RU2082462C1 - Device for applying physiotherapy - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has low frequency alternating current supply source and inductor solenoid connected to it. Low frequency alternating current to high frequency high voltage transformer is introduced into the device design. The transformer input is connected to additional winding of the inductor solenoid set coaxially and connected in series to the main winding. One device version has electric gas discharge unit filled with inert gas and placed in inductor solenoid cavity. The unit is connected to the transformer output and directed with its balloon vault towards its working end. The second device version has solenoid carcass provided with plugs placed so that cavity filled with inert gas is formed. Plug positioned on the same side with the working end is a plate manufactured from material that is transparent to light and has low value of electric strength. High voltage electrode is mounted in the cavity on the opposite side with respect to the light transparent plate. The third device version has solenoid carcass manufactured from material that is transparent to light and having cavity filled with inert gas. High voltage electrode is introduced into the cavity from the side of non-working end of the inductor unit. Balloon wall is thin on the working end side to enable crown discharge to arise. EFFECT: enhanced effectiveness of combined electric and magnetic treatment. 3 cl, 3 dwg

Description

 The invention relates to medical equipment, namely, devices for the treatment of magnetic and electrical physical factors.

Known methods and device of physiotherapy based on the use of variable electric currents of high frequency: darsonvalization (frequency 100
500 kHz, voltage 20-40 kV) and ultratonotherapy (frequency 22 kHz, voltage 4 5 kV) (V. G. Yasnogorodsky. Electrotherapy, M. Medicine, 1987, p. 114 123). The active factors of these methods, which are very close in technical implementation and indications, in addition to the high-frequency current, are the corona discharge that arises in the contact area of a special electric discharge electrode with the skin, which is released in this process and ozone is formed in the air, which acts on the skin surface and penetrates adjacent tissue, as well as weak ultraviolet radiation and ultrasound due to the oscillatory effect in the tissues. Electric discharge and sinusoidal current irritate the skin receptors, thereby exerting a reflex effect on various systems of the body and especially on the autonomic nervous system. At the same time, capillaries expand, blood and lymph circulation improves. Under the influence of the generated heat and the exciting effect of the corona discharge, the activity of metabolic processes in tissues increases, congestion, pain, itching decrease, the functional state of the neurovascular system improves, and an antispasmodic effect is manifested. The bactericidal properties of ozone contribute to the rapid removal of inflammation and accelerated tissue regeneration.

 The closest is the apparatus for low-frequency magnetotherapy Pole-2 (Solovyova GR Magnetotherapeutic equipment, M. Medicine, p. 129 132). The device is designed for contact or remote medical treatment with a low-frequency magnetic field and consists of an electronic unit and cylindrical inductors, including the solenoid type.

 The disadvantages of the known device should include a large mass and dimensions, apparently due to the versatility and a wide range of accessories. The device is intended for use only in physiotherapeutic rooms of medical institutions and does not allow treatment at home.

 The objective of the present invention is to expand the functionality of the device for physiotherapy and achieve higher therapeutic effectiveness due to the integrated use of heterogeneous physical factors.

 The technical result of the invention is expressed in providing, using the same device, exposure to pathological foci of various etiologies with a low-frequency alternating magnetic field and a high-frequency high-voltage voltage, which in turn produce additional physical factors: corona discharge, heat, ozone, ultraviolet radiation, and ultrasonic exposure. The device also involves the separate use of the considered basic physical factors in the event of any contraindications to their complex use, which can be carried out by a type of work switch.

 The essence of the invention lies in the fact that in the device for physiotherapy, including a source of low-frequency alternating current and an inductor-solenoid connected to it, a converter of low-frequency alternating current into a high-voltage high-frequency voltage is connected, connected to an additional winding of the inductor-solenoid, located coaxially and connected in series with main winding. In one embodiment of the device, an electric-gas-discharge element filled with an inert gas is placed in the cavity of the inductor-solenoid, connected to the output of the converter and oriented by the dome of the balloon toward its working end. In another embodiment, the solenoid frame at its ends is equipped with plugs placed to form a cavity filled with inert gas, and the plug on the side of the working end of the inductor-solenoid is a plate of translucent material with a reduced value of electric strength, while in the cavity on the opposite side of the translucent plate mounted high voltage electrode. In the third embodiment, the coil of the inductor-solenoid is a cylinder of translucent material with a sealed cavity filled with inert gas, and a high-voltage electrode is introduced into the cavity from the side of the inoperative end of the inductor, and the cylinder wall from the side of the working end of the inductor-solenoid is made with thinning to ensure corona discharge.

 In FIG. 1 schematically shows the design and block diagram of a device in accordance with claim 1 of the formula; in FIG. 2 variant of the device in accordance with paragraph 2 of the formula (the block diagram is identical); in FIG. 3 variant of the device in accordance with paragraph 3 of the formula (block diagram is identical).

 The device (Fig. 1) contains an inductor-solenoid 1, consisting of a coil formed by a frame 2 with ring grooves and laid in them the main 3 and additional 4 windings. The windings 3 and 4 are connected electrically in series and are located on the frame 2 coaxially. The frame 2 is, for example, made of plastic with good dielectric characteristics and is coated externally with an insulating layer 5. A sleeve 7 is screwed into the cavity 6 of the coil having a thread, also made of insulating material, in which a neon electric discharge element 8 is mounted, which can be standard indicators of a glow discharge are used (for example, TN-0.2 or IN-7). The gas-discharge element is oriented by a glass cylinder towards the working end of the inductor-solenoid 1. By turning the sleeve 7 into the cavity 6 or turning it out, you can select the air gap 9 between the surface of the dome 10 of the cylinder of the gas-discharge element 3 and the body surface, thereby regulating the intensity of the corona discharge. The device also has a converter 11 low-frequency alternating current with a frequency of 50 Hz to a high voltage sinusoidal voltage with a frequency of 22 KHz, adjustable in the range of 1 to 5 kV. The converter 11 is connected to an additional winding 4 by its input. One of the output ends of the converter 11 is grounded, and the second is connected to a high-voltage electrode 12 of an electric-gas-discharge element 8. A converter of the kind of work (not shown) is provided in the converter 11, which allows for separate operation of the device in magnetotherapy modes and ultratonotherapy as prescribed by the doctor.

 The second variant of the device (Fig. 2) differs from the previous one in that the frame 2 of the coil of the inductor-solenoid 1, having the main 3 and additional 4 windings, is equipped at its ends with plugs placed with the formation of a cavity 6 filled with an inert gas. The plug 13 from the side of the working end of the inductor-solenoid 1 is a plate of translucent material, for example, glass with a reduced value of electric strength compared to the frame 2, which ensures the occurrence of a corona discharge between the outer surface of the plug 13 and the surface of the body through the air gap 9, the value which is selected optimal and lies within 0.5 to 1 mm. The transparency of the plug 13 provides the ability to visually monitor the operability of the device by observing through it an inert gas glow under the action of a high alternating voltage supplied to the high-voltage electrode 12 installed in the cavity 6 on the opposite side of the translucent plate 13. As in the previous embodiment, the device is introduced converter of low-frequency alternating current to high-voltage high-frequency voltage (not shown in Fig. 2) connected by an input to an additional winding 4-solenoid inductor 1 located coaxially and connected in series to the main winding 3.

 The embodiment of the device shown in FIG. 3 also contains a converter of low-frequency alternating current to high-voltage high-frequency voltage (not shown in FIG. 3), connected by input to the additional winding 4 of the solenoid inductor 1, located coaxially and connected in series with the main winding 3. But it has a frame 2 of the solenoid inductor 1 is a container of translucent material with a sealed cavity 6 filled with an inert gas. A high-voltage electrode 12 is introduced into the cavity 6 from the side of the inoperative end of the inductor 1, and the cylinder wall 13 from the side of the working end of the solenoid inductor 1 is thinned to ensure corona discharge through the air gap 9. Gas glow in the cavity 6 can be observed as from the working and from the non-working sides of the inductor-solenoid 1 (shown by arrows), which provides the convenience of monitoring the operability of the device without detaching it from the body.

 The proposed three different design options for the device allow you to take into account the capabilities of manufacturers and specific conditions for its use.

 The advantage of the first option (Fig. 1) is the ability to select and control the size of the discharge gap in the air gap 9 between the gas discharge element 8 and the surface of the body in order to select the intensity of the corona discharge without the need to tear off the inductor-solenoid 1 from the body, as well as without changing the value supplied to the voltage electrode 12 from the converter 11. The advantage of this option is also the use of standard neon electric discharge lamps, which eliminates the need for pre manufacturer of equipment for pumping, filling inert gas cylinders of dischargers and their soldering.

 The second and third options (Fig. 2, 3) are focused on enterprises with electrovacuum sections and production, which are able to provide the manufacture of frames 2 of the coil of the inductor-solenoid 1 immediately in the form of an electric discharge element, followed by winding of the windings 3 and 4. The fixed value of the discharge gap 9, limited by the optimal limits of 0.5 to 1 mm, eliminates the possibility of adjustment. However, such adjustment is often not necessary in the conditions of routine use. In addition, the selection of the corona discharge mode within certain limits can be carried out by changing the magnitude of the high-voltage voltage supplied from the converter 11 to the electrode 12 introduced into the cavity 6 with an inert gas.

 The device operates as follows.

 Inductor-solenoid 1 (Fig. 1) impose a working end on the pathogenic focus or reflexogenic zone. An alternating current voltage of 50 Hz is applied to the windings 3 and 4 connected in series, which induce a low-frequency alternating magnetic field in the treated section (shown in Fig. 2 and 3 in the form of field lines). The voltage from the additional winding 4 is supplied to the input of the transducer 11, which converts the low-frequency alternating current into a high-voltage high-frequency voltage, adjustable within 1 5 kV, frequency 22 kHz, used in ultratonotherapy. The converted voltage is applied to the high-voltage electrode 12 of the gas-discharge element 8 located in the cavity 6 of the frame 2 of the solenoid inductor 1. In this case, for the high-frequency current between the base of the gas-discharge element 8 and the patient’s body, the following circuit is formed: gas inside the cylinder ionized by a glow discharge, electric capacity glass wall and a layer of air in the gap 9 between the dome 10 of the balloon and the skin surface in which corona discharge occurs. The current passes through the distributed capacity of the patient’s body to the ground, to which one of the output ends of the transducer 11 is closed. Due to the current-limiting effect of the small capacity of the glass wall of the balloon, the discharge does not reach an intensity at which it could have a strong irritating effect or cause pain. By changing the magnitude of the gap 9 with a sleeve 7 (for a fixed value of high voltage), it is possible to change the intensity of the corona discharge from a quiet, almost not causing any special sensations, to a weak spark, which has a weak irritating, and in some cases a slight burning effect, which is especially effective during point reflexology. During the discharge process, a small amount of ozone is formed in the gap 9, which saturates the surface tissues, creating a bactericidal effect. In the spectrum of radiation arising from a corona discharge, there is a weak ultraviolet radiation that has a therapeutic effect. The discharge is accompanied by the release of heat in the treated tissues and the generation of weak ultrasound in them due to the oscillatory effect. The procedure is carried out according to a labile or stable technique for 5 to 15 minutes, depending on the indications, for a course of treatment of 5 to 15 procedures daily or every other day.

 The principle of operation of the device according to the options shown in FIG. 2, 3, does not differ from that described above, except that the intensity of the discharge is controlled by the choice of the high-voltage voltage supplied from the converter 11 to an electric-gas discharge element formed by a frame 2 filled with an inert gas.

 Thus, the patient’s body is exposed to local combined effects using the same device with a low-frequency magnetic field, high-frequency current, electric discharge, ozone, heat, ultraviolet radiation and ultrasound in therapeutic doses that have an effective therapeutic effect due to the complexity of their use. If it is necessary to separately use the magnetic field and the factors produced by high-frequency voltage and corona discharge, a device of the kind of work can be provided in the device that will allow the doctor to take into account the presence of indications and contraindications in the treatment of a particular disease.

Claims (3)

 1. A device for physiotherapy, comprising a source of low-frequency alternating current and a solenoid inductor connected to it, characterized in that a converter of low-frequency alternating current into a high-voltage high-frequency voltage is connected to it, connected to an additional winding of the solenoid inductor located coaxially and connected in series with the main winding, and placed in the cavity of the inductor-solenoid electric gas discharge element filled with inert gas, connected to the output of the Converter and oriented by the dome of the cylinder towards its working end.  2. A device for physiotherapy, comprising a source of low-frequency alternating current and a solenoid inductor connected to it, characterized in that the solenoid frame at its ends is provided with plugs placed to form a cavity filled with an inert gas, and the plug from the side of the working end of the inductor-solenoid is a plate of translucent material with a reduced value of electric strength, while a converter of low-frequency alternating current to high-voltage high-voltage is introduced into the device -frequency voltage is connected to an additional input of the inductor-solenoid coil disposed coaxially and connected in series with the primary winding, and a high voltage electrode mounted in the cavity on the opposite side of the translucent plate.  3. A device for physiotherapy, comprising a source of low-frequency alternating current and a solenoid inductor connected to it, characterized in that a converter of low-frequency alternating current into a high-voltage high-frequency voltage is connected to it, connected to an additional winding of the solenoid inductor, located coaxially and connected in series with the main winding, while the frame of the solenoid inductor is a cylinder of translucent material with a sealed cavity filled with inert gas, moreover, a high-voltage electrode is introduced into the cavity from the inoperative end of the inductor, and the cylinder wall from the side of the working end of the solenoid inductor is made with thinning to ensure the occurrence of a corona discharge.

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