RU2127134C1 - Generator for microwave treatment - Google Patents

Abstract

FIELD: medical devices, in particular, microwave equipment for affecting biologically active regions by electromagnetic fields of high and very-high frequency. SUBSTANCE: emitting antenna is designed as coaxial waveguide piece, which outer part is short-circuited on one side. Inner conductor is designed as round waveguide piece, which length is equal to length of outer part and extends outside by distance, which is equal to quarter wave in waveguide. It contains source of electromagnetic oscillations, which is designed as noise generator, gas-discharge tube which is located in glass bulb with coaxial electrodes. EFFECT: matching of emitter to region under treatment, sharp direction pattern, increased bandwidth of output frequencies. 2 dwg

Description

 The invention relates to medical equipment, in particular to apparatus for microwave therapy, intended for the treatment of electromagnetic fields of ultrahigh or extremely high frequencies by non-contact effects on biologically active zones.

 Known devices (apparatuses) for microwave therapy, as a rule, contain: a continuous or pulsed power source, an electromagnetic source - an ultrahigh or extremely high frequency generator, which is often used as a semiconductor or tube noise generator, transitional or filter devices, an emitting antenna ; and are divided into devices for treatment with local hyperthermia and devices for treatment with information-wave methods.

 A device for microwave reflexology is known [1], intended for treatment by non-contact action on biologically active zones with fields of extremely high frequencies. The purpose of this invention, reducing the time of the procedure and reducing the total absorbed radiation dose, is achieved by introducing a pulse voltage shaper, the output of which is electrically connected to an electromagnetic oscillation source - an EHF (extremely high-frequency) noise pulse generator, which through transition devices is a high-pass filter and connected in series with it a transformer of wave types is connected to a radiating antenna. The therapeutic effect is achieved due to the fact that for small power levels of electromagnetic radiation, the body is a non-linear system with high Q factor for some frequencies, and linear for others; therefore, irradiation of biologically active zones with noise electromagnetic radiation with a uniform power spectrum causes the body to respond to radiation components that coincide with natural resonant frequencies.

 The disadvantages of this device include the lack of indication of the presence of radiation, poor coordination with the irradiated area, the absence of a pronounced directivity of radiation.

 A device for wave reflexology [2], which contains an electrically series-connected cascade of pulse voltage generation, a source of electromagnetic waves - a noise generator of electromagnetic waves and an antenna emitter, a feature of which is an indication unit connected between the cascade of pulse voltage and a source of electromagnetic waves.

 The disadvantages of this device include poor agreement with the irradiated zone, the absence of a pronounced radiation directivity, as well as the uncertainty in the indication of microwave radiation, since the display unit is connected in a device operating on the principle of a shock excitation generator to a generator that emits electromagnetic waves.

 A known emitter for a microwave therapy apparatus closest to that proposed in design [3], containing a waveguide, pathogen and a coaxial line connected via a connector to an electromagnetic oscillation source - an ultra-high frequency generator, designed for deep local heating of biological tissue with an electromagnetic circular polarization wave. The purpose of the invention, ensuring a uniform distribution of radiation power with good agreement with the irradiated zone, is achieved by making the pathogen in the form of a vibrator bent around the circumference, exciting the wave with circular polarization, and also choosing the ratio of the emitter elements. This emitter is designed to operate in a relatively narrow, relatively low-frequency range, has a large emitter diameter, which narrows its capabilities when accurate dosimetry is necessary, and also does not contain an indicator of the presence of radiation.

 The aim of the invention is to increase the therapeutic effect of treatment when irradiating biologically active zones (points) due to better matching of the emitter with the irradiated zone, ensuring a pronounced directivity of radiation (improving the accuracy of dosimetry), expanding the range of emitted frequencies, including by introducing infrared radiation and providing Indications by a light spot in the visible part of the range.

 This goal is achieved by the fact that in the emitter, which is a segment of a coaxial waveguide, the outer part of which is closed on one side, and the inner conductor is made in the form of a segment of a circular waveguide, the length of which is equal to the length of the outer part and protrudes outward at a distance equal to a quarter of the wavelength in waveguide, a noise generator is introduced, which is a gas discharge device with working electrodes coaxially located inside the glass bulb, for example, a gas discharge indicator lamp.

 The source of extremely high-frequency, infrared, and visible radiation is a glow discharge in a discharged gas — the random thermal motion of the electrons in the discharge plasma, the average speed of which determines the electric temperature of the plasma and, therefore, the spectral density of the radiation power.

 In FIG. 1 shows a design variant of a radiator with an external surface 1 and an internal waveguide 2, in which a noise generator 3 with coaxially located working electrodes 4 and terminals for connecting 5 is located. As a noise generator in this embodiment of the radiator, a self-emitting discharge lamp type ANS- is used 1.

 In FIG. 2 shows a variant of the apparatus for microwave therapy with the proposed emitter 1, 2, a power supply 6, a housing 7, a printed circuit board 8, a transparent insert 9 and a power wire 10.

 The proposed design, in which the outer surface 1 of the emitter is closed on one side and open on the other, the inner conductor 2 is a hollow circular waveguide, the length of which is equal to the length of the outer part and protruding outward at a distance equal to a quarter of the wavelength in the waveguide and inside which the source is placed electromagnetic waves - noise generator 3, which is a gas-discharge device with coaxially located working electrodes inside a glass case to excite a wave with a circular floor polarization, provides a good orientation of the microwave radiation and EHF and alignment with the irradiated area, the radiation in the infrared range and in the visible part of the spectrum for indicating the presence and direction of the radiation.

 The use of devices for microwave therapy with the proposed emitter in medical practice has shown high efficiency in the treatment of a number of diseases due to good coordination with the irradiated zone, the expansion of the range of emitted frequencies, as well as visual control of the directivity and presence of radiation.

Literature
1. S.P. Sitko, V.E. Lobarev, N.D. Sausage Device for microwave reflexology "Threshold". A. s. N 1611345, 1987.

 2. Yu. G. Rzhavsky Device for wave reflexology. A. s. N 2042364, 1992.

 3. S. A. Lebedev. Emitter for microwave therapy apparatus. A. s. N 1223923.1983.

Claims (1)

 A radiator for microwave therapy, comprising a power supply unit, transition devices, an electromagnetic oscillation generator, a radiating antenna, characterized in that the radiating antenna is made in the form of a segment of a coaxial waveguide, the outer part of which is closed on one side, in the inner conductor is made in the form of a segment of a circular waveguide, the length of which is equal to the length of the outer part and protrudes outward at a distance equal to a quarter of the wavelength in the waveguide, and inside which the source of electromagnetic oscillations is placed - a generator noise in the form of a gas discharge device in a glass case with coaxially located working electrodes.

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