RU2169019C1 - Device for applying electromagnetic therapy - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has electromagnetic power source as oscillatory circuit, aerial for receiving high frequency signal of broadcasting radio station in long wave, medium wave or short wave frequency bandwidth and radio frequency amplification, and feeder. The oscillatory circuit is connected to the feeder through linking winding. EFFECT: enhanced effectiveness of treatment and device maintenance. 1 dwg

Description

 The invention relates to the field of biology and medicine, namely to electromagnetic medical equipment, and can be used to treat various diseases of humans and animals by exposure to electromagnetic waves.

 A device for stimulation and / or correction of the functional state of a biological object [1].

 The device contains sequentially connected modulator, microwave generator, feeder and emitter. However, the effect on the body is not microwave, which causes an increase in tissue temperature and negatively affects the patient's body.

 Studies have shown that in the treatment of a number of diseases, high treatment efficiency can be achieved by weak non-thermal exposure to high-frequency modulated radiation on biological tissues in the frequency range 100 - 1000 kHz [2]. Better results are achieved when a biological object is exposed to modulated high-frequency fields with a variable modulation frequency and a variable amplitude of the modulation frequency, as well as in the presence of pauses.

 Weak alternating electromagnetic fields in tissues are able to actively influence the functions of cells through mechanisms that enhance the exciting field. Such exposure to electromagnetic fields affects a number of immune, endocrine neurobiological processes that occur on the surfaces of cell membranes.

 Known apparatus of low-frequency physiotherapy "Amplipulse-5".

 The device is designed for therapeutic effects on the human body with modulated sinusoidal currents of sound frequency using electrodes applied to the patient’s skin [3].

 The frequency of the carrier oscillations of the sinusoidal shape is 5000 Hz.

 The frequency of the modulating voltage of a sinusoidal shape is 10 - 150 Hz.

 It is known that nerve cells are surrounded by extracellular fluid with conductivity at a frequency of 5000 Hz, approximately 1000 times higher than the conductivity of cell membranes. Thus, at a frequency of 5 kHz, extracellular fluid effectively shunts the cells, creating pathways for those induced in the tissues by the electromagnetic field. Therefore, only a thousandth of the induced current flows through the cell membrane and is thus directly involved in the excitation of a nerve cell [4].

 This is a disadvantage of the known apparatus. In addition, the transfer of energy by means of electrodes creates an electric field in the tissues of a biological object. As you know, the maximum therapeutic effect is exerted by an alternating electromagnetic field, which excites both an electric and a magnetic field in a biological object. This is achieved by applying an electromagnetic field with a frequency above 50 kHz using an inductive emitter.

 The closest in technical essence is the magnetotherapy apparatus of the Inductor series [3].

 The apparatus uses the effect of an alternating electromagnetic field with a carrier frequency of 5 kHz with pulse modulation as a therapeutic effect. The apparatus contains a source of electromagnetic energy, the output of which is connected via a feeder to the emitter in the form of an inductor. The disadvantage of this apparatus is the low carrier frequency and low efficiency of the inductive emitter. In addition, the device is intended for use only in medical institutions and has a high cost.

 The objective of the invention is the expansion of therapeutic and operational capabilities.

 This is achieved by the fact that the device for electromagnetic therapy, comprising a radiator, according to the subject invention, further comprises an antenna for receiving a high-frequency signal of a broadcasting station connected to an input of a radio frequency amplification unit, the output of which is connected via a feeder to the input terminals of the radiator, wherein the radiator is made in the form of an oscillatory circuit containing a capacitor and an inductor, which contains the main winding and the coupling winding, the conclusions of the main winding are connected to odes capacitor, and the output winding connection connected to the input terminals of the emitter.

 The device comprises an emitter, in which the windings of the inductor are placed on a dielectric frame having the shape of a cylinder, a disk shape with radially arranged petals or on a ferrite core core fixed in a dielectric casing made of a solid dielectric.

 The essence of the invention lies in the fact that in the proposed device as a source of electromagnetic energy uses a modulated high-frequency signal from a radio station in the long-wave, medium-wave or short-wave range. The signal is received by the receiving antenna, amplified by the radio frequency amplification unit, and fed through a feeder to the input of the emitter. The emitter is made in the form of an oscillatory circuit containing a capacitor and an inductor, the findings of which are connected in parallel. The oscillation circuit is connected to the feeder using a coupling winding.

 The oscillation circuit is tuned to the middle frequency of the intermediate frequency path of the receiver.

 High therapeutic efficacy is achieved by the fact that the signal for stimulation has a variable modulation frequency, a variable modulation amplitude, as well as the presence of pauses during the procedure.

 Efficiency is also increased due to the presence of a resonant emitter, which is made in the form of an oscillatory circuit with selectivity.

 The drawing produced a functional diagram of the proposed device.

 The device comprises a receiving antenna 1, which is connected to the input of the radio frequency amplification unit 2, the output of which is connected to the input of the amplitude detector 3 and the input of the buffer amplifier 4. The output of the amplitude detector 3 is connected to the input of the audio frequency amplifier 5, to the output of which a dynamic loudspeaker is connected 6. Output the buffer amplifier 4 is connected via a feeder 7 to the input terminals of the emitter 8, which is made in the form of an oscillating circuit and contains a capacitor 9 and an inductor, in which the main winding 10 voimi terminals connected to terminals of the capacitor 9 and the winding connection terminals 11 connected to its input terminals emitter.

 The radio frequency amplification unit can be made according to the direct gain receiver circuit [5]. In this case, the radio path will receive a signal from only one radio station. The input oscillatory circuit of the radio path will be tuned to the frequency of this radio station.

 The oscillatory circuit of the emitter 8 will also be tuned to this frequency.

 The radio path made according to the superheterodyne circuit has more opportunities. In this case, the radio frequency amplification unit contains an input oscillating circuit 12 connected to the input of the frequency converter 13, which at the same time can act as a local oscillator, an oscillatory circuit of the local oscillator 14 connected to the second input of the converter 12. The output of the converter 1 is connected to a bandpass filter of the main selection 15 of the intermediate path frequency, the output of which is connected to the input of the intermediate frequency amplifier 16. To the output of the intermediate frequency amplifier 16 is connected an oscillating circuit 17 containing condensate p 18 and an inductor containing the main winding 19 and the coupling windings 20 and 21. The terminals of the windings 19 are connected to the terminals of the capacitor 18, and the output of the coupling winding 20 is connected to the input of the amplitude detector 3, the output of the coupling winding 21 is connected to the input of the amplifier 4. Oscillation circuit 17 and the oscillatory circuit of the emitter 8 are tuned to the middle frequency of the intermediate frequency [6].

 The convenience of a superheterodyne radio frequency amplification radio path scheme is that the oscillator circuit of the emitter is constantly tuned to only one frequency and is independent of the frequency of the radio station. The radio path can receive radio station signals in the range of long, medium and short waves.

 The device operates as follows.

 The radio path may have an internal magnetic antenna or an external antenna that is connected to the corresponding connector.

 Using the control knob / by changing the capacitance of the oscillatory circuit capacitors / the radio path is tuned to the frequency of the radio station, which is recorded by transmitting a signal at the output of the audio frequency amplifier. At the same time, the signal of the radio station enters the input of the emitter. The emitter is placed on the patient's body.

 The procedure takes 15 to 20 minutes. The patient is simultaneously listening to the transmission.

 For radiators, cylindrical frames with a diameter of 100 - 220 mm, flat frames with a diameter of 80 - 160 mm are used.

 Flat frames are made in the form of radially arranged petals with a gap, the number of petals is odd. The main windings and connections are made in the form of a spiral, the coil wire of the spiral alternately bends around one or the other side of the frame petal.

 Intracavitary emitters have a casing diameter of 14, 19 and 25 mm.

 The device is used to treat diseases in the field of neurology, traumatology, gynecology, urology and proctology.

 The proposed device for electromagnetic therapy implements a new type of exposure to the body by an alternating high-frequency field formed by a sinusoidal signal with an amplitude-modulated wide spectrum of low frequencies. In the device during the procedure, both the modulation frequency and the modulation amplitude are constantly changing. With a relatively low intensity of the electromagnetic field, this type of exposure ensures a large therapeutic effect due to the large spatio-temporal heterogeneity of the electromagnetic field. The device has a “soft” effect, which allows its use not only in clinics, but also at home without the direct supervision of a doctor.

 The device has a low weight and dimensions, low cost.

 The device can be widely used not only in the city, but also in rural areas, in expeditions.

 The device has been tested in clinics in Omsk.

 Tests have confirmed the high therapeutic effectiveness of the device.

Sources of information
1. RF patent N 2033211, cl. A 61 N 5/02.

 2. U. R. Adie. Frequency and energy windows when exposed to weak electromagnetic fields on living tissue. TIIER, t. 68, N 1, January 1980, p. 140 - 147.

 3. Comprehensive catalog: Communications industry products. Comprehensive catalog: Radio-electronic medical equipment of JSC "ECOS", Moscow, 1994, p. 17 - 23.

 4. G. G. Ivanov et al. Opportunities for assessing total water. Vestnik RUDN, ser. Medicine, 1998, N 1, p. 213 - 223.

 5. I. Nechaev. Direct gain receiver - Radio N 7, 1995, p. 16.

 6. I. F. Belov et al. Handbook of household receiving-amplifying radio equipment, - M .: Radio and communications, 1984, p. 96 - 102, Fig. 1.95.

Claims (1)

 A device for electromagnetic therapy, comprising an emitter, characterized in that it further comprises an antenna for receiving a high-frequency signal of a broadcasting station, connected to the input of the radio frequency amplification unit, the output of which is connected through a feeder to the input terminals of the emitter, wherein the emitter is made in the form of an oscillating circuit containing capacitor and inductor, which contains the main winding and the coupling winding, the conclusions of the main winding are connected to the terminals of the capacitor, and the conclusions of the winding communication - with the input terminals of the emitter.