RU5498U1 - DISINTEGRATION INSTALLATION - Google Patents

Abstract

1. Disintegration installation containing disintegrator lenses connected by tripods and hinges to the base of the installation, characterized in that the disintegrator lenses contain waveguides made in the form of a package of alternating plates of ferromagnets and crystalline pyrite, which make up a pentahedral pyramid with a base in the shape of a regular pentagon and the vertices of the pyramids, which are the focusing elements, are made of ferrite and directed to the object of disintegration. 2. Installation according to claim 1, characterized in that the ferromagnetic elements of the lens disintegrators are counter-directed to the object of disintegration, installed in different polarity to the object of disintegration.

Description

DISINTEGRATION INSTALLATION

The proposed utility model relates to devices used in medical technology and ecology to protect a person from neoplasms and pathogenic radiation sources harmful to his health.

Known devices for the disintegration of harmful to human health pathogenic radiation / L1 /, which are cavity structures made of energetically active material.

The disadvantage of this device is the distribution of wave effects on a significant area of environmental protection from pathogenic radiation. Consequently, the insufficient intensity of local effects on the object of disintegration.

A better device / L2 / is known, in which with the aim of concentration and stabilization of frequency xapaic-. teristik of the wave action on the processing object, the inner surface of the cavity openings is covered with malachite, those with a mineral having a rigid crystalline structure -. ::::

The disadvantage of this solution is the distribution of the L.- :: BO wave action on the processing object, i.e. as in the first case, the inability to focus the wave action on the processing object., i.e. insufficient intensity of local effects on the object of disintegration.

The disadvantages of the known technical solutions are eliminated by the proposed utility model.

This is achieved by the fact that in a disintegration installation containing disintegration lenses connected by means of tripods and hinges to the base of the installation, disintegrator lenses contain waveguides made in the form of a packet

alternating plates of ferrite magnets and crystalline pyrite, which make up a five-sided pyramid with a base in the shape of a regular pentagon, and the vertices of the pmramids, which are the focusing elements, are made of ferrite and are aimed at the object of disintegration. The installation also differs in that the ferromagnetic elements of the disintegrator lenses , counter-directed to the object of disintegration, are installed in different polarity to the object of disintegration,

The essence of the utility model lies in the fact that the installation of a disintegrator is based on the effect of magnetic pumping / cm. H. Alven Cosmic plasma, M.MIR, 1983, p. 141 /. The magnetic pumping mechanism works under certain conditions — there should be inhomogeneities of the magnetic field on which the scattering of the field particles occurs. The pumping process proceeds quickly if the scattering time and magnetic field constants are of the same order of magnitude.

The operation and design of the disintegration unit is illustrated by its general view.

Ustanoaka contains: the base of the installation I, tripods 2, IEP 3, ZHE 4, (yoyromagnet plates 5, plates made of crystalline pyrite 6, focusing elements 7 and the object

disintegration 8.

Use the disintegration unit as follows. Before its application, using any available indicator of pathological radiation (for example, produced by the Z-Orbit, Moscow), the epicenter of the object of disintegration is identified.

After that, the disintegrator lenses (north - south) are focused on the epicenter using hinges 3 and tripods 2

disintegration facility 8.

They include a disintegration unit, i.e. the external field flow, for example from a helium-neon laser, is brought to the lenses, and with an interval equal to the transient time, they are checked

quality of disintegration / i.e. the completeness of the structural and field restructuring of the object, changes in its pathogenic properties.

With insufficient disintegration of the properties of the object, for example, papillomas, with the help of tripods and hinges, the direction of the rays, the outputs of the focusing elements 7 are shifted, i.e. adapt the processing mode to the properties of the object.

The adaptation is carried out in an iterative way: the hinges are rotated in steps of the order of 3-5 °, reversing the direction according to the results of the analytical control of the properties of the disintegration object.

An experimental verification of the effectiveness of the application of a utility model of a disintegration plant was carried out under the following conditions:

The working elements of the installation, in particular lens disintegrators, were made of ferromagnet and pyrite, in well-crystallized forms and with a polished surface

This ensured stable disintegration of papillomas up to 5 mm in diameter, even when using a low-power helium-neon laser type LG-53 for pumping wave energy. In the course of the experiments, the possibilities were considered.

ny options for the implementation of lens disintegrators:

- packs of alternating plates / ferromagnet-pyrite / can be arranged in a pyramid with air gaps;

-packs of plates can be assembled into a pyramid without air gaps between the plate, i.e. in the form of a monolithic design.

The advantage of the first option is more

cost. The disadvantage of this option is the limited scope.

The second option is more difficult to manufacture, however, its scope is wider.

The general requirement for the implementation of the lens disintegrators of the installations in both versions is the different polarity of the focusing elements in the zones of contact with the object of disintegration.

industrial applicability of a useful model of obzlon, in particular, the importance of creating effective means of disintegration, for example, tumors.

Industrial production of disintegration plants can be organized at almost any enterprise.

A scientific and production association of a number of organizations of the Russian Federation, including the MALAVIT company / Barnaul /, the Moscow Health Center ASTRIA and the INSTITUTE OF GENERAL PATHOLOGY AND ECOLOGY OF THE MAN FROM RAMS / Novosibirsk city / with the involvement of a number of industrial enterprises of the Russian Federation plans to organize in 1997 an industrial production and implementation of the installation of disintegration in the CIS.

MALAVIT Director

Dvornikov V.M.

(7/10/10/96

Claims (2)

1. Disintegration installation containing disintegrator lenses connected by tripods and hinges to the base of the installation, characterized in that the disintegrator lenses contain waveguides made in the form of a package of alternating plates of ferromagnets and crystalline pyrite, which make up a pentahedral pyramid with a base in the shape of a regular pentagon and the vertices of the pyramids, which are the focusing elements, are made of ferrite and are directed to the object of disintegration. 2. Installation according to claim 1, characterized in that the ferromagnetic elements of the lens disintegrators are counter-directed to the object of disintegration, installed in different polarity to the object of disintegration.