Electroneuroadaptive stimulator cosmodic, stimulation electrode device and method for rejuvenating and healing face and neck skin

FIELD: medicine; cosmetics; medical engineering.

SUBSTANCE: device has DC power supply source, unit for controlling and producing starting pulses, demultiplexor unit, two-sectioned, inductance coil of high figure of merit, key amplifiers and electrode unit having coaxial active and passive electrodes. The electrode unit has electric insulating casing and external passive electrode and internal active electrode coaxially mounted on end and/or lateral casing surface. The electrodes are connected to stimulator device output via outgoing wire leads. The casing is designed as hollow truncated tetrahedral pyramid. Contact surfaces of the electrodes have revolution body surface which radius is 3-10 or more times as large as maximum external electrode size. Method involves applying the stimulator device by smoothly moving or changing place of the electrode unit having coaxial active and passive electrodes along massage lines of face and/or neck. The electrodes are connected to the inductance coil of high figure of merit (greater than 100) periodically saturated with electromagnetic energy in connecting several coil loops to DC power supply source poles for given time of 0.5-500 mcs having 1.0-12.0 V voltage. Repeated connection is carried out not earlier than in twice the connection time duration. The first electric oscillation half-wave amplitude is equal to A=20-800 V and oscillation period T=0.1-200 mcs. Treatment with electric current is administered at least every second day during 21-25 days with total treatment time being 10-40 min per day.

EFFECT: enhanced effectiveness of treatment; high stability of contact to skin; accelerated treatment course.

21 cl, 11 dwg

 

The invention relates to medicine and can be used in cosmetology and physiotherapy.

Known pacemaker, containing the pulse generator, modulator, amplifier, indicator electrodes, the generator period, the envelope shaper, multiplier, unit energy stimulus and a differentiating element (see the description of the author's certificate No. 1817335, IPC6A 61 N 1/36, publ. 1995). Depending on the quality of the transition process at the output of the pacemaker signal after differentiating element is controlled by the duration of the series of pulses specified by the generator period that allows you to measure the impact in accordance with the reaction of the body. A disadvantage of such a pacemaker - low diagnostic ability and no choice of parameters of the stimulating pulses, which does not allow its use in cosmetology.

From the description to the patent of Russian Federation №2068277, IPC6A 61 N 1/36, And 61 N 39/00, publ. 1996 famous bioelectric controller psychosomatic homeostasis (electroneurography stimulator)containing connected in series generator of rectangular pulses, the set of enabling signals, key amplifier with transformer output is connected to the active and passive electrodes, and the block of the parameters of the stimulating signal, coupled with the processing unit of the stimulating signals and connected to the active electrode connected in series half-wave rectifier, the unit of measurement of the duration of the first half-wave of forced oscillations, and flow indicating and control. The disadvantage of this electrodeionization stimulator - the inability to change the frequency characteristics of electric oscillations of the stimulating signals, which prevents its use in cosmetology.

The closest adopted as the prototype is adaptive pacemaker, protected by the patent of Russian Federation №2155614, IPC7A 61 N 1/36, publ. 2000

This stimulator contains a block of rectangular pulses, the control unit energy effects, the output unit, passive and active electrodes, the processing unit of the pulse packet, block feedback, the memory block individual norms and unit recording parameters of the probing signal. The disadvantage of the prototype is the low efficiency of its use in cosmetology, as there is no possibility of forced change of parameters of electric oscillations of the acting signal that is not achieving the effect of rejuvenation of the face and/or neck with its use.

The problem solved by the invention, the efficiency e is chronographing stimulator in cosmetology in order to achieve the effect of skin rejuvenation of the face and/or neck.

The solution of the stated problem in the first embodiment is achieved by the fact that electroneurography stimulator, designed primarily for skin rejuvenation of the face and/or neck, containing the constant current source, the control unit and the formation of trigger pulses and electrode unit comprising coaxial posted by passive and active electrodes, contains two high-q coil inductance and the demultiplexer, a signal input connected to the pulse output of the control unit and the formation of trigger pulses, and control input - code output of this block, one of the poles of the DC source is connected to the passive electrode of the electrode device, and a connection point of the two sections of the high q inductor, section which is enabled according to the second end section with a large number of coils is connected to the active electrode and the input of the feedback signal processing unit of trigger pulses, a section with a smaller number of coils made with taps, each tap of this section through the key amplifier connected to the second pole of the DC source signal input of each key of the amplifier is connected to its respective output of the demultiplexer. In electrodeionization the stimulator control unit and is of formirovaniya trigger pulses contains the node set modes of operation, including at least controls the energy level of the stimulus and the element of power, the host display and the host analysis, control and pulse shaping, made in the form of a very large integrated circuits (VLSI), while the installation log VLSI coupled to the output node of the job modes, the inputs of the node display is connected to the information output VLSI pulse output VLSI is the pulse output of the control unit and the formation of trigger pulses, a code output VLSI is code output control unit and the formation of trigger pulses, a signal input VLSI is the input signal of the feedback control unit and the formation of trigger pulses, and VLSI has at least two modes, the first of which on the pulse output control unit, there is a series of trigger pulses with a fixed number of pulses in the series, and the coded output sequence of codes from 1 to n, where n is the number of key amplifiers, change the code in which each series of trigger pulses, and the second on pulse output continuous sequence or sequence series of trigger pulses, the code output - invariant code. Site analysis, control and pulse shaping, made in the form of ultra integrally the circuit (VLSI), contains the generator pulsing pulse scheme of the formation of trigger pulses, a method of forming the control signals and serially connected analog-to-digital Converter, the circuit for measuring parameters of the feedback signal, the circuit for measuring the rate of change of the parameters of the shaped signal communication circuit isolation feedback signal with the maximum rate of change of the parameters and fixing scheme in the absence of changes of the parameters of the feedback signal, and the analog-digital Converter signal is input VLSI, the generator output clock pulses is connected to the first input of the differential formation of trigger pulses, a first output which is connected to the input of a shaping circuit control signals, the second input of the differential formation of trigger pulses is the installation log VLSI, the second output of the shaping circuit of trigger pulses is a pulse output VLSI and connected with the second input of the differential measurement of the rate of change of the parameters of the feedback signal, the output signal of the control code is output VLSI and connected with the second input of the differential selection of the feedback signal with the maximum rate of change of the parameters, the second output of the circuit measuring the rate of change of the parameters of the feedback signal with ligature connect the n respectively with the second input of the differential fixation of the absence of changes of the parameters of the feedback signal, the second output of the circuit selection feedback signal with the maximum rate of change of the parameters connected with the second input of the differential generation of control signals, a third input which is connected to the first output of the circuit commit the absence of changes of the parameters of the feedback signal, the second output of the circuit commit the absence of changes of the parameters of the feedback signal and the third output circuit measuring the rate of change of the parameters of the feedback circuit and the selection of the feedback signal with a maximum change of the parameters are informational outputs VLSI. A high-q inductor has an inductance of 0.1 to 2.0 MT, the ratio of the number of turns of the section with a smaller number of coils to the total number of coils is equal to 0,05 0,3..., bends in the section with a smaller number of coils made with a uniform pitch, and the q of the inductor is greater than 100.

In the second case the solution of the stated problem is achieved by the fact that electroneurography stimulator, designed primarily for skin rejuvenation of the face and neck, containing the constant current source, the control unit and the formation of trigger pulses and electrode unit comprising coaxial posted by passive and active electrodes further comprises multiple (two or more) active power is s, two high-q coil inductance, sections of which are included under, and the decoder, one of the poles of the DC source is connected to the connection point of the two sections of the high q inductor and a passive electrode of the electrode device, a second end section with a smaller number of turns through the key amplifier is connected with the second pole of the DC source, a second end section with a large number of coils is connected to the input of the feedback control unit and the formation of trigger pulses and managed through electronic keys with each active electrode, the pulse output of the control unit and the formation of trigger pulses is connected to the key input of the amplifier, the code output control unit, and the formation of trigger pulses connected to the input of the decoder whose outputs are each connected with the control input of the corresponding controlled electronic key. Each managed electronic key further comprises adjusting the resistor in the load circuit. The shaping unit management and the formation of trigger pulses contains the node set operating modes, including at least controls the energy level of the stimulus and the element of power, the host display and the host analysis, management, and f is Mirovaya pulses, carried in the form of very large integrated circuits (VLSI), while the installation log VLSI coupled to the output node of the job modes, the inputs of the node display is connected to the information output VLSI. pulse output VLSI is the pulse output of the control unit and the formation of trigger pulses, a code output VLSI is code output control unit and the formation of trigger pulses, a signal input VLSI is the input signal of the feedback control unit and the formation of trigger pulses, and VLSI has at least two modes, the first of which on the pulse output control unit, there is a series of trigger pulses with a fixed number of pulses in the series, and the coded output sequence of codes from 1 to k, where k is the number of managed electronic keys, change the code in which each series of trigger pulses, and the second pulse on the output of a continuous sequence or sequence series of trigger pulses, the code output - invariant code. Site analysis, control and pulse shaping, made in the form of a very large integrated circuits (VLSI), contains the generator pulsing pulse scheme of the formation of trigger pulses, a method of forming the control signals and serial is Ino United analog-to-digital Converter, the scheme of measurement of the parameters of the feedback signal, the circuit for measuring the rate of change of the parameters of the feedback circuit isolation feedback signal with the maximum rate of change of the parameters and fixing scheme in the absence of changes of the parameters of the feedback signal, and the analog-digital Converter signal is input VLSI, the generator output clock pulses connected to the first input of the circuit of formation of trigger pulses, a first output which is connected to the input of a shaping circuit control signals, the second input of the differential formation of trigger pulses is an installation log VLSI, the second output of the shaping circuit of trigger pulses is a pulse output VLSI and connected with the second input of the differential measurement the rate of change of the parameters of the feedback signal, the output signal of the control code is output VLSI and connected with the second input of the differential selection of the feedback signal with the maximum rate of change of the parameters, the second output of the circuit measuring the rate of change of the parameters of the feedback signal is connected respectively to the second input of the differential fixation of the absence of changes of the parameters of the feedback signal, the second output of the circuit selection feedback signal with a maximum speed changed the settings I connected with the second input of the differential generation of control signals, the third input of which is connected to the first output of the circuit commit the absence of changes of the parameters of the feedback signal, the second output of the circuit commit the absence of changes of the parameters of the feedback signal and the third output circuit measuring the rate of change of the parameters of the feedback circuit and the selection of the feedback signal with a maximum change of the parameters are informational outputs VLSI. A high-q inductor has an inductance of 0.1 to 2.0 MT, the ratio of the number of turns of the section with a smaller number of coils to the total number of coils is equal to 0,05 0,3..., bends in the section with a smaller number of coils made with a uniform pitch, and the q of the inductor is greater than 100.

Electrode device for electrical stimulation used in the inventive electrodeionization the stimulator is an independent object of the invention.

From the description to the author's certificate of the USSR No. 1024061, IPC3And 61 In 5/05, publ. 1983 known electrode device, comprising a housing, the walls of which have different degrees of elasticity, and a contact element made in the form of disc membranes with radial slots, and a peripheral area of the contact element fixed in the housing. This electrode device is not suitable for the proposed electrotonus the ora, because it does not provide the necessary constancy of the reactive component subelectrode resistance.

Author's certificate of the USSR No. 706062, IPC2And 61 In 5/02, publ. 1977 secure device for the discharge of action potentials, comprising a housing with coaxial spaced electrodes separated by an insulating gasket. Electrodes made of dissimilar materials, and the body-side contact surface of the electrodes has a cavity filled with electrolyte. The disadvantage of this electrode device is the instability of the reactive component of the interelectrode resistance due to the heterogeneous nature of the materials of the electrodes and electrolyte in the housing cavity between the electrodes.

Closest to the claimed electrode device selected technical solution described in the description of the author's certificate of the USSR No. 730346, IPC2And 61 In 5/05, publ. 1976 Sensor for measuring bioelectrical values protected by this by copyright and is essentially the electrode device includes two coaxial electrode located in the body of insulating material, the body is equipped with a ground diameter of 25... 35 mm, the center of which is located the end surface of the electrode, while the outer diameter of the outer electrode is equal to 2... 6 mm electrode Such devices is not effective when it is used for the stimulation due to the instability of the area of contact with skin and small diameter electrodes.

The technical result, which is aimed invention, the stability of the contact electrode of the device with the skin when spectrotemporal impact on the face and/or neck with the purpose of rejuvenation and healing of the skin.

This technical result is achieved by the fact that in the first embodiment, in the electrode device for electrical stimulation, comprising a housing of insulating material and is placed coaxially on the end and/or side surfaces of the external enclosure and passive internal active electrodes, the body is made in the form of a hollow truncated four-sided pyramid, and the contact surface of the electrode is a surface of rotation of a body with a radius exceeding 3... 10 times the maximum size of the external electrode. The edges of the electrodes are designed with a corner radius of not less than 0.5 mm, the Surface of the internal electrode protrudes above the surface of the external electrode is not more than 5 mm, the Width of the insulating gap between the inner and outer electrodes is equal to 1... 5 mm, the area of the contact surface of the internal electrode exceeds 2 mm2. Inside the outline of the outside of the passive electrode can be placed several (two or more) internal active electrodes that are isolated from each other and have separate connectors for connecting to e is extrastimulation.

In the second embodiment, the specified technical result is achieved in that in an electrode device for electrostimulation, containing passive and active electrodes mounted on the insulating housing with a wall thickness of not more than 2 mm, the contact area of the active electrode mounted on the outer side surface of the body, and flat passive electrode is placed on the inner surface of the housing parallel to the plane of the contact pads of the active electrode and is made in the form of the similarity of the rectangle with the inner neckline, in projection onto the plane of the passive electrode outer contour of the active electrode overlaps the contour of the inner cutout flat passive electrode is not more than 1 mm on either side of this path and the outer contour of the passive electrode stands for the projection of the contour of the active electrode is not less than 2 mm on each side of the path.

Declare electroneurography stimulator is designed for implementing the method of rejuvenation and healing of the skin of the face and neck. For marking claimed electrodeionization stimulator registered trademark “COSMODIC” (decision about registration of the trademark F. No. 01 TK from 29.06.2002 g under the application №2000730710/50).

The known method of rejuvenation and healing of the skin of the person protected by the patent is m of the Russian Federation No. 2021800, IPC5A 61 N 39/00 A 61 N 1/20, publ. 1994, including the impact on biologically active points of acupuncture constant electric current power 25... 35 µa through resistance 400... 600 Ohms for a period of not more than 5 min on each point with a total duration of 60 min followed by the fixing of massage in the area of impact. With proper selection of biologically active points for the impact of DC and parameters affecting current improves not only the condition of the skin of a human, but his overall health. The drawback of this method is its use requires high professional skills of the medical staff, because errors in the diagnosis of the causes of pathology of the skin and inaccuracies when selecting biologically active points for exposure can lead to a negative result, the exacerbation of diseases.

In the patent of Russian Federation N 2056118, IPC7A 61 N 1/36, publ. 1998 described by way of electrical effects on the skin, which is to restore muscle tone and loose skin turgor is carried out by exposure of the skin through electrodes pulses of electric current with the range of 20-200 Hz frequency, pulse duration of 0.5, 1, 2 or 4, and the range of variation of the amplitude of the pulses from -80 mA to +80 mA, and prior to the electrical stimulation in beauty is the firs skin of the face and neck treated with a polymer gel, and before electrical stimulation in physical therapy purposes, the electrodes are moistened in warm water.

The disadvantage of the above method is the low efficiency of recovery of muscle tone and turgor loose skin due to fast the body adapts to the stimulation that leads to the periodic increase of the amplitude of the input signal and thereby reduces the safety and comfort of impact and increases the likelihood of overdose of the body enter into it with energy.

Patent of the Russian Federation No. 2030176, IPC6A 61 N 39/00 A 61 N 1/32, A 61 N 5/06, publ. 1995 a secure way Garayev R.N. recovery of the skin, mainly on the face and neck, and a device for its implementation. How is the impact on the processed violaciones the skin of the face and neck by massaging direct current power 10... 80 μa, the voltage of 8... 9 for 40... 60 min by continuous movement of the electrode in the area of impact with the application process pitomaca, holding for 10... 20 min massage tangent movements sticks, made of triboelectric, with subsequent UV irradiation of the whole area of impact within 40... 60 sec. Procedure finishing holding and manual massage for 5... 10 minutes Sequence for these types of impact which depends on the state of the treated skin. Device for influencing the electric current includes a constant current source and a method of forming connected to passive and replaceable active point electrodes, each of which consists of a shaft and a working part spherical, hemispherical, conical or needle-like shape with a diameter of not more than 4 mm In comparison with the previously described method, this method does not cause complications. The drawback of this method is the long period of treatment (time of the session with regard to rest more than 2 hours, and the duration of treatment is three months) and the need for specially equipped beauty salon.

From the description to the patent of Russian Federation №2033141, IPC6A6 N. 39/00 A 61 N 1/32 known way to rejuvenate the face and neck, namely, that the muscles of the face and neck to impose the electrodes of the respective sizes and shapes through conductive gley adhesive nourishing mask with capture their motor points, and the face and neck is shared by at least eight treatment fields, and the subsequent influence of electric current takes place simultaneously. This way, selected as a prototype, allows for a relatively short period of time - a little more than one month to obtain the effect of rejuvenation of the face and neck. The disadvantage of the prototype is the possibility of complications of allergic ill the tion, in the presence of skin with acne problems, with open and hidden ulcers. In addition, the procedure of treatment is time-consuming and technologically complex, which complicates the use of the prototype method at home and without assistance.

The problem solved by the invention is to increase the efficiency of the method of skin rejuvenation of the face and neck by providing opportunities for him at home without assistance and recovery of the entire body when using it.

The solution of the stated problem is achieved in that in the method of rejuvenation and healing of the skin of the face and neck, including the effects of electric current on the skin of the face and neck, the influence of an electric current carried out using electrodeionization stimulator “COSMODIC” by moving slowly and/or moving along the massage lines of the face and/or neck of his electrode device comprising coaxially arranged outer and passive internal active electrodes connected to the taps of the high q (quality factor over 100) coil inductance, periodically saturable electromagnetic energy through the connection part turns on the specified time to the poles of the DC source and impinging electric current are electrical oscillations that occur after off the treatment of high-q inductors from one of the poles of a source of direct current in the oscillating circuit, including as reactive elements, the inductance of the high q inductor and a capacitive component of the total impedance between the active and passive electrodes in contact with the skin of the face and/or neck, while the product of the amplitudes of the first half of these fluctuations on their repetition period equal to A× T=10-2...10-4In·s, where a is the amplitude of the first half-wave in volts, T is the repetition period of vibrations per second, and the speed of movement of the electrode device electrodeionization stimulator on massage lines of the face and/or neck does not exceed 30 cm/min To saturate the high-q inductors electromagnetic energy of its coils periodically connected to the poles of the DC source with a voltage of 1,0... 12.0 V for a time of 0.5... 500 µs, while reconnection is carried out not earlier than twice the time of connection. The amplitude of the first half of oscillations is equal to A=20... 800 V, and the repetition period of oscillation is T=0,1... 200 μs. Electrode device electrodeionization stimulator move along the massage lines of the face and/or neck to provide space contact with skin, each of the electrodes of the electrode device is not less than 2 mm2. Electrode device made according to the second option, move the massage along the lines of the face and/or neck to provide space contact of the active electrode with skin no less than 2 mm 2when the gap between the passive electrode and the skin is not more than 5 mm in an area of not less than 15 mm2. Electric shocks using electrodeionization stimulator exercise at least every other day for 21... 25 days in total duration of exposure 10... 40 minutes a day.

The invention illustrated by the drawings.

Figure 1 shows a functional diagram of the first variant electrodeionization stimulator “COSMODIC”. Figure 2 - functional diagram of the second variant electrodeionization stimulator “COSMODIC”. Figure 3 shows the block diagram of the control unit and the formation of trigger pulses. Figure 4 shows a block diagram of site analysis, control and processing of trigger pulses. Figure 5 - possible scheme key amplifier. Figure 6 - possible scheme managed electronic key. 7 schematically shows the construction of the first variant of the electrode device with one active electrode. On Fig shows the structure of an electrode of the first variant of the device with multiple active electrodes. Figure 9 shows the structure of an electrode of the second variant of the device. Figure 10 shows a high-level algorithm of the control unit and the formation of trigger pulses. Figure 11 shows the direction of movement of the electrode device is for massaging the face and neck.

Figure 1... 9 are marked by numbers:

1 - constant current source;

2 - the control unit and the formation of trigger pulses;

3 - demultiplexer;

4-two-piece high-q inductor;

5, 51...5n- key amp;

6 - electrode device;

7, 71...7kactive electrodes;

8 - the passive electrode;

9 - point connection of two sections of the high q inductor;

10 is a second end section with a smaller number of turns;

101...10nbranches section with a smaller number of turns;

11 the second end section with a large number of turns;

12 - pulse output control unit and the formation of trigger pulses;

13 - code output control unit and the formation of trigger pulses;

141...14nthe outputs of the demultiplexer;

15 - input feedback signal of the control unit and the formation of trigger pulses;

16 - decoder;

171...17k- managed electronic keys;

181...18kthe outputs of the decoder;

19 - site analysis, control and processing of trigger pulses;

20 - node set modes of operation;

21 - node readout;

22 - installation input node analysis, control and processing starts and the pulses;

23 - information output node analysis, control and processing of trigger pulses;

24 - clock (GTI);

25 is a diagram of the formation of trigger pulses (IOF);

26 is a diagram of the formation of control signals (FCS);

27 - analog-to-digital Converter (ADC);

28 diagram of the measurement parameters of the feedback signal (STS);

29 is a circuit for measuring the rate of change of the parameters of the feedback signal (SIS);

30 - selection scheme of the feedback signal with the maximum rate of change of the parameters (SV);

31 scheme of fixing the lack of changes of parameters of the signal shaped connection (SF);

32 the third circuit input signal conditioning control;

33 - second input of the shaping circuit control signals;

34 the first circuit input fixation absence of changes of the parameters of the feedback signal;

35 the second circuit input fixation absence of changes of the parameters of the feedback signal;

36 information output of the circuit rate of change of the parameters of the feedback signal;

37 information output circuit maximum rate of change of the parameters of the feedback signal;

38 - information output circuit absence of changes in the parameters of the feedback signal;

39 - damping diode;

40 is a semiconductor triode;

41 - controlled electronic key (Knobloch);

42 - adjusting resistor;

43 - the case of the electrode device;

44 - collecting lead from the passive electrode;

45, 451...45k- collecting wire from the active electrodes.

Electroneurography stimulator “COSMODIC” (1) in the first embodiment includes a constant current source 1, the unit 2 control and the formation of trigger pulses, a demultiplexer 3, two high-q of the inductor 4, the key amplifiers 51...5nelectrode device 6 comprising coaxially placed active electrode 7 and the passive electrode 8. Two high-q inductor 4 is a connection point between the sections 9, 10 taps1...l0nsection with a smaller number of coils and the second end 11 of the section with a large number of coils. Pulse output 12 of block 2 is connected to a pulse input of the demultiplexer 4, the code output 13 of block 2 is connected to the code input of the demultiplexer 4, the outputs of which are connected to respective signal inputs of the key amplifiers 51...5n. The key outputs of amplifiers 51...5nconnected respectively with the outlets 101...10nsections with fewer turns. The connection point of the section 9 is connected to the first pole of the DC source 1 and Passy is the principal electrode 8, and the second end 11 of the section with a large number of turns with the active electrode 7 electrode device 6 and the input 15 signal feedback unit 2. The second pole of the DC source 1 is connected to the power bus key amplifiers 51...5n. A high-q inductor 3 has an inductance of 0.1 to 2.0 MT, the ratio of the number of turns of the section with a smaller number of coils to the total number of coils is equal to 0,05 0,3..., bends 101...10nsection with a smaller number of coils made with a uniform pitch, and the q of the inductor is greater than 100.

Electroneurography stimulator “COSMODIC” (2) in the second variant contains the constant current source 1, the unit 2 control and the formation of trigger pulses, a decoder 16, a dual high-q of the inductor 4, the key the amplifier 5, the electrode device 6, including an active electrodes 71...7kand the passive electrode 8, and managed electronic keys 171...17k. Two high-q inductor 4 is a connection point between the sections 9, the second end 10 of the section with a smaller number of coils and the second end 11 of the section with a large number of coils. Pulse output 12 of block 2 is connected to the signal input key of the amplifier 5, the code output 13 is Loka 2 is connected to the input of the decoder 16, the outputs of which 181...18kconnected to the control inputs of the respective controlled electronic keys 171...17k. The output key of the amplifier 5 is connected to the second end 10 of the section with a smaller number of coils. The point of connection of the sections 9 is connected to the first pole of the DC source 1 and the passive electrode 8 and the second end 11 of the section with a large number of coils to the input 15 of the signal feedback unit 2 and the signal inputs controlled electronic keys 171...l7kfor outputs which are connected to the active electrodes 71...7kthe electrode device 6. In the load circuits controlled switches 171...17kcan be included adjusting resistors 42 (6). The second pole of the DC source 1 is connected to the power bus key amplifier 5. A high-q inductor 3 has an inductance of 0.1 to 2.0 MT, the ratio of the number of turns of the section with a smaller number of coils to the total number of coils is equal to 0,05 0,3..., q of the inductor is greater than 100.

Block 2 (figure 3)for selecting operation modes, control the energy level of the stimulus and analysis of feedback signals, comprising both options electrodeionization stimulator contains the node 19 analysis, management and formulate the Oia trigger pulses, node 20 set modes and the node 21 of the display. The node 20 includes at least controls the energy level of the stimulus and the element of power. The output of the angle 20, the commands which are continuous or batch modes, sets the duration of the trigger pulses and the number of them in series, is connected with the installation of the entrance 22 of the node 19. Pulse output node 19 is a pulse output 12, a code output node 19 - code output 13, and the signal input input 15 signal feedback unit 2. Node 19, carried in the form of very large integrated circuits (VLSI), has at least two modes, the first of which on the pulse output 12 of the control unit, there is a series of trigger pulses with a fixed number of pulses in the series, and the code output 13 a sequence of codes from 1 to N (in the first variant) or (second option), where N is the number of key amplifiers, and K - the number of managed electronic keys. Change the code in the sequence of codes with each series of trigger pulses. In the second operation mode, node 19 to the pulse output 12 - continuous sequence or sequence series of trigger pulses, the code output 13 is immeasurable code. Information outputs 23 of the node 19 is connected to the input node 21, intended for the tabraani mode and parameters stimulating effects.

Node 19 analysis, control and processing of trigger pulses (figure 4) carried in the form of very large integrated circuits - VLSI, which contains the clock - GTI 24, a diagram of the formation of trigger pulses, IOF 25, a method of forming the control signals - FCS 26 and serially connected analog-to-digital Converter - ADC 27, the circuit for measuring parameters of the feedback signal for SIP 28, the circuit for measuring the rate of change of the parameters of the feedback - SYSTEM 29, the selection scheme of the feedback signal with the maximum rate of change of the parameters - SV 30 and fixing scheme in the absence of changes of the parameters of the feedback signal - SF 31. The ADC input 27 is a signal input 15 node 19, the output of the GTI 24 is connected to the first input of the IOF 25, the first output of which is connected to the input of the FCS 26. Second input of the IOF 25 is the installation of the entrance 22 of the node 19, and a second output, the IOF 25 - pulse output 12 of the node 19 and is connected with the second inlet ST 30. Output FCS 26 is code output 13 of the node 19 and is connected with the second inlet ST 30. The second output of the SYSTEM 29 is connected to a second input of SF 31. The second output ST 30 is connected with the second input of the FCS 26, a third input which is connected to the first output SF 31. The second output SF 31 and the third outputs of the SYSTEM 29 and over 30 are informational outputs 36, 37 and 38, United in the information output 23 of node 19.

El is the initial device for electrostimulation, used in electrodeionization stimulator “COSMODIC” (Fig), includes a housing 43 of insulating material and is placed coaxially on the end and/or side surface of the housing 8 external passive and 7 internal active electrodes, through a lateral wires 44 and 45, connected to the outputs electrodeionization stimulator. The housing 43 is made in the form of a hollow truncated four-sided pyramid, and the contact surface of the electrodes 7 and 8 represent the surface of a body of rotation with a radius exceeding 3... 10 times the maximum size of the external electrode 8. The edges of the electrodes 7 and 8 is made with a corner radius of not less than 0.5 mm, the Surface of the internal electrode 7 is above the surface of the external electrode 8 is not more than 5 mm, the Width of the insulating gap 8 between the outer and inner electrodes 7 is 1... 5 mm, the area of the contact surface of the internal electrode 7 is greater than 2 mm2. Inside the outline of the external passive electrode 8 can be placed several (two or more) internal active electrodes 71...7kisolated from each other and having separate connectors 451...45kfor connection to a controlled electronic keys 171...17kelectrodeionization stimulator (Fig).

In the second variant ele is tregnago device for electrostimulation (Fig.9), containing passive 8 and the active electrodes 7, mounted on the insulating housing 42, the contact area of the active electrode 7 is installed on the outer side surface of the body 42, and a flat passive electrode 8 is placed on the inner surface of housing 42 parallel to the plane of the contact pads of the active electrode 7 and is made in the form of the similarity of the rectangle with the inner neckline, in projection onto the plane of the passive electrode 8 external contour of the active electrode 7 overlaps the contour of the inner cutout flat passive electrode 8 is not more than 1 mm on either side of the contour and the outer contour of the passive electrode 8 stands for the projection of circuit active electrode 7 is not less than 2 mm on each side of the path, and the wall thickness in the area of the electrodes does not exceed 2 mm.

Work claimed electrodeionization stimulator “COSMODIC”. Active 7 and the passive electrodes 8 connected to one of the sections of the two coils 4, there is another section which is included between the poles of the DC source 1 through the key amplifier 5, in the initial state is locked and otheremail for the duration of trigger pulse, during which the inductor 4 is saturated with electromagnetic energy. Upon termination of the triggering impulse is the key power locks herself in the oscillatory circuit, formed by the circuit: the active electrode 7 → interelectrode fabric → passive electrode 8 → point 9 of the connection sections of the two coils 4 → section with a large number of coils 4 → the second end 11 of this section → an active electrode 7, there are electrical oscillations, which are stimulating signal. The energy power of the stimulating signal is greater, the greater the duration of the trigger pulse. In the second embodiment, between the second end 11 of the section with a large number of turns of the coil 4 and the active electrodes 71...7kincluded controlled electronic keys 171...17k. A characteristic feature electrodeionization stimulator is that the parameters of the stimulating signal, for example the amplitude of the first half-wave, attenuation, frequency-dependent reactive and active resistance interelectrode tissue. Therefore, as a criterion of the degree of influence of incentives may be adopted the change factor parameter (s) of the stimulating signal and a sign of the end of the stimulation - no change of parameters of the stimulating signal.

Electrode device 6 is pressed by the electrodes 7 and 8 to the skin of the face and/or neck in the impact zone. Because the contact surface of the electrode is in 7 and 8 represent a surface of rotation with a radius of 3... 10 times greater than the maximum size of the electrode and the active electrode 7 above the surface of the passive electrode is not more than 5 mm, a reliable contact with both electrodes is ensured already at the slightest pressure. After power is set to the continuous mode of operation and the minimum duration of the trigger pulses at the output 12 of block 2. Gradually increasing the duration of the trigger pulses using the controls in the host 20, set the power of the stimulating effect on the level of the threshold, i.e. when the effects are felt in the form of a mild tingling or decothane. Further included operating mode, the sequence of which is illustrated by algorithm block 2, shown in figure 10. First mode of operation “SEARCH”. In this mode, the output 12 of block 2, there is a series of trigger pulses with a fixed number of pulses in a series, for example, two or three pulses in series, and a coded output sequence of codes, according to which switches the outputs of the demultiplexer 3 in the first embodiment and decoder 16 in the second embodiment. Thus, when the “SEARCH” mode, a series of two pulses alternately applied to the key inputs of the amplifiers 51...5nin the first embodiment or to the inputs upravleniekrovlia keys 17 1...17kin the second variant, which leads to a change from series to series of trigger pulses the amplitudes of the first half-wave stimulus signal and the frequency of damped oscillations. The feedback signal is fed to the input 15 of the node 19 is converted into digital form by ADC 27 and 28 STS measurement parameters (option) feedback signal. Next, the SYSTEM 29 is determined by the rate of change of the parameters of the feedback signal from the first trigger pulse in the series to the last (second or third) - Δ2P. Defined for the current series of trigger pulses, the rate of change of the parameters of the feedback signal SV 30 is compared with the maximum rate of change of the parameters defined in the previous series, and if it turns out to be equal to or greater than, the ST. 30 is fixing the value of this speed - Δ2Pmand code numbers of key amplifier 5 or managed electronic key 17 - Nm. As a result, when the operation mode “SEARCH” reveals the key amplifier 5 or the controlled electronic switch 17, when applying to the input of which there is the maximum rate of change of the parameters of the feedback signal. After busting codes (Ntech=NKon- the current number is equal to the end) on a code output FCS 26, i.e. after poacher the bottom key work amplifiers 5 1...5nor managed keys 171...l7kaccording to the input signal FCS 26 enters the mode of “STIMULATION”. When operating in this mode, the output 12 of block 2, there is a continuous sequence of trigger pulses or series of pulses, number of pulses which is not normalized, and the output 13 of the code number key amplifier 5 or managed electronic key 17 - NM. In SF 31 is the measurement of changes of the parameters of the feedback signal, and when this change will be absent, i.e. when the parameters of the previous feedback signal will be equal to the parameters of the subsequent feedback back on the “SEARCH” mode the signal at the input 32 FCS 26. Thus, in each area of the skin of the face or neck automatically set the optimal parameters for stimulus. The claimed technical result is due to the fact that in the first version of the design electrodeionization stimulator when switching branches 101...10nsection with a smaller number of coils varies the inductive resistance of the oscillating circuit, and hence the frequency of oscillations of the stimulating signal using the electrode device with one active electrode 7 (Fig.7). In the second design option e is neuroadaptive stimulator when using the electrode device with multiple electrodes 7 1...7kwith switching of the electrodes changes the resistance of the oscillatory circuit due to the flow resistance controlled electronic keys, and, if necessary, by additional adjustment of the resistances 42 (6), which also leads to changes in the frequency of electrical oscillations. The authors experimentally found that the inductance of the inductor 4 to achieve a cosmetic effect should be in the range of 0.1 to 2.0 MT in q-factor of not less than 100.

The way of rejuvenation and healing of the skin of the face and neck is characterized by the fact that exposure to electric current carried out using electrodeionization stimulator “COSMODIC” by moving slowly and/or moving along the massage lines of the face and/or neck of his electrode device comprising coaxially arranged outer and passive internal active electrodes connected to the taps of the high q (quality factor over 100) coil inductance, periodically saturable electromagnetic energy through the connection part turns on the specified time to the poles of the DC source, and the acting by electric current is electric oscillations that occur after disabling high-q inductors from one of the poles of the source Kee is tion of the current in the oscillating circuit, including as reactive elements, the inductance of the high q inductor and a capacitive component of the total impedance between the active and passive electrodes in contact with the skin of the face and/or neck, while the product of the amplitudes of the first half of these fluctuations on their repetition period equal to A× T=10-2...10-4In· s, where a is the amplitude of the first half-wave in volts, T is the repetition period of vibrations per second, and the speed of movement of the electrode device electrodeionization stimulator on massage lines of the face and/or neck does not exceed 30 cm/min To saturate the high-q inductors electromagnetic energy of its coils periodically connected to the poles of the DC source with a voltage of 1,0... 12.0 V for a time of 0.5... 500 µs, while reconnection is carried out not earlier than twice the time of connection. The amplitude of the first half of oscillations is equal to A=20... 800 V, and the repetition period of oscillation is T=0,1... 200 μs. Electrode device electrodeionization stimulator move along the massage lines of the face and/or neck to provide space contact with skin, each of the electrodes of the electrode device is not less than 2 mm2. Electrode device made according to the second option, move along mass is the author of the lines of the face and/or neck to provide space contact of the active electrode with skin no less than 2 mm 2when the gap between the passive electrode and the skin is not more than 5 mm in an area of not less than 15 mm2. Electric shocks using electrodeionization stimulator exercise at least every other day for 21... 25 days in total duration of exposure 10... 40 minutes a day.

The claimed method of skin rejuvenation of the face and/or neck is implemented as follows. Electroneurography stimulator “COSMODIC” is included in the continuous mode. Its electrode device mounted on the outer surface of the brush between your thumb and forefinger so that the active electrode is blocked biologically active point G 14 - Hae-GU. Energy stimulation with minimal increase to the feeling within easy decothane to mild tingling. Then, the electrode device is brought into contact with the skin in his cheeks and, if the influence of an electric shock will be felt at the level of the pain threshold, the energy level of the acting signal is reduced to a level that is perceived as a slight tingling. Then the electrode device begins to move along the massage lines of the face and/or neck, adhering to the directions shown in figure 10. The order of movement can be selected in the forehead → whiskey → cheeks → chin → neck. The moving electrode of the device is the STV can be carried out either continuously, any permutation, and the transport speed should not exceed 30 cm/min, and the contact area of each electrode of the electrode device with the skin should not be less than 2 square mm of the Latter is ensured by the construction of the claimed electrode devices. When using the electrode device made according to the second variant, it is sufficient that the gap is not less than 5 mm was provided on a surface of at least 15 sq. mm. Electroneurography stimulator “COSMODIC” provides automatic selection of optimal parameters of stimulation at which the product of the amplitudes of the first half of these fluctuations on their repetition period equal to A× T=10-2...10-4In· s, where a is the amplitude of the first half-wave in volts, and T is the repetition period of the oscillations in sec. If the power source 1 has a voltage in the range of 1.0... 12 V, and this voltage has a galvanic power sources, to ensure the amplitudes of the first half of oscillations in the above range, the ratio of turns of the section with a smaller number of turns of the coils of a section with a large number of coils is 0.05... 0,3.

Many pathological processes in the skin are accompanied not only by changing the number of exchange vessels, but their shape and relative positions, with the circulatory system of the skin associated lymph is practical network, performing a drainage function. The magnitude of the impedance of the skin to a greater extent related to the concentration of mineral salts (ions of sodium, potassium, chlorine) in the tissue fluid. Sodium is extracellular environment in the form of chloride. Sodium ions enhance the ability of proteins to bind water, so sodium is an important mechanism of regulation of water metabolism. Potassium is found primarily in the cytoplasm of cells. Excess extracellular potassium leads to the development of alkalosis. Sodium and potassium determine the ionic balance of the cell and the ion charge on cell membranes. The accumulation of sodium ions is accompanied by an increase in the skin of water, accumulation of potassium ions and calcium leads to a decrease of water in the skin. All cells, not only the neurons that have a charge on the membrane, which plays an important role in their division. Violation of ionic balance reduces the separating ability of the cells and the sensitivity (conductivity) of neurons.

It is known that when exposed to micro-currents in the body increases the concentration of biologically active substances (serotonin, heparin, histamine), the output of which in blood is accompanied by a change in the composition of trace elements in the blood as a result of oxidation of biologically active substances, ions of transition metals. The formation of bio-complexes of metals, activating the biological functions of the body at the cellular level, the concentration of most trace elements in the blood is reduced accordingly (see article Zorich and I. Orlova SINCE the Currents in a person's blood after the action of the skin. Biophysics, v.37, no 2, Nauka, 1992).

In addition, the impact of microcurrents effectively to counteract fluctuations in the polarity of the invalid cell (if the cell is not functioning adequately, the impact of microcurrents balances its electric potential). The impact of microcurrents significantly increases cellular supply of ATP (adenosine triphosphate), increases the permeability of cell membranes and thereby provides the ion transport and cell nutrition.

Thus, due to the increase in the concentration of biologically active substances in the body and the formation of bio-complexes of metals activated biological functions of the body at the cellular level, allowing you to effectively restore and heal the skin and reduce the time this recovery and treatment, and to exclude the effect of addiction to electric stimulation and increase the comfort of the electric stimulation. Electrical stimulation of the neuromuscular system is a method of non-pharmacological treatment and prevention, expanding their own compensatory potential of the human body, greatly enhancing its protective function.

Currently impulse electrotherapy recognized everywhere as one of the leading methods of physical treatment, successful is competing with the drug and other therapies. Developed some of the most commonly used methods of low-frequency pulsed electrical stimulation with a wide range of therapeutic action. Among them: electrosleep, diadynamic therapy, amplipulse therapy, interference therapy, fluctuorization, transcutaneous electrical nerve stimulation.

In these methods, by changing the shape and duration of the pulse, the use of mid-frequency filling low-frequency pulses, varying the frequency of the current, and combined modes including sending currents of different frequencies, sending currents and pause, special methods of attachment of the electrodes it is possible to achieve the normalization of the functions of the Central nervous system and higher autonomic centers, changes in General and local hemodynamics (lowering blood pressure, reducing heart rate, vasodilation, increased collateral blood flow and microcirculation), the elimination of pain, swelling, spasms of smooth muscles of blood vessels and internal organs, anti-inflammatory and trophicostimulating action, stimulation skeletal muscles.

Opportunities for improvement of therapeutic methods of low-frequency impulse electrotherapy associated with finding the most unique and effective form of pulses, as well as the introduction of elements to match the tactical software control of frequency and amplitude parameters of the action.

The main feature of electrodeionization stimulation is the formation of electro-stimulation signal coming on the phase structure to the current actions of the membrane of the neuromuscular cells of a healthy person that best perceived excitable structures and cause the most adequate response body.

The electro-stimulation signal is an electrical oscillations in a resonant circuit formed by the inductance of the high q inductor and the impedance of the electrode-tissue, alters the tissue concentration of ions in the cell membrane and altering its permeability, acts according to the type of natural currents.

In this regard, he is the most versatile stimulus for all of excitable structures. Electrostimulation of the above waveform not only prevents the development of muscle atrophy (as with other types of stimulation), but also activates the hormonal regulation (stimulation corticoides function of the adrenal cortex) and activates the processes of tissue respiration; enhances venous blood and lymph circulation and normalizes the function of the affected organ or system of organs.

The output pulse should be as close physical exposure to the momentum of the Central nervous system of a healthy person that provides the (in this scheme impact) to regulate the work of the organs and systems of the human body, forcing it to operate in the mode of "health".

Feature acting (stimulating) signal electrodeionization stimulator “COSMODIC” is that electrical oscillations, resulting in a resonant circuit, cause mechanical vibrations in the microstructures of the skin, and when the frequency of electrical oscillations occur conditions for resonance of mechanical vibrations in a particular microstructure of the skin. Under the influence of mechanical vibrations are activated chemical reactions occur conformative changes in protein molecules, resulting in increases (decreases) the membrane permeability and is formed by the process of depolarization (excitation) or hyperpolarization (inhibition). In addition, when the moving electrode device for massaging the face and/or neck additionally purely mechanical effect on the muscles of the face and neck, regardless of how effort is pressed electrode device to the skin. This mechanical effect on the muscles of the face and neck, directed along their fibers, provides for additional regulation of blood flow in the muscles, helps to restore their volume.

1. Electroneurography stimulator that contains the constant current source, the control unit and the formation of trigger pulses and electrode device, including the abuser passive and active electrodes, characterized in that it contains two high-q coil inductance and the demultiplexer, a signal input connected to the pulse output of the control unit and the formation of trigger pulses, and the control input code output control unit and the formation of trigger pulses, one of the poles of the DC source is connected to the passive electrode of the electrode device, and a connection point of the two sections of the high q inductor, sections of which are included according to the second end section with a large number of coils is connected to the active electrode and the input signal of the feedback control unit and the formation of trigger pulses, a section with a smaller number of coils made with taps, each tap this section through the key amplifier connected to the second pole of the DC source, the control input of each key of the amplifier is connected to its respective output of the demultiplexer.

2. The stimulator under item 1, characterized in that it is the control unit and the formation of trigger pulses contains the node set operating modes, including at least controls the energy level of the stimulus and the element of power, the host display and the host analysis, control and processing of trigger pulses, performed in the de very large integrated circuits (VLSI), when this installation inputs VLSI connected to the output node of the job modes, the inputs of the node display is connected to the information output VLSI signal output VLSI is the pulse output of the control unit and the formation of trigger pulses, a code output VLSI is code output control unit and the formation of trigger pulses, a signal input VLSI is the input signal of the feedback control unit and the formation of trigger pulses, and VLSI has at least two modes, the first of which on the pulse output of the control unit and the formation of trigger pulses are present series of trigger pulses with a fixed number of pulses in the series, and the code output the sequence of codes from 1 to n, where n is the number of key amplifiers, change the code in which each series of trigger pulses and the second pulse on the output of a continuous sequence or sequence series of trigger pulses, the code output - invariant code.

3. The stimulator on p. 2, characterized in that the node analysis, control and pulse shaping, made in the form of a very large integrated circuits (VLSI), contains the generator pulsing pulse scheme of the formation of trigger pulses, a method of forming the signals driven by the I and serially connected analog-to-digital Converter, the scheme of measurement of the parameters of the feedback signal, the circuit for measuring the rate of change of the parameters of the feedback circuit isolation feedback signal with the maximum rate of change of the parameters and fixing scheme in the absence of changes of the parameters of the feedback signal, and the analog-digital Converter is input feedback signal, the output clock pulses connected to the first input of the circuit of formation of trigger pulses, a first output which is connected to the input of a shaping circuit control signals, the second input of the differential formation of trigger pulses is an installation log VLSI, the second output of the shaping circuit triggering pulse signal is output VLSI and connected with the second input of the differential measuring the rate of change of the parameters of the feedback signal, the output signal of the control code is output VLSI and connected with the second input of the differential selection of the feedback signal with the maximum rate of change of the parameters, the second output circuit measuring the rate of change of the parameters of the feedback circuit and the selection of the feedback signal with the maximum rate of change of the parameters are connected respectively with the first and second inputs fixing scheme in the absence of changes of parameters whitefish is Ala feedback the first output of the circuit selection feedback signal with the maximum rate of change of the parameters connected with the second input of the differential generation of control signals, a third input which is connected to the first output of the circuit commit the absence of changes of the parameters of the feedback signal, the second output of the circuit commit the absence of changes of the parameters of the feedback signal and the third output circuit measuring the rate of change of the parameters of the feedback circuit and the selection of the feedback signal with a maximum change of the parameters are informational outputs VLSI.

4. Stimulator according to any one of paragraphs. 1-3, characterized in that a high-q inductor has an inductance of 0.1-2.0 MT, the ratio of the number of turns of the section with a smaller number of coils to the total number of coils is equal to 0.05 to 0.3, the bends are made with a uniform pitch, and the q of the inductor is greater than 100.

5. Electroneurography stimulator that contains the constant current source, the control unit and the formation of trigger pulses and electrode unit comprising passive and active electrodes, characterized in that it additionally contains multiple (two or more) of the active electrodes, two high-q coil inductance, sections of which are included under, and the decoder, one of the three poles of the DC source is connected to the connection point of the two sections of the high q inductor and a passive electrode of the electrode device, the second end section with a smaller number of turns through the key amplifier is connected with the second pole of the DC source, a second end section with a large number of coils is connected to the input of the feedback control unit and the formation of trigger pulses and managed through electronic keys with each active electrode, the signal output control unit and the formation of trigger pulses is connected to the signal input key of the amplifier, the code output control unit and the formation of trigger pulses connected to the input of the decoder whose outputs are each connected with the control input of the corresponding controlled electronic key.

6. The stimulator under item 5, wherein the controlled electronic keys contain adjustable resistors in the circuits of the load.

7. Stimulator according to any one of p. 5 or 6, characterized in that it is the control unit and the formation of trigger pulses contains the node set operating modes, including at least controls the energy level of the stimulus and the element of power, the host display and the host analysis, control and pulse shaping, made in the form of a very large integrated circuits (VLSI), with the installation inputs VLSI connected to the output node of the job modes, the inputs of the node indication connected with info is made use of outputs VLSI signal output VLSI is the pulse output of the control unit and the formation of trigger pulses, a code output VLSI is code output control unit and the formation of trigger pulses, a signal input VLSI is the input signal of the feedback control unit and the formation of trigger pulses, and VLSI has at least two modes, the first of which on the pulse output of the control unit and the formation of trigger pulses are present series of trigger pulses with a fixed number of pulses in the series, and the code output is a sequence of codes from 1 to k, where k is the number of managed electronic keys, a code change which occurs with each series of trigger pulses and the second pulse on the output of a continuous sequence or sequence series of trigger pulses, the code output - invariant code.

8. The stimulator under item 7, characterized in that the node analysis, control and pulse shaping, made in the form of a very large integrated circuits (VLSI), contains the generator pulsing pulse scheme of the formation of trigger pulses, a method of forming the control signals and serially connected analog-to-digital Converter, the circuit for measuring parameters of the feedback circuit measure the rate of change of the parameters of the feedback signal, the selection scheme of the feedback signal with the maximum rate of change of the parameters and fixing scheme in the absence of changes of the parameters of the feedback signal, and the analog-digital Converter is input feedback signal, the output clock pulses connected to the first input of the circuit of formation of trigger pulses, a first output which is connected to the input of a shaping circuit control signals, the second input of the differential formation of trigger pulses is an installation log VLSI, the second output of the shaping circuit triggering pulse signal is output VLSI and connected to the second input of the differential measurement of the rate of change of the parameters of the feedback signal, the output of the shaping circuit control signals is code output VLSI and connected with the second input of the differential selection of the feedback signal with the maximum rate of change of the parameters, the second output circuit measuring the rate of change of the parameters of the feedback circuit and the selection of the feedback signal with the maximum rate of change of the parameters are connected respectively with the first and second inputs fixing scheme in the absence of changes of the parameters of the feedback signal, the first output of the circuit selection feedback signal with the maximum rate of change of the parameters soy is inen with the second input of the differential generation of control signals, the third input of which is connected to the first output of the circuit commit the absence of changes of the parameters of the feedback signal, the second output of the circuit commit the absence of changes of the parameters of the feedback signal and the third output circuit measuring the rate of change of the parameters of the feedback circuit and the selection of the feedback signal with a maximum change of the parameters are informational outputs VLSI.

9. The stimulator on p. 5, characterized in that a high-q inductor has an inductance of 0.1-2.0 MT, the ratio of the number of turns of the section with a smaller number of coils to the total number of coils is equal to 0.05 to 0.3, the bends are made with a uniform pitch, and the q of the inductor is greater than 100.

10. Electrode device for electrical stimulation, comprising a housing of insulating material and is placed coaxially on the end and/or side surfaces of the external enclosure and passive internal active electrodes, wherein the body is made in the form of a hollow truncated four-sided pyramid, and the contact surface of the electrode is a surface of rotation of a body with a radius greater than 3-10 times the maximum size of the external electrode.

11. The device according to p. 10, characterized in that the edges of the electrodes are designed with a corner radius of not less than 0,5 mm

12. Device according to any one of p. 10 or 11, characterized in that the surface of the internal electrode protrudes above the surface of the external electrode is not more than 5 mm.

13. The device according to p. 10, characterized in that the width of the insulating gap between the inner and outer electrodes is 1-5 mm, the area of the contact surface of the internal electrode exceeds 2 mm2.

14. The device according to p. 10, characterized in that in the inside contour of the external passive electrode placed several (two or more) internal active electrodes that are isolated from each other and have separate connectors for connection to the pacemaker.

15. Electrode device for electrostimulation, containing passive and active electrodes mounted on the insulating housing, characterized in that the contact area of the active electrode mounted on the outer side surface of the body, and flat passive electrode is placed on the inner surface of the housing parallel to the plane of the contact pads of the active electrode and is made in the form of the similarity of the rectangle with the inner neckline, while the outer contour of the passive electrode stands for the projection of the contour of the active electrode is not less than 2 mm on each side of the path.

16. Method of rejuvenation of the face and neck, including Sodeistvie electric current to the skin of the face and neck, characterized in that the electric shocks carried out using electrodeionization stimulator by moving smoothly and/or moving along the massage lines of the face and/or neck of his electrode device comprising coaxially arranged outer and passive internal active electrodes connected to the taps of the high q inductor, periodically saturable electromagnetic energy through the connection part turns on the specified time to the poles of the DC source, and the acting by electric current is electric oscillations that occur after disabling high-q inductors from one of the poles of a source of direct current in the oscillating circuit, which includes reactive elements and the inductance of the high q inductor and capacitive component of the total impedance between the active and passive electrodes in contact with the skin of the face and/or neck, while the product of the amplitudes of the first half of these fluctuations on their repetition period equal to A· T=10-2÷10-4In· C, where a is the amplitude of the first half, In; T is the repetition period of the oscillations, and the moving speed of the electrode device electrodeionization stimulator on massage lines of the face and/or neck is not revised 20 cm/min

17. The method according to p. 16, characterized in that the saturation of high-q inductors electromagnetic energy of its coils periodically connected to the poles of the DC source with a voltage of 1.0-12.0 V at time 0.5 to 500 μs, while reconnection is carried out not earlier than twice the time of connection.

18. The method according to any of the p. 16 or 17, characterized in that the amplitude of the first half of oscillations is equal to And=20÷ 800 V, and the repetition period of oscillations T=0,1÷ 200 µs.

19. The method according to p. 16, wherein the electrode device electrodeionization stimulator move along the massage lines of the face and/or neck to provide space contact with skin, each of the electrodes of the electrode device is not less than 2 mm2.

20. The method according to p. 16, wherein the electrode device electrodeionization stimulator move along the massage lines of the face and/or neck to provide space contact of the active electrode with skin no less than 2 mm2when the gap between the passive electrode and the skin is not more than 5 mm in an area of not less than 15 mm2.

21. The method according to p. 16, characterized in that the electric shocks using electrodeionization stimulator exercise at least every other day for 21 to 25 days in total is littelest impact 10-40 min a day.



 

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