area of the optical element. that 2 (ee) u (o) (Se) yo - and? - (o) se) -i IR e) 60 b5