RU2322273C2 - Method and device for magneto-therapeutic influence - Google Patents

Abstract

FIELD: medical equipment.

SUBSTANCE: method and device can be used for medicinal-diagnostics complexes for magnetic therapy. Magneto-therapeutic influence is formed due to orientation of axes of three magnetic field sources in space at angle one to others, which fields have to be as permanent and alternative. Axes of magnetic fields sources are disposed mutually perpendicular. Two magnetic fields are formed by inductors-electromagnets, which have lengths exceeding diameter. Third magnetic field is formed by round coil, reeled upon circle, which has diameter to exceed its length. Axes of inductors-electromagnets are mounted in parallel to plane of circle of coil. Device for forming magneto-therapeutic influence has three magnetic filed sources mounted for formation of mutually perpendicular magnetic fields. Those three sources are combined to form three-component magnetic field former and are connected to corresponding controlled current sources, which sources are connected with control device through power amplifiers. Magnetic field former is made in form of two mutually perpendicular inductors-electromagnets, which inductors-electromagnets have diameters to exceed their lengths, and round coil, reeled upon their circle. Lengths of inductors-electromagnets exceed their lengths and diameter of coil exceeds its length. Axes of inductors-electromagnets are parallel to plane of circle of coil. Vector-controlled magnetic field is created which has to external in relation to volume which magnetic field source occupies to organize local influence onto heart of disease.

EFFECT: widened functional abilities.

4 cl, 3 dwg

Description

The invention relates to the field of medical equipment and can be used to create diagnostic and treatment complexes and magnetic therapy devices for the treatment and diagnosis of a wide range of diseases.

A known method of forming a magnetotherapeutic effect [1, 2], based on the supply of n inductors of electrical signals, and the inductors are placed around the whole patient to form a common magnetotherapeutic environment. The specified method through the use of the same radiating elements, which are located on the base parallel to each other, allows you to get only two directions of the magnetic field induction vector. In addition, the cumbersomeness of the general exposure device involves its use only in hospitals and excludes the use at home for local concentrated exposure only to the focus of the disease.

A known method of forming a magnetotherapeutic effect on a limited area of the human body, implemented in the device [3], based on the creation in the magnetic system of three concentric inductors installed mutually perpendicular to each other, a magnetic field that varies in magnitude of tension and in direction in space with the flow time. However, in the indicated method implemented in the device, the working volume is the volume inside the sphere formed by these coils, and during the procedures, the patient introduces the irradiated limb through the window into the chamber formed by the coils, so that the exposed portion of the limb is completely in the chamber. In this regard, using this method it is impossible to realize the impact on limited local areas on the surface of the human body.

The above methods are characterized by the fact that the object is located inside the field-forming system, which leads to the bulkiness of the device, difficulties when using them at home and the inability to organize concentrated effects on small local areas (the focus of the disease) and on biologically active points of the biological object.

A known method of organizing a magnetotherapeutic effect on a local area of a patient’s body, implemented in the “Mag-30” device [4], is based on the formation of a sinusoidal magnetic field of the same intensity, the field source of which is an U-shaped inductor with two coils. A significant drawback of this method is the inability to control the movement of the field vector in three-dimensional space, which significantly limits its ability to implement various treatment methods.

A known method of forming a magnetic field for therapeutic effects on local areas of the patient’s body, implemented in the device [5], based on the formation of an electromagnetic field, the magnetic induction vector of which rotates in a plane perpendicular to the working surface of the inductor, which includes an U-shaped core, and sections of the induction coil located on the extreme rods of the ferromagnetic core are included according to. However, using this method, it is possible to form a field that rotates only in a plane perpendicular to its working surface, and it is impossible to rotate the magnetic field vector in the cone, oscillations in the plane and cone, etc.

Closest to the claimed is a method of forming a magnetic field for therapeutic effects [6], based on the superposition of constant and alternating magnetic fields, which are oriented at an angle to each other, resulting in a structured magnetic field for acting on local areas of biological tissues, which force lines of a constant field vibrate at a frequency specified by an alternating magnetic field. A significant disadvantage of this method is the ability to create a magnetic field that vibrates only in a certain plane of space, and the inability to create rotating and moving in the volume of three-dimensional space modulo and direction, to obtain complex modulated magnetic fields. However, it is known [4] that the higher the spatiotemporal inhomogeneity of the magnetic field, the higher its biological activity.

The technical result of the invention is to expand the functionality of the method of forming a magnetotherapeutic effect by creating a vector-controlled magnetic field external to the volume occupied by the magnetic field source to organize local exposure concentrated on the focus of the disease and on the biologically active points of the biological object, which varies not only by magnitude of tension, but also in any direction in space and time.

The technical result implemented in the method of forming a magnetotherapeutic effect is achieved by the fact that the axis of the third magnetic field source is positioned at an angle to the axes of the first two sources of the magnetic field. In this case, the sources of magnetic fields are both constant and variable, and the axes of the sources of magnetic fields are mutually perpendicular. The formation of two magnetic fields is carried out by inductors-electromagnets, the lengths of which exceed the diameter, and the formation of the third magnetic field is wound around the circumference of a round coil, the diameter of which exceeds its length, while the axes of the inductors-electromagnets are set parallel to the plane of the circle of the coil.

The device for forming a magnetotherapeutic effect contains three magnetic field sources installed with the possibility of forming mutually perpendicular magnetic fields in space, combined into a three-component magnetic field shaper and connected to the corresponding controlled current sources connected through power amplifiers to the control device. Moreover, the magnetic field driver is made in the form of two mutually perpendicularly located inductors-electromagnets, the lengths of which exceed the diameter, and wound around the circumference of a round coil, the diameter of which exceeds its length, while the axes of the inductors-electromagnets are parallel to the plane of the circle of the coil.

, создаваемого данной системой, будет равен геометрической сумме векторов магнитной индукции полей, создаваемых каждым отдельным индуктором системы

.The essence of the method of forming a magnetotherapeutic effect is as follows. The method is based on the principle of superposition of three magnetic fields (Fig. 1), the axis of the magnetic field sources of which are oriented in space at an angle to each other (a special case is at a right angle). The total vector of the magnetic induction of the field

created by this system will be equal to the geometric sum of the magnetic induction vectors of the fields created by each individual inductor of the system

.

Figure 1 explains the formation of a vector-controlled magnetic field external to the source for concentrated exposure to the local surface area of the bioobject by independently controlling the currents in each inductor. It is possible to control not only the amplitude of the total magnetic induction vector, but also the trajectory of its rotation in space and the change in time in the form of volume Lissajous figures, for which the control currents I ₁ , I ₂ , I ₃ must have both constant components and variables differing in frequency or phase shifted relative to each other. In contrast to the known methods [1, 2, 6], where a vector-controlled field is formed inside the system of inductors, in the proposed method an external vector-controlled field is formed, which can be concentrated to the focus of the disease.

Figure 2 presents a device for forming a magnetotherapeutic effect that implements the proposed method.

The structure of the device includes: 1, 2 - inductors-electromagnets; 3 - round coil; 4 - three-component shaper of a magnetic field; 5, 6, 7 - controlled current sources; 8, 9, 10 - power amplifiers; 11 - control device.

The device for forming a magnetotherapeutic effect contains three sources of magnetic field 1, 2, 3, connected respectively through controlled current sources 5, 6, 7 and power amplifiers 8, 9, 10 to the control device 11. Moreover, three sources of magnetic field 1, 2, 3 structurally combined into one three-component magnetic field shaper 4.

The device operates as follows. A three-component magnetic field driver 4, containing three magnetic field sources installed with the possibility of forming mutually perpendicular magnetic fields in space, consists of two inductors-electromagnets 1, 2 located mutually perpendicular, the lengths of which exceed the diameter, and a round coil 3 wound around their circumference, the diameter of which exceeds its length. The axes of the inductors-electromagnets 1, 2 are parallel relative to the plane of the circle of the coil 3. A three-component magnetic field shaper 4, placed in a casing of dielectric non-magnetic material, is placed on a given local area of the surface of the bioobject exposed. Depending on the selected exposure technique, information about which is contained in the memory of the control device 11, the latter sets the necessary control signals for power amplifiers 8, 9, 10, each of which generates in accordance with these signals currents I ₁ , I ₂ , I ₃ controlled current sources 5, 6, 7 separately for each magnetic field source 1, 2, 3. As a result, at each instant of time, the magnetic field induction vector, its module and direction will be determined by the values and directions of the three currents I ₁ , I ₂ , I ₃ , flowing through Cams inductors.

The design of the proposed device allows you to apply a magnetic field to local areas of the biological object, and a vector-controlled magnetic field is formed outside the volume occupied by the field sources, which is convenient for location on the desired surface of the body.

To reduce the overall dimensions of the structure, two electromagnet inductors are made with one cross-shaped core (Fig. 3), and the winding of each electromagnet inductor 1 and 2 is divided into two half-windings 1 ', 1' 'and 2', 2 '' wound on two oppositely directed rods of this core, and are connected sequentially and according to.

Thus, the proposed method and device for its implementation allow the formation of magnetic fields that are difficult to distribute in space and vary in time, in amplitude and direction, with small dimensions and fairly simple structural and technological solutions, improve operational characteristics, increase the selectivity of the therapeutic effect, which ultimately As a result, it allows to achieve a higher therapeutic result.

Literature

1. RF patent No. 2003361, cl. A61N 2/02, 1993

2. RF patent No. 2188677, cl. A61N 2/02, 2000

3. RF patent No. 2247583, cl. A61N 2/02, 2003

4. Belkevich V.I., Berlin Yu.V., Buvin G.M. Apparatus for treatment with a traveling pulsed magnetic field // Electronic Industry, 1985, No. 1. - P.61.

5. RF patent No. 2146542, cl. A61N 2/04, 1999

6. RF patent No. 2056868, cl. A61N 2/02, 1996

Claims (3)

1. A method of forming a magnetotherapeutic effect by orienting in space at an angle to each other the axes of three magnetic field sources, characterized in that the magnetic field sources are both constant and variable, the axis of the magnetic field sources are mutually perpendicular, with the formation of two magnetic fields carried out by electromagnetic inductors, the lengths of which exceed the diameter, and the formation of the third magnetic field is wound around their circumference with a round coil, the diameter of which is pre exceeds its length, while the axes of the inductors-electromagnets are set parallel to the plane of the circle of the coil. 2. A device for forming a magnetotherapeutic effect, comprising three magnetic field sources installed with the possibility of forming mutually perpendicular magnetic fields in space, combined into a three-component magnetic field generator and connected to the corresponding controlled current sources connected through power amplifiers to a control device, characterized in that the magnetic field shaper is made in the form of two mutually perpendicularly located inductors-electromagnets, length which exceed the diameter, and a circular coil wound around their circumference, the diameter of which exceeds its length, while the axes of the inductors-electromagnets are parallel relative to the plane of the circle of the coil. 3. The device according to claim 2, characterized in that the two inductors-electromagnets are made with one cross-shaped core, and each of their windings is divided into two semi-windings wound on two oppositely directed core rods and connected in series and according to.

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