RU153072U1 - DEVICE FOR LASER VISION STIMULATION - Google Patents

Abstract

A device for laser stimulation of vision, containing a power source, a photoconductive medium in the form of a raster with structural inhomogeneities, which is part of the glasses, at each end of which there is a laser radiation source, characterized in that an electrochromic film is connected to the raster from the outside, to the sides of which electrodes connected to the output of an adjustable constant voltage source are connected, and a white reflective screen is installed on the outside of the electrochromic film.

Description

The utility model relates to the field of medicine, namely to ophthalmology, and can be used for laser stimulation of the muscular structure of the eye in order to increase the efficiency of the function of vision, reduce the discomfort of visual functions associated with eyestrain. This applies primarily to users of personal computers, drivers of vehicles, assemblers of small parts, jewelers, etc. The main symptoms of visual function fatigue are lacrimation, eye pain, burning, "sand" in the eyes, etc.

The therapeutic effect of exposure to laser radiation is usually associated with improved microcirculation in the vascular system of the eye, as well as direct biostimulation of cells. Specifically, this effect is expressed in increasing visual acuity, relieving spasm or tension and facilitates visual work at close range, as well as in improving the microcirculation of blood in the retina.

A known method of relieving visual fatigue during high-precision work, in which they affect the eyes with diffusely reflected radiation of a helium-neon laser (wavelength 0.63 μm) (Methodical recommendations "Removing visual fatigue in high-precision work" No. 5145-89 of the USSR Ministry of Health). The result is achieved due to the action of laser radiation on the main pathogenetic mechanisms of the development of visual fatigue.

However, the use of the method is limited by economic costs, which makes it impossible to use in industrial and domestic conditions.

Known invention (ed. Certificate. 1639625) for stimulating vision by exposing the eyes to scattered laser radiation. The device contains a low-intensity laser and a hollow ball with a diffusely reflecting surface. The ball is equipped with inlet and outlet openings, so that the optical axis of the laser crosses the surface of the solid angle of view, one of the cross-sections of which passes through the hole for the eyes. The laser beam passes into the cavity of the ball through the hole and is repeatedly reflected in it. The patient with both eyes looks through the hole into the ball for 1.5-2 minutes. At the same time, visual fatigue is removed or reduced.

The disadvantage of this invention is the complexity of the design.

Known glasses "Svetoch" (https://mir-zdorovya.com/?p=1962) are a portable device consisting of several LED light emitters mounted on the inside of the spectacle lenses of standard dark-colored safety glasses and a miniature control device. Emitters are selected from the following color range: purple, blue, green, yellow, orange, red. The disadvantage of these glasses is the LED emitters of various colors, requiring the selection of radiation powers for each patient, taking into account his psycho-emotional state.

The closest and accepted for the prototype is the "Device for laser stimulation of vision" (patent for utility model No. 133723). The device comprises a power source, at least one laser radiation source and at least one light guide medium into which the radiation of one or more laser radiation sources is introduced.

The disadvantage of this device is the formation of a constant homogenized laser radiation in a light guide medium. In addition, there is no way to adjust the power density emitted by the laser source. This drawback does not provide mobility in terms of conducting therapeutic procedures, as well as relieving tension by changing the power density in an acceptable safe interval.

The problem solved by the utility model is the creation of a device for laser vision stimulation, in which a controlled process of changing the power density of laser radiation is provided. The problem is solved due to the fact that the proposed device, as well as the known device for laser vision stimulation, contains a power source, a light-conducting medium in the form of a raster with structural inhomogeneities, at each end of which a laser radiation source is installed, but in contrast to the known devices on the back of the raster film is attached along the entire length of the raster, and electrodes are connected to the sides of the film connected to an adjustable constant voltage source.

The technical result consists in the absorption of part of the laser radiation by an electrochromic film, and the absorption is greater, the higher the optical density of the film. The optical density of the electrochromic film is determined by the magnitude of the constant electric voltage.

A block diagram of a utility model is shown in FIG. one.

The device for laser vision stimulation contains a light guide medium in the form of a raster 1 with laser sources 2 connected to the control unit 3, an electrochromic film 4 fixed to the outside of the raster 1, to which the electrodes 5 are connected, and an adjustable constant current source 6, to the output of which electrodes 5 are attached, a white reflective screen 7 is fixed on the outside of the electrochromic film 4.

The operation of the device is as follows.

When power is supplied from the control unit 3, the radiation from the laser sources 2 is introduced into the raster 1, for example, the illumination is carried out by red laser diodes with a wavelength of 650 ... 670 nm. Raster 1 on the structural heterogeneities is “colored” in red, which does not change. This radiation is characterized by a practically constant power density, with the exception of some irregularity of illumination due to structural inhomogeneities deposited on the inner surface of the raster 1. This is done so that the radiation partially exits at different angles, determined by the nature of the inhomogeneities, which are strokes and form, thus scattering system. At the same time, part of the radiation passes through another surface of the raster 1 and can be attenuated, depending on the optical density of the film 4 fixed on the outer side of the raster 1. A white reflective screen 7 is installed behind the electrochromic film 4, which increases the uniform distribution of radiation. If the electrochromic film 4 is transparent, then the radiation will pass through it, will be reflected from the white reflective screen 7 (taking into account losses) and return to the opposite surface of the raster 1, where it will form with the radiation flux that comes out due to inhomogeneities. Thus, the density of the radiation power will increase. But, if the electrochromic film 4 is darkened, then part of the radiation will be absorbed and the total output radiation flux will decrease, and, consequently, the power density will decrease. Changing the optical density of the electrochromic film 4 is achieved by applying voltage from an adjustable DC source 6 to the electrodes 5 attached to the electrochromic film 4.

Thus, it becomes possible to control the power density at the output of the raster 1 by controlling the absorbance of the excess (for therapeutic reasons) radiation power of the laser emitters by the electrochromic film.

Claims (1)

A device for laser stimulation of vision, containing a power source, a photoconductive medium in the form of a raster with structural inhomogeneities, which is part of the glasses, at each end of which there is a laser radiation source, characterized in that an electrochromic film is connected to the raster from the outside, to the sides of which electrodes connected to the output of an adjustable constant voltage source are connected, and a white reflective screen is installed on the outside of the electrochromic film.

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