RU2082459C1 - Device for carrying out millimeter wave therapy - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device irradiates prescribed objects with electromagnetic oscillations of extremely high frequency and infrared band width. The device is provided with means of autonomous control, control over emitted oscillation parameters by using external signals and with pickup for recording presence or absence of needed level of emitted oscillations power. EFFECT: enhanced effectiveness of treatment. 3 cl, 1 dwg

Description

 The present invention relates to medical devices that emit electromagnetic waves on a given object in the extremely high frequency (EHF) and infrared (IR) ranges and are intended for millimeter wave therapy of a wide range of diseases, for example, in the field of gastroenterology, pulmonology, neurology, etc. .

 Various designs are known for emitting electromagnetic waves (radio emitting) devices of the EHF and IR ranges. They contain a power source, a controlled (auto) generator of electromagnetic waves, a filter and an emitter (irradiator). The frequency of the emitted oscillations varies within certain limits. The law of frequency change is deterministic or random.

The disadvantages of the above devices are:
a) narrow frequency bands of emitted oscillations in the EHF and IR ranges;
b) the lack of means of autonomous control or control with the help of external signals of the parameters of the emitted oscillations;
c) the absence of a sensor for recording the presence or absence of the required level of radiated power.

The closest known device is a microwave reflexology device containing a power source, a high-pass filter with an adjustable cutoff frequency, a control signal generation unit, a frequency-shifting pulse electromagnetic oscillator and an irradiator [1]
The disadvantages of the known device are its limited therapeutic capabilities.

 The aim of the invention is the expansion of therapeutic opportunities, and the elimination of these disadvantages, i.e. the creation of such a device for millimeter-wave therapy, which would ensure the emission of continuous electromagnetic waves in the entire EHF range or part of it and in the long-wave region of the infrared range, autonomous control and control of the parameters of the emitted oscillations using external signals, would include a sensor registration of the presence or absence of the required power level of the emitted oscillations.

 This goal is achieved by the fact that the device for millimeter-wave therapy containing a power source, a high-pass filter with an adjustable cutoff frequency, the irradiator has a frequency-tunable oscillator of continuous electromagnetic oscillations, a modulator and a control signal generating unit connected to the output with the first input of the modulator connected an output to the first input of a frequency-tunable oscillator of continuous electromagnetic oscillations connected by an output through a high-pass filter adjustable cutoff frequency with the input of the irradiator, and the output of the power source is connected to the inputs of the indicator of the presence of supply voltages and the node generating control signals and the second input of the frequency-tunable oscillator of continuous electromagnetic oscillations and a modulator, and also it has the means of autonomous control and management using external signals by the parameters of the emitted oscillations connected to the second input of the control signal generation unit and, in addition, it has an indicator of availability itayuschih voltage, whose input is connected to the output of the power source, and a sensor registering the presence or absence of the required level of radiated power, the first input of which is connected to the output of the power source, and its second input is connected to the second output of the frequency tunable oscillator of continuous electromagnetic waves.

The goal is also achieved by the fact that the frequency-tunable oscillator of continuous electromagnetic oscillations and a high-pass filter with an adjustable cutoff frequency f _{c are} made in such a way that the oscillations emitted by the device cover the entire EHF band in frequency (frequencies from f _n 30 GHz to f _b 300 GHz ) or part thereof. To do this, the following relationships are true:
(M + 1) f MF; Mf f _n ; f _c > f _n ,
where f and F are the lower and upper values of the fundamental frequency of the oscillator, respectively;
M is a natural number of at least 2, (usually M 3.5).

 The drawing shows a structural diagram of a device for millimeter wave therapy.

 The device comprises a power source 1, an indicator 2 of the presence of supply voltages, a driver 3 of a modulating signal (modulator), a frequency-tunable oscillator 4 of continuous electromagnetic oscillations, a sensor 5 for detecting the presence or absence of the required level of radiated power, a node 6 for generating control signals, a high-pass filter 7 with adjustable cutoff frequency and irradiator (emitter) 8.

 The output of the power source 1 is connected to the input of the indicator 2 of the supply voltage, with the first inputs of the modulator 3, the oscillator 4, the sensor 5 and the node 6, which controls the operation of the modulator 3. The second inputs are connected in the modulator 3 with the output of the node 6, in the oscillator 4 with the output modulator 3, in the sensor 5 with the first output of the oscillator 4. The input of the filter 7 is connected to the second output of the oscillator 4. The node 8 is connected to the output of the filter 7.

As the power source 1, either a secondary power source is used, for example, a converter of the mains power source into a direct current voltage, or a small battery composed, for example, of chemical current sources. Indicator 2 of the presence of supply voltages is made, for example, on indicators single AL307A. The modulator 3 is made, for example, in the form of a hybrid integrated circuit with sprayed resistors, current-carrying conductors, mounted capacitors K10-17b and transistors KT360V-1. The oscillator 4 is made, for example, in the form of a hybrid integrated circuit with sprayed resistors, current-carrying conductors, microstrip lines and mounted elements: capacitors K10-17b, diodes ZA623A-6, 2A125A-6, transistor 3P604G-5. The sensor 5 is made, for example, in the form of a hybrid integrated circuit with deposited resistors and current-carrying conductors, mounted capacitors K10-17b, diode assembly 2D918B-1, transistors 2T378B-1-2, 2T364V-6, chip 744UD2-1. The node 6 is made, for example, on the transistor assembly 1HT251. Filter 7 is made, for example, in the form of a hollow transcendental, rectangular, removable waveguide with f _c 30 GHz. The irradiator 8 is made, for example, in the form of a removable cone-shaped dielectric antenna.

 The device operates as follows.

The supply voltage to indicator 2, modulator 3, oscillator 4, sensor 5 and node 6 is supplied from source 1. Modulator 3 generates a time-varying voltage with which the parameters of oscillator 4 are changed, for example, the reactance of its oscillatory system and, therefore, the frequency generated electromagnetic waves. The oscillator 4 controlled by the modulator 3 generates oscillations whose frequency values lie within nf nF, where f, F, respectively, the lower and upper frequency values at the fundamental tone (harmonic); n 1, 2, 3 is a natural number. Oscillations from the output of the oscillator 4 are fed to the input of the high-pass filter 7 with an adjustable cutoff frequency f _c . At its output, oscillations with frequency values Nf.NF, where N is a natural number, and its smallest M value of at least two, are distinguished. These vibrations arrive at the irradiator 8 and are radiated to a given object. The values of the frequencies f, F, and the number M are selected from the conditions for obtaining (generating) and emission of oscillations at any frequency point of the entire EHF band (from f _n 30 GHz to f _b 300 GHz), if f _c = f _n , or parts thereof, if f _c > f _n . The following relationships must be satisfied: (M + 1) f MF, Mf f _n . So, for example, if M 4, then f 4.5 GHz, F 9.37 GHz, if M 5, then f 6 GHz, F 7.2 GHz. Measurements show that the proposed device also emits therapeutic oscillations of the long-wavelength infrared range that are useful from a therapeutic point of view, that is, vibrations with frequencies above f _b 300 GHz. A part of the oscillation power generated in the oscillator 4 branches off and enters the sensor 5, where it is processed and displayed. At power levels greater than their required, an indicator glow is observed, at lower levels the glow should be absent. During periodic calibration of the device, instead of the irradiator 8, a measuring mixing chamber, which is part of the standard, operated metrological equipment, is connected to the high-pass filter 7 with an adjustable cutoff frequency. The node 6 of the formation of control signals by acting on the oscillator 4 through the modulator 3 allows you to autonomously and using external signals to control the parameters of the generated and, therefore, emitted oscillations such as, for example, the values of f, F, the period of the modulating signal, the presence or absence of amplitude modulation, law frequency measurements (deterministic or random), etc. The operating modes of active and passive electro-radio elements used in the proposed device are selected lightweight, which allows you to almost double its life compared to known devices.

 A device for millimeter wave therapy in clinical practice is applicable due to the radiophysical properties of electromagnetic radiation of the specified range, clinical effects when interacting with biological objects and is used as follows.

 The generator built in it (auto) generates radiation in a wide frequency band that covers all possible therapeutic frequencies used in EHF devices.

 Using the device, they contactlessly affect the patient’s skin in the area of acupuncture points, biological active zones, as well as directly on wounds, trophic ulcers and lesions of various origins. The therapeutic effect is due to the coincidence of the resonant frequencies of the device emitter with the individual frequencies of the patient's organs and systems, i.e. the patient’s sick body is tuned to the required radiation frequency.

 Clinical use has revealed high therapeutic efficacy in diseases of the digestive system, respiration, musculoskeletal system, cardiovascular, nervous, genitourinary and other systems. Successfully treatable trophic ulcers, allergies, skin diseases. The body's defenses are stimulated. The device is applicable in the treatment and prevention of diseases associated with radioactive and other adverse effects on humans.

Claims (3)

 1. A device for millimeter-wave therapy, containing a power source, an output connected to a high-pass filter, and an irradiator, characterized in that a modulator, a control signal generation unit, an output connected to the first input of the modulator, and an indicator of the presence of supply voltage, the generator is made in the form of a frequency-tunable oscillator of continuous electromagnetic waves with the possibility of generating signals with a frequency spectrum of the entire EHF range and long-wave Part of the infrared range with a control input connected to the output of the modulator, the high-pass filter is made with an adjustable cutoff frequency and the output is connected to the irradiator, and the control signal generation unit includes autonomous control means and control means using external signals, and the output of the power source is connected to an indicator of the presence of supply voltages and to the corresponding inputs of the modulator, oscillator and the node generating control signals.  2. The device according to claim 1, characterized in that it has a sensor for the presence or absence of the required level of radiated power, the first input of which is connected to the output of the power source, and its second input is connected to the second output of the frequency-controlled oscillator of continuous electromagnetic oscillations. 3. The device according to paragraphs. 1 and 2, characterized in that the frequency-tunable oscillator of continuous electromagnetic oscillations is configured to generate signals with a frequency spectrum of the entire EHF range and long-wave IR range under the conditions
(M + 1) f MF;
M _f f _n ;
f _c ≥ f _n ,
where f and F are the lower and upper values of the main frequency of the oscillator;
M is a natural number of at least two,
the lower boundary of the EHF band f _n is 30 GHz, f _c is the adjustable cutoff frequency of the high-pass filter.