RU63689U1 - ELECTRONEUROADAPTIVE STIMULANT (OPTIONS), ELECTRODE DEVICE AND ELECTRODE MODULE - Google Patents

Abstract

Utility models relate to medical equipment, namely to electrical stimulators, and can be used for general regulatory healing effects on the physiological systems of the human body.

The technical result achieved by using the inventive electro-adaptive stimulator, providing the possibility of an arbitrary set of configuration of the electrode device with the possibility of exposure to any local area of the body, blocked by the electrode device.

The specified technical result in the first embodiment of the inventive electro-adaptive stimulator is achieved by the fact that in the electro-adaptive stimulator containing a power source, an electrode device, a trigger pulse generating unit including a control microcontroller and an indicator device and a control panel connected to it, and a key stage with a two-section inductor, the input of which is connected to the output of the control microcontroller, and the output to the signal input of the control microcontroller Oller’s electrode device consists of electrode modules, one of which is detachable by a serial two-wire interface for transmitting commands and information data and an address relay bus with a control microcontroller, a signal signal bus with a key stage with a two-section inductor and two power buses with a power source, and other detachable connections are combined in a two-coordinate matrix, while the detachable connection between the electrode modules includes a two-wire a new interface for transmitting commands and information data, an address relay relay bus, an impact signal bus, and two power buses.

The second variant of the electro-adaptive stimulator further comprises a second power source, a second microcontroller and a radio channel containing the first and second transceivers with the first and second antenna devices, connected between the serial two-wire interfaces of the control and the second microcontrollers.

The electrode device contains several electrode modules connected by a detachable connection in a two-coordinate matrix. Each electrode module contains a microcontroller and two electronic keys, the outputs of which are combined and connected to the electrode. 4 n.p. + 1 z.p. fm ly, 6 ill.

Description

Utility models relate to medical equipment, namely to electrical stimulators, and can be used for general regulatory healing effects on the physiological systems of the human body.

From the description of the patent of the Russian Federation No. 2017508, IPC 5 A61N 1/36, publ. 1994, an electric stimulator is known that contains N pairs of electrodes connected to the corresponding inputs of the switching unit, a synchronization unit, the first input of which is connected to an external source of sinusoidal modulated current, the second input to the first output of the control unit, the first output to the first input of the timer , the second output is to the first input of the control unit, the second output of which is connected to the second input of the timer, the third output is to the first input of the program setting unit, and the fourth output is to the control input of the switching unit, you One of which is connected to the second input of the program unit, the timer output is connected to the second input of the control unit, the third input of which is connected to the output of the program unit, characterized in that a pseudo-random binary sequence generator and a polarity switch are inserted into it, the third output of the synchronization unit is connected to the input of the generator of a pseudo-random binary sequence of signals, the output of which is connected to the first input of the polarity switch, the second input of which is connected to the first input of the switch block synchronization, and the output is connected to the input of the switching unit. The disadvantage of this electric stimulator is the inability to automatically dose electrical stimulation depending on the individual characteristics of the patient’s body, which not only reduces the effectiveness of the therapeutic effect, but can also lead to undesirable consequences. In addition, the fixation of the electrodes with elastic bandages, due to non-comfort, adversely affects the psychological state of the patient, which also reduces the effectiveness of treatment.

From the description of the patent of the Russian Federation No. 2135226, IPC6 A61N 1/36, publ. 1999, a neuro-adaptive electrical stimulator is known, which contains a block for the generation of acting pulses, a block for generating modulation control signals, a block for analyzing adaptive processes, a controlled generator, N pairs of electrodes, a block for switching stimulation channels, a frequency generator for the action of electrodes, and a channel code generator. In comparison with the previously described, such an electrical stimulator provides the possibility of individually dosed, determined by the group of selected zones and cyclic about the time of exposure to electric pulses on parts of the skin of a person. The disadvantage of this electric stimulator is the impossibility of affecting the extended innervation zone.

From the description of the patent of the Russian Federation No. 2198695, IPC7 A61N 1/36, publ. 2003, an adaptive stimulator with a virtual electrode is known, which contains a block of rectangular pulses, a block of pulse train generation, a control block, an energy control unit, an output block, a feedback pulse analysis block, an individual norm memory block, a probe signal memory block, the first control the input of the adaptive electric stimulator with a virtual electrode is connected to the control input of the block of rectangular pulses, the installation input of which is connected to the first installation the input of the adaptive pacemaker with a virtual electrode, the signal output of the block of rectangular pulses is connected to the signal input of the block of formation of pulses and the first signal input of the control unit, the second, third and fourth installation inputs of the adaptive pacemaker with a virtual electrode are connected respectively to the first, second and third installation inputs unit of formation of bursts of pulses, the signal output of which is connected to the second signal input of the control unit, the second and third control The corresponding inputs of the adaptive electrical stimulator with a virtual electrode are connected respectively to the first and second control inputs of the control unit, the fifth and sixth installation inputs of the adaptive electrical stimulator with a virtual electrode are connected respectively to the first and second installation inputs of the control unit, the first signal output of which is connected to the signal input of the energy control unit action, the first and second control inputs of which are connected respectively to the fourth and fifth control the inputs of an adaptive pacemaker with a virtual electrode, the seventh and eighth installation inputs of which are connected respectively to the first and second installation inputs of the energy impact control unit, the signal output of which is connected to the signal input of the output unit, the first control input of which is connected to the sixth control input of the adaptive stimulator with a virtual an electrode, the ninth and tenth installation inputs of which are connected respectively to the first and second installation inputs and an output unit, the first signal output of which is connected to the third signal input of the control unit, the first control output of which is connected to the control input of the feedback pulse analysis unit, the first and second installation inputs of which are connected respectively to the eleventh and twelfth installation inputs of the adaptive electric stimulator with a virtual electrode, 2N inputs of the group of installation inputs of which are connected to 2N inputs of the group of installation inputs of the feedback pulse analysis unit, the signal turn is connected to the fourth signal input of the control unit, (N + 1) of the first group of information inputs of feedback pulse analysis unit connected respectively to the outputs of (N + 1) groups of information outputs of block

individual norm memory, inputs (N + 1) of the groups of second information inputs of the feedback pulse analysis unit are connected respectively to outputs (N + 1) of the groups of information outputs of the probe signal parameter recording unit, the clock inputs of the individual norm memory block and feedback pulse analysis unit are combined with a clock output of the control unit, the second control output of which is connected to the control input of the individual norm memory unit, the third control output is connected to the control input of the pair recording unit meters of the probing signal, the second signal output of the output unit is connected to the signal inputs of the individual norm memory unit and the probe signal parameter recording unit, characterized in that the controlled electrode unit and the virtual electrode reference unit are additionally introduced into it, the first signal input of the controlled electrode block is connected to the second the signal output of the control unit, and the second signal input of the unit of controlled electrodes is connected to the second signal output of the output unit and signal input E probing signal storage unit and the individual storage unit norm, the inputs of the first and second groups of control inputs controlled unit electrodes are connected respectively to the outputs of the first and second groups of virtual control electrode setting unit outputs. The disadvantage of an adaptive electrostimulator with a virtual electrode is that when exposed to extended zones of innervation, the areas under the passive electrodes are outside the effect, which reduces the effectiveness of electrical stimulation and the inability to predict the number of electrical stimulation sessions.

As the closest technical solution (prototype) to the claimed electro-neuro-adaptive stimulator, an electro-neuro-adaptive stimulator, protected by paragraph 1 of the claims of the Russian Federation patent No. 2262957, IPC7 A61B 1/36, 1/04, publ. 2005. This electroneuroadaptive stimulator contains a direct current source, a triggering pulse generating unit, an electrode device, a two-section high-quality inductor, the sections of which are connected according to, the connection point of the sections of a two-section high-quality inductor is connected to the first pole of the direct current source, the second end of the section with a smaller the number of turns through the key amplifier is connected to the second pole of the DC source, the second end of the section with a large number of of the turns is connected to the input of the feedback signal of the trigger pulse generating unit and through N electronic controlled activation keys to the “active electrode” mode with N electrodes of the electrode device, the signal output of the trigger pulse generating unit is connected to the signal input of the key amplifier, characterized in that it contains N electronic controlled keys for switching to the "passive electrode" mode and an electrode assignment setting unit, the code input of which is connected to the code

the output of the control unit and the formation of triggering pulses, the control input with the control output of the control unit and the formation of triggering pulses, a 2N outputs with corresponding control inputs of N electronic controlled keys for switching on to the "active electrode" mode and N electronic controlled keys for switching on to the "passive electrode" mode while the electrodes of the electrode device through additional electronic switches to enable the "passive electrode" are additionally connected to the first pole of the constant current source ka. The unit for generating triggering pulses in this electroneuroadaptive stimulator contains an operation mode setting unit including at least stimulus energy level control elements and a power-on element, an indication unit and an analysis, control and pulse generation unit made in the form of an ultra-large integrated circuit (VLSI), VLSI installation inputs are connected to the outputs of the operation mode setting node, the indications of the indication node are connected to the VLSI information outputs, the VLSI signal output is a signal output m of the trigger pulse generation block, the VLSI code output is the code output of the trigger pulse generation block, the VLSI control output is the control output of the control and trigger pulse generation block, the VLSI signal input is the feedback signal input of the trigger pulse generation block, and the VLSI has at least two modes works, in the first of which on the pulse output of the control unit there are a series of triggering pulses with a fixed number of pulses in the series, and on ovom output code sequence from 1 to N, where N - number of controllable electronic switches, changing the code which happens to each series of trigger pulses, while the second - the pulse output a continuous sequence or series of firing pulses, seven output - unmodifiable code. The disadvantage of the prototype is the inability to adapt the electrode device to the configuration of the exposure zone.

Common signs of the claimed electroneuroadaptive stimulator and prototype are:

- the presence of a power supply;

- the presence of a unit for generating triggering pulses, including an indicator device (in the prototype it is an indication unit), a control panel (in the prototype it is a unit for specifying operating modes), a control microcontroller (in the prototype it is an analysis, control and pulse generation unit made in the form of an extra-large integrated circuit) ;

- the presence of a key stage with a two-section inductor (in the prototype it is a two-section inductor with a key amplifier);

- connection of the signal input of the key cascade with a two-section inductor with the output of the control microcontroller, and the output of the key cascade with the signal input of the control microcontroller;

- the presence of an electrode device.

The technical result achieved by using the inventive electro-adaptive stimulator, providing the possibility of an arbitrary set of configuration of the electrode device with the possibility of exposure to any local area of the body, blocked by the electrode device.

The specified technical result in the first embodiment of the inventive electro-adaptive stimulator is achieved by the fact that in the electro-adaptive stimulator containing a power source, an electrode device, a trigger pulse generating unit including a control microcontroller and an indicator device and a control panel connected thereto, and a key stage with a two-section inductor, the input of which is connected to the output of the control microcontroller, and the output through the damping element to the signal input the control microcontroller, the electrode device consists of electrode modules, one of which is connected by a detachable serial two-wire interface for transmitting commands and information data and the address relay bus with the control microcontroller, the signal signal bus with the output of the key stage with a two-section inductor and two power buses with a source power supply, and other detachable connections are combined in a two-coordinate matrix, while the detachable connection between the electro GOVERNMENTAL modules includes a wire communication interface commands and information data relay bus address bus, and two signal feedback power bus.

The specified technical result in the second embodiment of the claimed electro-neuroadaptive stimulator is achieved by the fact that the electro-neuroadaptive stimulator containing the first power source, an electrode device, a control microcontroller, an indicator device and a control panel connected to the control microcontroller, and a key stage with a two-section inductor, additionally contains a second power source , a second microcontroller and a radio channel containing the first and second transceivers with the first and a second antenna device, connected between the serial two-wire interfaces of the control and the second microcontrollers, the key stage with a two-section inductor is connected to the output of the second microcontroller, and through the damping element to the signal input of the second microcontroller, the first power source is connected to the power circuits of the control microcontroller, indicator devices, control panels and the first transceiver, the second power source is connected to power circuits

the second microcontroller, the second transceiver, the key stage with a two-section inductor, the electrode device consists of electrode modules, one of which is connected by a detachable serial serial interface for transmitting commands and information data and the addressing relay bus with the second microcontroller, the signal signal bus with the output of the key stage with a two-section inductance coil and two power rails with a second power source, and others detachable connections combined in a two-coordinate matrix, while the detachable connection between the electrode modules includes a two-wire interface for transmitting commands and information data, an impact signal bus, an address relay relay bus and two power buses.

In both versions of the electron-adaptive stimulator, the key stage with a two-section inductor contains a two-section inductor, the sections of which are included according to the connection point of the sections of the two-section high-quality inductor connected to the first pole of the power source, the second end of the section with fewer turns through a key amplifier, including, for example, a semiconductor triode and a damping diode, connected to the second pole of the power source, the second end of the section with a large the number of turns is connected to the input of the microcontroller, the input of the key amplifier is connected to the output of the microcontroller. A two-section inductor has an inductance of 0.1 ... 2.0 H, the ratio of the number of turns of a section with a smaller number of turns to the total number of turns is 0.05 ... 0.3, and the quality factor of the inductor exceeds 100.

The electrode device used in the inventive electro-adaptive stimulator is an independent object of protection as a utility model.

From the description of the patent of the Russian Federation No. 2083236, IPC6 A61N 1/04, A61H 39/00, publ. 19970, an electrode device is known that is used in medical equipment complete with an electric stimulator for non-pharmacological treatment of a wide class of diencephalic disorders. It is a frame consisting of three electrically conductive elastic arcs interconnected by hinged elements, each of the arcs consists of two halves interconnected in the middle part by a dielectric element, one electrode is located on each of the halves, the ends of the electrically conductive elastic arcs made in the form of electrical contacts.

This electrode device is designed to relieve pain in diseases of the temporomandibular joint, i.e. is highly specialized.

An electrode device for electrical stimulation of the neuromuscular apparatus, protected by the patent of the Russian Federation No. 2124344, IPC6 A61H 39/00, A61B 5/05,

publ. 1999, intended for restorative treatment in case of traumatic injuries in conditions of impaired innervation, contains a fixed electrode made in the form of an electrically conductive plate and a movable electrode. The movable electrode is made of two layers, with one layer made of elastic electrically conductive material, and the second layer of electrically insulating elastic material and equipped with fasteners to the palm of the operator. By attaching the electrode device to the operator’s hand, palpation control of the effectiveness of electrical stimulation is provided. The disadvantage of such an electrode device is that it is unsuitable for use with electro-adaptive stimulators due to the lack of fixing the distance between the passive and active electrodes.

As a prototype, an electrode device is adopted, protected by paragraph 13 of the claims according to the patent of the Russian Federation No. 2262957, IPC7 A61B 1/36, 1/04, publ. 2005. This electrode device contains a connector for connecting an electro-adaptive stimulator, current-conducting conductors and electrodes, as well as an elastic substrate with contact slots attached to it for connecting electrodes, each contact of a connector for connecting an electron-adaptive stimulator, a current-conducting conductor is connected to a corresponding contact socket, and electrodes and contact slots for connecting them are located on the reverse sides of the elastic substrate. The use of such an electrode device requires the presence of a connector on the electro-neuroadaptive stimulator with the number of contacts equal to the number of electrodes, which limits the possibility of miniaturization of the electro-neuroadaptive stimulator and adaptation of the electrode device to the configuration of the body portion selected for electro-stimulating effect.

The technical result achieved when using the inventive electrode device, ensuring the adaptation of the configuration of the electrode device to the configuration of the body selected for electrical stimulation.

The specified technical result is achieved by the fact that in an electrode device containing two or more electrodes for electrical stimulation, each electrode is placed on an electrode module containing a microcontroller and two electronic keys, the control inputs of which are connected to the outputs of the microcontroller, the signal input of the first electronic key is connected to the input electrode module "signal of exposure", the signal input of the second electronic key is connected to the input of the electrode module "housing", while the electrode mode whether the two coordinate matrixes are combined and neighboring modules are connected to each other by a detachable connection, including a two-wire interface for transmitting commands and information data, an address relay relay bus, an impact signal bus, and two

power buses, electrode key outputs are combined and connected to an electrode located on the electrode module.

The electrode module for the inventive electrode device is an independent object of protection as a utility model.

The inventive electrode module contains an electrode mounted on a substrate, a microcontroller and two electronic keys, the control inputs of which are connected to the microcontroller, and four orthogonally located relative to the center of the substrate, a connector, each of which has two elements for connecting to a two-wire interface for transmitting information data commands, one element for connecting to the addressing relay bus, one element for connecting an exposure signal bus and two elements for connecting to power buses, while the elements for connecting to the two-wire interface for transmitting commands and information data are connected to each other and the first input of the microcontroller, the elements for connecting to the bus of the signal of influence are connected to each other and to the signal input of the first electronic key, the elements for connecting to the bus of the address relay relay are each connected to a separate microcontroller input, elements for connecting to power buses are connected to each other and the corresponding microcontroller power terminals, the signal input of the second electronic the key is connected to the microcontroller case.

According to the authors, the proposed technical solutions meet the patentability criterion of “novelty”, as the patent studies showed the absence of sources of information from which technical solutions with the claimed sets of essential features would be known. The materials of this application contain enough information to implement the claimed technical solutions, therefore, the claimed technical solutions meet the patentability criterion of "industrial applicability".

Utility models are illustrated by drawings. Figure 1 shows a block diagram of a first embodiment of the inventive electro-adaptive stimulator, figure 2 - block diagram of a second variant of the inventive electron-adaptive stimulator, figure 3 is a structural diagram of an electrode device, figure 4 is a functional diagram of an electrode module, figure 5 an example of implementation of a key stage with a two-section inductor is shown, Fig. 6 shows an example of the implementation of electronic keys of an electrode module on reed switches.

In figure 1 ... 4 in numbers and letters denote:

1 - control microcontroller;

2 - power source;

3 - indicator device;

4 - control panel;

5 - key stage with a two-section inductor;

6 - electrode device;

7 - detachable connection;

8 - damping element;

9 - the second microcontroller;

10 - a second power source;

11 - the first transceiver;

12-1 - the first antenna device;

12-2 - the second antenna device;

13 - the second transceiver;

14 - electrode module;

15 - microcontroller of the electrode module;

16 - the first electronic key;

17 - the second electronic key;

18 - electrode;

AP - hardware device;

A - bus addressing relay;

P / I - two-wire interface for transmitting commands and information data;

C / V - bus signal exposure;

“U”, “0” - power buses.

The electro-adaptive stimulator, the first option (Fig. 1) contains a control microcontroller 1, a power source 2, an indicator device 3, a control panel 4, a key stage 5 with a two-section inductor and an electrode device 6 connected to a hardware device of the electro-adaptive stimulator with a detachable connection 7, including a two-wire P / I interface for transmitting commands and information data, bus A of the addressing relay, bus C / V of the signal of influence and two power buses “U” and “0”. The concept of a hardware device (AP) includes all the structural elements of an electro-adaptive stimulator, excluding the electrode device 6 and detachable connection 7. The control microcontroller 1 is connected to the first port with an indicator device 3, the second port to the output of the control panel 4, the signal output to the input of the key stage 5, signal input through a damping element 8, for example, a resistive divider, with the output of the key stage 5, a serial port with a two-wire P / I interface for transmitting commands and information yes GOVERNMENTAL releasable connection 7 and the serial port to the bus A relay addressing compound 7. The power supply 2 is connected to power supply control circuits of the microcontroller 1, the display device 3, the operation panel 4, a key 5 and a cascade supply rails «U» and «0» releasable connection

7. Indicator device 3 includes, at a minimum, a graphic display on OLED organic LEDs and is intended to display a menu of settings for setting an electro-neuroadaptive stimulator, exposure modes, results of medical procedures, the body's response to exposure, the state of the power source, and also reference information, including a list nosological forms, a list of diseases for each nosological form, a set of drawings indicating zones for exposure and configuration of the electrode device. The indicator device 3 may contain light indicators that provide additional control of the processes of exposure, and an audio indicator to control the processes of exposure to poorly visible. The control panel 4 is designed to select the operating mode through the menu and control the energy level in manual mode and can be implemented using multifunctional touch controls. Operation is controlled through the control microcontroller 1. Built-in online help with explanatory drawings allows you to quickly and accurately determine the necessary zones for exposure. The operating system allows you to simultaneously carry out the treatment procedure and view online help. The software of the control microcontroller 1 allows you to automatically control stimulation during prolonged exposure and implement all exposure modes. The timer for the impact on the zone, the timer for the entire procedure, and the timer for the device’s resource are also implemented in software. The control panel 4 provides control of the operation of the electro-adaptive stimulator through the menu displayed on the display of the indicator device 3. The menu includes general and typical observations and explanations that help novice users to understand the display symbols of the indicator device 3 and learn how to work with it, conduct a preliminary analysis of the treated area, determine the exposure time, choose the optimal energy level of the acting signal, control the duration of treatment procedures, adjust ivat menu language, etc.

The second variant of the inventive electro-adaptive stimulator (Fig. 2) contains a first power supply 2, a control microcontroller 1, an indicator device 3 and a control panel 4, a key stage 5, an electrode device 6, a detachable connection 7, a second microcontroller 9, a second connected to a control microcontroller 1 a power source 10 and a radio channel comprising a first transceiver 11, a first antenna device 12-1, a second antenna device 12-2, and a second transceiver 13. A radio channel is connected between the ports of the two-wire the P / I interface for transmitting commands and information data of the control microcontroller 1 and the second microcontroller 9. The electrode device 6 is connected via plug-in connection 7 with a two-wire P / I interface for transmitting commands and information data with the first serial port of the second microcontroller

9, bus A of the addressing relay with a second serial port of the second microcontroller 9, bus C / V of the impact signal with the output of the key stage 5 and through the damping element 8, for example, a resistive divider, with the signal input of the second microcontroller 9 and the buses "U" and "0 "With the first power source 2. The input of the key stage 5 is connected to the output of the second microcontroller 9. The first power source 2 is connected to the power circuits of the second microcontroller 9, the second transceiver 13 and the key stage 5. The second power source 10 is connected n to the power supply circuits of the control microcontroller 1, the indicator device 3, the control panel 4, and the first transceiver 11. The purpose of the control microcontroller 1, the indicator device 3, the control panel 4 and the key stage 5 are the same as the first version of the electron-adaptive stimulator. The radio channel, including transceivers 11 and 13 with antenna devices 12-1 and 12-2, provides the exchange of commands and information data between microcontrollers 1 and 9. The key stage 5 (Fig. 5) in the first and second versions of the electron-neuroadaptive stimulator is a two-section inductor L, sections of which “|” and “||” are included according to, the connection point of the sections of the two-section inductor is connected to the first pole of power supply 2, the second end of the section “|” with fewer turns through a key amplifier, including the example, a semiconductor triode T and a damping diode D, is connected to the second pole of the power supply 2, the second end of the section “||” with a large number of turns is connected to the C / V bus of the signal of the impact of the detachable connection 7 and through the damping element 8 with the input of the microcontroller 1 in the first embodiment of the electron-adaptive stimulator or the input of the microcontroller 9 in the second embodiment, the input of the key amplifier is connected to the output of the microcontroller 1 or 9. The two-section inductor has an inductance of 0.1 ... 2.0 H, the ratio of the quantity turns of the | section with a smaller number of turns to the total number of turns is 0.05 ... 0.3, and the quality factor of the inductor exceeds 100.

The claimed variants of an electron-adaptive stimulator are a means of implementing modern technology of highly effective non-drug recovery of human health, called "SCENAR" self-controlled electron-adaptive regulation. A characteristic feature of the operation of the electroneurostimulator is that the stimulating effect is carried out by electrical vibrations that occur in the resonant circuit formed by the inductance of the || section with a large number of turns of a two-section inductor L and the capacitive component of the interelectrode tissue impedance between the active and passive electrodes, while is set by the duration of the control signal, unlocking the key stage 5 - the time of saturation of electromagnetic energy to the coil inductance L by ki

passing current through the "|" section with fewer turns. The active component of the interelectrode tissue impedance affects the quality factor of the circuit and affects the rate of damping of oscillations in the resonant circuit. The capacitive component of the impedance that changes during electrical stimulation affects the frequency of these oscillations. The rate of change of the capacitive component of the impedance reflects the body's response to the electrostimulating effect. The rate of change of the capacitive component is calculated in the microcontroller 1 by the change in the duration of the first half-wave of oscillations of the electrostimulating signal at the output of the key stage 5. The zero rate of change in impedance indicates the absence of an organism reaction and the need for termination of electrical stimulation. Electro-adaptive stimulants are designed to prevent diseases and increase the reserve capacity of the body. Provide resistance to diseases and harmful environmental influences. The impact is carried out by short-pulse signals at the contact of the electrodes 18 with the skin. The parameters of the exposure signal and the duration of the procedure are set automatically.

When the electrodes of the electrode device are in contact, the electro-neuroadaptive stimulator automatically switches to the exposure mode that is most suitable for the body at the moment (the electrodes connected to the C / V bus are automatically selected and the electrodes connected to the "0" bus, the energy level of the acting signal is automatically set, determined by the pulse duration at the input of the key stage 5 and their number). This is very convenient when urgent care is required - for pain, bleeding, edema, shock conditions, heart attacks, etc. Then the mode can be changed. At the command of the microcontroller 1, under the control of a program stored in its memory, a menu is displayed on the display of the indicator device 3. Using the control panel 4, the patient or doctor, using the menu operands, finds the area for exposure according to the express analysis, determines the priorities of the areas of the exposure zone, among the areas with the highest priority, finds the area with the highest degree of activity, selects the exposure mode and starts the electrical stimulation procedure. On the display of the indicator device 3 in graphical and digital form displays the main operating modes, exposure energy, condition of the exposure zone, its activity during the procedure and the degree of change, the exact progress of the exposure dose, the exposure time for a separate area and the total time of the procedure, as well as the status power source 2. This allows you to evaluate the correct choice of the exposure zone, the full dose, the inclusion of dynamic adaptation and the reliability of contact with the skin. The electrical stimulation of the selected area of the exposure zone stops automatically, as soon as the body ceases to respond to the impact and at the output of the key cascade 5, the duration of the first half-wave

will cease to change. The presence of the indicator device 3, made with a display on organic light-emitting semiconductors using TFT OLED technology, allows the consumer to specify the diagnostic signs and choose a mode of electrical stimulation close to optimal, to quickly and objectively monitor the treatment results

The main blocks and nodes in the program of the microcontroller 1 for controlling an electron-adaptive stimulator, displayed on the display of the indicator device 3.

Biopassport block - allows you to automatically set up an electron-adaptive stimulator individually for the patient to whom the procedure is performed at the first touch. In addition, this is a great opportunity to get a high impact effect with self-help.

Dynamic adaptation block - allows you to control stimulation during long-term exposure, adjusting the effect and pauses between actions by feedback. It turns on automatically.

Block professional - specializes in tuning an electron-adaptive stimulator for professional use. During the procedures, the statistical information of the user's “work style” is recorded in the memory of microcontroller 1, remembering which zones are most often affected. There are 4 main areas of application of the electro-adaptive stimulator: the peripheral zone, the abdomen and chest in the front, the back and the face. Separate setting - to restore the health of children from 0 to 1-2 years. Based on this information, the internal functions of the electroneuroadaptive stimulator are adjusted.

Age Corrector - adjusts the initial setting of the electro-adaptive stimulator according to the "age qualification" - high-speed integrated response characteristics to exposure. Automatically provides dose adjustment in accordance with the age of the patient - a large dose for adults, and a lower dose for children.

Module of quick help effect - forms an additional fast help package of impulses for impact in the area with expanded capillary network. It allows you to speed up the removal of puffiness and increase the rate of tissue regeneration. The module is activated at the same time as the electro-adaptive stimulator is turned on, when the electrodes come into contact with the skin, and it turns off automatically.

Corrector of aging - monitors and corrects the detuning of the control circuits and the effects of the electro-adaptive stimulator associated with the aging of radioelements, which allows to maintain its effectiveness in the process of long-term operation.

Reliability controller - provides short-term protection of the electro-adaptive stimulator from possible overloads, short circuits of electrodes, improper installation of batteries, etc.

The electrode device 6 (figure 3) contains several (two or more) electrodes 18 for electrical stimulation. Each electrode 18 is placed on the electrode module 14, containing the microcontroller 15 and two electronic keys 16 and 17, the control inputs of which are connected to the outputs of the microcontroller 15, the signal input of the first electronic key 16 is connected to the connector element for connecting the signal of the electrode module to the C / V bus 14, the signal input of the second electronic key 17 is connected to the connector element for connecting to the power bus "0" of the electrode module 14. The electrode modules 14 are combined into a two-coordinate matrix, while adjacent modules 14 with are interconnected by a detachable connection 7, including a two-wire P / C interface for transmitting commands and information data, an address relay relay bus A, a signal signal C / V bus and two power buses “U” and “0”, the outputs of the electrode keys 16 and 17 are combined and connected to an electrode 18 located on the electrode module 14.

The electrode module 14 (Fig. 4) contains an electrode 18 mounted on a substrate, a microcontroller 15 and two electronic keys 16 and 17, the control inputs of which are connected to the microcontroller 15, and four, orthogonally located relative to the center of the substrate, a connector, each of which has two an element for connecting to a two-wire P / I interface for transmitting information data commands, one element for connecting to the address A relay bus A, one element for connecting a signal C / V bus and two elements for connecting to the U buses “0” power, while the elements for connecting to the two-wire interface P / C transmission of commands and information data are connected to each other and the 1st input of the microcontroller 15, the elements for connecting to the C / V bus of the exposure signal are connected to each other and to the signal the input of the first electronic key 16, the elements for connecting to the bus A of the addressing relay are each connected to a separate input of the microcontroller 15, the elements for connecting to the buses “U” and “0” are connected to each other and the corresponding power terminals of the microcontroller and 15, the signal input of the second electronic key 17 is connected to the power bus "0".

An example of the implementation of electronic keys 16 and 17 on the PVT322A microelectronic relay is shown in Fig.6. When applying a control signal to the input of the electronic key 16, the electrode 18 is included in the active electrode mode. When applying a control signal to the input of the electronic key 17, the electrode 18 is turned on in the passive electrode mode. In the absence of control signals at the inputs of electronic keys 16 and 17, the electrode 18 is excluded from electrical stimulation.

The claimed electro-neuroadaptive stimulators, in comparison with the known ones, are distinguished by the fact that the electrode device 6 consists of identical electrode modules 14 assembled into a two-coordinate matrix, which allows, thanks to addressing automation during one treatment session, to adapt the configuration of the electrode device 6 to the configuration of each of the exposure zones. 4, the addressing algorithm is viewed (assignment to the electrode module 14 of a number in the electrode device). The number of electrode module 14 is indicated in parentheses. The electrode module 14 connected through a plug-in connection 7 to a hardware device (AP) is automatically assigned the number 00, then for each electrode module 14 connected along the “+ X” axis, the number is increased by one in the low order (0.1; 0.2; and etc.), connected along the "+ Y" axis increases by one in the highest order (1.0; 2.0; etc.), when connected along the "-X" axis, the number decreases by one in the lower order (1, -1; 1, -2; etc.), when connected along the "-Y" axis, the number decreases by one in the highest order (-1.0; -2.0; etc.) . Such numbering is carried out as follows. Bus A of the addressing relay is connected to the single-bit bidirectional port of the microcontroller 15. In the initial state for all electrode modules, this port is in the receiving state. When 1 is set from the control microcontroller 1 on bus A and a command is received via the two-wire P / I interface on the bus A, the first electrode module 14 assigns itself 00 and then sends 1 in turn to the remaining three elements for connection to buses A. Each from the microcontrollers 15 of the adjacent electrode modules 14 receives the corresponding addresses. As soon as all microcontrollers 15 have been addressed via the two-wire P / C interface, the addresses of all the electrode modules 14 are received in the control microcontroller 1. Since the electronic modules are combined into a two-coordinate matrix, visualization of the constructed network of electrode modules on the display of the indicator device 3 is not difficult and is automatically updated when changing the configuration of the electrode device.

The presence of a radio channel in the electron-adaptive stimulator in the second embodiment allows much easier work of the attending physician, since it becomes possible to control the treatment of several patients from one workstation with radio channel control. The radio channel can be implemented on the basis of Bluetooth or ZigBee modules. As microcontrollers are used processors STR910FM32X6.

Power source - two AAA elements.

Claims (5)

1. An electro-adaptive stimulator containing a power source, an electrode device, a trigger pulse generating unit, including a control microcontroller and an indicator device and a control panel connected to it, and a key stage with a two-section inductor, the input of which is connected to the output of the control microcontroller, and the output is through a damping an element to the signal input of the control microcontroller, characterized in that the electrode device consists of electrode modules, one of which A plug-in connection is connected by a serial two-wire interface for transmitting commands and information data and an addressing relay bus with a control microcontroller, a signal signal bus with a key stage with a two-section inductor and two power buses with a power source, and other plug-in connections are combined into a two-coordinate matrix, with a detachable the connection between the electrode modules includes a two-wire interface for transmitting commands and information data, the relay bus address Radio, signal bus and two power buses. 2. An electro-adaptive stimulator comprising a first power source, an electrode device, a control microcontroller, an indicator device and a control panel connected to the control microcontroller, and a key stage with a two-section inductor, characterized in that it further comprises a second power source, a second microcontroller and a radio channel, comprising first and second transceivers with first and second antenna devices, connected between serial two-wire interfaces and the control and the second microcontrollers, the key stage with a two-section inductor is connected to the output of the second microcontroller by the output and through the damping element to the signal input of the second microcontroller, the first power source is connected to the power circuits of the control microcontroller, indicator device, control panel and the first transceiver, second the power source is connected to the power circuits of the second microcontroller, the second transceiver, the key stage with a two-section coil of the inductance, the electrode device consists of electrode modules, one of which is connected by a detachable serial interface with a two-wire command and information transmission interface and an addressing relay bus with a second microcontroller, a signal signal bus with a key stage output with a two-section inductor and two power buses with a second source power supply, and other detachable connections are combined in a two-coordinate matrix, while the detachable connection between the electrode modules It includes a two-wire interface for transmitting commands and information data, an impact signal bus, an address relay bus, and two power buses. 3. The electron-adaptive stimulator according to claim 1 or 2, characterized in that the key stage with a two-section inductor contains a two-section inductor, the sections of which are included according to, the connection point of the sections of the two-section high-quality inductor is connected to the first pole of the power source, the second end of the section with a smaller the number of turns through a key amplifier, including, for example, a semiconductor triode and a damping diode, is connected to the second pole of the power source, the second end of the section and with a large number of turns connected through a damping element to the input of the microcontroller, the input of the key amplifier is connected to the output of the microcontroller, while the two-section inductor has an inductance of 0.1-2.0 GH, the ratio of the number of turns of the section with fewer turns to the total number of turns is 0.05-0.3, and the quality factor of the inductor exceeds 100. 4. An electrode device containing several (two or more) electrodes for electrical stimulation, characterized in that each electrode is placed on an electrode module containing a microcontroller and two electronic keys, the control inputs of which are connected to the outputs of the microcontroller, the signal input of the first electronic key is connected to the input of the electrode module "signal", the signal input of the second electronic key is connected to the input of the electrode module "housing", while the electrode modules are combined in two oordinatnuyu matrix and adjacent modules are connected to each other detachably compound comprising a two-wire interface transmitting commands and information data relay address bus, and two signal feedback power bus, the outputs of the electrode keys are combined and connected to the electrode on the electrode unit. 5. An electrode module comprising an electrode fixed to a substrate, characterized in that it further comprises a microcontroller and two electronic keys, the control inputs of which are connected to the microcontroller, and four, orthogonally located relative to the center of the substrate, a connector, each of which has two elements for connection to a two-wire interface for transmitting information data commands, one element for connecting to the addressing relay bus, one element for connecting to an exposure signal bus and two elements for connecting to power buses, while elements for connecting to a two-wire interface for transmitting commands and information data are connected to each other and to the 1st input of the microcontroller, elements for connecting to the bus of the signal of influence are connected to each other and to the signal input of the first electronic key, elements for connecting to the addressing relay bus, each is connected to a separate input of the microcontroller, elements for connecting to power buses are connected to each other and to the corresponding power terminals of the microcontroller , The signal input of the second electronic switch is connected to the housing of the microcontroller.