SU1140797A1 - Apparatus for acting on operator - Google Patents

Abstract

1. DEVICE FOR EXPOSURE TO THE OPERATOR containing serially connected generator, attenuator and sources of electromagnetic fields, indicators of exposure modes connected to the outputs of attenuators, in series with connected optoelectric transducers, control units of attenuators connected to the second inputs of attenuators, and indicators of results of exposure connection with external devices, connected to the second input of the attenuator control unit, in order to improve the accuracy In order to measure the effect on the optoelectron, a second generator, interconnected additional attenuators and switches connected to sources of electromagnetic fields, a third generator connected in series and control units of additional attenuators, first inputs connected to sources of electromagnetic fields, and outputs connected to second inputs are introduced into the device. additional attenuators and third inputs of switches, the second inputs connected to the second generator. 2. The device according to claim 1, characterized in that the control unit of the second attenuator contains de connected in series (L tector, amplifier, limiter, pulse counter, trigger register and decoder, trigger whose input is connected to the second pulse counter output. (; about

Description

The invention relates to devices for medical and biological purposes, can be used for research and control effects on a biological object in preventive control systems and ergonomic studies, as well as for therapeutic purposes and the study of various biological objects.

The aim of the invention is to improve the accuracy of dosing effects on the operator.

The drawing shows a diagram of the device.

The device contains a first generator 1 whose output is connected to the first inputs of the first attenuators 2, connected through the second attenuators 3 and switches 4 with sources 5 of the electromagnetic field.

Sources 5 of the electromagnetic field are made in the form of capacitors with translucent covers, near which are translucent mirrors 6 and optoelectric converters 7. The indicators of 8 exposure modes are connected to the outputs of the first attenuators 2. Outputs optoelectronic converters 7 are connected to first inputs of the control units 9 of the first attenuator, the outputs of which are connected with the first attenuators 2 and indicators 10 feedbacks, and the second input - from block 11 _d communicating with external devices.

The output of the second generator 12 is connected to the second inputs of the switches 4, the third inputs of which are connected to the control units 13 of the attenuators, connected by their outputs to the second inputs of the second attenuators 3, the third generator 14 is connected to the second inputs of the control units 13 of the second attenuators, the first inputs of which are connected to the sources 5 electromagnetsbgo fields.

In the control unit 13 of the second attenuator, a detector 15, an amplifier 16, and a limiter 17 are connected in series between the electromagnetic field source 5 and the first input of the pulse counter 18, the second input of which is connected to the third generator 14, and the outputs - with the inputs of the binary trigger 19 and trigger register 20. The output of the trigger 19 is connected to the switch 4, and the output of the register 20 through the decoder 21 to the second attenuator 3.

The device operates as follows.

When the signal at the output of the trigger 19 is zero, a short pulse is supplied to the electromagnetic field source 5 from the output of the second generator 12. This pulse is detected, amplified, and limited, arriving at the input of the zero setting of the second counter 18 pulses, leads to the start of the count by this time counter (the number of clock pulses from the third generator 14). The time counting stops when a pulse reflected from the biological object arrives at the input of the detector 15. Thus, the number entered in the register 20 is proportional to the distance between the electrode of the field source 5 and the object. Depending on this number, one or another transistor opens in the second attenuator 3 in such a way that with an increase (decrease) in the distance between the electrode and the object, the voltage at the source 5 of the electromagnetic field proportionally increases (decreases), ensuring the field strength remains unchanged.

When passing the maximum possible time interval between the sent and reflected pulses (counting interval), the binary trigger 19 is turned over and the voltage from the first generator 1 through the first attenuator 2 and the second attenuator 3 is supplied to the electromagnetic source 5.

The condition of the exposed areas of the object can be evaluated by visual observation of the corresponding areas through translucent mirrors 6. At the same time, the images of the affected areas are converted into electrical signals by optoelectric converters 7, which receive the image of the areas of the object through translucent mirrors. The signals from the converters 7 are analyzed by the control units 9 of the first attenuators simultaneously with the measurement data of the electrophysiological and other characteristics of the biological object (for example, the characteristics of the activity of the human operator of the man-machine systems) coming from the communication unit 11 with external devices.

Based on the analysis of the set of input signals, control units generate, if necessary, control commands of the first attenuators. Indicators of 8 exposure modes and indicators of 10 results of exposure (the state of a biological object) provide control, respectively, of the voltages at the output of the first attenuators (these voltages are proportional to the intensities of the electromagnetic fields acting on the object) and the state of the sites exposed. If the condition of the affected area approaches the hazardous voltage, the output voltage of the corresponding first attenuator decreases automatically upon command from the control unit. In case of insufficient change in the state of the bioobject site, the voltage at the output of the first attenuator can be increased.

Claims (2)

1. DEVICE FOR INFLUENCE ON THE OPERATOR, containing serially connected generator, attenuator and sources of electromagnetic fields, indicators of exposure modes connected to the outputs of attenuators, serially connected optoelectric converters, control units of attenuators connected to the second inputs of attenuators, and indicators of the results of exposure, communication unit with external devices, connected to the second input of the control unit of the attenuators, characterized in that, in order to increase accuracy to To influence the operator, a second generator is introduced into the device, additional attenuators and switches connected to each other, connected to sources of electromagnetic fields, serially connected to a third generator and control units for additional attenuators, the first inputs connected to sources of electromagnetic fields, and the outputs connected to second inputs of additional attenuators and the third inputs of the switches, the second inputs connected to the second generator. 2. The device according to π. 1, characterized in that the control unit of the second attenuator contains a series-connected detector, amplifier, limiter, pulse counter, trigger register and decoder, a trigger whose input is connected to the second output of the pulse counter.