RU2124910C1 - Therapeutic device - Google Patents

Abstract

FIELD: medical engineering; physiotherapeutic procedures. SUBSTANCE: device has power supply unit and control unit positioned in capsule and connected to housing which accommodates optical-range radiator, permanent magnet and microwave radiator with wave length of 0.001-0.3 m and radiator of electromagnetic pulse of 0.001-300 mc duration. External casing of housing or entire housing is made of flexible material for giving it form the most fitting to surface to be treated and arranging it on this surface by means of attachment members. Control unit includes pulse generator and timer. It can control simultaneous and successive modes of switching on the radiators. Independent design of housing and capsule allows performance of effective physiotherapeutic action in continuous mode. EFFECT: enhanced efficiency of treatment. 3 cl, 1 dwg

Description

 The invention relates to medicine, in particular to physiotherapy, and relates to methods and devices for physiotherapeutic irradiation of human organs and tissues with electromagnetic and acoustic waves, as well as exposure to heat and a constant magnetic field.

 A device is known that includes a radiation unit, a power supply unit, and a means for delivering light radiation from the radiation unit to a biological object (light guide) [1].

 The disadvantages of the first device are the difficulty in delivering radiation to some hollow organs, the loss of a significant part of the radiated power due to absorption by the material of the fiber, the imperfections of the input devices, the mechanical fragility of most materials, optical fibers, the possibility of a few procedures due to difficulties with the placement of the equipment and the need for the presence of a doctor .

 The closest in technical and medical essence to the second invention is a device comprising a power supply, a control unit, a radiator, the emitter being at a relatively small distance from the biological object or in direct contact with it [1].

 The disadvantage of the second prototype device is the large size and weight of the device used for irradiation, the need for the constant presence of a highly qualified specialist during the entire session to monitor and control the exposure process, the need for a special outpatient room where the equipment is located. A common disadvantage of the prototype device is the narrow (only optical and magnetic) ranges of biostimulation.

 The purpose of the invention is to increase the effectiveness of therapy. The device for therapy consists of a power supply unit, electrically connected to a control unit connected to an optical range emitter, and is equipped with an additional microwave range emitter with a wavelength of 0.001 to 0.3 m, and is additionally equipped with an electromagnetic pulse emitter connected to a control unit unipolar, exponential form, with a duration of 0.001 - 300 ms in the form of parallel-connected capacitors and inductors. Emitters of electromagnetic waves in the optical and microwave ranges and electromagnetic impulse, as well as a permanent magnet are placed in a housing having an outer shell made of flexible material with the possibility of shaping it as close as possible to the surface of the impact and placing it in it using fastening elements. The housing is connected by a flexible connection to a control unit comprising a pulse generator and a timer and configured to control, simultaneously or sequentially, the emitter switching mode. Power and control units are placed in a separate capsule equipped with fasteners.

 The invention is illustrated in the figure.

 The drawing shows a device for therapy with optical and microwave emitters, an emitter of an electromagnetic pulse and a permanent magnet.

 The device (see drawing) consists of an optical emitter 1, a microwave emitter 2,3 (it can consist of several parts), an electromagnetic pulse emitter 9, connected by actuators 4 to a capsule 5 of power supplies 6 and control 7. Radiators 1, 2, 3 , 9 and a permanent magnet 10 are placed in the housing 8 (a frame covered with a flexible material, for example rubber), which, when placed on the impact area, can take a shape as close as possible to it. Semiconductor lasers, LEDs or other light sources can be used as optical range emitters, and tunnel diodes are used as microwave sources. As the source of the electromagnetic pulse 9, an electric circuit is used that contains a capacitor connected in parallel with the inductor, a key (for example, a thyristor), and only coils are placed in the housing 8. The power supply 6 is a non-rechargeable or rechargeable battery. The control unit 7 contains a pulse generator and a timer (not shown in the drawing) specifying the duration and sequence of the pulses of the driving sequences or the simultaneous operation of the emitters.

 When working with the device, capsule and flexible body fastening elements are used. For example, with physiotherapeutic irradiation of the auditory canal, the housing 8 is placed in it, and the capsule with the blocks is attached to the waist belt, for example, with Velcro, which allows for a long exposure without restricting the patient's actions. The device is configured to work offline. In this case, the control unit sets the exposure mode, for example, 5 times a day for 1 min. irradiation, after 2 hours for the ear canal.

Sources of information
1. Illarionov V.E. Technique and methods of laser therapy procedures. Handbook, 1994, M., Laser Market, p. 9-16.

Claims (1)

 A device for therapy, consisting of a power supply unit electrically connected to a control unit connected to an optical range emitter, characterized in that, in addition to the control unit, a microwave electromagnetic wave emitter with a wavelength of 0.001-0.3 m and an electromagnetic pulse emitter with a duration of 0.001 - 300 ms, while the emitters of the electromagnetic pulse, electromagnetic waves of the microwave and optical ranges together with a permanent magnet are placed in a housing having an outer shell, made made of flexible material, with the ability to give the body a shape as close as possible to the impact surface and place it on it by means of fasteners connected by a flexible connection to a control unit containing a pulse generator and a timer and configured to control, simultaneously or sequentially, the emitter switching mode while the power and control units are placed in a capsule provided with fasteners.