RU2091091C1 - Device designed to perform physiotherapeutic action - Google Patents

Abstract

FIELD: facilities for rendering low-intensity electromagnetic effects on biological objects. SUBSTANCE: high-frequency signal modulated by low-frequency signal is supplied to phase inverter. Signals phase-shifted in pairs through 90 dwg with respect to one another arrive from inverter outputs at antenna loop radiators which are also positioned in pairs at angle of 90 deg relative to one another. EFFECT: stimulation of neuroendocrinal system under effect of high-frequency modulated field of non-thermal intensity. 7 cl, 1 dwg

Description

 The invention relates to means of electromagnetic effects on biological objects.

 Currently, electromagnetic fields of low intensity, the so-called non-thermal intensities are widely used in practice. The development of high-frequency and microwave electronics and microelectronics allows the manufacture of devices of various functional orientations, and the intensity of the field effect is such that even as a result of prolonged exposure to cells or the whole living organism, there is no change associated with the thermal effect of the external acting field, all functional changes occur as a result of "weak effects" of external fields, the consequence of which is a change in the membrane potentials of the cell, which is associated with intracellular accurate metabolism.

 In each particular case, it is important to choose the type of electromagnetic effect, its frequency, field orientation, etc., which is most suitable for solving the task, i.e., exposure at the cellular, hormonal level.

 So, from this class of devices, the most characteristic are devices containing a modulator, an RF generator, and an antenna path with a radiator [1, 2]. These devices allow you to influence the object with fairly constant parameters, but with low efficiency, as practice shows.

Closest to the claimed is a device for physiotherapeutic exposure, containing a generator of high-frequency oscillations, a modulator, a multi-channel phase shifter, antenna emitters, a unit for setting operating modes and a control unit [3]
However, in this case, with a stimulating effect at the cellular level, it does not seem possible to effect the neuro-endocrine system as a whole.

 The aim of the invention is the implementation of a stimulating effect on the neuro-endocrine system as a whole.

 This goal is achieved by the fact that the device is equipped with power amplifiers and a low-frequency oscillation generator, and the antenna emitters are made in the form of frame antenna emitters combined in pairs, while the outputs of the high-frequency and low-frequency oscillation generators are connected to the corresponding inputs of the modulator, the output of which is connected to the input of the phase shifter, and the outputs of the latter by means of power amplifiers are connected to the corresponding pairs of frame antenna emitters and to the inputs of the control unit, the output of which connected to the input of the unit for setting the operating modes and the input of the generator of high-frequency oscillations, and the output of the unit for setting the operating modes is connected with the installation input of the generator of low-frequency oscillations.

And also the fact that the frame antenna radiators are made flat and the planes of at least one pair of frame antenna radiators are installed at an angle of 90 ^{o to} each other.

In addition, the outputs of the phase shifter associated with at least one pair of combined frame antenna emitters are configured to supply signals whose phases are 90 ^° shifted relative to each other, and the low-frequency oscillator is made in the form of series-connected master oscillator of the low-frequency signal and the corresponding power amplifier, while the frame antenna emitters are made in the form of applicators.

 A search conducted in patent and technical literature showed that the claimed combination of features is unknown, i.e. it meets the condition of patentability “novelty”.

 Since there is a need for such devices and they are made from known nodes, the claimed meets the condition of "industrial applicability".

 And since the goal is achieved as a result of using this device, it is realized in a way that is not obvious to the "average" specialist, i.e. This result followed from numerous experiments conducted, the claimed one meets the condition of patenting "inventive step".

 The effect of the field, leading to an increase in body temperature by less than a tenth of a degree, can cause significant physiological changes that are non-thermal in nature. Chemical, physiological and behavioral changes caused by weak fields are observed only within the frequency and energy zones.

 The first level of regulation in the intracellular organism is due to a change in the membrane potential of the cell, which changes under the influence of weak energy fields. The second level of regulation of the extracellular is created by hormones and their action is aimed at maintaining the constancy of the state of the internal environment. Thus, the effect of weak variable electromagnetic fields of non-thermal intensity is the effect on the neuroendocrine system as a whole and often manifests itself slowly, after several sessions of exposure, the effect is more effective simultaneously with the effect of pharmacological agents.

 The drawing shows a block diagram of the claimed device.

The device includes a trigger unit 1, a control unit 2, a mode setting unit 3, a low-frequency oscillation generator, which is made in the form of a low-frequency oscillator 4 and a low-frequency amplifier 5, a high-frequency oscillator 6, a modulator 7, a phase shifter 8, power amplifiers 9 12 and pairwise included frame antenna emitters 13 and 14, 15 and 16. It should be noted that the number of pairs of antenna frame emitters of the type, for example, 13 and 14 can be more than 2, each frame can be made planar and the angle between the planes of the frames is their pair can be equal to 90 ^o , which in some cases is most effective. The emitters 13 16 can also be made in the form of applicators.

The outputs of the LF and HF signal generators 6 are connected to the inputs of the modulator 7, the output of which is connected to the input of the phase shifter 8, and the outputs of the latter by means of pairs of amplifiers 9, 10 and 11, 12 are communicated with pairs of emitters 13, 14 and 15, 16, while the signals coming, for example, to the emitters 13 and 14, are phase shifted relative to each other, for example, 90 ^o and so for each pair of emitters-frames. The outputs of the power amplifiers 9 12 are also connected to the inputs of the control unit 2, to which the start unit 1 is also connected, and the output of the control unit 2 is connected to the input of the RF signal generator 6 and the unit for setting the operating modes 3. The latter is connected with the corresponding inputs of the RF signal generator, made in the form of an LF 4 master oscillator and an LF 5 amplifier.

 The device operates as follows.

The first pair of applicators, for example, 13 and 14, is placed in the lumbar region with the purpose of stimulating the adrenal glands, and the second pair of applicators, for example, 15 and 16 in the salivary glands, when the object of influence is lying on its side or sitting. Turn on the device and install either in manual or in automatic mode. In the case of manual mode on the low frequency generator 4 set the selected frequency of exposure in the range from 125 to 2000 Hz and using the start block 1 start work. The signal from unit 1 enters the control unit, which provides enable signals to the unit for setting the operating mode 3 and the high-frequency generator 6. Depending on the specified operating mode, the signal from block 3 is supplied either to the low-frequency generator 4 (manual mode) or to the low-frequency amplifier 5 (automatic mode), but it can be vice versa and is due to a specific control scheme. In this case, the control unit 2 controls the exposure time and controls the signal on the applicators 13-16, turns on the alarm and other alarms, blocks the signals, etc. The high-frequency signal from the generator 6 and the low-frequency signal from the amplifier 5 are fed to the modulator 7 and then to the phase shifter 8, the outputs of which the phase shift relative to each other in series (e.g., in the case of the four outputs, i.e., two pairs of applicators from the first output signal differs by 90 ^o out of phase relative to the signal from the second output, for Lednov 90 ^o relative to the signal from the third, etc.). From the phase shifter 8, the signals through amplifiers 9-12 are supplied to the emitters 13-16. In a particular case, the signals on the applicators 13 and 14, 15 and 16 are shifted 90 ^° relative to each other on each pair and the applicators 13 and 14, as well as 15 and 16, are set at 90 ^° relative to each other, which is the most effective in a number of cases. At the end of the set exposure time, unit 2 removes the enabling signals from the generator 6 and the unit for setting the operating mode 3, at the outputs of amplifiers 9-12 there is no signal and the device is ready for the next operation session.

 Checking the effectiveness of the device was carried out in laboratory animals and showed a complete absence of contraindications for this device, with the exception of cases of the presence of oncological diseases in animals. Studies in animals, in particular in newborns, showed that the device fields did not affect the mnemonic function of the brain of rats under the age of 7 weeks. Assessment of the cerebellum during the irradiation period showed that this effect causes a significant positive change in the dynamics of the development of neurons. The check was also carried out on patients with cytomegaly and herpes.

 Moreover, the exposure time varied from 10 to 90 minutes, the number of sessions on average was about 9-12. As RF generators, MVCH-20-4 and MVCh-20-2 devices were used; in most cases, the modulation frequency was in the range of 800-3000 Hz. The impact was carried out on the head, side, adrenal glands, etc. 15-20 minutes after the start of exposure, the subjects experienced relaxation or sleep. Exposure did not cause any negative effects in all those treated. The general condition of all patients improved by almost the fifth session, it became possible to exclude medications. Pressure normalized, appetite improved.

 In laboratory tests for lipobetaproteins and cholesterol, it was noted that lipobetaproteins tended to increase, and cholesterol by the fifth session tended to decrease and only increased towards the end of the course. Such a change in indicators can be attributed to a change in cell membranes both in the areas of exposure, and to the overall positive reaction of the neuroendocrine system as a whole to the effect.

 In case of arthritic changes in the joints, the effect was carried out both on the affected joints and on the adrenal gland for up to 30 sessions of 30-40 minutes, while joint mobility was improved by the 9-12 session, pain syndromes passed. With cytomegavirus infection, prolonged repeated exposure to an electromagnetic field of non-thermal intensity made it possible to completely exclude the diagnosis of this infection at the end of the course of exposure.

 Using this device will provide a stimulating effect at the cellular hormonal level, provide a stimulating effect on the neuro-endocrine system as a whole, and increase the immune status of the target. The device can also be used in the treatment of viral diseases and neuro-endocrine diseases. Contraindications to the widespread use of the device were not found.

Information sources:
1. US patent N 4621642, CL. 128/422, 1986.

 2. USSR patent N 1831343, cl. A 61 N 5/02, 1991.

 3. RF patent N 2033210, cl. A 61 N 5/02, 1995.

Claims (7)

 1. A device for physiotherapeutic treatment, comprising a high-frequency oscillation generator, a modulator, a multi-channel phase shifter, antenna emitters, an operating mode setting unit and a control unit, characterized in that it is equipped with power amplifiers and a low-frequency oscillation generator, and the antenna emitters are made in the form of frame antenna radiators combined in pairs, while the outputs of the generators of high-frequency and low-frequency oscillations are connected with the corresponding inputs of the modulator, the output of which is connected to the input of the phase shifter, and the outputs of the latter through power amplifiers are connected to the corresponding pairs of frame antenna emitters and to the inputs of the control unit, the output of which is connected to the input of the unit for setting operating modes and the input of the generator of high-frequency oscillations, and the output of the unit for setting operation modes is connected with the installation input of the low-frequency generator fluctuations.  2. The device according to claim 1, characterized in that the frame antenna emitters are made flat. 3. The device according to claims 1 and 2, characterized in that the planes of at least one pair of frame antenna emitters are installed at an angle of 90 ^o relative to each other. 4. The device according to paragraphs. 1 to 3, characterized in that the outputs of the phase shifter associated with at least one pair of combined frame antenna emitters are configured to supply signals whose phase is shifted 90 ^o relative to each other.  5. The device according to claim 1, characterized in that the low-frequency oscillation generator is made in the form of series-connected master oscillator of the low-frequency signal and the corresponding power amplifier.  6. The device according to claim 1, characterized in that the frame antenna emitters are made with the possibility of application to the surface of the biological object.  7. The device according to claim 1, characterized in that it is equipped with a trigger unit, the output of which is connected to the corresponding input of the control unit.