SU825099A1 - Device for acting on biological object - Google Patents

Description

I

The invention relates to devices for biomedical purposes and can be used for the purpose of researching and controlling a biological object in prophylactic control and ergonomic research systems, as well as for therapeutic purposes and research of various biological objects.

A device is known for affecting a biological object, comprising a generator, sources of electromagnetic fields, a state indicator of a biological object, and interconnected attenuators and attenuator control units ij.

However, in the known device there is no control over the effects.

The purpose of the invention is to increase the safety effect on the object.

To achieve the goal, a device for acting on a biological object, containing a generator, sources of electromagnetic fields, an indicator of the state of a biological object, and interconnected attenuators and attenuator control units, introduced semitransparent mirrors, optoelectric transducers, an external communication unit and an indicator of action modes, wherein the signal inputs of each attenuator are connected to the generator, and the outputs are connected to sources of electromagnetic fields and a mode indicator, with each control unit at The tenuators are connected to the output of the optoelectric converter, the output of the external communication unit and to the input of the indicator of the state of the biological object.

In addition, sources of electromagnetic fields are made in the form of flat capacitors with translucent plates.

The attenuator control unit contains interconnected clock generators and a counter.

a series of serially connected circuits And and registers, a decoder, a video amplifier, a reference generator and a comparison circuit whose inputs are connected to a video amplifier and a reference generator, with one of the inputs of each AND circuit connected to the output of the comparison circuit, the other to the counter output, and the output each register is associated with the input of the decoder.

The biological object status indicator contains a code-voltage converter and a voltmeter connected in series.

The attenuator contains a switch and a series of resistors connected to the switch outputs.

The drawing shows a block diagram of the device.

The device contains generator 1, attenuators 2, indicators of 3 action modes, indicators 4 of the state of a biological object, sources of 5 electromagnetic fields, translucent mirrors 6, optoelectric converters 7 ,. attenuator control units 8, communication unit 9 with external devices. In the attenuator control unit, a video amplifier is located. 10, reference voltage generator 11, comparison circuit 12, clock pulse generator 13, counter 14, circuit 15, registers 16, decoder 17. In the indicator of the state of a biological object there is a converter 18, a code-voltage and a voltmeter 19, an attenuator contains a switch 20 and resistors 21 and 22.

. Sources 5 electromagnetic fields are made in the form of flat capacitors with translucent plates. Semitransparent mirrors 6 located at an angle to the axis of the biological object and optoelectric converters 7 are located near the plates.

The output of the generator 1 is connected to the signal inputs of the attenuators 2, to the outputs of which are connected indicators of 4 exposure modes and sources of 5 electromagnetic fields. The outputs of the optoelectric converters 7 are connected to the first inputs of the attenuator control units 8, the second inputs of which are connected to the outputs of the communication unit 9, the outputs of the attenuators 2 and the biological state indicators 4 are connected to the outputs of the attenuator control units 8.

The input of the video amplifier 10 is connected to an optoelectric converter, the first input of the comparison circuit 12 is connected to the output of the video amplifier 10, the second input is connected to the reference generator 11, the input of the counter 14 is connected to the output of the generator 13 clock pulses, the first inputs of the circuit 15 And connected to the outputs of the comparison circuit, the second entrances - with exits

the counter 14, the inputs of the registers 16 are connected to the outputs of the circuits 15 And the inputs of the decoder 17 are connected to the outputs of the registers 16 and the counter 14 pulses

and block 9, the output of the decoder 17 is connected to the converter 18 and the switch 20, the output of the converter 18 is connected to a voltmeter. Switch 20 is connected to generator 1 through resistors 21 and 22.

The device works as follows.

The voltage from generator 1 is fed through attenuators 2 to sources

5 electromagnetic fields.

The constitution of the affected area can be estimated visually by observing the corresponding areas through the semitransparent mirrors 6. At the same time, the images of the affected areas are converted into electrical signals by optoelectric transducers 7

the image of areas of the object through the translucent mirrors. The signals from the optoelectric converters are analyzed by the attenuator control units 8 simultaneously with the data

measurements of electrophysiological and other characteristics of a biological object (for example, the characteristics of a person’s activity — the operator of the SMM) derived from the output of block 9

communication with external devices.

Based on the analysis of the set of input signals, the control units generate, if necessary, attenuator control commands.

Indicators 3 exposure modes

and indicators 4 states of a biological object provide control of voltages at the inputs of sources of electromagnetic fields, respectively

and the condition of the areas exposed.

Claims (3)

Thus, the device allows, in the case of approaching the state of a hazardous area, to reduce the voltage at the output of the corresponding controlled attenuator automatically upon a command from the attenuator control unit. In case of insufficient change in the state of the area, the voltage at the output of the controlled attenuator may be increased. . Claim 1. A device for influencing a biological object, comprising a generator, sources of electromagnetic fields, an indicator of the state of a biological object and interconnected attenuators and attenuator control units, which, in order to increase the safety of an object, The device includes semitransparent mirrors, optoelectric transducers, an external communication unit and an indicator of exposure modes, with the signal inputs of each attenuator connected to the generator, and the outputs to sources of electromagnetic fields and a mode indicator, each attenuator control unit being connected to the output of an optoelectric converter, the output of an external communication unit and to the input of a state of a biological object. 2. The device according to claim 1, characterized in that the sources of the electromagnetic fields 96 are made in the form of flat capacitors with translucent plates. 3. The device according to claim 1, characterized in that the attenuator control unit contains interconnected clock generator and counter, a series of serially connected circuits And and registers, a decoder, a video amplifier, a reference generator and a comparison circuit, whose BXOfs are connected to the video amplifier and the reference generator, with one of the inputs of each circuit AND connected to the output of the comparison circuit, the other to the output of the counter, and the output of each register connected to the input of the decoder. 4, The device according to claim 1, characterized in that the indicator of the state of the biological object contains a code-voltage converter and a voltmeter connected in series, 5. The device according to claim 1, characterized in that the attenuator contains a switch and p. d resistors connected to the switch outputs. Sources of information taken into account in the examination I. USSR author's certificate for application number 27A5006 / 13, cl. A 61 N 1/42, 1979.