DE202017003178U1 - Device for electromagnetic pulse therapy - Google Patents

Abstract

Device for use in electromagnetic pulse therapy with a magnetic field moving in a circle, for which at least one permanent magnet (4) sits on a rotating disc (3) for movement on a circular path, characterized in that the rotating disc (3) is parallel to one at least a coil (5, 6) is arranged level, wherein the coil (5, 6) in one of the on the disc (3) arranged permanent magnet (4) swept over the ring area is arranged and wherein the at least one permanent magnet and the at least one coil represent integrative components of an electric motor.

Description

The invention relates to a device for use in electromagnetic pulse therapy with a magnetic field moving in a circle, for which at least one permanent magnet sits on a rotating disk for movement on a circular path.

Devices of this type are used in the field of electromagnetic pulse therapy. It has been shown that such devices generate low-frequency fields which interfere with cellular functions of treated tissue via physical and biological mechanisms of action, thereby triggering cellular normalization or regeneration processes. It has been found in cells located within these fields that improved healing of wounds, improved bone formation, improved fracture healing, or significant improvement in allergen-induced bronchial constriction were found. Also in the field of gastro-protection (gastric ulcers) effects are observed.

Known magnetic field applicators usually work with current-carrying coils, the z. B. are incorporated in mats, and are generated via the pulsating electromagnetic fields. It should be noted that every changing electric field generates a magnetic field and every changing magnetic field generates an electric field induction law. In this aspect, in the context of the present application of electromagnetic pulse therapy is spoken.

Among other things from the DE 10 2006 036 417 a device as mentioned above is known, in which a disk occupied by permanent magnets is set in rotation, so that the permanent magnets perform a circular movement. These strong, in a plane through the rotating disk in a plane moving permanent magnets induce in cell tissue to which they are brought, intense electromagnetic pulse fields whose field strength in 4-5 cm tissue or bone depth, an impact threshold for cell biological differentiation and / or regeneration processes can achieve on the basis of electrical microcurrents.

It should be noted that in static magnetic fields such effects are not detectable.

In order to be able to achieve such effects, work is in particular carried out with neodymium magnets which have the required strength and, when they move over parts of the body to be treated, generate corresponding electromagnetic fields in them.

When using the from the DE 10 2006 036 417 However, known device has been found that their use due to their weight for a user in the long term can be relatively tiring. In addition, the strong magnetic field generated by the permanent magnets has a negative effect on conventional electric motors with the result that a desired constancy of the predetermined frequencies can not be achieved.

Object of the present invention is therefore to reduce a device as indicated in terms of weight and without realizing a negative effect of the permanent magnet on the electric motor, so as to facilitate the application accordingly.

This object is achieved in that the rotating disc is arranged parallel to a plane having at least one coil, wherein the coil is arranged in a swept by the arranged on the disc permanent magnet ring area, wherein the at least one permanent magnet and the at least one coil integrated Part of an electric motor are.

The invention is based on the finding that the electric motor previously used to drive the disc carrying at least one permanent magnet has a considerable weight. This is further increased by the weight of the transmission connecting the engine to the disc. By saving the engine or by reducing the discussed weight and the weight of the portable device can be reduced to a considerable extent.

Thus, the invention makes use of the knowledge that the disc with the permanent magnet sitting on it can be quasi part of a driving electric motor, with respect to a corresponding electrical control of the coil with respect to. The electric current flowing through the sink to reach that they have a First attracts permanent magnets, then repels, then attracts again, etc., and thus the disc on which the permanent magnet sits, set in rotation.

Thus, a separate motor can be saved and makes use of the presence of at least one sitting on a rotor acting as a disc permanent magnets advantage, so as to create an electric motor in which the at least one permanent magnet is an integral part.

Essential here is the knowledge that the magnetic field generated by the coil in his Strength is negligibly small in relation to the strength of the magnetic fields generated by permanent magnets, in particular with regard to the effect of nearby cell tissue.

In a particularly preferred embodiment of the invention, the coil is printed on a circuit board. As a result, further weight can be saved. Also, the coil is so very flat design, which also space can be saved, which in turn allows the overall device smaller, in particular flat and thus easier to design.

Preferably, a plurality of coils are arranged in a circle one behind the other in the said plane and switched accordingly, so that a continuous drive of the disk occupied by permanent magnets is made possible.

The said plurality of coils can also be interconnected into several groups, which facilitates the drivability for driving the motor formed with them and thus the uniformity of the rotation of the occupied with the permanent magnet disc.

It can also be provided to provide one or more Hall sensors in the region of the rotating disk on the board. In this way, in the case of a stationary disk or a stationary engine, its or its position can be detected and identified, and the starting of the rotor formed by the disk with permanent magnets can be ensured better.

Further advantages and features of the invention will become apparent from the following description of an embodiment. Showing:

1 Schematic diagram of a device according to the invention for an electromagnetic pulse therapy;

2 schematic representation of the circuit of two coil groups.

In the 1 you recognize a board 1 which is inserted into a housing (not shown) of a device for use in electromagnetic pulse therapy. On this board 1 is about a short wave 2 a disk 3 rotatably mounted, on which several permanent magnets 4 made of neodymium-containing material (neodymium magnets) are attached. These neodymium magnets essentially have the shape of a circular sector. The wave 2 is normal to the board 1 aligned.

In the example shown here, the permanent magnets each cover about 1/8 of a full circle and are distributed uniformly over the circumference.

With a rotation of the disc 3 become the permanent magnets 4 So in a circle around the wave 2 guided around and paint over a ring area.

Parallel to the disc 3 is in a level with the top of the board 1 coincides and parallel to the extension of the disc 3 runs in which of the permanent magnets 4 during the rotation swept ring area a plurality of juxtaposed coils 5 . 6 , These are on the top of the board 1 imprinted and can be traversed by an electric current, whereby they generated a magnetic field with that by the permanent magnets 4 generated magnetic field interacts. The spools 5 are in the illustration from L1 to L4 and the coils 6 numbered from L5 to L8.

By a corresponding arrival and reversal of the coils 5 . 6 The magnetic field generated by them can be aligned differently, so that the permanent magnets 4 be attracted or repelled accordingly. It is obvious to those skilled in the art that the course of the through the coils 5 . 6 generated magnetic field lines and by the permanent magnets 4 generated field lines are substantially parallel to each other.

Through the discussed control of the coils 5 . 6 a corresponding circulation of the magnetic fields generated by them can be effected, via the magnetic coupling with the permanent magnets 4 the rotation of the disc 3 causes. This will be the case of the permanent magnets 4 generated magnetic field also set in rotation. This rotation causes the rotating disk to be found in biological cells near it 3 with the permanent magnets sitting on it 4 is brought, corresponding electromagnetic pulses generated.

Ultimately, by the appropriate control of the coils 5 . 6 a corresponding direct drive of the disc 3 realized with the permanent magnet sitting on it, in which the disc forms the rotor of a corresponding motor.

The on the board 1 printed coils 5 . 6 can be interconnected alternately over the circumference, so that the drive of the rotating disc 3 is evened out.

Like in the 2 can be seen, are each arranged alternately coils 5 . 6 interconnected in groups, whereby the Control of the coils for a uniform rotation of the disc 3 is relieved. The groups of coils can be offset from one another with corresponding phases 1 or phases 2 be acted upon by alternating currents.

Over on the board 1 mounted Hall sensors 7 . 8th it is possible the rotation of the disc 3 around the shaft 2 to detect accordingly via a detection of the of the permanent magnets 4 generated magnetic field and with the corresponding signals of the Hall sensors 7 . 8th to let the rotational position flow into the controller so as to have a rotational speed of the disc 3 to be able to determine.

Due to the construction described herein, it is possible to dispense with a separate motor within a device for use in electromagnetic pulse therapy, and thus also with a transmission via which the disc 3 is set in rotation with the permanent magnet sitting on it. Thus, a corresponding device is lighter and more compact and can be used by an operator for a long time without fear of fatigue due to the high weight.

LIST OF REFERENCE NUMBERS

1

circuit board

2

wave

3

disc

4

permanent magnet

5

Coils L1 to L4

6

Coils L5 to L8

7

Hall sensor

8th

Hall sensor

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102006036417 [0004, 0007]

Claims (5)

Device for use in electromagnetic pulse therapy with a magnetic field moving in a circle, for which at least one permanent magnet ( 4 ) on a rotating disk ( 3 ) is seated on a circular path for movement, characterized in that the rotating disc ( 3 ) parallel to at least one coil ( 5 . 6 ) is arranged, wherein the coil ( 5 . 6 ) in one of the on the disc ( 3 ) arranged permanent magnets ( 4 ) and the at least one permanent magnet and the at least one coil constitute integrative components of an electric motor. Device according to claim 1, characterized in that the coil ( 5 . 6 ) on a board ( 1 ) is printed. Device according to claim 1 or 2, characterized in that in the region of the of the permanent magnet ( 4 ) swept over the ring area over its circumference several coils ( 5 . 6 ) are arranged. Device according to one or more of claims 1 to 3, characterized in that the plurality of coils ( 5 . 6 ) are grouped together. Device according to one or more of claims 1 to 4, characterized in that via Hall sensors ( 7 . 8th ) the rotational position of the disc ( 3 ) is detected.

Images