RU96104251A

RU96104251A - MAGNETOTHERAPY AND PHYSIOTHERAPEUTIC DEVICE WITH SCANNING MAGNETIC FIELD

Info

Publication number: RU96104251A
Application number: RU96104251/14A
Authority: RU
Inventors: Лин Баоджун; Лиу Гуожанг; Жао Йинг; Лу Хангченг
Original assignee: Ти Инер Монголиа Ксин Ю Джиа Энтерпрайз Джойнт Корпорейшн
Priority date: 1993-08-05
Filing date: 1994-07-28
Publication date: 1998-06-10

Claims

1. A method of magnetotherapy and maintaining health, characterized in that the patient receiving this treatment lies on a couch (1) on his back or side, while using a physiotherapeutic device with a scanning magnetic field create a transient magnetic flux for penetration into the patient’s body, and a three-dimensional gradient magnetic field is adjusted to provide reciprocal scanning of the body or part of it with a magnetic field of 0.05 - 0.35 T at a speed of 7.2 - 10.8 m / min and a longitudinal stroke of 1.8-2.2 m, which is carried out once a day with pro lasting 20-40 minutes for 12-14 days of treatment.

2. Physiotherapeutic device with a scanning magnetic field, comprising: a couch (1), two magnets (2), a transmission system (3) and an electrical control system (4), characterized in that the two magnets (2) are mounted on a rack, while one of the magnets (2) is located above the couch and the other is under it, the N-pole of one magnet opposite the S-pole of the other magnet, and the remaining poles of both magnets connected by a strip of a magnetic plate made of iron or mild steel (7), and the electrical control system (4) is connected to Stem transmission (3) for actuating the latter to move in two directions rack carrying two magnets (2), along the surface of the couch.

3. Physiotherapeutic device according to claim 2, characterized in that the two magnets (2) are 600 to 700 mm long, 30-50 mm wide and 70-90 mm high and are made of NdFeB and SmCo series of rare earth elements or ferrite permanent magnetic materials.

4. Physiotherapeutic device according to claim 3, characterized in that each (2) consists of many smaller magnetic parts with a large number of layers of magnets in the middle and fewer layers at the edges.

5. Physiotherapeutic device according to claim 4, characterized in that the small magnetic parts are 40 x 30 x 15-30 mm (Z x W x H) each and are connected by means of epoxy resin, glue 502 or other adhesives to a magnetic plate (7 ), made of pure iron or mild steel, has dimensions of 920 x 120 x 20 mm (Z x W x H) and is securely surrounded on all sides by a frame of aluminum, brass or stainless steel.

6. Physiotherapeutic device according to claim 2, characterized in that the two magnets (2) are made of electromagnets or of two groups of rotating magnetizing devices of small sizes.

7. Physiotherapeutic device according to claim 2, characterized in that the transmission system (3) includes a mechanical-electric transmission device and a suspension that includes a magnetically insulating shield (9) located under the magnetic plate (7), a steel plate (10), fixed under a magnetically insulating shield (9), a supporting support (13) for accommodating a steel plate (10), the magnetic circuit plate (7), the magnetically insulating shield (9) and the steel plate (10) are interconnected by means of a bolt and fixed as a whole supporting support (13), under which a cast roller (or bearing) (11) is installed, and in which two steel guides (12) parallel to the couch are located under the couch, the cast roller (11) is located on the guides (12) and can moving along these devices by means of the said mechanical-electric transmission device.

8. The physiotherapeutic device according to claim 2 or 7, characterized in that the mechanical-electric transmission device comprises a variable frequency linear motor with an adjustable speed.

9. Physiotherapeutic device according to claim 2 or 7, characterized in that the mechanical-electric transmission device comprises a linear stepper motor.

10. Physiotherapeutic device according to claim 2, characterized in that the couch (1) contains a bedboard made of wood, hard nylon, aluminum or its alloy, plastic reinforced with fiberglass, or other non-magnetic material, and a steel support located under the bed shield.

11. Physiotherapeutic device according to claim 2, characterized in that the electrical control system (4) activates a transmission system (3), configured to change speed, perform magnetic scanning of the whole body or part thereof, as well as turn on the timer and signaling device.