RU2257925C2 - Method of checking means of individual protection - Google Patents

Abstract

FIELD: individual protection means.

SUBSTANCE: invention relates to means of individual protection of respiratory organs of humans, for instance, gas mask in use in dangerous zones, for instance, on chemical weapons destruction objects. Proposed method of checking individual protection means of respiratory organs of man operating in room into which aerosol or fumes with specific odor are introduced and maintained during entire working period at concentration level organoleptically felt by man in room, if protection means fail. Used as such material is irritant, and gas mask is used as individual protection means. Feeling of odor of this material in gas mask warns each man practically immediately that his gas mask has lost its protective properties, making it possible to prevent injuries caused by action of chemicals under destruction.

EFFECT: immediate and easy checking of protection means by man himself without auxiliary means and efforts.

2 cl, 1 tbl

Description

The invention relates to methods for controlling the protective properties of personal protective equipment (hereinafter referred to as protective equipment) during their operation, in particular to methods for monitoring the protective properties of protective equipment for human respiratory organs, for example a gas mask.

Known methods of warning a person about the presence (leak) of dangerous gases, vapors, aerosols.

For example, the gas used in everyday life is odorized, i.e. add to it a substance with a characteristic odor (mercaptan), organoleptically easily felt by a person.

Known methods for monitoring the tightness of a gas mask and the health of its filtering-absorbing system (FPS). This is a control method using chloropicrin. It is used in military conditions and at industrial enterprises for periodic testing of gas masks and before entering the danger zone. The method is characterized by a relatively low sensitivity (1-10 ^-2 %) and the gas mask is checked only for the vapor permeability of the hazardous substance.

The closest technical solution is a method of controlling respiratory protective equipment of a person, including a preliminary check of the tightness and serviceability of the FPS protective equipment described in the book by A.P. Kupchin "Methods for assessing the effectiveness and quality of personal protective equipment working at the factory", Moscow, Light and Food Industry, 1984, pp. 41-48. The indicators characterizing the protective properties of protective equipment and determined by this method are: the coefficient of penetration of the control substance through the filter materials K _ave , the coefficient of leakage through structural leaks K _Ph. , the coefficient of reverse suction through the exhalation valves To _CL. , the coefficient of suction in the obturation strip To _about. , as well as the general coefficient K of penetration of harmful substances into the mask space of the protective equipment, which allows to evaluate the reliability of the design of the protective equipment as a whole.

When developing and conducting comparative physiological and hygienic tests, all of the listed indicators of the protective effectiveness of protective equipment are examined, and only the quality of individual structural units is monitored during the production process. The method requires quite sophisticated instrumentation, a line of compressed air, as well as a human tester, putting on a mask of protective equipment in each cycle, and a qualified operator.

The described methods only precede the work (finding) of a person using a protective equipment in the danger zone, and do not control the protective properties of the latter while the person is in the zone.

When a person is working (staying) in closed hazardous areas (with the possibility of release or the presence of OB, PB and biologically hazardous substances), express control of the presence of hazardous substances in the atmosphere of the zone is carried out either biologically or using gas analyzers and other special devices, which is associated with significant costs. The likelihood of untimely communication of information about the danger to every person in the zone and the likelihood of depressurization of the protective equipment (gas mask) during operation can lead to the defeat of a person by dangerous substances.

The objective of this invention is to develop a method for continuous monitoring of the protective properties of a protective agent by a person (without any expenditure of time and effort on his part) in a closed hazardous area (for example, at a chemical weapons destruction facility) during the entire time spent in this zone without use of any devices and other means.

This problem is solved by the fact that a substance with a characteristic odor, for example, CS irritant, is introduced into the atmosphere of the hazardous area premises in the form of vapors and aerosol and is maintained during working hours at a level organoleptically detected by the person in the hazardous area, but not exceeding acting, causing a mild degree of damage, passing without consequences for a person (for "CS" - 0.002-0.005 mg / m ³ ). In case of loss of the protective equipment used by him during this period (for any reason), the irritant enters the mask space, is immediately organoleptically sensed by a person and signals the need to urgently leave the danger zone. This individual warning is given to every person in the zone whose protective equipment has lost its protective properties, regardless of whether the main hazardous substance is present in the room’s atmosphere or not.

A person is warned at the moment when his remedy is just beginning to pass a substance with a characteristic odor, for example an irritant, the concentration of which at this moment is lower than the active one, which in turn is much lower than the active concentration of the main dangerous substance (see examples in the table).

Name (designation) of the substance Mustard gas Lewisite Zarin Soman "CS" MPC in the atmosphere, mg / m ³ 0.002 (Ministry of Health per. No. 15-87) MPC in the air of the working area, mg / m ³ 0.002 (Ministry of Health per. No. 37-83) Effective concentration (mild degree of damage without consequences), mg / m ³ 1,2 10.0 0.2 0.01 0.005

The data in the table from the book of Z. Franke. Chemistry of toxic substances, Prince. 1, Moscow, Chemistry, 1973.

Thus, the use of the proposed method allows almost instantly without devices and other means to warn everyone using a protective equipment, such as a gas mask, in the premises of the danger zone about the loss of the protective properties of the latter and thereby gives a person the opportunity to avoid being killed by the main dangerous substance.

Claims (2)

1. A method of controlling personal protective equipment for respiratory organs when a person is working in them in a hazardous area, in which a substance with a characteristic odor in the form of aerosol and vapors is introduced into the atmosphere of the hazardous area and is maintained during working hours at a concentration that is organoleptically detected a person who is in the danger zone in case of violation of the protective properties of the personal protective equipment used by him during this period. 2. The method according to claim 1, wherein an irritant is used as a substance with a characteristic odor, and a gas mask is used as a personal protective equipment.