RU119088U1 - PROTECTIVE COSTUME OF THE RESCUE OPERATING UNDER THE CONDITIONS OF STRONGLY ACTIVE POISONED SUBSTANCES - Google Patents

Abstract

1. Protective suit of a rescuer, consisting of trousers with protective stockings, a shirt with a hood, two-fingered gloves and a comforter, and the trousers are sewn together with stockings ending in a rubber stitch with boots, to which straps are sewn for attaching to the legs, while in the upper part of the trousers there are shoulder straps and half rings, and the shirt is combined with a hood, and an intermediate strap is sewn to its lower edge at the back, which is passed between the legs and fastens with a button in the lower part of the shirt in front, and the sleeves end with loops that are put on the thumb after putting on gloves, at the same time, on the sleeves of the shirt there are cuffs that fit the wrist, and the hood is fixed on the neck with a tape and a plastic pin, and the bottom of the shirt is pulled together with an elastic tape and equipped with a groin belt, and the trousers are held with two straps and buckles from half rings and are fixed at the bottom with straps, which is different , which is additionally equipped with a protective vest against electromagnetic radiation, consisting of mk annevy lining connected to the protective shell, and elastic frame struts are fixed in the fabric lining by means of clips on the waist belt, and the protective shell is attached to elastic frame struts, while the protective shell is made of three layers, and the first layer facing the operator's environment is treated with foam polyfunctional composition for degassing, disinfection, disinsection, decontamination and shielding of surfaces, volumes and objects from hazardous agents and substances with foam, where the liquid phase of the foam is a solution of didecyldimethylammonium halide clathrate with urea as de

Description

The utility model relates to the equipment of rescuers in the field of emergency, in particular for equipping rescuers during emergency rescue operations in natural and man-made emergencies that cause destruction of objects, as well as in road traffic accidents, as well as comprehensive degassing, disinfection, disinsection , decontamination and shielding of potent toxic substances (SDYaV), toxic substances (OV), chemical weapons (CW), pathogenic microorganisms (MO), toxic products (TP) of their vital activity STI, insects, pathogens including vectors of human and animal diseases, radioactive substances (RS) and for extinguishing fires of flammable liquids or to prevent ignition of flammable liquids spills (HIL).

The closest technical solution to the claimed object is a light protective suit L-1 of the company LLC “Raboservice +”, published on the website http://www.raboservice.ru/about [1], designed to protect against radioactive dust, chemical and bacteriological effects per person. Suit L-1 is a special protective clothing and is used in areas contaminated with toxic substances and emergency chemically hazardous substances. It is intended to protect skin, clothing and shoes from the long-term effects of toxic and toxic substances, toxic dust, to protect against solutions of acids, water, alkalis, sea salt, varnishes, paints, oils, fats, and petroleum products, and to protect against harmful biological factors, when performing degassing, decontamination and disinfection work. The costume is made of rubberized T-15 fabric and consists of trousers with protective stockings, a shirt with a hood, two-fingered gloves and a comforter. The trousers are sewn together with stockings ending in rubber osoyuzka, and ribbons are sewn to them for fastening to the legs. L-1 suits are selected by height: the first size is for people up to 165 cm tall, the second is from 166 to 172 cm, the third is 173 cm and above. TU 005296-84.

Protective raincoat OP-1M according to TU 005296-84. Protective stockings according to TU 005296-84. Suit sizes L-1 are indicated on the front side of the shirts and at the bottom. Weight about 3 kg - [prototype].

A disadvantage of the known design of lifeguard clothes is the relatively low degree of protection against potent toxic substances (SDYAW).

A technically achievable result is an increase in the effectiveness of the protection of the rescuer of potent toxic substances (SDYA).

This is achieved by the fact that in a lifeguard protective suit with a protective vest from electromagnetic radiation, consisting of trousers with protective stockings, a shirt with a hood, two-fingered gloves and a comforter, the trousers are sewn together with stockings ending with rubber boots with bots to which ribbons are sewn attachment to the legs, while in the upper part of the trousers there are shoulder straps and half rings, and the shirt is combined with a hood, and an intermediate strap is sewn to the lower edge of the hem, which is passed between the legs and fastens with a buttonhole the front of the shirt, and the sleeves end with loops that are put on the thumb after putting on the gloves, while on the shirt’s sleeves there are cuffs that fit the wrist, and the hood is fixed on the neck with tape and a plastic peg, and the bottom of the shirt is pulled together with an elastic tape and equipped with inguinal belt, and the trousers are held with two straps and buckles made of half rings and fixed below the straps, an additional protective vest is provided for electromagnetic radiation, consisting of a fabric lining connected with a protective shell, and elastic frame racks are fixed in the fabric lining by means of clips on the waist belt, and the protective shell is attached to the elastic frame racks, while the protective shell is made of three layers, and the first layer facing the operator’s environment is treated with a polyfunctional composition for degassing , disinfection, disinsection, decontamination and screening of surfaces, volumes and objects from hazardous agents and substances with foam, where the liquid phase of the foam is a solution of didactic clathrate ecyldimethylammonium halide with urea as an active substance in an amount of from 0.1 to 5% by weight, and didecyldimethylammonium halide clathrate with urea is a didecyldimethylammonium chloride clathrate with urea and / or didecyldimethylammonium bromide clathrate. A composition may be used where a didecyldimethylammonium bromide clathrate with urea is used as the didecyldimethylammonium halide clathrate.

In Fig.1 shows a General view of the proposed protective suit of a lifeguard, Fig.2 is a variant of the protective suit of a lifeguard with a gas mask, Fig.3 is a structural diagram of a protective suit of a lifeguard, Fig.4 shows the construction of a protective vest from electromagnetic interference, Fig. 5 is a diagram of a protective shell of a protective vest; FIG. 6 is a structure of a composite material; FIG. 7 is a diagram of a respirator.

The protective suit of the lifeguard (Figs. 1 and 3) consists of trousers 7 with protective stockings, a shirt 1 with a hood 2, two-fingered gloves 11 and a comforter. Pants 7 are sewn together with stockings ending in rubber osoyuzki with bots 8. Ribbons 9 are sewn to them for fastening to the legs. In the upper part of the trousers there are shoulder straps 10 and half rings (not shown in the drawing). Shirt 1 is combined with hood 2, an intermediate strap 5 is sewn to the lower edge at the back, which is passed between the legs and fastens on a button in the lower part of shirt 1 in front. Bag 6 is fixed on the strap. The sleeves end with loops 4, which are worn on the thumb after putting on the gloves 11. On the sleeves of the jacket there are cuffs that fit the wrist. The hood 2 is fixed to the neck with a tape 3 and a plastic peg. The bottom of the jacket (shirt) is pulled together with elastic tape and equipped with an inguinal belt (not shown in the drawing). The trousers are held with two straps 10 and buckles of half rings and are fixed at the bottom with straps.

A variant of the suit is possible (Fig. 2) as an army tool for individual protection from radioactive dust and drip-aerosol poisonous substances, equipped with a gas mask. The suit is not insulating. When infected, the suit is subject to special treatment and can be used many times in the future. It is made of rubberized fabric UNKL-3 or fabric T-15, and consists of one-piece trousers with stockings, a jacket with a hood and three-fingered mittens. On the sleeves of the jacket there are cuffs that fit the wrist.

The protective suit of the lifeguard can be equipped with a protective vest from electromagnetic radiation (Fig. 4), which consists of a fabric lining 12, in which the elastic frame stands 13 are fixed by means of the clips 15 on the waist belt. The protective shell 14 is mounted on the elastic frame racks 13. The protective shell (figure 5) 14 can be fixed on the frame racks 13 over the entire area of the torso of a human operator, including the shoulder joints and hands (not shown).

The protective shell 14 is made of three layers, and the first layer facing the operator’s environment is made in the form of interconnected rings, the material of which is stainless steel, which is treated with a composite material with enhanced protective properties against electromagnetic radiation. The third layer 16, facing the operator’s body, is made of perforated polymer material, for example, aramid fiber, and the second layer 17 located between them is made of elastic mesh elements. The density of the mesh structure of the elastic mesh elements is in the optimal range of 1.2 g / cm ³ ... 2.0 g / cm ³ , the material of the wire of the elastic mesh elements is steel grade EI-708, and its diameter is in the optimal range of values 0.09 mm ... 0.15 mm.

Composite material for protection against electromagnetic radiation (Fig.6) consists of a polymer base with particles 18 and 20, in which particles of 19 compounds are distributed - (Fe, Si) or - Co with a nanocrystalline structure of bulk density (0.6 ÷ 1.4 ) · 10 ^-5 1 / nm ³ . The polymer base for fixing the position of powder particles with a nanocrystalline structure is made in the form of alternating structural elements with particles 18 and 20 located at an angle of 90 ° to each other, and each of the elements with particles is made in the form of particles of elongated shape arranged in parallel rows, moreover, the particles located to the left and to the right of it are shifted by an amount not exceeding half the maximum particle size. The use of a material with a nanocrystalline structure as a filler provides an increase in magnetic permeability.

It was experimentally established that when the bulk density of nanocrystals in the amorphous matrix is less than 0.6 · 10 ^-5 1 / nm ^{3, the} effect of increasing the magnetic permeability is not observed. When the bulk density of the nanocrystals in the amorphous matrix is greater than 1.4 · 10 ^-5 1 / nm ³ , the magnetic permeability decreases. Therefore, the following range of bulk density of nanocrystals in an amorphous matrix is optimal: more than 0.6 · 10 ^-5 1 / nm ³ , but less than 1.4 · 10 ^-5 1 / nm ³ .

The suit is treated with a multifunctional foam composition for degassing, disinfection, disinsection, decontamination and screening of surfaces, volumes and objects from hazardous agents and substances with foam, where the liquid phase of the foam is a solution of didecyldimethylammonium halide clathrate with urea as an active substance in an amount from 0.1 to 5% by weight, and as a didecyldimethylammonium halide clathrate with urea, a didecyldimethylammonium chloride clathrate with carbamide and / or a didecyldimethylammonium bromate clathrate is used Ida with urea. A composition may be used where a didecyldimethylammonium bromide clathrate with urea is used as the didecyldimethylammonium halide clathrate.

Protective suit of a lifeguard with a protective vest from electromagnetic radiation works as follows.

It also protects the human operator from sudden impacts from both the mechanical impact of the environment and, for example, animals such as cattle. The implementation of the frame racks 13 elastic allows you to dampen the impact (make it elastic), and the protective shell 14 will prevent injury to the skin of the human operator.

Composite material works as follows.

An electromagnetic wave that penetrates deep into the material is more actively absorbed in it due to the higher absorption capacity of the nanocrystalline structure, which has a greater magnetic permeability compared to amorphous. When the electromagnetic wave reaches the opposite surface, its greater absorption occurs, which leads to an increase in the screening coefficient.

The technical and economic efficiency of the invention is expressed in reducing the thickness and weight and size characteristics of the composite material, which will improve the reliability of electronic and electrical equipment, provide effective protection of biological objects by increasing the magnetic permeability of the composite material and, as a consequence, the coefficient of shielding of electromagnetic fields in the radio frequency range .

When the bulk density of nanocrystals is (Fe, Si) or -Co (0.6 ÷ 1.4) · 10 ^-5 1 / nm ^{3, the} magnetic permeability of the composites in comparison with the amorphous state increases by 2-3 times and ranges from 90 to 135 units

The protective suit of the rescuer can be additionally equipped with a respirator (Fig. 7), which contains a concentric pleated filter 21, the peripheral ring of which passes into a conical surface, a frame 22 of elastic-elastic material having the shape of a truncated cone, with functional holes on the side surface and an annular groove-like the end from the base, the annular inflatable chamber 23 of elastic material, equipped with a fitting for inflation, the ring 24 of elastic material. The frame on the outer side of the trough-shaped end has two diametrically opposite special holes for fixing the respirator with a headband on the face and one hole for passing the fitting 25 of the annular inflatable chamber.

The respirator is commissioned as follows: a filter is put on the conical surface of the frame and secured with a ring, the inflatable chamber is inserted into the groove through the annular slot and inflated with air or gas until the dumbbell shape is of the desired size, one part of which is clamped by the grooved end of the frame, and the other part forms a shutter , after which the fitting is hermetically closed, to ensure the desired shape of the seal during the entire time of use of the respirator. By changing the size of the obturator by the amount of air or gas in the chamber, you can precisely adjust the entire obturation line to any size of the person’s face, which will provide reliable protection of the respiratory system and eliminate the need to manufacture respirators of several sizes.

The design of the respirator includes the possibility of reusing its components and replacing them as necessary.

The lifeguard protective suit can be used when performing degassing, decontamination and disinfection works to protect skin, clothing and shoes from the long-term effects of toxic and toxic substances, toxic dust, to protect against solutions of acids, water, alkalis, sea salt, varnishes, paints, oils, fats, and petroleum products, protection against harmful biological factors, is used in areas contaminated with toxic and chemically hazardous substances, in the chemical and military industries, as well as from electromagnetic effects.

Claims (3)

1. The lifeguard’s protective suit, consisting of trousers with protective stockings, hooded shirts, two-fingered gloves and a comforter, the trousers being sewn together with stockings ending in rubber boots with bots to which ribbons are sewn for attaching to the legs, while on the top of the trousers there are shoulder straps and half rings, and the shirt is combined with a hood, and an intermediate strap is sewn to the lower edge at the back, which is passed between the legs and fastens with a button on the bottom of the shirt in front, and the sleeves end with loops that they don’t put on the thumb after putting on the gloves, while on the shirt’s sleeves there are cuffs that fit the wrist, and the hood is fixed on the neck with a ribbon and a plastic peg, the bottom of the shirt is pulled with elastic tape and equipped with an inguinal belt, and the trousers are held with two straps and buckles made of half-rings and are fixed below with straps, characterized in that it is additionally equipped with a protective vest from electromagnetic radiation, consisting of a fabric lining connected to the protective shell, and packs are fixed in the fabric lining other frame racks by means of clamps on the waist belt, and the protective shell is mounted on elastic frame racks, while the protective shell is made of three layers, and the first layer facing the operator’s environment is treated with a multifunctional foam composition for degassing, disinfection, disinfection, decontamination and screening of surfaces , volumes and objects from hazardous agents and substances with foam, where the liquid phase of the foam is a solution of didecyldimethylammonium halide clathrate with urea as the amount of the active substance in an amount of from 0.1 to 5% by weight, and didecyldimethyl ammonium chloride clathrate with urea and / or didecyldimethyl ammonium bromide clathrate with urea is used as a clathrate of didecyldimethylammonium halide with urea; used didecyldimethylammonium bromide clathrate with carbamide. 2. The lifeguard protective suit according to claim 1, characterized in that the composite material for protection against electromagnetic radiation consists of a polymer base in which particles of compounds - (Fe, Si) or - Co are distributed with a nanocrystalline structure with a bulk density (0.6 ÷ 1.4) · 10 ^-5 1 / nm ³ , while the polymer base for fixing the position of powder particles with a nanocrystalline structure is made in the form of alternating structural elements located at an angle of 90 ° to each other, and each of the elements is made in the form located in parallel Yelnia ranks elongated particles, the particles located on the left and right of it are shifted by an amount not exceeding half the maximum particle size, the following range is optimum bulk density values of nanocrystals in an amorphous matrix of more than 0.6 · 10 ^-5 1 / nm ³ , but less than 1.4 · 10 ^-5 1 / nm ³ . 3. The lifeguard protective suit according to claim 1, characterized in that it is additionally equipped with a respirator containing a concentric pleated filter, the peripheral ring of which passes into a conical surface, and the obturator is made in the form of an annular inflatable chamber made of elastic material, and for a hermetic connection of the conical end the surface of the filter with a shutter, the respirator is equipped with a frame of elastic material in the form of a truncated cone with functional holes on the side surface, with one whose sides by a ring of elastic material fixed filter, and on the other hand, by pinching the annular portion of the inflatable chamber trough the end of the carcass is fixed obturator.