RU2014852C1 - Magnetotherapy device - Google Patents

Abstract

FIELD: medical engineering carrying out magnetotherapy procedures with the use of superposition of crossed alternating electromagnetic and constant magnetic fields. SUBSTANCE: device has a permanent magnet, two U-shaped cores disposed symmetrically relative to the permanent magnet, inductance coils mounted on the core legs and forming two electromagnets connected to AC source. The permanent magnet has a magnetization axis at acute angles to the axes of inductance coils. The device furthermore is provided with correcting permanent magnets arranged in parallel with the planes of U-shaped cores and having magnetization opposite to magnetization of central permanent magnet. EFFECT: enhanced efficiency. 2 cl, 3 dwg

Description

 The invention relates to medical equipment and is intended for low-frequency magnetotherapy of body parts of a biological object with a magnetic field with a given spatial orientation.

 In modern magnetotherapy, various methods and devices are known for acting on biological objects separately by constant, pulsating and alternating magnetic fields, operating in continuous or intermittent modes [1]. At the same time, fields with the greatest number of biotropic parameters (intensity, frequency, gradient, etc.) have increased biological activity.

 A device for magnetotherapy of body parts of a biological object with a magnetic field, which contains electromagnets with a constant source of magnetic field [2].

 The technical result of the invention is the effect on the biological object of such a resulting (crossed) magnetic field, which leads to the emergence of EMF in the local part of the tissue of the biological object and creates optimal conditions for the occurrence of magnetoelectric effects in tissues and environments with high electrical conductivity and ultimately leads to an increase in biological and therapeutic efficacy devices.

 Moreover, the device can be made in the form of a compact small-sized device, which is very important for its practical use.

 The magnetotherapy device contains two pairs of inductors connected to an alternating electric current source, and a central permanent magnet, the axis of magnetization of which is perpendicular to the working surface of the device case, while the inductors are placed on two U-shaped cores made of transformer steel equipped with side correcting permanent magnets located parallel to the planes of the inductors and in reverse polarity to the Central permanent magnet, and loskosti fixed inductors form acute angles with the central axis of magnetization of the permanent magnet and the coils themselves are mounted for movement in the direction of the central magnet.

The impact on biological objects in the proposed device is carried out by combining a non-uniform constant magnetic field with a non-uniform variable low-frequency magnetic field, thus forming a resultant (asymmetric) field, the intensity of which varies in a fixed local zone, creating a vortex formation at the field crossing point due to changes from 0 to 360 ^{about the} direction of the vector of the resulting asymmetric field, and the magnitude of the intensity of their resulting field varies depending on the state between the crossing point of the fields and the front surface of the central permanent magnet.

Such a combination of two magnetic fields (variable and constant) allows you to create an asymmetric spatio-temporal gradient of the resulting magnetic field, variable in time in the localized part of space. Accommodation coils at an acute angle ^(about 30) with respect to the central magnet and the presence beneath the metallic screen to concentrate the maximum magnetic energy in a local area of tissue. Correction magnets installed in reverse polarity with a central magnet, as well as P-cores forming a complex structure of an alternating magnetic field, allow you to create on the working surface of the device or at some distance from it vortex formations of the resulting alternating and constant magnetic fields with clockwise or counterclockwise rotation clockwise at the point of their crossing.

 In FIG. 1 shows a General view of the proposed device; in FIG. 2 - connection diagram; in FIG. 3 is an embodiment of a block of inductors.

 The device comprises a dielectric housing with two insulated compartments 1, 2 and a removable cover 3. In compartment 1, a block of two inductors of variable electromagnetic field is placed, each of which contains a U-shaped stacked core made of transformer steel plates and placed on its branches, and two coils inductances connected in series in different modes using a block of switches 4 and a diode located in compartment 2, which acts as a handle for holding the device during procedures. An indicator 5, a power cord 6 and extension cords in the form of brackets 7 are also installed on the housing for ease of use of the device during procedures. The removable cover and brackets are attached to the housing with screws 8.

 The connection diagram (figure 2) contains two inductors I1 and I2, consisting of U-shaped cores 9 and inductors 10, a packet of switches I, II, III (block 4), indicator 5, current-limiting resistor 11 and diode 12. Switches I -III allow you to get 3 modes of operation of the device: mode 1 - sinusoidal current frequency of 50 Hz; mode 2 - pulsating current with a positive pulse; mode 3 - ripple current with a negative pulse. Depending on the polarity of the pulse, the vector of the resulting magnetic field (vortex formation) is directed clockwise or counterclockwise.

 A variant of the placement of the block of inductors is presented in figure 3. The block contains two alternating electromagnetic field inductors, each of which consists of a U-shaped core 9 and two inductors 10, a metal plate 15, carriages 16 and 21, a central permanent magnet 18, two correcting permanent magnets 19, fixing screws 12, 17 and twenty.

 The carriage 16 allows you to set a given sharp angle between the axes of the cores of the inductors 9 and the axis of the central permanent magnet 18.

 The carriage 21 allows you to center the permanent magnet 18 with the screw 12 in relation to the inductors 9. The screw 20 allows you to fasten the correction magnet 19 to the carriage 16 parallel to the inductor 9. The screws 17 allow you to set the working point A at the required distance from the front surface of the central permanent magnet.

 The device operates as follows. In accordance with the assigned parameters of magnetotherapy and the selected mode of operation, the desired switch key 4 is turned on and the therapeutic effect on the patient’s body is performed according to the specified treatment method, bringing the device to the magnetized area of the body with the corresponding zone.

 The practical application of the proposed device provides an increase in therapeutic effectiveness by localizing the effect on the tissue of a biological object in one zone and obtaining vortex formations in the desired direction of rotation, as well as reducing the treatment time by 3-4 times compared with the prototype in the treatment of osteochondrosis, radiculitis, spinal brain injuries and injuries of various tissues according to a specially developed technique.

Claims (2)

 1. DEVICE FOR MAGNETOTHERAPY, containing two electromagnets connected to an electric current source, and a central source of constant magnetic field, the axis of magnetization of which is perpendicular to the end surface of the device, characterized in that two inductors of each of the two electromagnets are placed on the branches of two made P- shaped transformer steel cores equipped with lateral correcting permanent magnets parallel to the planes of the U-shaped cores s and in reverse polarity to the central source of the constant magnetic field, made in the form of a permanent magnet, and the planes of the cores form fixed sharp angles with the axis of magnetization of the permanent magnet, facing vertices to the end surface of the housing, which is working, and the electromagnets themselves are mounted with the possibility of their movement in direction of a permanent magnet and connected to an alternating current source.  2. The device according to claim 1, characterized in that a diode is connected to the outputs of an alternating electric current source through a block of mode switches.

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