RU9721U1 - DEVICE FOR STABILIZING ACUTE VISION - Google Patents

Abstract

1. A device for stabilizing acute vision, comprising a housing with spherical-prismatic optical elements installed in it, characterized in that it contains a biconvex lens with equal radii of curvature, a focus of 3-4 mm or an optical power of 0.25-0.33 as optical elements diopter, while it has aspherical surfaces with positive spherical aberration and eyecups installed in the center of the lens. 2. The device according to claim 1, characterized in that the eyecups in the body are mounted with the possibility of adjustment according to the width of the patient’s eyes.

Description

"Device for stabilizing acute vision

The utility model relates to medicine, namely to ophthalmology - to the stabilization of acute vision, including the first signs of myopia, as well as the correction of the first signs of congenital childhood hyperopia or astigmatism .. A method for the prevention and stabilization of myopia using bifocal sphere-prismatic glasses (BSPO) is known. They facilitate the work of the eye muscles. These are ordinary glasses that neutralize myopia, on the lower part of which are glued spherically prismatic elements (SPE). The upper zone of the lenses makes it possible to clearly see distant objects, and the lower - sphere-prismatic - to examine objects close to without tension. When looking into the distance, the visual axes of both eyes are parallel and the lenses are not strained. If the object is close to the eyes, see. The solid axes are reduced to the subject, and the lens of the eye remains more convex. The eye muscles begin to work with increased load. The closer the object is to Him, the 6ojninie the load. : - / lU

Spherical prismatic cells reduce the load on the eye mice by a .75% GFI distance to the subject of 33 centimeters, their prismatic part reduces the visual axis to the subject, and the spherical one performs the work of the wearer. The functional state of the eyes in this case is similar to distance vision, {g. “Science and life No. 1 1.1972, p.87). The above device is taken by us as a prototype ..

The disadvantages of the known method for the prevention and stabilization of myopia using bifocal sphere-prismatic glasses are the complex design and manufacturing technology, the need to manufacture sphere-prismatic elements, alignment, sticking them to the lenses, deformation of the frame during manufacture, poor quality of correction and the quality of the lenses of the elements and fit to the patient's eyes. High fatigue. The inability to use the same glasses by age. The difficulty of using glasses (BSPO) for eyes with different visual acuity, as well as for correcting astigmatism. In case of loss or breakage of glasses, visual acuity sharply decreases since they are designed to correct vision from a close distance of 30-40 cm.

The creation of a utility model is based on the task of developing a device that is simple in design and effective in use, which makes it possible to increase the stability of stabilization of visual acuity, increase visual acuity, and shorten treatment time without the use of BSPO glasses. This problem is solved using the features specified in clause 1 of the utility model formula, which reflects the characteristics of the device common with the prototype, such as a housing with spherical prism optical elements installed in it and distinctive features such as optical elements, the device contains a biconvex lens with equal RAMPKA61R9 / 00

the curvature diodes, focus 3-4 m. tinn with an optical power of 0.25 -0.33 diopters, while it has aspherical surfaces with positive spherical aberration and eyecups installed in the center of the lens. Paragraph 1 of the utility model formula describes the parameters of an optical element, namely, a biconvex lens P1 has equal radii of curvature, aspherical surfaces with positive spherical aberration, a focus of 3-4 meters or an optical power of 0.25 - 0.33 diopters. It is these parameters of the lens that make it possible to stabilize acute vision, including the first signs of myopia, and also if the first signs of congenital childhood hyperopia or astigmatism are corrected. Clause 2 of the formula of the utility model specifies the peculiarity of the location of the eyecups, namely, the eyecups in the body are installed with the possibility of adjustment according to the width of the patient's eyes. Eyecups are designed to cut off spurious rays of scattering, side objects on the optical system of the eye in sunny weather. The basic distance between the eyes in children and adults varies from 50 to 70 mm. In this regard, the device is equipped with a mechanism for adjusting the eyecups. All this enhances the efficiency and ease of use of the device.,

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The utility model is illustrated in the drawing and an example of use of FIG. a section of the proposed device is presented and a diagram of the human eye when using devices is shown; a: l- - h The device (hereinafter referred to as the device) contains a housing 1, it can have a cylindrical shape, in which a biconvex lens 2 is installed, having equal radii of curvature , aspherical surfaces with positive spherical aberration, a focus of 3-4 meters or an optical power of 0.25-0.33 Duprites. In the center of the lens 2 there are eyecups 3 mounted on the housing 1 with the possibility of adjustment along the width of the eyes of the patient 4 using the adjustment mechanism 5.

At the prophylaxis or treatment session, the patient, taking the case 1 with his hands, applies the device to the eyes 4, sets the eyecups 3 according to the Width of the eyes using the adjustment mechanism 5 and, through the eyecups 3 and lens 2, examines the ophthalmic table 6 or another text.

Example. The device is used as follows. At the session, use that ophthalmic table 6 or journal text with various letters and numbers. At a distance of 3 meters, the patient scans table 6 through the device — a biconvex lens 2 with equal radii 1 of the axis, aspherical surfaces, with positive spherical aberration, focus 3-4 meters ortic force 0.25-0.33 diopters (Fig.) within 3-5 minutes. If viewing is conducted for less than 3 minutes, then the effect of stabilizing the eyesight is not achieved, and if more than 5 minutes, eye fatigue occurs, which reduces the effectiveness of stabilizing visual acuity. Within 3-5 minutes there is an improvement in the visibility of the lines from top to bottom 2-3 rows lower. After the session, control of visual acuity is carried out and compare how many lines improved visual acuity (in meters

or diopters).

Subsequent vision control is carried out after a week and reveals a feature of visual acuity: stabilization at the same distance or improving the visibility of subsequent lower lines, including 1 unit (10 lines), 1.5 units (11 lines), 2 units (12 lines). In the second week, they control re-stabilization of visual acuity at the same distance or further improve visual acuity to 3 units. The third and fourth weeks - certification stabilization of 2-3 and even 4 units. After a month, vision improves and reaches the limit of 2-3-4 units, i.e. area of normal vision, which can be rated in points of 1 unit. up to 5 units.j.I

As a result of the use of the proposed utility model, children from 7 to 14 years old registered with the regional ophthalmological clinic with glasses + 2 +3.5 diopters restored their acute vision to 2, -2.5 units in two days.

In patients with acquired astigmatism, developing in 45-50 years., After normal vision of 1.0, astigmatism with acuity was eliminated. Vision from 0.5 to 1.6.V-V;,

Presbyopia develops intensively with the use of plus points from + 1.0 to +3.5 units. and more, which entails a decrease in visual acuity in the distance as well as with myopia. Applying this technical solution, in such patients the severity of autumn is increased in the distance and near and plus, they no longer need glasses. - v v ;, V

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Normal vision at the age of 30 to 50 children is also restored and the reserve of accommodation of the eye is increased.

Comparing the proposed device for the stabilization of acute vision with surgical methods of treatment, it should be noted that after surgery according to the method of S. Fedorov, after 5-7 years, visual acuity in the distance decreases, artificially senile myopia increases (the patient weakly sees into the distance and close at the age of 30 years) , and use of this device is prohibited due to inhibition of visual acuity in the distance. The proposed device provides an increase in visual acuity at a distance of 2-3 times in comparison with the method of S. Fedorov, without the use of glasses. This device effectively corrects the diopter difference of the eyes and evens out the increased visual acuity in the distance.

The proposed device is simple in design, does not require qualified service, specially equipped cabinets; Allows long-term use without the appearance of any negative effects.

The effectiveness of the device covers a wide range of patients, from 7 to 70 years, including not only the improvement of acuity matured from 1.0 to 23 units. with the first signs of impaired vision and proximity with presbyopia, but also, congenital astigmatism, and the first signs of senile cataract.

Claims (2)

1. A device for stabilizing acute vision, comprising a housing with spherical-prismatic optical elements installed in it, characterized in that it contains a biconvex lens with equal radii of curvature, a focus of 3-4 mm or an optical power of 0.25-0.33 as optical elements diopter, while it has aspherical surfaces with positive spherical aberration and eyecups installed in the center of the lens. 2. The device according to claim 1, characterized in that the eyecups in the body are mounted with the possibility of adjustment across the width of the patient’s eyes.