RU2005455C1 - Device for increase of eye resolution capacity - Google Patents

Abstract

FIELD: medical devices. SUBSTANCE: device has projection screen, test object, color filters, light source with brightness adjustment. Two additional light sources with variable brightness are introduced to accomplish the goal of invention. Color filters are positioned before screen movably. Unit for brightness adjustment of light sources is made as remote control panel. EFFECT: increased functional capabilities. 3 dwg

Description

 The invention relates to medicine, namely to ophthalmology, in particular to devices for training visual functions.

 The closest in technical essence is a device for increasing the distinguishing ability of the eye, containing a projection screen, a test object, color filters and a light source with a device for regulating the brightness of the screen.

 A disadvantage of the known device is that it does not allow with a sufficient degree of accuracy to individualize the level of illumination for training. Training does not allow retinal photoreceptors to be stimulated, since a long-acting source of hyperlight is not provided. The device can be used for training only in the near vision zone, while training in all visual working areas is necessary to obtain a lasting effect of increasing visual acuity.

 The invention allows for comprehensive training by acting on the neuroreceptors of the retina, accommodation of the eye on the background of psychological stimulation.

 This is achieved by the fact that the device for increasing the distinguishing ability of the eye, containing a projection screen, a test object, color filters and a light source with a device for regulating its brightness, is equipped with two additional light sources associated with a device for regulating brightness, color filters: red, green, blue and yellow, made with the possibility of their alternate installation in front of the projection screen, and the device for regulating the brightness of the light sources is made in the form of remote control of the meat.

 In FIG. 1 shows a device for increasing the distinguishing ability of the eye, general view; in FIG. 2 - a device for regulating brightness; in FIG. 3 - location of light sources.

 The device consists of a housing 1, a projection screen 2, table 3 with test figures, a light source 4, a reflector 5, additional light sources 6 and 7, racks 8 and 9, a device 10 for adjusting brightness with a measuring scale 11 and an adjustment knob 12 having arrow 13, interchangeable filters 14, guides 15, carrying handles 16, connector 17, connecting wires 18-20, connecting cable 21 with the counterpart of connector 17, power supply wire 22, fixing screws 23. Ventilation slots are made on the rear panel of the housing 1 2 4.

 The device is prepared for operation as follows. The patient places the device on the table (see Fig. 1) and, using the fixing screws 23 and the carrying handle 16, sets the required angle of the projection screen 2 so that it is convenient to look at it from a distance of 5 m in a sitting position. Next, he connects the mate of the connector 17 of the cable 21, coming from the device 10 for adjusting the brightness to the connector 17 located on the rear panel of the housing 1. The power supply wire 22 is connected to the network voltage of 220 V, 50 Hz. In the slots of the guides 15 closest to the projection screen 2, a table 3 is inserted containing test figures corresponding in angular dimensions and spatial-frequency spectrum to the optotypes of the table for checking Golovin-Sivtsev's visual acuity.

 The patient sits opposite the device at a distance of 5 m from the projection screen 2, holding in his hands a device 10 for adjusting the brightness (see Fig. 2). Turning the adjustment knob 12 until it clicks, it turns on the device, while the supply voltage is supplied through the connector 17 and cable 21 to the circuit of the device 10 for controlling the brightness, and from its output through the cable 21 and connector 17 through the connecting wires 18-20 to the light source 4 and additional light sources 6 and 7, located on the right and left on the uprights 8 and 9 in the housing 1 (see Fig. 3). The reflector 5, mounted behind the light sources, serves to more uniformly illuminate the projection screen 2, which is frosted glass. Turning the adjustment knob 12 (see Fig. 2) in the direction of increasing the voltage at the output of the brightness adjusting device 10 and thereby increasing the brightness of all three light sources 4, 6 and 7, the patient selects a level of illumination at which the test figures in table 3 differ most distinctly. This level of illumination is recorded by the patient according to the position of the arrow 13 on the adjustment knob 12, relative to the divisions of the measuring scale 11. The row of table 3 is also remembered, which corresponds to the maximum resolution of the patient at his chosen optimal level of illumination.

 After carrying out the described preparatory actions, the training process begins to increase the distinguishing ability of the eye. The training consists in the fact that the patient, focusing on the row of table 3 corresponding to the threshold of his resolution, by turning the adjustment knob 12 of the brightness adjusting device 10 begins to gradually decrease the brightness level of light sources 4, 6 and 7, trying to maintain a clear vision of objects in low light conditions. Upon reaching the level of illumination, at which the signs no longer differ, the trainee returns the adjustment knob 12 to the position corresponding to the optimal illumination, and then slowly increases the brightness of the light sources 4, 6 and 7 by turning the knob 12 to the other side, performing the same visual work that and with a decrease in illumination. Upon receipt of the effect of "fogging", or reaching the limit level of brightness of the light sources 4, 6 and 7, the adjustment knob 12 returns to its original position. If the optimal level of illumination corresponds to the maximum, training is carried out only in the direction of reducing illumination. After 5-7 minutes of training, the patient installs a red replacement filter in the 2 grooves of the guides 15 far from the projection screen and again takes 5-7 minutes in the presence of test figures on a red background. Similarly, training is performed with green, blue and yellow filters.

 In the event that the patient has low visual acuity and cannot clearly read the very top line of table 3 at any of the possible light levels, he needs to reduce the distance to the projection screen 2.

 Training is conducted daily with alternating zones of visual work: monocular and binocular in the far vision zone and only monocular in the near vision zone. When training in the near vision zone, table 3 with test figures is replaced by another table that has optotypes of smaller angular dimensions.

 The training course includes 30-40 training sessions. Their effectiveness is assessed by increasing visual acuity and by expanding the range of illumination, which corresponds to the number of divisions on a scale of 11, which preserves a clear vision of the line with threshold angular dimensions of the test figures.

 The device can be used on an outpatient basis in the complex treatment of various forms of amblyopia, hyperopia, for the prevention of myopia, as well as for auto-training at home for people with increased eye fatigue. (56) Copyright certificate of the USSR N 149184, cl. A 61 F 9/00, 1961.

Claims (1)

 DEVICE FOR INCREASING DISTINCTIVE EYE ABILITY, containing a projection screen, test object, color filters and a light source with a device for adjusting its brightness, characterized in that the device is equipped with two additional light sources associated with a device for adjusting brightness, color filters: red, green, blue and yellow, made with the possibility of their alternate installation in front of the projection screen, and the device for controlling the brightness of the light sources is made in the form of a remote control panel.

Images