RU2331402C1 - Fusion trainer - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine. Fusion trainer incorporates a pair of autonomous photo-probes and autonomous electric power supply charging device. Each of photo-probes is made in the form of supporting pole with holder handle in the base. In upper part of the supporting pole there is a viewfinder made in the form of open sight and diopter, and a kit of point polychromatic photo-targets placed in one line with sight device. Inside holder-handle there is a battery supplied with switch and contact unit for electric power supply charging device.

EFFECT: possibility to form natural fusion reflex for long and short distances, to carry out training of fusion reflex and to strengthen binocular vision acuity.

2 dwg

Description

The invention relates to medicine, specifically to ophthalmology, and is intended for the formation of a binocular fusion fusion reflex.

A device for researching fusion (fusion image combiner) is known, which includes racks and a drive (see the Sinoptofor device, Kharkov Instrument-Making Plant, 1979).

The device allows you to explore fusion (image alignment) and fusion reserves in individuals with binocular vision impairment under artificial haploscopic conditions, the presentation of two separate paintings in front of the right and left eye at extremely close distances (closer than 5 cm from the eye), i.e. the device allows to determine the quantitative characteristics of binocular vision for near, but does not allow to determine such characteristics for distance.

Known fusion diploscope (see patent for PM No. 23760).

The device includes a support column, a drive, a beam hinged on the rack with guides and measuring strips, three light sources with a rheostat, one of which is mounted on a bracket in the center of the beam, and two others are mounted on movable carriages in the beam guides. At one end of the beam is a bracket for attaching red filters.

This device is designed to determine the area of the working volume of binocular vision for near and far.

Known devices are intended, in essence, for the study of fusion and fusion reserves in persons with impaired binocular vision, they do not allow to determine the fusion reflex in the presence of natural objects at long and short distances. In addition, these devices cannot be used for treatment, training of the fusion reflex, strengthening binocular visual acuity, which is very relevant at present.

The prior art has not identified analogues and the closest analogue of the invention.

An object of the invention is to enable the formation of a natural fusion reflex for long and short distances, training the fusion reflex and strengthening binocular visual acuity.

The technical problem is achieved by the fact that a fusion simulator is developed, which includes a pair of autonomous photo probes and an autonomous power supply charger, each of the photo probes consists of a support stand with a handle-holder at the base, an aiming device made in the form of a sight and a diopter is located in the upper part of the support stand , and a set of point polychromatic photo targets placed in one line with the sighting device, a battery equipped with a switch and a contact is installed inside the handle holder nym node for the charger power supply.

The invention is illustrated by drawings, where in Fig.1 shows a common set of simulator, in Fig.2 - the design of the photoprobe.

The fusion simulator includes a right autonomous photo probe 1, a left autonomous photo probe 2, and a power supply charger 3. Photo probes 1 and 2 have the same design and each of them is a support post 4 with a handle holder 5 at the base. In the upper part of the support rack 4 is an aiming device 6, consisting of a sight and a diopter. A set of point polychromatic photo targets 7 is located along the support post 4 directly under the sighting device 6 in one line with it. Inside the holder-holder 5 there is a battery (not shown) equipped with a switch 8 and a contact unit 9 for a power supply charger 3.

The proposed simulator works as follows.

The patient selects an object directly in front of him as a distant target and puts before his eyes the right 1 and left 2 autonomous photo probes. Photo targets 7 included. The device is ready to go.

First step. The left eye is closed.

The right eye through the sighting device 6 of the right photoprobe 1 carry out aiming at a distant target. At the same time, a set of photo targets 7 on the right photo probe 1 are linearly aligned with the distant target. Open the left eye, see two targets of the photo probe - one true, combined with the right photo probe 1 with the far target, and the other phantom, which is a set of target 7 photoprobe 1 and located outside the left eye from the true target, i.e. to the right of the true set of probe targets 1.

Second step. The right eye is closed. The left eye through the sighting device 6 of the left photoprobe 2 conduct aiming at a distant photo target. At the same time, a set of photo targets 7 on the left photo probe 2 are linearly aligned with the distant photo target. They open the right eye and see two targets of the photoprobe — one true, combined with the left photoprobe 2 with the distant target, and the other phantom, which is a set of phototargets 7 of the photoprobe 2 and located outside the left eye from the true target, i.e. to the left of the true set of probe targets 2.

Third step. At the same time, the right and left eyes through the sights 6 of the right 1 and left 2 photo probes aim at the distant photo target. With proper aiming, the true image of the photo targets of the right 1 and left 2 photo probes are combined with each other in the form of one merged bright target, while phantom targets are located on the sides of the combined image: the photo target for the right eye is visible to the left of the true target, and the phantom target of the left eye is visible to the right of the true fused target.

Thus, a “trident” figure appears in the field of vision, which characterizes the refusion of fusion (fusion) of the fields of vision of both eyes in natural conditions.

The indicated actions are repeated several times during the time set for each patient during the period of one training session.

The proposed device provides the ability to form a natural fusion reflex for long and short distances.

Training with a “trident” figure allows you to strengthen and develop binocular vision in most cases of binocular vision impairment.

Thus, the proposed invention provides the possibility of forming a natural fusion reflex for long and short distances, training the fusion reflex and strengthening binocular visual acuity.

Claims (1)

A fusion simulator, including a pair of autonomous photo probes and an autonomous power supply charger, each of the photo probes is made in the form of a support stand with a handle-holder at the base, an aiming device made in the form of a sight and a diopter, and a set of point polychromatic are located in the upper part of the support stand photo targets placed in line with the sighting device, and inside the handle-holder there is a battery equipped with a switch and a contact node for the charger e power supply.

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