RU2117503C1 - Apparatus for physiotherapeutic treatment - Google Patents

Abstract

FIELD: medicine; may be used in performance of physiotherapeutic procedures in diseases of human locomotor system with use of various combinations of magnetic fields of combined structure and radiation of optical frequency bands possessing high active biological effect. SUBSTANCE: apparatus is portable, small-size and contains at least four main and additional magnets located, respectively, on rotating impeller and fixed plate. Main permanent magnets are made with different value of magnetic induction and installed on blades of impeller with the same or different poles to body working surface. Impeller is made for possible variation of speed and direction of rotation. Apparatus also has source of light radiation, one of which is located in center of working surface, while the other, on the fixed plate. Sources located on fixed plate are of different power of radiation. Control unit has control panel with switches for variation of speed, direction of impeller rotation and conditions of treatment for possible their indication, and also diagram of switching of light radiation sources and diagram of synchronization of rotation speed of impeller and switching-on of sources of light radiation. Higher activity of biological effect of apparatus is attained due to formation on its working surface of rotary permanent magnetic field of pulse-oscillating nature with saw-like variation of value of magnetic induction over trajectory of location of magnets on impeller and formation on working surface of alternating field of pulsing nature with radially running from center or to center variation of value of radiated power in optical band of frequencies and also combined effect on bioobject of rotating magnetic and light fields. Higher activity of biological effect of apparatus increases, it is convenient in use due to multifunctional control of dozens possible working conditions, and switchings may be performed by patient himself or by medical personnel on the control panel located directly on apparatus body. EFFECT: formation of various conditions of magnetic and light effects or their combination. 14 cl, 4 dwg

Description

 The invention relates to medicine, is intended for physiotherapeutic procedures for diseases of the musculoskeletal system of a person using various combinations of magnetic fields of combined structure and radiation in the optical frequency range and has a high active biological effect.

 In modern magnetotherapy, various methods are known for influencing biological objects with constant and variable magnetic fields in combination with various light emitters of the optical frequency range (Soloviev G.R. Magnetotherapeutic equipment. M .: Medicine, 1991; Magnetic fields. Hygienic criteria for the state of the environment, WHO Geneva, 1992; Ponomarenko G.N. Electromagnetotherapy and phototherapy. - St. Petersburg: Peace and Family-95, 1995.

 Known devices for magnetotherapy (SU, 1456168, A 61 N 2/00, 1982 and RU 2014852, A 61 N 2/00, 1994, analogues), which allow the formation of crossed constant magnetic field (PMF) and variable magnetic field (PeMP), however, they do not provide an effect combined with infrared radiation on a biological object.

 A device for magnetotherapy is known (RU, 2046609, A 61 N 2/00, 1995, analogue), where a superposition of PMP and PEMP is used in combination with IR radiation, which allows to increase the effectiveness of therapeutic effects on local areas of tissue of a biological object due to vibration of material particles located in the zone of constant magnetic field with a given frequency determined by an alternating magnetic field, which, however, does not provide a more effective rotatable magnetic field and light exposure with a large number by means of infrared emitters.

 The closest analogue (prototype) of the present invention should be considered a known apparatus for physiotherapeutic effects (RU, 2045967, A 61 N 2/00, 5/06, 1995), containing a non-magnetic housing, which houses a magnetic field source, made in the form of at least at least four permanent magnets placed on a rotating plate mounted symmetrically relative to the axis of the housing perpendicular to its working surface, and a single source of light radiation, the optical axis of which coincides with the axis of the housing. The magnetic field source is equipped with a reversible electric motor that allows changing the direction and speed of rotation, the axis of which is oriented along the axis of the housing, and the constituent pairs of permanent magnets form a multi-pole magnetic coupling or ring and face opposite poles to the working surface of the housing. In the known apparatus, a constant magnetic field rotates with the formation of a pulsating different-pole magnetic wave along the axis of rotation with a given magnitude of magnetic induction of permanent magnets and with a frequency set by the rotation speed, however, an effective variable magnetic field with a sawtooth change is not formed on the working surface of the device in each rotation period the magnitude of its magnetic induction, and there is no simultaneous exposure to a group of light emitters. In this case, the known apparatus does not provide for the possibility of forming light exposure of a pulsed nature with a gradual increase or decrease in radiation intensity over a rotation period.

 The objective of the invention is to significantly increase the effectiveness of the treatment of diseases of the musculoskeletal system of a person with a portable, inexpensive, more multifunctional device for home use, characterized by significant novelty and ease of use compared to the above magnetic and magneto-optical therapy devices.

 The technical result of the invention is to increase the biological activity of the apparatus due to the formation on its working surface of a rotating constant magnetic field of a pulse-vibrational nature with a sawtooth change in the magnitude of the magnetic induction along the path of the magnets on the impeller and the formation on the working surface of a rotating alternating electromagnetic field of a pulsating nature with a radially traveling from the center or to the center by changing the magnitude of the radiated power in the optical com frequency range, as well as the combined effect on the biological object with a rotating magnetic and rotating light fields, this makes it convenient to use the device, since multifunctional control of several dozens of possible operating modes and switches can be carried out by the patient or medical personnel on the remote control located directly on the case apparatus.

 The problem is achieved by the qualitative difference of the proposed magneto-optical therapy apparatus from the prototype, which consists in the fact that, in comparison with the prototype, at least four additional permanent magnets are placed on a fixed board installed in the housing parallel to the plate made in the form of an impeller, on the blades of which are placed the main permanent magnets with different magnitudes of magnetic induction with the same poles to the working surface of the housing, with additional constant s magnets are made with the same value of the magnetic induction and placed on board the same or different poles to the working surface of the housing. Permanent magnets are installed in the same polarity on the rotating part of the apparatus, and each of them has a different magnetic induction value than the others, which makes it possible to obtain an alternating magnetic field of a pulse-vibrational nature with a sawtooth change in the magnitude of its magnetic induction on the working surface of the apparatus in each rotation period.

 In addition, on a fixed base installed between the electric motor and the rotating part, low-power sources of radiation of the optical range with various values of radiated power, increasing or decreasing from source to source, are placed.

 The value of the radiated power of each source can also be changed with the help of a microcircuit according to a given program in each period of rotation of the moving part, providing for a special synchronization circuit.

 The effect of increasing from source to source clockwise or against the magnitude of the radiated power can also be achieved by installing an impeller with a different amount of gaps between its blades.

 As a result, on the working surface of the apparatus, in addition to a magnetic field of a special structure, a pulsating electromagnetic field is created with a radially running from the center or to the center change in the radiated power in the optical frequency range. The movable plate must be in the shape of an impeller to provide pulsation of the radiated power by the light source.

 A special microcircuit can synchronize the rotational speed of the impeller with the pulsation of blood flow and lymph flow, as well as with the heart rate or with the respiratory rate.

 Also, permanent magnets on a fixed board can be installed with alternating polarity, which will make it possible to have a complex shape of a sawtooth change in the magnitude of the magnetic induction.

 A low-speed reverse DC stepping motor can also be used, which allows obtaining different impeller rotation speeds on both sides, for example from 15 to 120 rpm, which will synchronize rotation speeds with pulsation of blood flow or lymph flow, as well as with respiratory rate or heart rate .

 Autonomous power supply, for example 12 V, can also be used with the installation of a small-sized battery in the handle of the device, or the vehicle’s on-board power supply can be used.

 Can also be reduced magnetic induction on the working surface through the use of nozzles with threaded joints.

 A miniature control panel with switches of several speeds, operating modes, rotation reverse and their indication using colored LEDs can also be provided on the device’s case.

 Also, miniature bearings can be installed on both ends of the shaft to ensure alignment of the electric motor and its silent operation.

 Also, openings corresponding to the diameter of the radiation sources must be provided on the removable nozzle.

 As a result of the application of the invention, the functionality of the apparatus is significantly expanded, and a combination of two force fields of different nature is created on its working surface, the combined effect of which differs significantly from the prototype and has a greater biological effect on the biological object.

In FIG. 1 shows the proposed apparatus, as well as types A, B, C, D (options A ¹ , A ² ). Details are placed in the housing 1 and the handle 15, made of non-magnetic material. The housing has a working surface 12 and its axis 4 ¹ , perpendicular to the axis 4 ^{15 of the} handle. In the housing 1 there is a magnetic field source containing a rotating metal plate 2 having the shape of an impeller and a fixed board 3 having the shape of a circle, which are firmly mounted with a reversible DC motor 6, the axis of which coincides with the axis 4 ^{1 of the} housing. Its axis can be fixed in the bearings 13. At least four permanent magnets 7 are placed on the impeller-shaped plate 2 mounted symmetrically to the axis of the housing 1 perpendicular to its working surface 12 along a single path for them. The path may be in the shape of a circle 26, as shown in figure 1, option 1, or have the shape of a spiral 19, as shown in figure 1, option 2. The optical axis of the ensemble of emitters coincides with the axis 4 ^{1 of the} housing 1. On a fixed board 3 at least four permanent magnets are installed 8. The light source is an ensemble of infrared emitters, one of which 9 is fixed in the center of the working surface 12. At least four other emitters 10 are mounted along a single path for them on a fixed board 3. The path can have as well as and for magnets, the shape of a circle or spiral. Permanent magnets 7 on the impeller 2 face the working surface 12 with the same poles and have different magnitudes of magnetic induction. Permanent magnets on a fixed base (board) 3 can also face the working surface 12 in pairs with different poles and have the same or different value of magnetic induction. When the impeller 2 rotates, a constant magnetic field of a pulse-vibrational nature is formed with a sawtooth change in the magnitude of the magnetic induction at the control points on the working surface 12. The control point on the working surface 12 should conditionally coincide with the location of the magnet 10 on the fixed plate 3. When the plate 2 rotates clockwise, magnet 7 will pass the control points sequentially, while rotating counterclockwise - along the points in the other direction. The magnitude of the magnetic induction of permanent magnets 7 determines the angle of inclination of the saw, and the frequency of changes is set by the speed of rotation. A rotating alternating electromagnetic field of a pulsating nature with a sawtooth change in the magnitude of the radiated power in the optical frequency range at points 11 on the working surface 12 is formed in a similar way only electronically using microcircuits located on a printed circuit board 14 located in the handle 15. Also, the source can be located in the handle 16 autonomous food. The input of the power cord 18 is located at the end of the handle. The removable nozzle 17 is separately shown in figure 1, it has holes 5 for free passage of the radiation flux. The working surface 12 has five through holes 11 for the passage of the light flux of the emitters 9 and 10. Control of the apparatus is performed on the remote control 20 (Fig. 1).

 Figure 2 shows a block diagram of the electrical part of the apparatus.

 In FIG. 3 is a diagram showing variations of a sawtooth change in the magnitude of the magnetic induction at the control points of the working surface 12 during rotation of a constant magnetic field. In this case, the solid lines show the curve for one period T with the right reverse, and the dotted line with the left reverse.

 In FIG. 4 is a diagram showing variations of a sawtooth change in the magnitude of the radiation power at the points where the IR emitters 10 are located on the working surface 12. In this case, the solid lines show the curve for one period T with the right reverse, and the dotted line with the left reverse.

 The device operates as follows.

 The technical result is achieved due to the fact that when the impeller 2 rotates on the working surface 12, a special structure of the rotated magnetic field is formed due to the set of permanent magnets 7 located on the impeller 2 and magnets 8 located on a fixed base 3 along a circular path 26 or spirals 19, and the special structure of the rotating light field is formed due to the multitude of IR emitters 10 located on the fixed base 3, and they are also combined This combination leads to an increase in the activity of biological effects on the tissues of a living organism. A rotating constant magnetic field is pulsed-vibrational in nature with a sawtooth change in the magnitude of the magnetic induction along the path of the magnets 7 on the impeller 2, and a rotating alternating electromagnetic field is pulsating due to the overlapping by the impeller blades 2 of the radiation sources 10 with a change radially running from the center or to the center the magnitude of their radiated power in the optical frequency range. At the same time, ease of use of the apparatus is achieved, since multifunctional control of several tens of possible operating modes and switching can be carried out by the patient or medical personnel on the control panel 20 located directly on the apparatus body 1.

 The main factor in the therapeutic effect on the human body by such a combined magnetic field in combination with optical radiation is the stimulation of its neuromuscular apparatus by excitation or inhibition, which from a physiological point of view corresponds to an increase or decrease in tissue conductivity for charged particles induced by a magnetic field, and its change tonus, i.e. degree of tension (contraction or relaxation of the muscle, increase or decrease in the lumen of the vessel, etc.). From a biological point of view, this is the removal of a blockade (spasm) of an organ or its strengthening, a change in the rate of blood or lymph flow, a change in arterial and osmotic pressure. The clinical results of the use of, for example, pulsed and pulsating magnetic fields used in the present invention show that in the pause between pulses or pulsations, more active regeneration of connective tissue (muscles, cartilage, ligaments, tendons, fascia) occurs.

 Preliminary clinical trials of three prototypes of the proposed device, conducted by medical specialists in a control group of patients under the guidance of the author of the invention at the Magnetotherapy Research Center of EDMA Company CJSC, which is part of the International Academy of Informatization, showed good results in the treatment of diseases of the musculoskeletal system, as well as the elimination of inflammatory processes in various tissues of the human body.

 The practical application of the proposed device due to the localization of the effect on the tissue of a biological object in one zone provides an increase in therapeutic efficiency by combining exposure to a magnetized pulsating light beam in the infrared range with a mechanically rotated pulse-oscillating magnetic field. At the same time, the duration of treatment is significantly reduced in comparison with the prototype for treatment using diseases of the musculoskeletal system and joints, such as osteochondrosis, radiculitis, spandeles, arthritis, lumbago, as well as spinal cord injuries of inflammatory processes of various etiologies according to a specially developed method. .

Claims (14)

 1. Apparatus for physiotherapy, comprising a non-magnetic housing, at least four permanent magnets placed on a rotating plate, mounted in the housing parallel to its working surface and configured to change the speed and direction of rotation, characterized in that at least four additional permanent magnets placed on a fixed board installed in the housing parallel to the plate, made in the form of an impeller, on the blades of which are placed the main tinuous magnets with different values of magnetic induction poles identical to the working surface of the housing, wherein the additional permanent magnets are made with the same value of the magnetic induction and placed on board the same or different poles to the working surface of the housing.  2. The apparatus according to claim 1, characterized in that the trajectory of the magnets on the circuit board and plate is a circle shape.  3. The apparatus according to claim 1, characterized in that the trajectory of the magnets on the board and plate is a spiral shape.  4. The apparatus according to claims 1 to 3, characterized in that the magnitude of the induction of the main permanent magnets increases from the previous to the next or from the next to the previous.  5. The apparatus according to claim 4, characterized in that the additional permanent magnets are placed on the board with poles to the working surface of the housing in an alternating sequence.  6. The apparatus according to claims 1 to 5, characterized in that for changing the speed and direction of rotation, the impeller is mounted on the axis of a low-speed stepping DC motor located in the housing.  7. The apparatus according to claim 6, characterized in that a light source installed in the center of the working surface and a control unit with a control panel including speed switches, rotational directions of the impeller and single or combined exposure to the biological object are introduced into it, as well as display unit.  8. The apparatus according to claim 7, characterized in that additional light sources with different radiated power are introduced into it, placed on a fixed board symmetrically to its center, a light source switching circuit and an impeller rotation speed synchronization circuit are introduced into the control unit inclusion of light radiation sources, and the control panel contains additional switches of the modes of light and combined exposure with the possibility of their indication.  9. The apparatus according to claim 7, characterized in that additional light sources are introduced into it, placed on a fixed board symmetrically to its center, a light source switching circuit and a impeller rotation speed synchronization circuit with the moment of light radiation turning on are introduced into the control unit, and the control panel contains additional switches of the modes of light and combined exposure with the possibility of their indication, while for the formation of various values of the radiated power of light sources radiation of the impeller is formed with unequal quantities lumen between the blades.  10. The apparatus according to claims. 7 to 9, characterized in that as sources of light radiation, infrared radiation diodes or laser diodes are used.  11. The apparatus according to claims 1 to 6, characterized in that a removable nozzle of non-magnetic material with a threaded joint is inserted into it for connection with the housing.  12. The apparatus according to claim 10, characterized in that a nozzle of non-magnetic material with a threaded joint is inserted into it for connection with the housing, having openings for the passage of the light flux.  13. The apparatus according to claims 1 to 10, characterized in that the rotational speed of the impeller is synchronized with the pulsation of the blood stream or lymph flow, as well as with the heart rate or with the respiratory rate.  14. The device according to claims 1 to 10, characterized in that a small-sized battery or vehicle electrical system is used as a power supply.

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