RU2200038C2 - Contactless massage device and magnetic therapy method for treating organism tissues - Google Patents

Abstract

FIELD: medicine; medical engineering. SUBSTANCE: device has unclosed magnetic conductor line at the ends of which two identical permanent flat magnets are mounted at given distance with their different polarity poles matching each other manufactured from neodymium-iron-boron alloy. When implementing magnetic therapy method, patient organism tissue is placed in air space between the permanent magnets of the massage device. The tissue is penetrated by uniform magnetic field of constant intensity allover the tissue depth. When moving the massage device along organism tissue in perpendicular to magnetic field force lines, inductive currents being in proportional dependence with respect to the motion speed arise in the tissue. Inductive currents I in tissues interact with electromagnetic field of the massage device causing electrodynamic mechanical forces

to arise in tissues, their direction being the same as that of massage device movement. The movements are created as reciprocating or curvilinear like circular movements as a result of which mechanical forces

Description

 The invention relates to healthcare and can be used for non-contact massage of body tissues, prevention and treatment of diseases of the joints, bone apparatus, muscles, blood vessels, etc.

 Known devices designed for magnetotherapy containing permanent magnets [1, 2].

 There are also known methods of magnetotherapy, which consist in the formation of a constant magnetic field in the tissues of the body [3, 4, 5].

 A disadvantage of the known magnetotherapy devices and methods is the use of a magnetic field that is motionless relative to the tissues, i.e. the use of the static action of the magnetic field on the tissues and organs of the body, the difference is only in the magnitude of the intensity, induction of the magnetic field or in the duration of its effect on the tissue. This limits the field of magnetotherapy and reduces the efficiency of use.

 The closest to the technical solution of the present invention are a magnetic device and a method of magnetotherapy (WO 95/04572 Al, 02.16.95) [6].

 Their feature is the use of an inhomogeneous magnetic field formed in the magnetic device by a set of permanent magnets of different cross-sectional sizes, by scanning the magnetic field by controlling the spatial movement of the patient’s body at different points in the volume (space) occupied by the magnetic field of the device, having different values of the magnetic field .

 The disadvantage of this solution is the limited functionality. When using it, both the limits of the parameters of the magnetic field and the magnitude of the movement are specified, as well as the modes of therapy during the duration of the course of therapy.

 The present invention is aimed at expanding the arsenal of means and functionality of magnetotherapy, increasing the efficiency of its use by creating a force interaction of the electrically conductive parts of the body tissues with a moving uniform magnetic field in a constant direction. In this case, uniformity and constancy of the direction of the magnetic field throughout the entire depth of the body tissues is achieved with the help of a non-contact body tissue massager containing an open magnetic circuit, at the ends of which permanent poles are mounted opposite each other, made of supercritical material - a neodymium-iron-boron alloy.

 This is achieved by the fact that the body tissue non-contact massager contains an open magnetic circuit, at the ends of which identical opposite permanent magnets are mounted opposite poles towards each other with the formation of an air gap between them to accommodate the patient’s tissues, and the permanent magnets are made of supercritical material, an alloy is used as the material neodymium-iron-boron, while the magnetic circuit is arranged to move transversely relative to the magnetic field lines, for example The method of magnetotherapy consists in the formation of a uniform constant magnetic field using a non-contact body tissue massager, placing the patient's body tissue between the massager magnets, followed by moving the massager relative to the patient’s tissues, while setting the movements in the form of reciprocating or curvilinear, for example, circular movements.

 The movements of the massager relative to the patient’s body tissues are sufficient in all cases, and movements in the form of reciprocating or curvilinear, for example, circular movements can be used in individual particular cases, including local influences on the patient’s body tissues.

 The formation in the tissues of the body of a uniform magnetic field of a constant direction with a given induction, the creation of the relative movement of the tissue and the magnetic field in the transverse direction using a massager of non-contact body tissues by means of its reciprocating or curvilinear, for example, circular motions, cause electrical tissue in the body tissues according to the laws of electromagnetic induction currents, the magnitude of which depends on the speed of the magnetic field. The direction of the currents depends on the direction of movement of the field, i.e. from the direction of movement of the massager of non-contact body tissues.

 The currents that arise in the tissues interact with the magnetic field and create electrodynamic mechanical forces in the tissues in a direction perpendicular to the directions of the lines of force of the magnetic field and currents, and corresponding to the direction of movement of the magnetic field.

 As a result, forceful effects on the tissues of the body occur, uniform tissue massage occurs throughout their depth. Massage of tissues is carried out without mechanical contact of the body with the massager, massage is possible through a bandage, through plaster, in cases of a painful condition of the skin and in other cases.

 A uniform massage throughout the depths of the body’s tissues contributes to the prevention and treatment of various diseases of the body’s tissues: joints, bone apparatus, muscles, blood vessels, etc.

 The essence of the invention is illustrated by drawings, where in Fig.1 shows an exemplary design of a massager non-contact body tissues, and in Fig. 2 is a schematic diagram of the forces acting on the tissues of the body during the implementation of the proposed method of magnetotherapy using a massager of non-contact body tissues.

 Structurally, the non-contact tissue massager contains an open magnetic circuit 1 of ferromagnetic material with two poles, on which two identical flat permanent magnets 2 of a neodymium-iron-boron alloy are installed, which allows them to be magnetized separately and installed on magnetic circuit 1 already magnetized. The magnets 2 are mounted opposite poles N and S towards each other. In this case, the magnetic circuit 1 has the ability to move relative to body tissues manually.

 In the air gap of the massager, bounded by the lateral faces of the direct prism, the bases of which are the outer flat surfaces of the permanent magnets 2, a uniform magnetic field of constant direction and constant predetermined induction is created. For the polarity of the poles of the permanent magnets 2 shown in FIG. 1, the direction of the magnetic field is shown by arrows. The magnitude of the magnetic field induction is determined uniquely by the distance between the permanent magnets and does not depend on the presence of body tissues in the air gap.

 When tissues 3, FIG. 2, of the patient’s body are located in the air gap of the massager, the tissue 3 (organ) of the body is penetrated by the uniform magnetic field of the massager with constant induction over the entire depth of the tissue 3 (organ). When moving the massager relative to the tissues (organ), for example manually, respectively, the magnetic field also moves relative to the tissues (organ).

When moving the massager perpendicular to the direction of the magnetic field lines with a speed of V _mp relative to tissues 3, the magnetic field also moves with a speed of V _mp , tissue 3 (organ) induces electric currents I proportional to the field velocity V _mp and closing in tissues outside the magnetic field .

 For the direction of the magnetic field shown in figure 2, the currents have a direction from the plane of the drawing outward (to the reader).

 Induction currents in tissues 3 interact with the magnetic field of the massager, resulting from this interaction, electrodynamic mechanical forces F act on the body tissue located in a magnetic field. For currents I and the direction of the magnetic field shown in figure 2, the direction of the forces F coincides with the direction of movement of the magnetic field, with the direction of movement of the massager of non-contact body tissues.

 When changing the direction of movement of the massager, the mechanical forces in the tissues 3 change the direction to the opposite.

 The electrodynamic forces arising in the tissues of the body massage them, massage the blood vessels, contribute to the removal of harmful substances from the bone tissue, promote the healing of injuries, bone fractures, treatment of joint inflammation, etc.

Bibliography
1. Copyright certificate 1776402, 1992, BI 43, A 61 H 11/00, A 61 N 2/08.

 2. Copyright certificate 1331508, 1987, BI 31, A 61 H 9/00.

 3. Copyright certificate 1274694, 1986, BI 45, A 61 N 1/42.

 4. Copyright certificate 1759432, 1992, BI 33, A 61 N 2/00.

 5. Copyright certificate 1777912, 1992, BI 44, A 61 N 2/00.

 6. WO 95/04572 A1, 02.16.95 g.

Claims (7)

 1. The massager is a non-contact body tissue containing an open magnetic circuit, at the ends of which are mounted opposite poles identical flat permanent magnets towards each other with the formation of an air gap between them to accommodate the patient’s tissues, and the permanent magnets are made of supercritical material.  2. The massager according to claim 1, characterized in that the magnetic circuit is arranged to move in a direction transverse relative to the lines of force of the magnetic field.  3. The massager according to claim 1, characterized in that a neodymium-iron-boron alloy is used as the material.  4. The method of magnetotherapy, which consists in the formation of a uniform constant magnetic field using a massager according to paragraphs. 1 and 2, placing the patient’s body tissues between the magnets of the massager, followed by its movement relative to the patient’s tissues.  5. The method according to p. 4, characterized in that the movements set the type of reciprocating movements.  6. The method according to p. 4, characterized in that the movements specify the form of curved movements.  7. The method according to p. 6, characterized in that the movements specify the form of circular motions.

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