SU1662560A1 - Electropuncture device - Google Patents

Abstract

The invention relates to medical technology. The device comprises a pulse generator 1, a current control unit 2, a reference resistor 3, the first and second electrodes 4, 5, the amplifier 7 and the measurement unit 8. The goal is to increase the efficiency of exposure by optimizing signal parameters and exposure current. 1 il.

Description

The invention relates to medicine, in particular to electropuncture, and can be used to influence electro-, abnormal areas on the skin of farm animals.

The aim of the invention is to increase the efficiency of exposure by optimizing the parameters of the signal and current exposure.

The drawing shows a structural diagram of the proposed device.

The device for electropuncture contains a pulse generator 1, a current control unit 2, a reference resistor 3, a first 4 and a second 5 electrodes, a first resistor 6, an amplifier 7, a measurement unit 8, a driving oscillator 9, a first 10 and a second 11 waiting multivibrators, an analog switch 12 , operational amplifier 13, second 14 and third 15 resistors.

The pulse generator 1 is made in the form of a single bipolar pulse generator and contains a serially connected master oscillator 9, a first standby multivibrator 10 and an analog switch 12, the output of which is the output of the pulse generator 1 and connected to the input of the current control unit 2, and the control input is connected to the master output the generator 9 through the second standby multivibrator 11. The amplifier 7 is made in the form of an operational amplifier 13, the non-inverting input of which is connected to a common bus, and the inverting input is directly to one terminal of the second resistor 14, the other terminal of which is the inverting output of the amplifier 7, and through the third resistor 15, to the output of the operational amplifier 13, which is the output of the amplifier 7,

The device operates as follows.

The master oscillator 9 generates pulses that trigger the first and second standby multivibrators 10 and 11. The first standby multivibrator 10 generates a positive pulse that opens the analog key 12, and the second standby multivibrator 11 generates a negative pulse of shorter duration, which is input to the analog key 12, in As a result, a sequence of single bipolar pulses is formed at its output.

Then, the signal from the output of the pulse generator 1 through a series-connected current control unit 2 and a reference resistor 3 is fed to the first electrode 4, which is connected through a series-connected amplifier 7 and the first resistor 6 to the second electrode 5, thereby forming an electric circuit for influencing the biological object.

The current control of the impact passing through the biological object is controlled by the current control unit 2, and the current amplitude of the stimulating pulses is measured as follows.

When the current passes through the reference 10 resistor 3, a voltage drop is created on it, equal to the voltage difference relative to the device housing at the terminals of the outputs of the reference resistor 3, respectively connected to the first and second inputs of the measurement unit 8, which measures the voltage drop proportional to the voltage passing through the reference resistor 3 current.

The current control unit 2 is powered by 20 voltages of the order of +18 V, and therefore, the maximum amplitude of +18 V can develop on the first electrode 4 relative to the device case. The use of amplifier 7, made on operational 25 amplifier 13, allows you to double the potential difference between the first 4 and second 5 electrodes, as a result of which the maximum pulse amplitude reaches ± 36 V, i.e. in the range of 72 V due to the execution of a pulse generator 1 in the form of a shaper of single bipolar signals.

The measurement of the amplitude of the voltage of the bipolar pulses is provided by connecting the first electrode 4 with the first 35 input of the measuring unit 8, which measures the voltage at the reference resistor 3, which is proportional to the current passing through it.

The similarity of the signal generated by the generator 1 of the pulses with the shape of the nerve pulse in the synaptic network with a simultaneous increase in its amplitude and the possibility of regulating the exposure current in the control unit 2 allows us to ensure optimal exposure to the biological object during the procedure and to exclude skin polarization and coagulation during exposure.

In addition, the large voltage amplitude of the stimulating pulses allows you to work with animals without first cleaning the skin surface from contamination, and the use of non-earthed electrodes 4 and 5 increases electrical safety from ingress of external mains voltage. Thus, it is possible to increase the impact efficiency by optimizing the signal parameters and the exposure current.

Claims (1)

Claim A device for electropuncture, containing 5 pulse generators and a current control unit, first and second electrodes in series, a measurement unit, characterized in that, in order to increase the efficiency of exposure by optimizing the signal and exposure current parameters, an amplifier and a reference resistor are introduced into it, which is connected between the current control unit and the first electrode, which is connected to the inverting input of the amplifier, the output of which is connected to the second electrode, the first and second inputs of the measuring unit The voltages are connected to the terminals of the reference resistor, and the pulse generator is made10 in the form of a single bipolar pulse shaper.