RU2372835C2 - Ophtalmological measuring device - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to ophthalmology. Device contains set of sights representing opaque screens of circular shape corresponding to form of sites for lens holders and corresponding distance between screens. Screens are made with vertical transparent slots. Distances between centres of slots in each sight of the set are different.

EFFECT: application of claimed device allows to increase accuracy of measurement of distance between axes of spectacles lenses and avoid unpleasant consequences for patients' eyes.

2 cl, 5 dwg

Description

The invention relates to ophthalmology, in particular to devices designed to determine the required distance between the axes of the lenses of glasses. The invention can be used in the selection of the necessary parameters for glasses for close and far distances.

An ophthalmic measuring device is known (USSR author's certificate 1572499, А61В 3/10, 1990) for measuring the interpupillary distance, containing a measuring ruler and a measuring element moving along it with mounted sighting devices. The disadvantage of this device is that during measurement, the vizors are pressed to the eyes, a distant light source is observed, moving the measuring element horizontally and swinging it, combine the holes of the vizier. At the same time, the device is in the hands, and this makes it difficult to achieve coaxial coincidence of the image of a circle, a cross and a distant light source.

A device is also known for determining the distance between the pupils of the eyes (USSR author's certificate 957854, A61B 3/10, 1982), containing a sighting device, a scale bar for counting the distance. The disadvantage of this device is the design complexity.

A common drawback of the described devices is that the distance between the pupils is determined, and not the necessary distance between the axes of the lenses when selecting glasses. Figure 1 illustrates a possible error in measuring distance. Taking into account the fact that the eye during the movement of the pupil while viewing distant and close objects rotates around its fixed center, therefore, the line of sight must be drawn through the center of the eye and the center of the pupil. Take approximately the distance from the center of the eye to the lens of 7 L3 glasses, for example, equal to 25 mm, the distance to the nearest objects 8 L4 equal to 300 mm, the distance between the pupils of the eyes when observing distant objects L2 is 65 mm. From relation (1) we find L5:

The required distance for L1 glasses will be:

This is an example of calculating the required distance for near - 60 mm. It varies significantly with the distance for distance - 65 mm.

The aim of the invention is to simplify the design of the device and the manufacturability of the application when determining the required distance between the axes of the lenses of glasses (hereinafter referred to as distances). The present invention will improve the accuracy of distance measurement, especially for close proximity, and to avoid unpleasant consequences for the eyes of patients.

An ophthalmic measuring device is proposed comprising a set of sights, an example of one of which is shown in FIG. 2. The sight consists of two screens 1 connected by a jumper 2. Opaque screens have vertical transparent slots 3 and are made of one sheet material with a jumper 2. On the jumper connecting the screens, the distance between the centers of the slots is indicated. The use of ophthalmic measuring devices is provided in ophthalmological clinics and ophthalmologist's offices in clinics in combination with lens holders for selecting glasses. Therefore, the sizes L and D indicated in FIG. 2 must be equal to the corresponding sizes of the lens holders. Sights having slots, unlike sights with round holes, can eliminate the swaying of the sights to align the visible holes vertically.

In order to reduce the number of sights in the set, it is possible to place two or more pairs of slots with different distances between them on each sights. The ophthalmic measuring device according to claim 2 of the formula is shown, as an example, in FIG. 3 and contains screens 1 connected by a jumper 2. The pairs of slots 4-4, 5-5 and 6-6 on the taps have different distances and are spaced vertically. On the jumpers connecting the vizors, the distances between the centers of the slots are indicated according to their location. For example, the use of sights with three pairs of slots will reduce the number of sights by three times.

Ophthalmic measuring device is used as follows. Determining the required distance between the axes of the lenses of the glasses is to select the sights. To do this, use lens holders available in ophthalmic rooms. The sight is installed in the lens holder, and when the left and right eyes are closed alternately, the patient should see fields A1 and A2 on subject 8. This is illustrated in figure 4, when the edges of the fields do not match. By the method of selecting the sights, it is necessary to ensure that the visible fields A1 and A2 and the edges of the fields coincide in accordance with Fig. 5. If the fields coincide when the patient looked at an object close, this distance on the reticle is used to score points for the near. Similar measurements are made when determining the distance for the distance.

The manufacture of kits that complete ophthalmological measuring devices is possible from opaque flat materials, as well as transparent materials, but an opaque layer with slots and slits and corresponding marking are applied to the material. The dimensions of the devices D and L, shown in figure 2, must correspond to the sizes of the lens holders, which are equipped with ophthalmic rooms.

List of drawings

Figure 1. Sighting scheme for near and far.

Figure 2. The sight of the ophthalmic measuring device according to claim 1 of the formula.

Figure 3. Variant of an ophthalmic measuring device sight according to claim 2 of the formula.

Figure 4. Sighting scheme when visible fields do not match.

Figure 5. Sighting scheme when visible fields match.

Claims (2)

1. An ophthalmic measuring device containing a set of visors, characterized in that the device is made in the form of a set of visors, which are opaque round-shaped screens corresponding to the shape of the lens holder seats and the corresponding distance between the screens, the screens are made with vertical transparent slots, while the distances between The centers of the slits in each sight of the set are different. 2. The ophthalmic measuring device according to claim 1, characterized in that on the screens of the sights are made of two or more pairs of slots with different distances, while the pairs of slots are spaced vertically.

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