RU2014054C1 - Ophthalmologic trainer - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: ophthalmologic trainer has a base, two rods, rotary disks with a plurality of lenses of different focal power mounted on the rods, permanent magnets located on the disks for returning the latter into initial position, a mechanism for rotating the disks made in the form of a stepping motor, a control device comprising variable-ratio frequency divider with variable duty cycle connected in series to two amplifiers the outputs of which are connected to the windings of stepping motors. The device furthermore has a pulse shaper the outputs of which are connected to the inputs of frequency divider and of amplifiers. EFFECT: enhanced efficiency. 2 dwg

Description

 The invention relates to medical equipment, in particular to devices for the study of the prevention and treatment of false myopia (spasm) and myopia of a weak degree.

 A device for bilateral research of speed-accuracy of visual perception, containing a device for demonstrating test objects with a drive and a device for limiting the observation time of test objects, a control unit connected to a device for limiting the observation time, made in the form of glasses with two independent translucent curtains with control nodes, while the control unit is made in the form of series-connected interval shaper, scaling unit, former unit a structure with a laterality adjuster, an amplifier, the outputs of which are connected to the curtain control units, and the presentation control is connected to the drive of the device for demonstrating test objects.

 In this device, on spectacle frames that are consistent with the anthropometric data of the patient, there is no mechanism for fixing the holders to install interchangeable spectacle lenses and only blinds are installed to limit the time of observation of test objects, which are connected electrically with the control unit.

 The closest in technical essence to the invention is an ophthalmic device containing a rack mounted on the base with a rotary disk, on which are located lenses, devices for stopping the disk, its rotation mechanism, made in the form of a stepper motor and control unit (2).

 A disadvantage of the known device is the inability to use it to train both eyes at the same time.

 The aim of the invention is to increase the effectiveness of training.

 Figure 1 presents the structural diagram of a medical simulator; in FIG. 2 - general view of the device.

 The medical simulator contains test objects 1, racks 2, on which identical vernier devices 3 are mounted, stepper motors 4 with gearboxes 5 connected kinematically with devices for limiting the observation time of test objects 1, made in the form of two independent rotary disks 6, which contain holes 7 with holders 8 of lenses 9 with grooves and spring clips 10 located on discs 6 along circles passing through the centers of the patient’s eyes and symmetrically to the center of the chin 11, a control unit 12, which The first includes a frequency divider 13 with a variable division coefficient and a variable duty cycle of the output pulse, connected in series with amplifiers 14, 15, the outputs of which are connected to the windings of the stepper motors 4, a pulse shaper 16, the outputs of which are connected to the inputs of the frequency divider 13 and the inputs of amplifiers 14 and 15 , a device for the initial position of the disks, including permanent magnets 17 mounted on the disks 6 and reed switches 18 mounted on racks 2, which are electrically connected to the inputs of the pulse shaper 16, and the control panel phenomenon 19, the elements of which are connected to the inputs of the frequency divider 13 and to the inputs of the amplifiers 14 and 15.

 On the front panel of the control panel 19, a power switch 20, a time interval switch 21, and switches 22, 23 for turning on the stepper motors are installed. The time intervals for the inclusion of the stepper motors 4 are set by the initial input of information into the frequency divider 13 in the form of a number from the control panel 19 using the switch 21. The duration of the stepper motors for rotation by a certain angle of the disks 6 is set constructively by the width (duty cycle) of the output pulse of the frequency divider 13 with a variable dividing coefficient and variable duty cycle of the output signal, due to the coordination of the time interval of one pulse arriving at the stepper motors 4 so that the specified angle the rotation of the disks 6 was consistent with an integer number of pulses, provided that the fractional number of pulses will accumulate a rotation angle error of 6.

 The operation of the device is as follows. The short-sighted eye is most adapted for close-range visual work, which is performed by it with minimal energy consumption of accommodation. However, at the same time, acmodation in the distance weakens, which should be strengthened by special training. To do this, a set of interchangeable test glasses 9 is installed in both disks 6 in the order of increasing their optical power (from +0.25 to +1.5 diopters with a step of + 0.25 D), and the rotary disks 6 themselves are divorced by a certain intercenter distance in divisions vernius with the help of rotary handles in accordance with the necessary anthropometric data of the patient. Then, the necessary position of the stop 11 for the chin of the patient is established. After that, on the panel of the remote control 19, the “Power” switch 20 is turned on, as a result of which the pulse shaper 16 is started. Its pulses are fed to the inputs of the amplifiers 14, 15, and the stepper motors 4 begin to work and rotate the disks 6 with lenses 9 until each one of them will not come to its initial position, which is determined by the position of the permanent magnets 17 on the disks 6 relative to the reed switches 18. The initial state device also electrically acts on the pulse shaper 16, which stops the supply of pulses to the amplifiers 14, 15. So Thus, the disks 6 are automatically set to their initial position.

 Then, the switch 23 sets the required time interval for changing the test glasses 9 (lenses) and turns on the switch 21 or 22, or both together.

 First, before the patient’s eyes (or eye), lenses 9 of such a positive diopter are installed so that he sees the row of the table (test object 1) in the “fog” for visual acuity of 0.1, after which the patient tries to strain accommodation to clarify the specified line. In the process of training with a total duration of 4-5 minutes, the patient tries to strain accommodation to clarify both the given line and the subsequent lines, while before the patient's eyes after 40-60 seconds test glasses are automatically changed 9.

 To achieve better results in treatment, daily training is advisable for 3-4 weeks with a duration of 4-5 minutes. After rehabilitation treatment using this device according to the observations of medical staff VIKKI them. A.F. Mozhaysky, the visual acuity of patients with their refractive myopia in 1.0-1.5 D increases by 30-40%, and the state of false myopia is eliminated in the vast majority of patients, and myopic refraction decreases to 0.5 D or more (with approbation of a prototype simulator improved vision for all patients, the number of which exceeds 300 people).

Claims (1)

 OPHTHALMIC SIMULATOR containing a rack mounted on the base with a rotary disk, on which lenses are located, a device for stopping the disk, a mechanism for turning it, made in the form of a stepper motor and control unit, characterized in that it is equipped with an additional rack with an additional rotary disk, on which the lenses are located, an additional mechanism for its rotation and an additional device for stopping the disk, while the disks are equipped with means for fixing the lenses, made in the form of holding units with grooves and spring clips, and the control unit is designed as a frequency divider with a variable division coefficient and a variable duty cycle of the output pulse connected in series with two amplifiers, the outputs of which are connected to the windings of the stepper motors, a pulse shaper whose outputs are connected to the inputs of the frequency divider and amplifiers inputs, and each device for stopping the disk is made in the form of a permanent magnet mounted on the disk, and a reed switch mounted on the rack, and electric and the related inputs of the pulse.

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