RU17431U1 - MAGNETIC PULSE CORRECTOR - Google Patents

Description

ШШШШШМ Magnntonpulsnyn corrector

A useful model map-pulse corrector is related to the field of medicine and relates to devices and apparatus for magneto-terash. The corrector is intended for the correction and regeneration of cells and tissues with pathological disorders, which allows treating various diseases, including oncological ones.

There are a number of devices designed for similar purposes - stimulation and correction of biological organisms.

Known biological corrector for magnetic therapy (p. 2188, 2189 op. PMPO 6-96; m. 4910, op. PMPO 9-97, author Broadkin V.M.). Instrument variants are based on the use of permanent magnets and differ in the details of the corrector mounting on the human body and the placement of the magnet inside the diamagnetic body

A well-known mappingobiological corrector (p. 4080, op. PMPO 5-97, author Pagrasenko B.C.), which also contains permanent magnets mounted in a dielectric, made in the form of rectangular magnets.

The closest analogue - the prototype is a magnetic pulse stimulator (m. 6333, IPC A 61 N 2/02, authors: Veroman V.Yu., Kalko I.P., Novikov OM, Skiba V.G., op PMPO No. 4 1998 g) comprising a housing, a power switch, a step-up transformer, a rectifier, a storage capacitor, an inductor, a thyristor, a circuit for comparing and generating a triggering pulse, a voltage regulator, a timer, a time delay regulator and a start button., And the inductor has the ability to generate magnetic flux of 0.5-3.0 T, and a timer and shutter speed controller provide pulse repetition time signature 0.2-10 Hz and the pulse duration 200 ± 50 microseconds.

However, magnetic flux with such modes does not lead to the regeneration of pathologically altered cells, i.e. It does not allow to treat, for example, oncological diseases, joint diseases.

The objective of the utility model is to create a map-pulse corrector with a magnetic flux in the center of the inductor, over 3.0 T, which leads to the restoration of tissue functions with pathological disorders.

The problem is solved by creating a magnetic pulse corrector containing a thyristor switch, step-up transformer, rectifier, storage capacitor, discharge thyristor, inductor, thyristor switch and discharge thyristor control system.

The problem is solved in that the inductor is configured to generate magnetic flux in the center of the inductor 3-30

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Already 7 A 61N 2/02

T, and the control system is configured to provide a pulse repetition rate of 10-1000 Hz and a pulse duration of 2001,000 ISS.

The difference lies in the possibility of achieving a magnetic flux of 3-30 T, a pulse repetition rate of 10-1000 Hz and a duration of 200-1000

The task is achieved by using individual elements of the device with higher parameters, namely the total capacity of the storage and its charging device and the design of the inductor to generate strong magnetic fields.

In FIG. 1 shows a diagram of a magnetic pulse corrector.

The corrector contains: a circuit breaker 1, a thyristor switch 2, a step-up transformer 3, a rectifier 4, a storage capacitor 5, a discharge thyristor 6, an inductor 7 and a control system for an 8-bit thyristor 6 and a thyristor switch 2. The attribution system consists of a comparison circuit and a start pulse , voltage regulator, timer., time delay regulator and start button.

The corrector in FIG. 1 operates as follows: the electric current through the main switch 1 and the thyristor switch 2 enters the primary winding of the boost transformer 3. In the secondary winding of the transformer 3, an increased voltage of 0.5-10 kV arises, which flows through the rectifier 4 to the storage capacitor 5. Storage capacitor C 5 is performed in the form of a battery of capacitors, allowing the accumulation of: r the energy required to create a magnetic flux of 3-30 T in the center of the inductor. The accumulated energy on the capacitor 5 is supplied during discharge through the discharge thyristor 6 to the inductor 7, in which a magnetic flux pulse is generated.After discharge C 5, the thyristor 6 is closed, and the thyristor switch 2 is opened, and the electric current through the rectifier 4 is fed back to the charging of the storage capacitor 5. The control system 8 operates in the mode of turning on and off the thyristor switch 2 and the discharge thyristor 6: if the thyristor 6 is turned off, the thyristor switch 2 works, before turning on the thyristor 6 the key 2 is closed Then, thyristor 6 opens, discharge C 5 occurs, after which thyristor 6 is bent, and key 2 opens. The operation algorithm of the trifistor switch 2 and thyristor 6 is set by the control system 8, which allows to ensure the operation of the inductor 7 in the conditions of repetition of the pulse frequency in the range of 10-1000 Hz, the required pulse duration in the range of 200-1000 cc is determined by the value of the storage capacitor 5. The magnitude of the magnetic flux pulse inductor in the range of 3-30 T is set by the value of the storage capacitor 5 and the output voltage on it. The magnetic corrector is connected to the network with an operating frequency of 1000 Hz.

The most effective is the use of a magnetic pulse corrector with a step-up transformer if it is necessary to achieve a pulsed flux of up to 30 T with a short magnetic pulse (200 μs). The magnetic flux parameters necessary for the treatment of oncological diseases were obtained experimentally after lengthy research and treatment of about four thousand patients.

It was found that the magnetic flux with the indicated parameters is tuned to the resonant effect on cells with pathological changes. At the same time, healthy cells do not respond to the effect of magnetic radiation, they do not perceive it.

Due to the adverse effects, pathologically altered cells tend to get out of the magnetic flux; as a result, the cells self-regulate due to the restructuring of their morphology until they return to a normal, non-pathological state.

It was found that the parameters indicated in the formula, namely, a magnetic flux of 3-30 T, a pulse repetition rate of 10-1000 Hz and a pulse duration of 200-1000 μs give a positive result. At lower parameters of the device, effects on pathologically altered cells do not occur, and higher parameters of the device lead to undesirable consequences.

The demonstrated applicability of the device is proved by the fact that the device is manufactured and operates, licenses for medical activities under the voluntary insurance programs No. 540016196 series 1-MP dated 08.02.96 and Ns 540025/99 dated 11.02.99, issued by the Medical Licensing and Accreditation Committee, were obtained, pharmaceutical and medical activities of the Administration of the Novosibirsk region.

Claims (1)

A magnetic pulse corrector containing a thyristor switch, a step-up transformer, a rectifier, a storage capacitor, a discharge thyristor, a control system for a discharge thyristor and an inductor, characterized in that the inductor is capable of generating a magnetic flux in the center of the inductor 3-30 T with a pulse repetition rate of 10-1000 Hz and their duration from 200 to 1000 μs.