EA003918B1 - Protection jacket against ionizing radiation - Google Patents

Abstract

1. A protective jacket against ionizing radiation, comprising pectoral and spinal parts as a covers with protective elements and connecting fixing-regulating devices, characterized in that it is provided with lower protective part as a cover with protective elements fixable to pectoral and spinal parts, wherein protective elements are made as cloth base with the blocks of longitudinal and/or transversal sections, filled by antiradiation material with alternate thickness in longitudinal and transversal directions. 2. A jacket according to claim 1, characterized in that pectoral part of it is provided with three protective elements, wherein the thickness of upper one is 0.007-0.08, middle one is 0-0.01, and lower one is 0-0.12 of element thickness. 3. A jacket according to claim 1-2, characterized in that the spiral part is provided by two protective elements, wherein the thickness of upper is 0.01-0.06, and 0.05-0.06 of element thickness. 4. A jacket according to claim 1-3, characterized in that the antiradiation material can be granulated.

Description

The invention relates to the field of development of personal protective equipment used when working on radioactively contaminated areas.

The protective vest is designed to be worn by personnel of nuclear power plants and other nuclear power plants when working in premises with high levels of radiation, as well as to mitigate the consequences of possible emergency situations involving the release of radioactive contamination to the environment.

In accordance with the standards of radiation safety, the main dose limits for exposure of personnel and the public are established for an effective dose of radiation. The effective dose is a value used as a measure of the occurrence of individual effects of exposure of the entire human body and its individual organs, taking into account their radiosensitivity. It represents the sum of the products of equivalent dose in the body to the corresponding weighting factor for the body.

The weighting factors for organs differ significantly from each other. For example, for the gonads, the weighting factor is 0.2, and for the thyroid gland - 0.05, i.e. 4 times less. Consequently, by designing remedies in such a way that the most radiosensitive organs have a high level of protection, it is possible to significantly reduce the effective dose acting on a person.

The best is the design of protection, which implements the principle of balance deposits. This principle is that a person in a protective vest in the zone of increased background radiation from any direction in equal body angles is affected by the same effective doses of ionizing radiation.

Thus, in order to obtain an optimal design of the vest, it is necessary to position the protection in such a way as to maximally attenuate the radiation in those directions that make the greatest contribution to the effective dose.

Known protective vest containing the chest and dorsal parts in the form of covers with protective elements and connecting fastening and adjusting devices (RF patent №2023974 from 12.20.91).

The disadvantages of the known construction are the uniform distribution of the protective material over the screened area, i.e. all groups of critical human organs are equally protected without taking into account differences in the effects of exposure to ionizing radiation, as well as the complexity of the design of protective clothing.

The aim of the present invention is to increase the protective and operational characteristics of personal protective equipment intended for those working in conditions of high levels of ionizing radiation.

This goal is achieved by the fact that the protective vest from ionizing radiation, containing the chest and dorsal parts in the form of covers with protective elements and connecting fastening and adjustment devices, is equipped with a lower protective part shielding the gonads, in the form of a cover with protective elements with the possibility of attaching it to the chest and dorsal parts, the protective elements are made in the form of a fabric base with blocks of longitudinal and / or transverse sections filled with anti-radiation material with a given variable thickness in the longitudinal and n cross direction. The chest part can be equipped with three protective elements, with the thickness of the upper one being 0.0070.08, the middle one being 0-0.1 and the lower one 0-0.12 width of the element. The back part can be provided with two protective elements, while the thickness of the top is 0.01-0.06, and the bottom 0.005-0.06 of the width of the element. Anti-radiation material can be made granular.

The design of the vest is shown in the drawing. FIG. 1 shows the chest part; FIG. 2 - the dorsal part, in FIG. 3 - the lower protective part, in FIG. 4 - security element.

The vest contains chest, dorsal and lower protective parts, each of which is made in the form of a cover 1 and protective elements 2 and is provided with fastening structures 3 for fastening between each other. Each protective element 2 is made in the form of a fabric base 4 with blocks of longitudinal and / or transverse sections 5. Each section 5 of the protective element 2 is filled with a protective anti-radiation material 6. The anti-radiation material 6 can be made granular. Each protective element 2 has a variable thickness of protective material 6, depending on the degree of protection of individual organs.

The presence of sections allows you to replace or add new radiation materials. The protection has a modular structure, which makes it possible to adjust the level of protection against the mass of the vest, depending on its functional purpose.

Given in the claims, the ratio of the thickness of the protective elements of the vest with uniform irradiation ensures equal security of organs, taking into account their weighting factors. As a result, the redistribution of protective material on the shielding of the area allows to increase the level of protection and reduce weight.

Computational and experimental studies have shown that the use of the proposed technical solution makes it possible to increase the level of protection by 30% compared to a vest with a protective material evenly distributed over the area with the same mass, i.e. improve performance.

Claims (4)

CLAIM 1. Vest protective from ionizing radiation, containing the chest and back parts in the form of covers with protective elements and connecting fastening and adjusting devices, characterized in that it is provided with a lower protective part in the form of a cover with protective elements with the possibility of its attachment to the chest and dorsal parts , while the protective elements are made in the form of a fabric base with blocks of longitudinal and / or transverse sections filled with anti-radiation material with a variable thickness in the longitudinal and transverse directions. 2. The vest according to claim 1, characterized in that in it the chest part is equipped with three protective elements, the thickness of the upper one being 0.007-0.08, the middle one - 0-0.1, and the lower one - 0-0.12 width an item. 3. Vest in PP.1, 2, characterized in that in it the back part is provided with two protective elements, while the thickness of the top is 0.01-0.06, and the bottom - 0.005-0.06 width of the element. 4. Vest in PP.1-3, characterized in that the radiation material can be made granular.