SU1076082A1 - Apparatus for investigating visual analyzer - Google Patents

Abstract

A DEVICE FOR STUDYING THE VISUAL ANALYZER containing a two-channel optical system including a screen in the form of a flat mirror, two optical lenses j two image sources, a common switch and a control unit, characterized in that, in order to measure the latent period of refocusing of the eye, in it they have, from the series-connected sensor, the responses of the researched, the response selector, the random number generator, the master pulse generator and the pulse frequency meter, and ynyh numbers coupled with the switch, and the control unit - and the responses to the selector zadak CIM pulse generator. (L V yes about 00 1E

Description

The invention relates to medical devices, namely, devices measuring latent periods of a human visual analyzer, and can be used for scientific and diagnostic studies and test selection of subjects. A device for exploring a visual analyzer is known, comprising a dual-channel optical system comprising a flat mirror screen, two optical lenses, two image sources, a common switch and a control unit Cll. The known device allows to project two different images on the screen with different tracking frequency and time, but it does not allow to measure the latent period of refocusing of the eye. The purpose of the invention is to measure the latent period of refocusing of the eye. This goal is achieved by the fact that in a device for examining a visual analyzer comprising a two-channel optical system including a screen in the form of a flat mirror, two optical lenses, two image sources, a common switch and a control unit, there are serially connected response sensors of the test, a selector of answers, a random number generator, a generator of the pulse generator and a pulse frequency meter, the random number generator being connected to the switch, and the control unit with selector answers and set the pulse generator. The drawing shows a diagram of the device. The device consists of a random number generator 1 connected to a two-channel switch 2 controlled by sources 3 and 4 of the image of the first and second channels. In the simplest case, digital indicators (figures 0-9) can be used as image sources, but other symbols, such as traffic signs, etc. can also be used. The image of the first channel is visually observed by the subject through the optical lens 5, and the image of the second channel through the optical lens b. Optical lenses 5 and b have an adjustable focal length and depth of field. Projection mirrors 1 v. 1 of the first and second channels alternately project the images on the screen 8, for which a flat mirror is used. On the basis of the information, the subject enters the answers in. A sensor 9 responses associated with the selector 10 answers, which, depending on the number of correct and incorrect answers affects the control unit 11. Unit 11 controls the frequency of the generator generator 12 pulses, from which square pulses are fed to the input of the random number generator 1 and to the meter 13 of the pulse frequency. The screen 8 of the investigated observes through the tube 14. The device operates as follows. When the instrument power is turned on, the control unit 11 sets the driver, the generator 12, to the lowest frequency of the following rectangular pulses, which arrive simultaneously on. The meter 13 of the frequency U1 is the generator of 1 random numbers, controlling the frequency of the appearance of random numbers in the form of voltage levels at one of the ten outputs according to a previously unknown dependence. These voltages with a known frequency of occurrence, but unknown in level, are fed to a two-channel switch 2, which provides unpredictable signals to sources of 3 and 4 characters in advance. The symbols of the first channel are observed by the subject through the magnifying lens 5 and the projection mirror 7 located at the minimum allowable focal length from the subject's eyes, which creates the illusion of the location of the visual object at a small distance from the subject. This subjective distance to the visual object can be smoothly changed by rearranging the focal length of the optical system and the depth of field at a constant aperture. The symbols of the second channel are observed by the lens 6 and the projection mirror 7, which is being tried through the reduced image, located at the maximum permissible focal lengths from the subject's eyes, which creates the illusion of the location of the visual object at a great distance. This subjective distance to the visual object can also be smoothly changed by rearranging the focal length of the optical system and the depth of field at a constant aperture. Alternately, we perceive various equally spaced symbols (numbers of indicators), the subject is forced to rebuild the focal distance of the eyes with a given frequency, which causes intensive work of the eye lens muscle. If muscle

the lens of the eye has time to refraction at this frequency, then the test subject will also have time to perceive the visual information and enter it into the sensor 9 answers with the help of buttons.

 At one point, the subject may see one of the ten significant digits (if & character quality is used - digital identifiers), but the number of buttons is minimized to eliminate switching interferences when looking for the right button. The task of selecting the left or right button is solved by the following number: if the number is from 0 to A, then press the left button, if from 5 to 9, then the right button.

When the left button is pressed, the 9V14 sensor produces a negative voltage, {using the right button, it is positive, which go to the 10-selector selector. I’m doing this to yo to the specified criterion, signals from random number generator 1. In case of their coincidence, which is possible with the right perception of visual objects by the testers, the selector 10

The responses affect through the control unit 11 on the master oscillator 12 in such a way that the latter increases the frequency, and c. case with iibok test, on the contrary, reduces the frequency of the master oscillator 12.

The answer selector 10 has a discrete error rate adjuster from one to ten. Upon reaching the specified number of errors

0, the response selector 10 turns off the control unit 11, and the result is tested by the research institute of latent period measurements and the refocusing eye is read by -c frequency meter 13.

Studies using the proposed device are performed first at low frequencies with a small difference in depth of field of the optical systems of the first and second channels with a gradual increase in

0 difference of depth of field and frequency. It is planned to use various optical filters in optical systems to study the effect of the color of visual objects on,

5 critical frequency refocusing tlas.

Claims (1)

DEVICE FOR STUDYING A VISUAL ANALYZER, containing a two-channel optical system, including a screen in the form of a planar mirror, two optical lenses / two image sources ^,? a common switch and a control unit, (characterized in that, in order to measure the latent period of eye refocusing, it has serially connected response sensor of the subject, a response selector, a random number generator, a pulse generator and a pulse repetition rate meter, and the random number generator is connected with a switch, and the control unit with a response selector and a pulse generator. SU .1076082 7 '>