RU6247U1 - CORRECTIVE OPTICAL MASK - Google Patents

Abstract

1. A corrective optical mask made of an opaque material with many transparent zones with increasing diameter of the transparent zones from the center to the edges of the mask and decreasing from the center to the edges of the mask, the distance between the centers of adjacent transparent zones, characterized in that the transparent zones are arranged in a honeycomb order, diameter transparent zones 0.55 - 1.3 mm, and the distance between the centers of neighboring transparent zones 3.95 - 1.3 mm. 2. The mask according to claim 1, characterized in that the transparent zones are made hexagonal.

Description

The utility model relates to spectacle optics and can be used both in lensless and lens glasses.

Known corrective optical masks made of an opaque material with many transparent zones / 1 /.

However, such a corrective optical mask absorbs a large part of the luminous flux, and where the distance to the eye is greater, the loss of luminous flux is even greater, which creates a darkening effect at large viewing angles.

The closest technical solution is a corrective optical mask made of an opaque material with many transparent zones with increasing diameter of the transparent zones from the center to the edges of the mask and decreasing from the center to the edges of the mask, the distance between the centers of adjacent transparent zones

But even this corrective optical mask absorbs most of the light flux, and the compensation for increasing the distance to the eye by increasing the diameter of the holes at the edges does not completely compensate for the dimming effect at large viewing angles.

The technical problem solved in the proposed utility model is to reduce the dimming effect at large viewing angles and increase the luminous flux entering the eyes.

To solve this problem, we use a corrective optical mask made of an opaque material with many transparent zones, with a diameter of transparent zones increasing from the center to the edges of the mask and decreasing from the center to the edges of the mask, the distance between the centers of neighboring transparent zones, the transparent zones are arranged in a honeycomb order, diameter transparent zones is 0.55 - 1.3 mm, and the distance between the centers of neighboring transparent zones is 3.95 - 1.3 mm.

At the same time, transparent zones are made hexagonal.

Figure 1 shows a drawing of a corrective optical mask.

Figure 2 shows a drawing of a fragment of a corrective optical mask with round transparent zones.

FIG. 3 is a drawing of a fragment of a corrective optical mask with hexagonal transparent zones.

The corrective optical mask 1, contains transparent zones 2 with a diameter D and mounting holes 3, R is the distance between the centers of adjacent transparent zones. Transparent zones 2 can be round (FIG. 2) or hexagonal (FIG. 3).

The device operates as follows.

laid in a honeycomb order, the diameter D of which increases from 0.55 mm in the center to 1.3 mm at the edges of the mask, and the distance R between the centers of adjacent transparent zones decreases from 3.95 mm in the center to 1.3 mm at the edges of the mask, which increases contrast and improves focusing. Moreover, in those parts of the mask where the distance from the eyes to the mask is the greatest, the light flux passing through the mask is also greater, which keeps the level of effective light transmission at different angles of view constant and creates comfortable conditions when using a corrective optical mask.

The transparent zones may be circular as shown in FIG. 2 or, to increase the passage of light through the mask in some cases of its use - hexagonal (Fig.Z).

The corrective optical mask can be made of an opaque material, for example blackened metal, dark medical plastic, film, etc., and can be applied in various ways, for example by spraying, in the form of a thin film on the glasses.

Sources of information taken into account.

1.US Patent No. 4012129, CL 351-46, published. 1977.

2. U.S. Patent No. 4,249,803, cl. 351-46, published. 1981.

Claims (2)

1. A corrective optical mask made of an opaque material with many transparent zones with increasing diameter of the transparent zones from the center to the edges of the mask and decreasing from the center to the edges of the mask, the distance between the centers of adjacent transparent zones, characterized in that the transparent zones are arranged in a honeycomb order, diameter transparent zones 0.55 - 1.3 mm, and the distance between the centers of neighboring transparent zones 3.95 - 1.3 mm. 2. The mask according to claim 1, characterized in that the transparent zones are made hexagonal.