SU697131A1 - Apparatus for acting with magnetic field biologic objects - Google Patents

Description

one

The invention relates to the field of medical instrumentation and can be used in physiotherapeutic departments of hospitals and clinics, as well as in medical research institutes for experimental work.

Devices are known for affecting biological objects with a fixed magnetic field 1.

However, devices of this kind do not allow to create the effect of the movement of a magnetic field, and therefore, it does not effectively affect the muscular system.

The closest technical solution to the present invention is a device for the formation of a moving magnetic field in which a rotating magnetic field 2 is formed when an industrial frequency current flows through a rotating solenoid.

The disadvantages of this device are the large weight and dimensions, as well as the impossibility of a selective effect on local areas of a biological object.

The aim of the invention is to increase the efficiency of control of physiological processes.

This is achieved by the fact that in the proposed device the solenoid is made in the form of separate sections connected to the source through a pulse distributor.

The drawing shows a block diagram of the described device.

The device consists of a pulse generator 1, a distributor 2, a sectional solenoid 4, keys 3 and a switch 5.

When the position of the switch 5 is changed, the generator 1 is excited, which can be made according to the multivibrator circuit, the pulses from the generator arrive at the input of the distributor 2, which can be made as an annular p-bit counter. From each of the n outputs of the counter, pulses spaced apart in time are fed to the inputs of the keys 3, which ensure the occurrence of current pulses in the sections of the solenoid 4.

The duration of the pulse at the output of the keys 3 is controlled by measuring the frequency of the generator

(multivibrator). The current pulses in the sections of solenoid 4 lead to the appearance of a moving magnetic field.

An increase in the speed of movement of the magnetic field is achieved by increasing the frequency F of the following pulses | of the ultravibrator. So, with F - 3 kHz and a solenoid diameter of 0.1 m V «.300 m / s.

In mechanical systems, and it is possible to obtain a high velocity magnetic field, therefore, it is impossible to ensure sufficient effectiveness of the effect of such a field on a biological object.

The invention allows to intensify the exchange processes due to polarization and magnetic hydrodynamic effects arising in tissues as a result of the movement of the magnetic field.

Claims (2)

1. Schizibor Pole-1. Instrumentation News, 1970, N 3, p. 63-68. 2. USSR author's certificate number 21275, cl. A 61 N 1/42, 1930.