RU2057553C1 - Stimulation device - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has casing with a pair of hingedly and movably attached supporting members, having alternating electric and magnetic field radiators operating in infrared, infralow, extremely high, ultrahigh frequency band. The electric and magnetic field radiators are spaced over the surfaces of the supporting members in frames in the areas limted by right and left hand projections, respectively. The ultrahigh frequency radiators are mounted on bearing member located on of one of the supporting members in palm projection. The extremely high frequency radiators are mounted on the opposite bearing member located in palm projection. The radiators are connected to outputs of control unit positioned inside of the stimulation device casing. EFFECT: enhanced effectiveness of treatment. 2 dwg

Description

 The invention relates to the field of medical technology, namely to stimulants, and can be used for research, prophylactic and therapeutic purposes in various sectors of the economy.

 Known stimulator of June, containing a pair of movable supports placed on their surfaces, within the limited projections of the right and left hands, respectively, radiation sources of an alternating electric field of infra-low frequencies (INC), infrared (IR), microwave (microwave) radiation connected to the unit management.

 The device operates as follows. Using the control unit, the operator selects the radiation modes and turns on the corresponding radiation sources placed on the movable supports within the framework limited by the projections of the right and left hands (radiation zones) aimed at the irradiated object. As emitters, infrared light emitting diodes are used. For exposure to an electric field, LF signals are fed from a generator installed in the control unit to electrodes located in the radiation zones made in the form of capacitor plates. Microwave radiation is generated by a microwave oscillator located in the control unit and fed through a waveguide to a radiating electrode made in the form of horn radiators installed in radiation zones on each support.

 The design allows you to affect biological objects simultaneously with IR radiation of 8-14 microns. Microwave radiation in the range of 8-30 cm and alternating electric field LF 5-50 Hz, simulating radiation emanating from the hand of a person, which at certain passes have a healing effect on the object, for example, increase the patient's performance.

 Solved technical problem: the creation of a device that increases the efficiency of stimulation.

 In FIG. 1 shows a general view of a stimulation device; in FIG. 2 functional diagram of the connection of radiation generators and emitters.

 The stimulator (Fig. 1) contains a housing 1 with a pair of movable supports 2 pivotally mounted on it, with placed on their surfaces in a framework limited by projections of the right 3 and left 4 hands, respectively, emitters of an alternating electric field LF 5, infrared 6, microwave 7 and extremely high-frequency radiation 8. Sources of microwave radiation 7 are mounted on a carrier located in the projection area of the palm of the right hand 3, and sources of EHF radiation 8 are mounted on the carrier element 10 located in the area of projection of the palm of the left Uki 4. Emitters 5-8 are connected to the outputs of the control unit 11 (Fig. 2) installed in the housing 1. As infrared emitters 6, heat-emitting plates are used that are installed on the seats with screw-base terminals and connected (Fig. 2) to the starting an IR radiation unit containing a command unit 12, a power supply 13, a start-up block of IR emitters 14, a control unit 15 and a regulator 16. As the supporting elements, for example, washers 9, 10 can be used.

 For exposure to an alternating electric field, the emitters 5 are made in the form of electrodes (capacitor plates) of two metal plates, the terminals of which 17 are connected to the generator 18 of the LF electric field.

To create microwave radiation, three semiconductor microwave emitters are used 7. The emitters are mounted on the washer 9 in the projection area of the palm of the right hand 3 at an angle of 120 ^about each other. The control unit has a power supply 19 and automation 20 of the microwave generator 21, connected by a waveguide 22 with a power meter 23.

On the washer 10 in the projection area of the palm of the left hand 4, at an angle of 120 ° ^to each other, there are three EHF emitters 8 connected to the power supply unit 24 and the automation 25 of the EHF generator 26 connected by the waveguide 27 to the power meter 28 located in the control unit.

 The stimulator works as follows. A biological object (not shown) is placed in front of the housing 1 of the device. Using hinges, the operator installs movable supports 2 in front of the object so that the radiation sources 5-8 placed on the surfaces of the supports 2 within the framework limited by the projections of the right 3 and left 4 hands on each of the supports are directed towards the object. The irradiation modes are set and regulated using the control unit 11.

 Upon receipt of a start command to the command unit 12, the power supply unit 13 is turned on, and with it the IR-radiation start-up unit 14, after which the stimulating effect level is adjusted by the control switch 15 and the regulator 16. The IR-radiation exposure range is in the range of 8-14 μm. By turning on the generator 18, the terminals 17 of the electrodes 5 are supplied with an alternating electric (or magnetic) field of the LF 5-100 Hz.

 Then, using the power supply 19, the corresponding voltage is supplied to the microwave emitters. In this case, the automation unit 20 maintains a constant radiation level of the microwave generator 21, thanks to the feedback circuit (generator 21, power meter 23 and automation unit 20), through the control input of which (block 20), the microwave generator 21 is also launched. the waveguide 22 enters the radiating electrode 7. The automation unit 20 allows you to adjust the radiation in the range of 8-30 microns. Using the power supply 24, a voltage is supplied to the EHF emitter. A constant radiation level of the EHF generator 26 is maintained using the automation unit 25 thanks to the feedback circuit (generator 26, power meter 28 and automation unit 25), through the control input of which (block 25), the EHF generator 26 is also launched. Next, the signal through the waveguide 27 arrives at the emitting electrode 8. The automation unit 25 allows you to adjust the radiation in the range from 2 to 10 mm. Thus, the operation scheme of EHF emitters is identical to the operation scheme of microwave emitters.

 According to the invention, the object is simultaneously exposed to EHF, microwave, IF and IR radiation, which more fully corresponds to modern ideas about radiation from a person’s hand.

 Installation in a stimulator containing a pair of movable supports placed on their surfaces in a framework limited by projections of the right and left hand, respectively, radiation sources of an alternating electric field LF, infrared radiation, microwave (UHF) radiation and extremely high frequency (EHF) radiation connected to the unit control, additional load-bearing elements in the area of the projection of the palm on each support with the placement of microwave emitters on one of them, and EHF emitters on the other, allows energetically amplifying Tel factor stimulating effect due to the complex effect on the object due to interference of the modulated radiation from the different sources.

Claims (1)

 DEVICE FOR STIMULATION, containing a pair of movable supports placed on their surfaces, in the framework limited by projections of the right and left hands, respectively, emitters of an alternating electric field, infrared frequencies and microwave frequencies, connected to the outputs of the control unit, characterized in that it contains supporting elements, mounted on the surface limited by the projection of the palm of each hand, each of the supports, extremely high frequency emitters connected to other outputs of the control unit, and the emitters are extreme e treble and superhigh frequencies are placed on opposite load-bearing elements.

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