RU2102045C1 - Spectacles - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has rim and opaque perforated screens. Perforation is carried out as ellipses having lesser to greater diameter ratio equal to from 0.8 to 0.1. The greater axis of the ellipses is directed at different angles relative to vertical axis. The screens can optionally cover dioptric or flat glasses. The screens can be also applied in combination with light filters. When applying to persons possessing anomalous refraction, the spectacles promote increased legibility (sharpness) of observed objects image. Depth of focus is significantly increased. EFFECT: enhanced effectiveness in relieving vision fatigue; excluded ultraviolet radiation penetration and its harmful influence on retina; improved protection against dust and foreign bodies.. 5 cl, 3 dwg

Description

 The invention relates to medicine, and more specifically to ophthalmology, and can be used to correct vision with refractive errors and as a means to relieve visual fatigue.

 Known glasses company Laser.

 The disadvantages of this device include the fact that different forms of refraction anomalies require glasses with different sizes of holes in opaque screens and can be used only after individual selection, which is time-consuming. Moreover, the image obtained on the retina of the eye is not clear enough. In addition, the holes in these glasses are made through, which does not prevent ultraviolet radiation from entering the eye when used as sunscreens. In addition, it does not protect the eyes from small foreign bodies or dust.

 The technical result of the invention is to reduce the complexity when selecting diffraction glasses. Another technical result is to improve image quality and enhance the protective properties of diffraction glasses.

 The technical result is achieved in that in diffraction glasses consisting of a frame and opaque perforated screens, the perforation is made in the form of ellipses with a ratio of a smaller diameter to a larger one from 0.8 to 0.1, and the orientation of the major axis of the ellipses is located at different angles relative to the vertical axis , the screens themselves are applied to diopter or flat glass. It is also possible that screens are applied to filters, filters in combination with diopter glasses or to a polaroid base.

 Performing the perforation of the filters in the form of ellipses in combination with their orientation at different angles to the vertical axis allows the use of diffraction glasses without additional individual selection, since the eyeball selects the optimal holes in the process of adapting to new vision conditions. An increase in the ratio of a smaller diameter to a larger one more than 0.8 brings screens closer in properties to screens with round perforation, in which image quality deteriorates and again there is a need for special selection of glasses individually. Reducing this ratio to less than 0.1 also degrades the quality of the resulting image. The application of screens on diopter glasses expands the possibilities of using diffraction glasses for refractive errors of a high degree, when a single diffraction effect is not able to compensate for the necessary optical power. The use of flat glasses and light filters for applying perforated screens to them gives the diffraction goggles protective properties against dust and sunlight, in particular from ultraviolet radiation. When applying screens with perforations on the polaroid base, image quality is also improved.

 A description of the device is illustrated in FIG. thirteen.

 Diffraction glasses 1, consist of a frame 2 and opaque perforated screens 3, the perforation 4 of which is made in the form of ellipses with a ratio of a smaller diameter to a larger one from 0.8 to 0.1, and the orientation of the major axis of the ellipses is located at different angles relative to the vertical axis (Fig. .2), the screens 3 themselves are applied to diopter or flat glasses 4. A variant (Fig. 3) is also possible, in which the screens are applied to filters 5, filters in combination with diopter glasses 6 or to a polaroid base 7.

 Work with the device as follows.

 Glasses are worn by the patient in the usual way on the face. After that, within 10 minutes, the patient adapts to new conditions of visual perception, decrease in brightness and a change in the number of aberrations. When glasses are used in individuals with refractive errors, the clarity ("sharpness") of the image of the observed objects increases. Depth of field significantly increased. Fatigue is reduced during visual stress or in high-light conditions. UV rays are prevented from reaching the retina. Glasses also protect against dust and small foreign bodies.

Claims (5)

 1. Glasses, consisting of a frame and opaque perforated screens, characterized in that the perforation is made in the form of ellipses with a ratio of a smaller diameter to a larger one from 0.8 to 0.1, and the orientation of the major axis of the ellipses is located at different angles relative to the vertical axis.  2. Glasses according to claim 1, characterized in that they are equipped with diopter glasses, and the screens are applied to said glasses.  3. Glasses according to claim 1, characterized in that they are equipped with flat glasses, and the screens are applied to said glasses.  4. Glasses according to claim 1, characterized in that they are equipped with light filters, and the screens are applied to them.  5. Glasses according to claims 1, 3 and 4, characterized in that the screens are applied to the filters in combination with diopter glasses.

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