RU2193425C2 - Fire-protective clothing - Google Patents

Abstract

FIELD: protective clothing. SUBSTANCE: fire-protective clothing has outer covering made from flexible metal fabric and heat-insulating packet, whose upper, intermediate and lower layers are made from thermally stable fibrous materials. Upper layer of packet has on its outer side metallized heat-reflective coat. Lower layer of packet is formed from wool fiber material impregnated with fire-resistant composition. Polymeric film with outer metallized coat is positioned between intermediate and lower layers. Clothing is further provided with hygienic layer of cotton fabric adjoining to heat-insulating packet. EFFECT: simplified construction and provision for comfortable microclimate in space under clothing. 2 dwg

Description

 The invention relates to personal protective equipment, namely to special clothing designed to protect against increased thermal effects: intense heat radiation, high ambient temperatures, contact with an open flame, and smoke from toxic substances.

 Known heat-insulating suit company "La Spirotechnique", designed to protect against high temperatures and open flame / 1 /. The costume is made in three layers. The top layer is made of metallized asbestos fabric, the middle layer is made of polyvinyl chloride film, the bottom is cotton lining.

The famous suit has low reliability, because at a temperature of 500 ^o C is the dehydration of the fibers, which leads to a loss of mechanical strength of the suit. In addition, the use of asbestos fiber materials is hazardous to human health.

 Known thermal protective suit TK-800, designed to work near the fire and contact with an open flame, consisting of an upper removable cover made of metallized asbestos-phenyl fabric and heat-insulating linings, the upper layer of which is made of elasti-leather-T, and the subsequent layers are made of wool felt placed between the layers of fire-resistant calico / 2 /.

The well-known suit has a limited operating time in conditions of intense thermal radiation and contact with an open flame, because asbestos-phenylone tissue has insufficient heat resistance, and the phenylone fibers included in the fabric begin to degrade at a temperature of 370 ^o C, and asbestos fibers - 500 ^o C, resulting in a loss of mechanical strength of the upper layer. In addition, the use of asbestos fiber materials is hazardous to health.

 Known designed to pass through fire a fireproof suit selected as a prototype, containing an outer coating made of flexible metal fabric, and a heat-insulating bag, the upper and lower layers of which are formed by fiberglass, and the intermediate layer is made of heat-resistant fibrous material / 3 /.

 In a well-known suit, the implementation of the lower layer of the heat-insulating bag of fiberglass with high thermal conductivity creates an uncomfortable microclimate in the undersuit space during operation of the suit.

 In addition, during emergency rescue operations in a well-known suit, moisture, steam and aggressive substances may enter the undersuit space, which can lead to thermal and chemical burns to the worker.

 In the inventive fire retardant suit containing an outer coating made of flexible metal fabric and a heat-insulating bag, the upper, intermediate and lower layers of which are formed by materials made of heat-resistant fibers, in contrast to the prototype, the upper layer of the package has a metallized heat-reflecting coating on the outside, while the lower the layer of the bag is formed by a material made of woolen fibers impregnated with a fire-resistant composition, and between the intermediate and lower layers of the bag there is a polymer film with external metallization Rowan coated with suit further comprises adjacent to the heat insulating package hygienic layer made of a cotton fabric.

 The objective of the proposed technical solution is to create a more reliable fireproof suit, i.e. more resistant to high thermal loads and contact with an open flame, as well as providing impermeability to moisture, steam and aggressive substances in the under-suit space, creating a more comfortable under-suit microclimate.

 The presence in the inventive suit of a metallized heat-reflecting coating on the outer side of the upper layer of the heat-insulating bag significantly increases the resistance of the suit to high heat loads and contact with an open flame due to reflection of the coating up to 80% of thermal radiation, and also strengthens the structure of the heat-insulating suit bag.

 In addition, due to the high thermal conductivity of the thermally reflective coating, a uniform distribution of the heat load occurs over the entire surface of the suit, as a result of which there is no local heating of the package, leading to thermal destruction.

 The implementation of the lower layer of the heat-insulating bag of the material impregnated with a fire-retardant composition of wool fibers allows you to maintain the stability of the heat-insulating bag to the effects of thermal loads, but at the same time significantly increase the thermal protection of the bag, because material from woolen fibers in comparison with the glass fabric used in the prototype, has a high heat capacity and low thermal conductivity, which creates a comfortable microclimate in the suit space.

 The presence in the inventive suit of a polymer film with an external metallized coating located between the intermediate and lower layers of the heat-insulating bag is at the same time an additional thermal barrier, which creates a comfortable microclimate in the undersuit space, and also ensures that moisture, steam, aggressive substances do not penetrate into the undersuit space, without creating threat to human health.

 The location of the metallized polymer film precisely between the intermediate and lower layers of the heat-insulating package prevents it from thermal destruction.

 The presence in the inventive suit adjacent to the heat-insulating bag of the hygienic layer made of cotton fabric with hygroscopic properties, provides a comfortable microclimate in the suit space, improves the well-being of the worker.

 The invention is illustrated in the drawing, where figure 1 shows a General view of a fireproof suit, and figure 2 - node 1 (cross section of a suit). The fireproof suit consists of an outer coating 1 made of flexible metal fabric, a heat-insulating bag, the top layer 2 of which is made of heat-resistant fabric, such as basalt, silica or fiberglass, with a metallized coating applied on the outside 3. The intermediate layer 4 of the bag is made of heat-resistant air-filled materials , for example, non-woven fabrics, which include basalt, silica, glass fibers. The materials used are characterized by high porosity, which creates a fixed layer of air in the bag, which is a poor heat conductor.

 The moisture-proof layer 5 is made of a heat-resistant polymer film, for example polyimide, polyethylene terephthalate with a metallized coating 6.

 The bottom layer 7 of the heat-insulating bag is made of a material impregnated with a fire-retardant composition of wool fibers, for example cloth, felt.

 The hygienic layer 8 is made of cotton fabric, such as calico, calico, satin.

 The inventive flame retardant kostim has high heat resistance and heat protection, allows for a long time to be in the focus of work, accompanied by high thermal radiation and smoke from the environment with toxic substances, reliably protects from contact with an open flame, provides a comfortable microclimate in the suit space.

Sources of information
1. Kolganova MN and others. Protective clothing for firefighters. Overview information. Ser. Fire safety. M .: VNIIPO. 1983, 2/83, p. 10.

 2. Prostov N.I. etc. Special protective clothing and equipment for firefighters. Overview information. M.: GIC MVD USSR, 1988, p. 9.

 3. Application of France 2489696, MKI A 62 B 17/00, 1982, publ. in the RZh "Fire Protection" 4/83 (prototype).

Claims (1)

 A fire-retardant suit containing an outer coating made of flexible metal fabric and a heat-insulating bag, the upper, intermediate and lower layers of which are formed by materials made of heat-resistant fibers, characterized in that the upper layer of the bag on the outside has a metallized heat-reflecting coating, while the lower layer of the bag is formed a material made of woolen fibers impregnated with a fire-resistant composition, and between the intermediate and lower layers of the bag a polymer film with an external metallized coating is placed iem, the suit further comprises adjacent to the heat insulating package hygienic layer made of a cotton fabric.

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