RU900U1 - Device for electropuncture - Google Patents

Description

DEVICE OF E1ZHTROPUNTURY DAY

The utility model relates to medical equipment, namely to devices used for electropuncture therapy of various functional disorders and aabolavations

A device for electropuncture is known, with the help of which biologically active points (BAP) of a patient are affected by alternating voltage pulses of a given shape, the value of which is set by a reflexologist.

The device comprises a unit for generating a therapeutic effect, a unit for measuring a therapeutic effect, a comparator, the output of which is connected to the input of a unit for forming a therapeutic effect, a setting point unit, the output of which is connected to the input of a comparator, a power supply unit connected to a passive electrode and through units for forming and measuring a therapeutic effect with an active electrode, a diagnostic electrode associated with the units for generating and measuring the diagnostic effect and a memory unit, the output of which is connected to the second the course of the comparator / I /

The patient’s BAT is exposed to alternating voltage pulses of a given shape until the BAT direct and reverse resistances are equalized, and the resistance value is judged by the signal from the diagnostic electrode circuit7 When the signal is positive and negative, the comparator is triggered and the formation unit therapeutic effect is turned off.

MKI 5 A6IH 39/00

The disadvantage of this waterstroya is the complexity of its circuit design, t7kT to accurately set the duration of the therapeutic effect introduced an additional diagnostic electrode and the associated units for the formation and measurement of diagnostic effects. In addition, since the state of the BAT that is affected by | 1 is judged by the state of the representative BAT, this leads to errors in determining the values of the current transmitted through the BAP and establishing the moment of balancing of the specific BAP, which ultimately affects the effectiveness of the therapeutic effect.

Known devices for electropuncture, with which the biologically active points of the patient are also exposed to direct current of opposite polarities. The choice of the polarity of the exposure current is carried out in accordance with the maximum conductivity of the BAP of the patient. The burden of exposure to current of the selected polarity is set by the reflexologist and ranges from units of seconds to several minutes. Influence on the BAP is carried out by passing through it a current of the selected polarity and a certain value and alternating current of opposite polarity with it. The functional diagrams of the devices are such that the time of exposure to the BAP by a current whose polarity is opposite to the polarity of the current selected for therapy is determined by the physiological state of the BAT during exposure to it. Therapy session continues until conduction

BAP with positive and negative polarities of the current passing through it, will not become equal. Conductivity Equality

judged by the value of the steady-state current value upon exposure to a current of opposite polarity, equal to the specified value of the current with the polarity selected for therapy. With the equality of these

:

BAP current values are considered balanced.

Such devices include a resolexotherapy device comprising a variable duration pulse generator, an exposure end detection circuit, a resistive voltage divider, a memory node associated with a variable duration pulse generator and an exposure end detection circuit and a resistive divider, a voltage comparison circuit associated with the memory node, variable-duration pulse generator and resistive voltage divider, current regulation and control unit, active and passive electrodes , a voltage polarity switch on the electrodes connected to a current regulation and control unit and a resistive voltage divider, as well as two key elements, a multivibrator, a rectifier and a transformer connected to a multivibrator and a rectifier. / 2 /

The indicated device allows the therapy to be carried out both in the manual mode, when the polarity on the active electrode is changed, the conductivity of the BAT is measured at opposite polarities of the current passed through it and the moment of exposure is determined by the reflexologist, as well as in the automatic mode when all of the above processes are carried out automatically.

The disadvantage of this device is the high power consumption and the complexity of its circuitry.:. Using a transformer complicates the manufacturing technology of the device and increases its cost.

Closest to the claimed utility model is a device for electropuncture, containing a pulse generator of variable duration, active and passive electrodes, a polarity switch on the electrodes connected to the outputs of a pulse generator of variable duration, a control unit

-i and current monitoring, a unit for determining the moment of termination of exposure, including a memory unit and a circuit for comparing voltage and determining the moment of termination of exposure, and associated with the outputs of a pulse generator of variable duration and a unit for regulating and controlling current, and an audible alarm unit, / 3 /

This device also allows, like the previous one, to carry out therapy in both manual and automatic modes.

Compared with the known, this device is more technologically advanced. However, the structural construction of the blocks of this device, in particular a multivibrator, entails increased energy consumption, which during the operation of the device causes a significant decrease in the voltage of the battery power source, which, in turn, causes a change in voltage at the electrodes of the device, and therefore, to ensure the electrical parameters of the device necessary for the therapeutic effect require frequent replacement of the power source.

In addition, this device has the following disadvantages

- during therapy (as, by the way, with other devices - analogues) due to the design features of the switches when changing: the polarity of the exposure current, the shape of the voltage signal on the active electrode has the following character: at the first moment the voltage is zero (which is caused by the design features of the switches, having a dead zone), and then quick chaotic jumps (due to vibration of the contacts when they touch), the duration of this uncontrolled period has a direct effect on the therapist matic effect of BAP on the patient;

 k - t

NOS1I when measuring (determining) the values of yuks passed through the patient’s BAT with positive and negative polar, which is especially important when comparing their values in the automatic operation of the device to determine the end of exposure - the moment of balancing of the BAT. The same problem occurs when working in manual mode, especially when passing currents with small values and opposite polarities through the BAP and comparing their values;

-the lack of the ability to verify the operability of the device without connecting the patient's BAP.

The tasks to which the proposed utility model is directed:

-increasing the effectiveness of the therapeutic effect on the BAP of the patient and improving the operational characteristics of the device by reducing the duration of the period of uncontrolled exposure to the BAP with a change in polarity and reducing the error in determining and comparing the values of the current transmitted through the BAP with opposite polarities

-increasing the reliability of the device due to the creation of the ability to check the operability of its units without connecting to the patient BAT

This object is achieved by the fact that the device for electropuncture, containing a pulse generator of variable duration, active and passive electrodes, a polarity switch on the electrodes connected to the outputs of a variable duration generator, a control unit and a current control unit for determining the moment of exposure, including a memory node and circuits for comparing stresses and determining the moment of termination of exposure, and associated with the outputs of a pulse generator of variable duration, and a signal block tion of, enter

1 / a polarity control unit, a positive polarity light signaling unit on the active electrode and a mode selection and control unit associated with a voltage polarity switch on the electrodes and including a mode selection switch, a polarity change button on the active electrode, two logical elements exclusive OR, the first inputs of which are interconnected and with the common contact of the second section of the switch of the mode selection, the open contact of which is connected to the common contact of the first section of the switch active electrode, open at negative polarity of the voltage on the active electrode, the contact of which is connected to the common contact of its second section and to the common contact of the first section of the mode switch, the remaining contacts of which are connected to the first and second control inputs of a pulse generator of variable duration, open and closed when the negative polarity of the voltage across the active electrode, the contacts of the second section of the polarity switch are connected respectively to a normally closed and open the contacts of the polarity reversing button on the active electrode, the common contact of which is connected to the manually closed contact of the second section of the switch, and the second inputs of the first and second elements exclusive IL are connected to the first and second outputs of the pulse generator of variable duration, with second to third inputs the unit for determining the moment of termination of exposure, and the outputs with the inputs of the control unit for the polarity of the electrodes, containing two diodes and two switching cells, the control inputs of which are connected to odes diodes second inputs - with the cathodes of diodes and active and passive electrodes, and the outputs are interconnected and connected to the input unit and the current control regulation, wherein one terminal of the first section of the mode switch is connected with the input chetvorshym

l

-S of the unit for determining the moment of the end of the action, the third input and output is connected to the input of the sound signaling unit lastly, and the output of the second element is exclusively OR connected to the input of the light signaling unit of positive polarity on the active electrode. The variable-duration pulse generator contains an operational amplifier, a threshold AND-NOT threshold element, first and second resistive voltage dividers, an inverter, constant and variable resistors, a capacitor and diodes, while the non-inverting input of the operational amplifier is connected through a series-connected resistor and diode to the first output control unit and mode selection and through a constant resistor with a midpoint of the first resistive voltage divider, and the inverting input through a capacitor is connected to its output, which connected to the second input of the talk of the AND-NOT element, the first input of which is connected to the second output of the control unit and select the mode, and the output of the threshold element AND-NOT is connected to the first input and through the inverter to the second input of the control unit and the mode selection and with the input the second resistive voltage divider, the output of which through a serial circuit of constant, alternating and constant resistors and a diode is connected to the fourth input of the unit for determining the moment of exposure termination, and

is connected with a constant resistor., the common point of connection of this constant resistor with a variable resistor is connected to the inverting input of the operational amplifier, and the second resistive voltage divider contains a series-connected variable and two constant resistors and an additional resistor connected in parallel with the variable and constant resistors connected to it, at the same time, the point of connection

cathode

If the first terminals of the alternating and additional resistors are shorted, the input of the resistive voltage divider forms, and the connection point of the second terminal of the additional constant resistor with the common point of two constant resistors is its output. The current regulation and control unit contains a series-connected variable, constant resistors and a microammeter and a series circuit of two constant resistors connected to the variable resistor, while the connection point of the latter is connected to the first input of the exposure end detection unit, the connection point of the first output of the variable resistor and the serial circuit two resistors connected to the first output of the control unit for the polarity of the electrodes, and the connection point of the microammeter and the second output postoyannogi resistor forms a first input of the block. To test the operability of the device, a node of biologically active thin is introduced into it, including a capacitor connected to a passive electrode, to which a resistor and a series-connected resistor and diode are connected, the cathode of which is connected to the capacitor and the output terminal of the unit, and the control and mode selection unit is equipped a control button, the common contact of which is connected to the plus of the power supply, a normally closed contact - with the common contact of the first section of the mode select switch, and normally rezishtor through open contact connected to a first input of a control unit and a current control.

The essence of the utility model is illustrated in the drawing, which shows a functional diagram of a device for electropuncture.

- Trodob 4, a unit for determining the moment of termination of exposure 5, an audible signaling unit b, a light signaling unit of positive polarity on the active electrode 7, a node for the equivalent of a biologically active point (BAP) 8, active 9 and passive 10 electrodes.

The control unit and the selection of mode I contains a switch for selecting an operating mode II, a voltage polarity switch on the electrodes 12, two exclusive OR 13, 14 logic switches, a polarity change button on the active electrode 15 and a control button 16, a common contact of the first section of switch II, open C in -AE mode) the contact of the first section of the switch 12 and the common contact of its second section are connected The common contact of the second section of the switch II is connected to the first inputs of the elements 13 and 14, it is open in the Manual contact mode is connected with a common contact of the first section of the switch 12, and a closed contact with a common contact of the button 15. A normally closed contact of the button 15 is connected to an open (B-AE mode) contact of the second section of the switch 12, and its open contact is connected to the closed contact of the same section of the switch 12 In this case, the closed and open contacts of the first section of switch II form the first and second outputs of block I, and the second to the inputs of elements 13 and 14 are respectively the first and second inputs of block I, and their outputs are respectively the fourth and three tim its outputs, with the third output unit I is connected to the input of the light-signaling polarity to the active electrode 7. By the common contact button 16 connected plus power source E. A normally closed contact of button 16 is connected to a common contact of the first section of switch II, a normally open contact of button 16 is connected through a resistor 17 to the first input of block 3.

- $ A variable-duration pulse generator 2 contains an op-amp op amp 18, the non-inverting input of which is connected through a series-connected resistor: 19 and a diode 20 to the first output of block I and the fourth input of block 5, while the cathode of the diode is connected to the resistor 19. Non-inverting input of op-amp 18 also connected through a resistor 21 to the midpoint of the resistive voltage divider 22, formed by two series-connected resistors. The inverting input of the OS 18 through a capacitor 23 is connected to its output, which, in turn, is connected to the second input of the threshold element AND-NOT 24, the first input of which is connected through a resistor 25 to the device common bus. The common point of the resistor 25 and the threshold element 24 is connected to the second output of block I. The output of the threshold element 24 is connected to the input of the inverter 26, the first input of block I, the third input of block 5 and the first input of block b The output of the inverter 26 is connected to the second input of block I, the second the input of block 5 and the input of the voltage divider 27, formed in series with the connected variable 28 and constant 29, 30 resistors and connected in parallel with the 28th and 29th resistors with a constant resistor 31. The output of the voltage divider 27 is connected in series constant / Variable 33, constant 34 resistors and a diode 35 with the output of block 5 and the second input of the audible alarm unit 6. This output is simultaneously the third input of block 2. In this case, the resistor 34 is connected to the cathode, and the common point of the resistors 33 and 34 is connected to the inverting input of the OS 18.

The control unit and the current control 3 contains serially connected alternating 36, constant 37 resistors and microammeter 38, the second terminal of which is connected to the device common bus, In parallel to resistor 36, a follower 94 is connected)

/ 6 -T6 HO are connected constant resistors 39, 40, the common point of which forms the output of block 3, connected to the first input of block 5, The common point of microammeter 38 and resistor 37 forms the first input of block 3, and the common point of resistors 36 and 39 forms its second input.

The control unit for the polarity of the electrodes 4 holds the switching cells 41 and 42 and diodes 43 and 44. The outputs of cells 41 and 42 are connected, their common point forms the first output of block 4, connected to the second input of block 3, Each of the diodes 43 and 44 is connected by a cathode to the inputs of switching cells 42 and 41 and with aKfHBHUM and 9 and 10 electrodes respectively. Anodes of each of the diodes 43 and 44 are connected to the control inputs of the switching cells 42 and 41 and to the third and fourth outputs of block I, respectively

The unit for determining the moment of termination of exposure 5 includes a circuit for comparing stresses, a memory node and a circuit for determining the moment of termination of exposure, performed using the element base intended for these purposes (not shown, to hell).

The BAT 8 equivalent unit consists of a capacitor 45 and a resistor 46 connected in parallel with it and a chain of resistor 47 and a diode 48 connected in series, the cathode of which is connected to terminal 49 and the capacitor 45G. The second output of the capacitor 45 is connected to the passive electrode 10.

The device for electropuncture can work in a manual or automatic mode.

Before starting the operation of the device, it is checked for its operability. At the beginning, the voltage at the power source Ep is checked by pressing the button Control 16, as a result of which the power source is disconnected from the remaining device blocks and connected to the shield meter 38 through the resistor 17, by the deviation of the arrow of which the current value and the voltage of the battery are proportional to it. Release the button 16, restore the connection of the power source with the blocks of the device. Then, the operability of the device blocks is checked in the manual mode of operation of the latter, for which the switch II is set to Manual, the active and passive electrodes are closed, and by changing the resistance of the variable resistor 36, we are convinced on the microammeter 38 scale that the current changes from a minimum

to the maximum. Checking the health of the device for work

in automatic mode, the node of the BAT 8 equivalent is connected. The verification algorithm will be described below.

Both in manual and automatic modes of operation, the magnitude of the current exposure to the biologically active point (BAP) of the patient is set manually by the reflexologist by adjusting the resistance value of the variable resistor 36.

The device for electropuncture works as follows: The active electrode is installed on the patient’s BAP selected for therapy, and the patient holds the passive electrode in his hand,

To operate in manual mode, switch II is set to Manual, as a result of which a high voltage level is applied to the first input of a variable-duration pulse generator 2 from the power source, which is applied to the non-inverting input of the OA 18, and therefore the OA 18 is saturated, and the capacitor 23 is charged to a voltage whose value is almost equal to the difference between the voltage of the power source Ep and the voltage at the non-inverting input of the op-amp 18. At the second input of block 2 (the first input of element 24) is created low

-12 voltage level, and at the second input of the threshold element 24 there is a high voltage level, as a result of which a high voltage level appears at the output of element 24, which is supplied to the first input of the block (second input of element 13) and to both inputs of the inverter 26, at the output which appears. low voltage level, which is supplied to the second input of block 1 (second input of element 14).

If the switch 12 is set to the -AE position, then together the first inputs of the elements 13 and 14 are at a low voltage, and therefore at the third and fourth outputs of unit 1 (the outputs of the elements 1.13) there will be a correspondingly low and high voltage level As a result, the anode of the diode 44 and the control input of the switching cell 41 are at a positive potential relative to the common bus of the device, therefore, the diode 44 is open, and the key of the cell 41 is closed and the current through the diode 44 passes to the passive electrode 10, which e is a positive potential relative to the active electrode 9. Next, the current passes through BAT patient, the active electrode 9 commutation cell 41 and enters the second input unit 3 and through the ammeter 38 on the common bus, connected to the power source E device.

When the button 15 is pressed, the first inputs of the elements 13 and 14 connected together give a high voltage level, as a result of which the voltage levels at the third and fourth outputs of block I will be respectively high and low, i.e. opposite in magnitude to the previously described, in connection with which a high level of voltage is applied to the anode of the diode 43 and to the control input of the switching cell 42, therefore, the diode 43 is open, and the key of the cell 42 is closed, and the current will go through the diode 43, the active electrode 9, The patient’s BAP, a passive electrode 10, a switching cell 42, to the second input of block 3 and through a microammeter 38 to the device common bus, in accordance with which the polarity of the active electrode becomes positive. Therefore, when the button 15 is pressed, the polarity of the active electrode 9 is reversed, while the current flows through the microammeter 38 in one direction. When you return the button 15 to its original position, the polarity of the active electrode 9 relative to the electrode 10 again becomes negative,

If the switch 12 is set to the CEE position, a high voltage level is applied to the combined inputs of the elements 13 and 14 and, since the second inputs of the elements 13 and 14 from block 2 receive high and low voltage levels, respectively, at the third and fourth outputs of block 1 (outputs elements 13 and 14), respectively, low and high voltage levels will act, and therefore the polarity of the active electrode 9 will be positive relative to the passive electrode. When the button 15 is pressed, the combined first inputs of the elements 13 and 14 appear under LOW potential, as a result of which, according to the previously described polarity, the active 9 and passive 10 electrodes will change to the opposite,

With a high voltage level at the third output of block I, the active electrode 9 always has a positive potential, therefore, the light signaling unit 7 connected to this output informs that there is a positive potential only on the active electrode 9, regardless of the device operating mode selected by switch II.

The duration of the cycles of exposure to the BAP of a patient with a positive and negative polarity of voltage on the active electrode 9 is determined by the reflexologist. Finish therapy when receiving close steady-state values carried out - bif cfH. BAP with opposite polarities of the voltage on the active electrode;

In the automatic mode of operation of the device, a change in the polarity of the voltage across the active electrode, an assessment of the equality of conductivity of the BAT with opposite polarities of the voltage on it, and the determination of the moment of termination of exposure to the BAT are made automatically.

To put the device for electropuncture in automatic mode, switch II is set to Automatic. At the time of switching at the first input of threshold element 2 (second input of block 2), the low voltage level changes to high, at the output of element 24– a low voltage level occurs, and at the output of inverter 26 - high. A high voltage level at the first output of block I changes to a low level, the diode 20 closes and the voltage at the non-inverting input (and hence at the inverting input) of the op-amp 18 is determined by the resistive divider voltage 22, while this voltage is lower than the voltage of the resistive voltage divider 27 prf1 any values the resistance of the variable resistor 28 in the case when the output of the inverter 26 is a high voltage level. Since the OS 18 operates in the integrator mode, the voltage at its output begins to decrease linearly to the level determined by the lower threshold of the 24V element. At the moment of the operation of the element 24, a high voltage level appears at its output, and a low voltage at the inverter 26 output. From this moment, the voltage at the output of the op-amp 18 begins to increase linearly and its growth stops when it is equal to the upper threshold of the element 24 and the inverter 26 switches, after which the process is repeated. With fixed thresholds of operation of the element 24 and a fixed voltage at the non-inverting input of the op-amp 18, the charge Tj and discharge 2 of the capacitor 23 linearly depend on the resistance value of the variable resistor 33 and the voltage at the output of the voltage divider 27,

The time interval Tj corresponds to the action of a voltage of negative polarity on the active electrode 9 (switch 12 in the -AE position) and is formed when there is a low voltage level at the output of the inverter 26. Its duration is determined only by the resistance of the resistor 33, because at a low voltage level at the output of the inverter 26, the resistor 28 practically does not affect the voltage level at the output of the voltage divider 27. This time is the time the current affects the patient's BAP.

The time interval T corresponds to the action of positive polarity voltage on the active electrode 9 at the position of the 12-AE switch and is formed at a high voltage at the output of the inverter 26, and its duration depends on the resistance values of both the resistor 28 and the resistor

The output voltage divider 27 is assembled so that

JP, the K ratio linearly depends on the resistance value of the resistor 28, at the second, the resistor 29 determines the range of variation of K, and the resistor 31 provides the linearity of the scale of the variable resistor 28.

During the time Tj, the current flowing through the BAP is established and becomes equal to the value of j chosen to act on the BAP. flowing through the electrical circuit of block 3, creates a voltage drop Kj at the junction of the resistors 39 and. 4-0, which goes to the first input of block 5 and is stored in its memory node, because at the same time, a high-level control voltage is supplied to its third input from the first output of block 2. We denote by 1/2 the flowing through the BAT, and through 8 the voltage at the output of block 3 in the period T2. At the end of the peri J-L -1 ode Tj, the polarity of the voltage changes, and therefore the turn on the active electrode 9 from negative to positive. At this moment, due to the physiological properties of BAP, current

2 jumps up to C / 2 j and then decreases at a speed determined by the physiological state of BAP, which in turn changes during a reflexology session.

According to the same law, the voltage U at the output of block 3 also changes, which, like t / j, is supplied to the first input of block 5, however, the voltage U is not stored, but is compared with the voltage level U j stored in the memory node, because a low voltage level acts on the third input of block 5 As soon as U 2 becomes equal to U j, a high voltage level appears on the output of block 5, which is fed to the third input of block 2 and to the second input of block b. When appearing at the third entrance

pulse generator of variable duration 2 high voltage VlIa accelerated discharge of the capacitor 23 occurs through the resistor 34 and diode 35 to the level of the lower threshold element 24 and the time interval T2 is forced to end

Let us denote in 2 the time interval from the end of Tj to the moment the high voltage arrives at the third input of block 2.

8 at the beginning of a reflexology session ° session T2 increases and at the moment when the coincidence in the level of signals supplied to the first and second inputs of block b, an audible signal appears that indicates the end of the BAT balancing process, and block 2 proceeds to the formation of a signal corresponding to the time interval Tj By a sound signal, the effect on the BAP is stopped.

- 1

- w pulse of duration Tj (in automatic or manual modes) at the output of block 3 there will be a voltage surge caused by a current surge at the initial moment of charge of the capacitor 4, As the capacitor charges, the current flowing through it will decrease, as a result of which the voltage at the output of block 3 will be fall to the value L1, determined by the values of the resistors of block 3 and, with a negative potential on the active electrode 9, the resistance of the resistors 5 and 46, because In this case, the diode 47 is connected in a direct direction. At the end of the interval Tj and the beginning of the interval T, the polarity of the voltage across the active electrode 9 changes, and a voltage jump occurs at the output of block 3, due to a current jump in the node equivalent to BAG 8. Over time T, the current in the circuit will decrease as well as during Tj, however, since the diode 47 is closed, a larger resistance is connected in parallel with the capacitor, which will entail a lower voltage at the output of block 3 than that established at negative polarity on the active electrode 9. Therefore, under certain sets of values of Tj and Tg, the condition will be satisfied when T becomes greater than the value T Kx Tj defined by the resistor 28, which will lead to the operation of the sound signal of the block b. Throws and drops of goods during operation with node 8 are indicated on the scale of the device in manual and automatic modes.

Sources of information:

1. USSR author's certificate te 1745247, cl. A6IH 39/00, 1992

2. The author's certificate of the USSR No. 1026808, class Ab1N 39/00, 1983.

3. The author's certificate of the USSR No. 868773, cl. A6IH 39/00, 1981

Claims (5)

1. Device for electropuncture, containing a variable-duration pulse generator, active and passive electrodes, a voltage polarity switch on the electrodes connected to the output of a variable-duration pulse generator, a current control and monitoring unit, a speed detection end determination unit, including a memory unit and voltage comparison circuits and determining the moment of termination of exposure and associated with the outputs of the control unit and control the current and the pulse generator of variable duration, ex characterized in that the control unit for the polarity of the electrodes, the light signaling unit of positive polarity on the active electrode, and the control and mode selection unit associated with the voltage polarity switch on the electrodes and including a mode selection switch, a polarity change button on the active electrode, two logic elements are inserted into it EXCLUSIVE OR, the first inputs of which are connected to each other and to the common contact of the second section of the mode selection switch, the open contact of which is connected to the common circuit to the first section of the voltage polarity switch on the electrodes, the contact of which is open at a negative voltage polarity on the active electrode, which is connected to a common contact of its second section and a common contact of the first section of the mode switch, the remaining contacts of which are connected by the first and second control inputs of a variable duration pulse generator, open and closed with a negative voltage polarity on the active electrode, the contacts of the second section of the voltage polarity switch on the electric The odes are connected respectively to the normally closed and open contacts of the polarity reversing button on the active electrode, the common contact of which is connected to the second section manually closed contact of the second section, the mode selection switch, the second inputs of the first and second elements EXCLUSIVE OR connected to the first and second outputs of the variable pulse generator duration, with the second and third inputs of the unit for determining the moment of the final impact, and the outputs with the outputs of the control unit for the polarity of the electrodes, soda holding two diodes and two switching cells, the control inputs of which are connected to the anodes of the diodes, the second inputs are connected to the cathodes of the diodes and active and passive electrodes, and the outputs are interconnected and connected to the input of the current regulation and control unit, one of the contacts of the first section the mode switch is connected to the fourth input of the unit for determining the moment of termination of exposure, the third input and output of the latter is connected to the input of the audible alarm unit, and the output of the second EXCLUSIVE OR element is connected to the input of the light unit new signaling of positive polarity on the active electrode. 2. The device according to claim 1, characterized in that the pulse generator of variable duration contains an operational amplifier, a threshold element AND is NOT, the first and second resistive voltage dividers, an inverter, resistors, a capacitor and diodes, while the non-inverting input of the operational amplifier is connected in series connected resistor and diode with the first output of the control unit and mode selection and through a constant resistor with the midpoint of the first resistive voltage divider, and the inverting input through the capacitor is connected to the ode that is connected to the second input of the threshold element AND is NOT, the first input of which is connected to the second output of the control unit and select the mode, and the output of the threshold of the element AND is NOT connected to the first input and through the inverter to the second input of the control unit and select the mode and with the input of the second resistive voltage divider, the output of which through a serial circuit of constant, variable and constant resistors and a diode is connected to the fourth input of the unit for determining the moment of termination of exposure, and the cathode of the diode is connected to a constant resistor, and the common connection point of this constant resistor with a variable resistor is connected to the inverting input of the operational amplifier. 3. The device according to claim 1 and / or 2, characterized in that the second resistive voltage divider contains a series-connected variable and two constant resistors and an additional resistor connected in parallel with the variable and constant resistors connected to it, the connection point of the first terminals of the variable and additional constant resistors forms the input of the resistive voltage divider, and the connection point of the second output of the additional resistor with the common point of two constant resistors is its output. 4 The device according to p. 1 and / or 2 and 3, characterized in that the current regulation and control unit contains series-connected variable, constant resistors and a microammeter and a series circuit of two constant resistors connected to a variable resistor, the connection point of the latter being connected to the first input of the block determining the moment of termination of exposure, the connection point of the first output of the variable resistor and a series circuit of two resistors is connected to the first output of the control unit for the polarity of the electrodes, and the connection point of the microammeter and the second output of the constant resistor forms the first input of the block. 5. The device according to claim 1 and / or 2 to 4, characterized in that the control and mode selection unit is equipped with a control button, the common contact of which is connected to the plus of the power source, a normally closed contact with the common contact of the first section of the mode selection switch, and normally an open contact through a resistor is connected to the first input of the current regulation and control unit. 6. The device according to claim 1 and / or 2 to 5, characterized in that an equivalent node of the biologically active point is introduced into it, including a capacitor connected to a passive electrode, to which a resistor and a resistor and a diode are connected in series, the cathode of which is connected with capacitor and node output terminal.