RU16898U1 - MEANS OF BIOLOGICAL PROTECTION - Google Patents

Abstract

1. A means of biological protection, comprising a protective housing with a working element made of a material of a cavity structure, characterized in that the working element is made of a foamed porous polymeric material pre-stressed during molding. The tool according to claim 1, characterized in that the porosity coefficient of the polymer material is applied not lower than 15.3. The tool according to claim 2, characterized in that the material used is polyurethane. The tool according to claim 2, characterized in that the material used is polyethylene. The tool according to claim 2, characterized in that the material used is polypropylene. The tool according to claim 1, characterized in that the housing is made of elastic material. The tool according to claim 1, characterized in that the housing is equipped with a Velcro-style fastener. The tool according to claim 6, characterized in that the housing contains a decorative coating.

Description

IPC 6A6I B 6/10

MEANS OF BIOLOGICAL PROTECTION

USEFUL MODEL refers to ecology and medical equipment, is intended to protect people from harmful natural and man-caused factors.

Known biosecurity agent | I | containing a cavity structure with vertical holes along its perimeter.

The disadvantage of this solution is its low efficiency and limited scope.

Known biosecurity | 2 | in which, in order to increase the intensity of the generated torsion radiation, the surfaces of the vertical holes (cavity structures) are polished.

The disadvantage of this solution is the difficulty in manufacturing and limited scope.

The disadvantages of the known solutions are eliminated by the proposed utility model. This is achieved by the fact that in the biological protection device containing a protective casing with a working element made of a material of a cavity structure, the working element is made of a foamed porous polymeric material, previously strained during its molding.

The porosity coefficient of the polymer material is applied at least 15.

The material used is polyurethane.

The material used is polyethylene.

The material used is polypropylene.

KopnjfC is made of elastic material.

The case is equipped with a hook-and-loop fastener.

The essence of the utility model lies in the fact that in the means of environmental protection containing a protective housing with a working element

cavity structure, the working element is made of foamed porous prestressed synthetic material. As the material of the working element used polyurethane, polyethylene, polypropylene. The body of the protective equipment is made of elastic material, equipped with a hook-and-loop fastener and contains a decorative coating.

The implementation of the working element from the material of the porous structure (foamed, pre-stressed polymer material) ensured the formation of a stable right torsion field due to the presence of cavity porous structures.

This effect has been experimentally confirmed (with the help of radar radars, Z-d Orbita, Moscow). The theoretical foundations of the formation of the torsion field in materials scattering the cavity structure (the so-called static torsion generators) are given, for example, in the book. G.I.Shipova Physical Vacuum Theory, M. NT-Center, 1993. In the proposed fluffy model, a rational solution is given for the production of torsion generators from production wastes (foamed porous polymer material), but at the same time ensuring the formation of stable torsion radiation right spin polarization.

The prospects of two areas of use of the proposed protective equipment have been experimentally confirmed:

- thermal protection of the biological object (human, animal);

-field protection of biological objects from pathogenic radiation, in particular television and radio equipment, geopathogenic zones, etc.

The design of the protective equipment (fragment) is illustrated in Fig. i where:

I-protective case;

2-working element (a material of a porous structure molded into an elastic body with prestressing);

g - IKSATORY (Velcro).

Use of protective equipment (options):

For thermal protection, the claimed agent is used in the composition of the material of heat-stabilizing clothing and shoes (gaiters, insoles, etc.). In the particular case for seat heaters, the protective equipment is formed in the form of prestressed

stiffening ribs a truncated circle and 40 mm) mounted across the seat,

In order to protect against pathogenic radiation, the protective equipment is used as follows. Before installing it, inspect a controlled room in order to identify the source of pathogenic radiation and its epicenter.

The examination is carried out, for example, of the aforementioned radars, as well as equipment operating according to the Voll method, i.e. according to the reaction of the biological object. This method is adopted, for example, in the work of Dvornikov V.M., Yastremsky Yu.N. et al. Method for identifying unidentified torsion emitters. Reports of the 2nd International Congress of Bioenergyinformatics, Barnaul, 1999, Volume I.

After identifying the source of pathogenic radiation, the protective equipment is installed in the epicenter of the pathogenic emitter.

An experimental verification of the protective equipment according to the proposed PM, showed, in particular, that its use provides reliable thermal protection. Upon contact with the human body, the temperature of the working element of the tool was set within 35-36 ° C.

Transient time, i.e. self-equalization of temperature did not exceed 1-2 minutes and remained constant regardless of the ambient temperature (for the entire period of contact with the human body).

In winter conditions, the proposed tool turned out to be effective in heating, for example, vehicle seats, personnel seats in unheated storage rooms, sleeping bags of geologists, tourists and climbers, including when spending the night on snow or on glaciers (in addition to other biosecurity means.). In all these cases, the protective equipment was a component of protective mats, mattresses, bedding, tents, cloaks, etc.

It is also shown that the use of the proposed PM protective equipment provides stable isolation (protection) from the effects of natural and man-made radiation harmful to human health (for example, a PC, TV, microwave oven).

The industrial applicability of the protective equipment is explained, on the one hand, by the accessibility of the materials used, and, on the other, by the importance of the task being solved to improve the ecology of the living environment, as well as the comfort of work and leisure places.

/ 70 /; Ri m

tii, mainly from waste from the main production.

The Interregional Association of Lyceum Sports plans to produce sports and household products based on the proposed utility model in 2000.

General Director of MA Lyceum Sports

V.P. Khramtsov

08/10/2000

Claims (8)

1. A means of biological protection, comprising a protective housing with a working element made of a material of a cavity structure, characterized in that the working element is made of a foamed porous polymeric material that is prestressed during molding.  2. The tool according to claim 1, characterized in that the porosity coefficient of the polymer material is applied at least 15.  3. The tool according to claim 2, characterized in that the material used is polyurethane.  4. The tool according to claim 2, characterized in that the material used is polyethylene.  5. The tool according to claim 2, characterized in that the material used is polypropylene.  6. The tool according to claim 1, characterized in that the housing is made of elastic material.  7. The tool according to claim 1, characterized in that the housing is equipped with a Velcro-type retainer. 8. The tool according to claim 6, characterized in that the housing contains a decorative coating.