RU6991U1 - DISINTEGRATOR "ALFATRON" - Google Patents

Abstract

1. A disintegrator containing a working element with a body having a cavity structure, characterized in that the body is made in the form of a polyhedron, inside which dynamic field rotation modulators and an activator are placed, and screening polyhedra with built-in dynamic modulators and a focusing pyramid are placed on the outside in it by a static field rotation modulator made in the form of a ferromagnetic plate. 2. The disintegrator according to claim 1, characterized in that a sphere is installed inside the body of the cavity structure with a dynamic modulator and activator located in it, made in the form of a source of electromagnetic radiation, mainly the light range. The disintegrator according to claim 2, characterized in that the housing of the sphere is sealed with the possibility of creating a vacuum in it. 4. The disintegrator according to claim 1, characterized in that the dynamic modulators are made in the form of ferromagnetic plates equipped with reversible drives, and the plate parameters, for example diameters, are related by the ratio of the golden ratio, in the particular case = = 0.6180.

Description

  . oA5I E 6 / IC

DISINTEGRATOR ALSHATRON

The proposed utility model relates to device :: stEa, prikyaz Y: ;; E kedtshnike to gkslsgki for protection against harmful pathogenic needles neoplasms.

the disintegrator / L1 / is known, which is used for stitching pathogens and is also a structure, which is external and energetically active mirror.

A non-disadvantage of this disintegrator is the distribution of all-out impacts on a significant area of the campus, as well as the high impact: impact on the object:.

The Kvesten is a more advanced disintegrator / LZ /, B Eotor01l with the aim of concentration of the field and stabilization of wave characteristics, the surface of the cavity openings is covered with minerals;, kvjestk: kestEy: s: a round structure.

The cedostatic nature of this solution is the distribution of the impact due to the impossibility of focusing it.

Disadvantages - Well-known solutions are eliminated by the proposed utility model of the disintegrator.

This is achieved by the fact that in the disintegrator containing a working element with a body having a cavity structure, the body is made of a B :: ormogon, inside which dynamic field rotation modulators and an activator are placed, and screening polyhedra with BDTpoeHHHi H dynamic modulators are installed on the outside a focusing pyramid with a slave located in it with a static field rotation modulator, made in the form of a jumper plate.

The disintegrator is characterized in that a sphere is installed inside the cavity structure body with a dynamically arranged modulator and an activator made in the form of a source of electromagnetic radiation, the preferred light range.

DesEntegragor differs in that the housing of the sphere is made airtight. with the possibility of creating a vacuum in it.

JJesEHTerpaTop is distinguished by the fact that dynamic modulators are implemented in the form of ferromagnetic plates equipped with reversible drives, and plates, for example} .: ep, are connected by the golden ratio, in particular :, case, 5ISG.

The usefulness of the utility model lies in the fact that the basis of the disintegrator’s operation is the combined effect of microL8PTON radiation of the cavity structure and magnetic pumping / cm. L.Alven Cosmic plasma, I98S, p. 141 /, as well as the field generated by the modulators under vacuum and electromagnetic radiation of the activators of the torsion component of the field.

The wave radiation source is made in the form of a hollow sphere located in the space of a working polyhedron, for example, a dodecahedron or an icosahedron. The many-curved surface of the body of the CAVITY structure provides the superposition of de Broglie waves inherent in the surface of any object (see, for example, V. Grebennikov Secrets of the insect world, Novosibirsk, 1890, p. 2G7 /.

De Broglie waves superimposed repeatedly form a stagnation wave of a lower frequency, but with increased total energy, forming antinodes - maxima of standing waves. Installation inside the sphere of the dynamic modulator of rotation of the field and activator, and on the obverse side of the sphere, inside the working polyhedron, the second dynamic modulator, and the installation of shielding polyhedra with built-in dynamically modulators and a focusing pyramid with a static modulir located in it expand the functionality of the disintegrator.

The use of shielding polyhedra and a focusing pyramid provides increased efficiency of the disintegrator and environmental protection of the surrounding space.

The design of the disintegrator is illustrated in Fig. 1, where a general view of the disintegrator is given.

Designations accepted: 1-shielding polyhedra; 2-sphere; 3-focusing pyramid; 4-static modulator; 5-activator; b-ferromagnetic plate of a dynamic modulator; 2-way dynamic modulator; 8-joint; 9 tripod.

The static modulator is made of ferromagnetic material. The activator in a particular case is a source of electromagnetic radiation, mainly in the light range.

The disintegrator works as follows. for example} .5рр of Kirlman radiation, using a Fole sensor, for biological objects, a double beam-pass / lenk sensor for optically transparent media / solutions / or a radar detector / z Orbita, Moscow / identify the properties of the object of processing-deactivated products of different nature, disintegrating neoplasms. After that, the polarity of the installation of the ferromagnetic plates of the static and dynamic transducers necessary for the disintegration problem to be solved, as well as the direction and rotation speed of the drives 7 of the dynamic transducers / modulators / are established. Then the top of the pyramid 3 is focused with the LOBE of the swivel joint 8 and the tripod 9 onto the disintegration object. After that, the actuators of the modulators 7 are turned on. With an interval equal to the time of the transient process, the degree of change in the properties of the object, for example, its decontamination, is checked. If the properties of the object are not sufficiently changed, the disintegration mode is adapted. An experimental check made it possible to work out the adaptation mode: they change the frequency and direction of rotation of the drives of the modulators 7 / in the range from 0 to 80 thousand / in the layout of the disintegrator /, the hinge 8 is rotated in steps of 3-5 °. Verification of the effectiveness of the disintegrator showed that it provides a stable disintegration of both neoplasms and decontamination of samples. As a means of control, industrial biolocators were used. The working elements of the cavity structure and shielding polyhedra / regular dodecahedrons and icosahedrons / were made of polymer material / high-strength, cord-reinforced / with a well-polished mirror surface. The direction of rotation of the drives of the dynamic modulators of the sphere, the working and shielding polyhedra are selected experimentally depending on the nature of the problem of disintegration and decontamination being solved. The source of electromagnetic radiation installed in the sphere of the cell can be made, for example, in the form of a gas meter of a lamp or an incandescent lamp / UV, YK, etc. /.

work with minimal wave radiation into the surrounding space.

The industrial applicability of the utility model of the disintegrator is due, in particular, to the importance of the task of creating effective means of disintegration, such as neoplasms, as well; : disintegration and deactivation of pathogenic effects of various nature.

Industrial production of disintegrators can be organized at any enterprise.

A rubber-industrial association of a number of RS organizations, in particular, MALABIT / Barnaul/, the Moscow Health Center ASTREA and the INSTITUTE OF GENERAL PATHOLOGY AND HUMAN COLOGIES WITH RAMS / Novosibirsk / plans to organize a number of industrial enterprises of the Russian Federation in 1997-98 and the introduction of disintegrators in the CIS.

Director General

SLAVKT

Claims (4)

1. A disintegrator containing a working element with a body having a cavity structure, characterized in that the body is made in the form of a polyhedron, inside which dynamic field rotation modulators and an activator are placed, and screening polyhedra with built-in dynamic modulators and a focusing pyramid are placed on the outside in it a static field rotation modulator, made in the form of a ferromagnetic plate.  2. The disintegrator according to claim 1, characterized in that a sphere is installed inside the body of the cavity structure with a dynamic modulator and activator located in it, made in the form of a source of electromagnetic radiation, mainly the light range.  3. The disintegrator according to claim 2, characterized in that the housing of the sphere is sealed with the possibility of creating a vacuum in it. 4. The disintegrator according to claim 1, characterized in that the dynamic modulators are made in the form of ferromagnetic plates equipped with reversible drives, and the plate parameters, for example diameters, are related by the ratio of the golden ratio, in the particular case = = 0.6180.