RU2223122C2 - Device for applying electromagnetic intracavitary therapy - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has power supply source, body-handle, nozzle and radiator for emitting electromagnetic oscillations. The electromagnetic oscillation emitter represents inductance coil of autogenerator oscillation circuit. Coil winding is arranged on ferrite rod core. The core is fixed inside of the nozzle. The device has radiation control circuit comprising amplitude detector, electric current amplifier and indicator unit and low frequency modulator connected in series. The autogenerator operates in 200-2000 kHz bandwidth and is mounted in holder handle. EFFECT: wide range of functional applications. 2 dwg

Description

 The invention relates to the field of biology and medicine, namely to electromagnetic medical equipment, and can be used to treat various human diseases with the help of electromagnetic waves.

 Scientific studies of scientists have shown that for various diseases for treatment, the patient’s body must be irradiated with a weak, but rather broadband spectrum of electromagnetic waves, and the body itself can already perceive the electromagnetic waves that it lacks and thereby restore its normal functioning [1].

 As you know, electromagnetic radiation penetrates deep enough into biological tissues. Nevertheless, the greatest therapeutic effect is obtained by directly irradiating the area of the pathological focus. Therefore, for the treatment of organs inside the body’s cavities, various devices have been created containing in their composition means for channeling electromagnetic radiation to predetermined sites.

 Known magnetotherapeutic device "Inductor-2GUP", containing in its composition a shaper with dimensions 450 • 325 • 130 mm and a number of intracavitary inductive radiators with diameters of 25, 19 and 14 mm. In the apparatus, the effect of an alternating magnetic field of sound frequency is used as a therapeutic effect. The operating frequency of the harmonic signal is 5000 Hz. This device can only partially be used for treatment, since electromagnetic waves at ultra-low frequencies are used. In addition, the device itself has a very large size and weight [2].

 Closest to the claimed device is an apparatus for electromagnetic intracavitary therapy "visa" [3].

 The device emits electromagnetic waves of red radiation with a wavelength of 660-670 nanometers and infrared radiation with a wavelength of 840-950 nanometers.

 The device is a heat sink handle on which a double red and infrared emitter is mounted, matched with a replaceable light guide, which is practically an emitter of electromagnetic waves.

 Thus, a radiation generator is mounted at the end of the handle (a source of red and infrared radiation), matched with the emitter, the role of which is played by the light guide.

 A known device emits electromagnetic waves in the optical range. To obtain the full therapeutic effect, it is necessary to have an apparatus that emits electromagnetic waves of the radio wave range with frequencies of 200 - 2000 kHz.

 The objective of the invention is the expansion of the range of therapeutic effects. This is achieved by the fact that in the device for electromagnetic intracavitary therapy, which contains a power source, a pen body, a nozzle connected to the pen body, an electromagnetic oscillator, according to the invention, the electromagnetic oscillator is an inductor of an oscillatory circuit of an oscillator operating in the range 200-2000 kHz and placed in the handle-holder, and the winding of the inductor is placed on a rod ferrite core installed in the nozzle, while in roystvo introduced emission control circuit comprising a series-connected amplitude detector, amplifier, indicator, and low-frequency modulator.

 The essence of the invention lies in the fact that the proposed device for electromagnetic intracavitary therapy, emitting electromagnetic waves in the frequency range 200-2000 kHz, modulated in turn with a low-frequency signal in the range of 10-1000 Hz.

 The device is made in the form of a separate small-sized functional module containing sources of high-frequency and low-frequency oscillations and an emitter of electromagnetic oscillations. Figure 1 shows a functional diagram of a device; figure 2 is a variant of the design.

 The device comprises an electromagnetic oscillation emitter 1, which is made in the form of a winding of an inductor placed on a rod ferrite core 2. The emitter winding is connected via a capacitor 3 to the oscillator circuit 4. The oscillator 4 is connected through a modulator 5 to a power source 6. A control circuit is connected to the oscillator circuit radiation containing an amplitude detector 7, a DC amplifier 8 and an indicator 9, which is an LED.

 In FIG. 2 shows an embodiment of a device without a power supply.

 The device comprises a pen body 10, inside of which there is a hybrid microcircuit 11 and an LED indicator 7. The microcircuit 11 contains a capacitor 3, an oscillator circuit 4, a modulator 5, an amplitude detector 7 and a DC amplifier 8. The pen body 10 is provided with a flange 12, to which the nozzle 13 is attached. The nozzle 13 is made in the form of a glass with a rounded bottom (made in the form of a test tube). A rod ferrite core 2 with a winding of the emitter 1 mounted on it is fixed inside the nozzle using washers 14 and 15. The handle body 10 and the nozzle 13 are interconnected by a screw connection and are a holder handle.

 The device using cable 16 is connected to the power supply 6.

 The device operates as follows. When the power supply is turned on, the supply voltage with the modulator tuning frequency is supplied to the oscillator 4 circuit. If there is a supply voltage, the device oscillator starts generating a sinusoidal signal with a frequency determined by the circuit parameters (capacitor 3 and coil inductance 1 on rod 2), in the range 200 - 2000 kHz The oscillator signal is fed to an amplitude detector, rectified and, amplified by a DC amplifier, lights up an LED indicator for the presence of high-frequency voltage. The current passing through the winding of the emitter 1, forms a high-frequency electromagnetic field that is radiated into the cavity, affecting the surrounding biological tissue.

LITERATURE
1. OV Betsky et al. Treatment with electromagnetic fields. / Biomedical radio electronics. 2000, 7, 8 and 12.

 2. Comprehensive catalog "Products of the communications industry." Series 1 - Radio metering devices, thematic catalog - "Radio-electronic medical equipment". M., ECOS, 1994

 3. OA Belyavskaya and other LED devices for intracavitary therapy. / Electronic industry. 1998, 1, 2.

Claims (1)

A device for electromagnetic intracavitary therapy, containing a power source, a pen body, a nozzle connected to the body by a pen, an electromagnetic oscillator, characterized in that the electromagnetic oscillator is an inductor of an oscillatory circuit of an oscillator operating in the range of 200-2000 kHz and located in the handle-holder, and the winding of the inductor is placed on a rod ferrite core installed in the nozzle, while a control circuit is introduced into the device zlucheniya containing series-connected amplitude detector, amplifier, indicator, and low-frequency modulator.

Images