RU204476U1 - FRAME FOR COMPUTER ACCOMODOGRAPHY - Google Patents

Abstract

The utility model relates to medicine, namely to ophthalmology, and can be used for computerized accommodation. The essence of the utility model is that the frame for computerized accommodation contains a frame with two lens holders, a nose pad and temples, characterized by the fact that contour shading made of opaque material in the space between the frame and the lens holder. 3 ill.

Description

The useful model relates to medicine, namely to ophthalmology, and is intended for computerized accommodation.

The closest in technical essence and the achieved result is a universal frame for the selection of glasses (L.S. Urmakher, L.N. temples. The design of the frame allows you to install a clip of trial corrective lenses and carry out measuring studies in the process of computer accommodation.

Without diminishing the advantages of the known frame, taken as a prototype, it should be noted a large error in the process of computer accommodation by the influence of peripheral visual stimuli, which occurs due to open spaces in the frame structure between the frame in contact with the patient's head and the lens holder.

The technical result, which the creation of this useful model is aimed at, is to increase the accuracy of computer accommodation by reducing the flow of peripheral visual stimuli into the patient's eyes.

The stated technical result is achieved by the fact that in the frame for carrying out computer accommodation, containing a frame with two lens holders, a nose pad and temples, a contour darkening from an opaque material is introduced in the space between the frame and the lens holder.

FIG. 1, fig. 2, fig. 3 shows the proposed frame. The frame for computer accommodation includes two lens holders 1, frame 2, nosepiece 3, temples 5, the space between the lens holder and the frame is filled with opaque material 4.

Conducting a computer accommodation is as follows. Measure the refraction of the eye is measured alternately one, then the other eye in natural light, twice in spectacle correction and without spectacle correction. The patient is fitted with a frame for computed accommodation with trial spectacle lenses and the accommodative response to the presented stimuli of each eye is assessed separately using a Speedy-K Righton automatic autorefractometer (Canon, Japan). Examination time for one eye takes 120 seconds. The break between examinations of one eye and the other is 15 minutes. The obtained computer histograms analyze and calculate the indicators of the accommodative response (the coefficient of the accommodative response (ACR), the coefficient of growth of the accommodation (CD), the coefficient of microfluctuations of the CMF (Zharov V.V. et al., 2007).

The advantages of the proposed useful model are that the influence of distracting visual stimuli on accommodation is eliminated, which increases the accuracy of measuring the indicators of the accommodative response.

Claims (1)

A frame for computer accommodation, containing a frame with two lens holders, a nose pad and temples, characterized in that a contour darkening from an opaque material is introduced into it in the space between the frame and the lens holder.

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