RU2012382C1 - Stimulator - Google Patents

Abstract

FIELD: magnetic stimulation in medicine. SUBSTANCE: stimulator has one or two inductance coils mounted in aligned relationship; two constant magnetic field sources located diametrically opposed relative to one another and having magnetization axis disposed in the plane orthogonal to the inductance coil axis. EFFECT: enhanced efficiency. 3 cl, 3 dwg

Description

 The invention relates to medical equipment, namely to devices for magnetotherapy.

 A device for magnetotherapy containing a core-magnetic circuit in the form of a rod and an inductor is known.

 The disadvantage of this device is the low efficiency from exposure to them, as well as a significant mass with significant scattering fields and a small area of the field effect. It is known that in such a design, the greatest field strength is observed at the poles of the core-magnetic circuit and rapidly decreases with distance from them. Therefore, in the depths of tissues, for example, in the region of the tubular bones of limbs or deeply located veins, the field intensity is often insufficient.

 The closest technical solution, selected as a prototype for the proposed stimulator, is a device for magnetotherapy containing a hollow body with an inductor.

 This design of the device allowed expanding the scope of its application: it was possible to place part of the body inside the inductor and thus achieve the required field strength over the entire depth of the processed biological tissue with a significant reduction in the mass of the device and the energy consumed.

 The disadvantage of this design is its low physiotherapeutic effectiveness.

 The aim of the invention is to increase the effectiveness of the impact due to the combination of alternating and constant fields.

 This goal is achieved by the fact that the known stimulator, comprising a hollow body with an inductor connected to an alternating or pulsed electric current source, is equipped with at least a pair of constant magnetic field sources located at diametrically opposite points of the body, the magnetization axes of the constant magnetic field sources being located in a plane perpendicular to the axis of the coil. In addition, it may additionally contain at least one more inductor connected to a source of alternating or pulsed electric current, mounted coaxially or coaxially with the first, and the sources of constant magnetic field are located in the gaps between the coils.

 The stimulator of FIG. 1 contains a hollow housing 1, inside of which an inductor 2 and at least two sources of a constant magnetic field 3 and 4 are located outside the inductor 2 at diametrically opposite points of the housing 1, while the magnetization axes of the sources of constant magnetic field 3 and 4 are perpendicular to the axis of the inductor 2.

 The stimulator of FIG. 2 contains a hollow body 1, inside of which an inductor 2 and an additional inductor 5 are located coaxially with the inductor 2, and at least two sources of a constant magnetic field 3 and 4 are diametrically opposed in the gap between the inductors 2 and 5, while the magnetization axis is perpendicular to the axis of the inductors 2 and 5. The inductor 5 can be connected to either the main or additional source of alternating or pulsed current.

 The stimulator of FIG. 3 contains a hollow housing 1, inside of which an inductor 2 and an additional inductor 5 are located coaxially with respect to the inductor 2, and at least two sources of a constant magnetic field 3 and 4 are placed in the gap between the inductors 2 and 5, while their magnetization axes perpendicular to the axis of the inductors 2 and 5. The inductor 5 can be connected to either the main or additional source of alternating or pulsed current.

 The stimulator works as follows. When connecting coils (coils) of inductance 2 (2 and 5) to the source (s) of alternating or pulsed electric current in the cavity of the housing 1 of the stimulator creates a magnetic field close to uniform. A change in the current in magnitude and direction leads to a periodic change in the magnetic flux - the magnitude of the magnetic induction sequentially increases from zero to a maximum value and then decreases, passes through a zero value and again increases to a maximum. The presence of a constant magnetic field created by sources of a constant magnetic field 3 and 4, transverse to the magnetic field of the inductor (s) 2 (2 and 5), leads to a continuous change in the direction of the total vectors throughout the period of change in the magnitude of the supply electric current. This continuous change in the direction and magnitude of the resulting vectors ensures high stimulator performance.

 Variants of the design of the stimulator can optimize the impact on both biological objects and objects of inanimate nature.

 When carrying out magnetotherapy, the exposed part of the body (arm, leg, head, trunk) is placed inside the inductance coil. The exposure time is determined by indications.

 The use of the proposed stimulant as a device for magnetotherapy provided a more effective therapeutic effect.

The stimulator can also be used:
for controlling biological processes in plants and their seeds, in solutions with microcultures;
as a means of activating biologically active substances and drugs;
as a means of influencing solutions and melts with the aim of their biological and chemical activation, purification, management of dissolution or precipitation of dissolved and molten elements;
as a means of intensifying polymerization processes;
for processing fuel or combustible mixtures.

 In this case, the exposed object or substance may be inside the inductance coil in both a static and a flowing state. (56) Kormilov V.I. Equipment, methodology for the therapeutic use of the magnetic field and dosage. The biological and therapeutic effects of magnetic fields and strictly periodic vibration. Molotov. 1948.

 G. R. Soloviev and others. Inductor-solenoid to the apparatus "Pole-1". News of medical equipment. 1979. N 4, p. 65-66.

Claims (3)

 1. A STIMULATOR containing a hollow body with an inductor connected to an alternating or pulsed electric current source, characterized in that, in order to increase the effectiveness of the action due to the combination of alternating and constant fields, it is equipped with at least a pair of constant magnetic field sources at diametrically opposite points of the housing, and the axis of magnetization of the sources of a constant magnetic field are located in a plane perpendicular to the axis of the coil.  2. The stimulator according to claim 1, characterized in that it further comprises at least one more inductor connected to a source of alternating or pulsed electric current, mounted coaxially with the first, the sources of a constant magnetic field being located in the gaps between the coils.  3. The stimulator according to paragraphs. 1 and 2, characterized in that the additional inductor is installed coaxially with the first.

Images