RU2053807C1 - Inductor for magnetotherapy - Google Patents

Abstract

FIELD: magnetotherapy. SUBSTANCE: introduced into inductor for magnetotherapy, containing main core from material of high magnetic permeability with winding, is additional core with high magnetic permeability. Additional core is installed for motion relative to main core with locking in selected position and located out of gap of winding on its nonworking side. EFFECT: higher efficiency. 1 dwg

Description

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

 A known reducer for magnetotherapy containing a ferrite core and a winding. This design of the inductor does not allow adjustment of the parameters (magnetic induction, tension) of the inductor, which, due to technological variation in the parameters of the core and the winding, does not allow an accurate assessment of the exposure received by the patient, which is a disadvantage of the known device.

 A device for magnetotherapy is also known (1). The device contains two identical inductors, including a hollow core and four layer-by-layer inductors. The device is intended to increase the effectiveness of the impact by creating a uniform magnetic field along the patient’s body with specified parameters of the magnetic field strength. Inductor coils are connected to a constant voltage source through a program switch, which provides the patient with a constant uniform magnetic field.

The disadvantages of this device include:
a large spread of magnetic field strength on the working surfaces of the inductors. In the center of the hollow core, the magnetic field strength is minimal, on the surface of its end face the maximum, and the ratio between the maximum and minimum values of the magnetic field strength is estimated several times depending on the ratio of the inner and outer diameters of the hollow core;
discreteness of switching magnetic field strength, lack of smooth adjustment.

 A device for therapeutic exposure to an electromagnetic field on the upper respiratory tract (2), including an inductor made in the form of a winding, fixed and movable cores, while the movable core has the possibility of reciprocating movement and subsequent fixation along the axis of the winding. The device is designed to control the geometry of the working ends of the magnetic circuit in accordance with the shape of the irradiated part of the patient’s body.

The disadvantages of this device include:
the lack of a technical solution to compensate for changes in the magnitude of the magnetic induction (tension) when moving the movable part of the ferrite rods;
a uniform magnetic field is not provided on the working surfaces of the device (with increasing distance from the working ends of the magnetic circuit to the ends of the extended parts of the ferrite rods, the ratio between the magnetic induction measured on the working part of the end of the magnetic circuit and the magnetic induction measured on the extended part of the ferrite rods) does not allow penetrate deep into the irradiated part of the patient’s body with the same magnetic field and evaluate the exposure received by the attending physician .

 This device is taken as a prototype.

 The technical result of the invention is provided by the ability to smoothly adjust the magnetic induction of a given value without increasing the unevenness of the magnetic field over the entire working surface of the inductor, while increasing the adaptability of the adjustment.

 The technical result is achieved by the fact that in the known device for the therapeutic effect of an electromagnetic field on the upper respiratory tract (2), instead of moving cores, a core of a material with high magnetic permeability is installed and an additional core with high magnetic permeability with the possibility of reciprocating movement and subsequent fixation is introduced in the selected position, characterized in that the movable core is placed outside the winding gap and installed on the non-working side of the winding.

 The drawing shows the proposed inductor.

 The magnetotherapy inductor comprises a lead cable 1, a sleeve 2, a casing 3, a frame 4, a washer 5, a plug 6, an additional core 7 of a material with high magnetic permeability and a main core 8 of a material with high magnetic permeability, with a winding 9 located on it. When this additional core 7 is installed with the possibility of movement relative to the main core 8 and fixation in the selected position. In particular, this can be achieved by fixing an additional core 7 in the body of the plug 6, installed using a threaded connection in the inner part of the frame 4.

 The adjustment of the parameters of the inductor is carried out by rotating the plug 6 together with an additional core 7, inserted into the groove of the plug 6 with a screwdriver at the last stage of industrial production of the inductor or immediately before use.

 The inductor operates as follows.

 By smooth adjustment, the required parameters of the inductor are achieved, while the ratio of the magnitude of the magnetic induction at the corresponding points on the working end of the inductor in a sufficiently large range of changes in its parameters remains almost unchanged.

 Next, the inductor through the lead cable 1 is connected to a power source. The patient exposure with the configured parameters of the inductor will now depend only on the parameters of the power source, which are easily regulated and controlled.

 Thus, the introduction of an additional core made of a material with high magnetic permeability into the inductor for magnetotherapy makes it possible to smoothly adjust the parameters of the inductor without changing the ratio of the magnitude of the magnetic induction at the corresponding points on the working end of the inductor, and also increases the adaptability of the adjustment.

 Conducted laboratory tests of prototypes of the claimed inductor confirmed its performance and the achievement of the technical result of the invention.

Claims (1)

 MAGNETOTHERAPY INDUCTOR, comprising a winding and movable and fixed cores, wherein the movable core is mounted with the possibility of reciprocating movement and subsequent fixing along the axis of the winding, characterized in that the movable core is placed outside the winding gap and installed on the non-working side of the winding.

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