RU55605U1 - FIRE PROTECTION DEVICE - Google Patents

Abstract

Fire-retardant device refers to fire-retardant fire fighting equipment and can be used for local fire extinguishing at industrial and civil facilities with increased fire hazard. The device contains one or more layers of fire-resistant material from basalt and / or silica fibers and / or threads. On the fire side, it contains a two-layer polymer film, between the layers of which fire extinguishing elements from an aerosol-forming composition are evenly distributed. The technical result achieved during the implementation of the device is to increase the reliability and high fire extinguishing of the device due to the uniform distribution of fire extinguishing elements on the surface of the device, as well as to ensure the ecological purity of the combustion products during the extinguishing. 8 s.p. f-ly.

Description

The utility model relates to fire-retardant fire fighting equipment and can be used for local fire extinguishing at industrial and civil facilities with high fire hazard.

Fire-retardant devices are widely known, which are fire-resistant screens (bedspreads), consisting of internal heat-resistant layers and external fire-resistant layers made of fabric, and designed to extinguish small fires (RU 26748 U1, 12.20.2002).

The disadvantage of these devices is their low fire extinguishing ability.

Known fireproof casing, in which to improve fire extinguishing ability additionally use a device for volumetric fire extinguishing in communication with the casing. Aerosol composition generators located inside the shell are used as a fire extinguishing device (RU 2226415 C2, 04/10/2004).

Also, devices for volumetric aerosol fire extinguishing in confined spaces and unventilated rooms are widely known, which are pyrotechnic checkers containing potassium nitrate, phenol-formaldehyde resin and dicyandiamide in a ratio close to stoichiometric, and coated with a gas-permeable flame retardant powder material (RU.06503). 2000).

The disadvantage of these devices is that they can only be used indoors, that is, has a limited scope.

Known protective barrier against fire, which is a multilayer material consisting of a core of refractory fabric, to which layers of fabric from fibers, separated from each other by a foil, are attached. The outer layer, facing the fire effect, is a layer of fabric treated with material expanding under the action of heat, thereby improving the fire extinguishing ability of the product (GB 2395461 A, 05.26.2004).

Closest to the proposed utility model is a screen cover designed to extinguish fires arising in pipelines and shutoff valves protruding on them, made of fire-resistant fabric layers of basalt or silica fibers, while the outer fabric layer is impregnated with intumescent fire-retardant on the surface of the fire exposure composition (RU 2229909 C1, 06/10/2004).

However, the above devices have the disadvantage that, during the combustion of materials that are intumescent under the influence of heat, substances are formed that have a destructive effect on the ecology of the environment.

The problem to which the proposed utility model is directed is to create a fire-retardant device that eliminates the disadvantages indicated above.

The technical result achieved by the implementation of this utility model is to increase the reliability and high fire extinguishing of the device due to the uniform distribution of aerosol forming elements on the surface of the device, as well as to ensure the ecological purity of the combustion products during the quenching.

The specified technical result is achieved by the fact that the fire-retardant device containing one or more layers of fire-resistant

material from basalt and / or silica fibers and / or threads, according to the utility model, on the fire side, contains at least a two-layer polymer film, between the layers of which fire extinguishing elements of an aerosol-forming composition are evenly distributed (located).

In a preferred embodiment of the device, the two-layer polymer film consists of connected film-base and backup film. On the base film, cells are made that are evenly distributed over its surface. Fire extinguishing elements from an aerosol forming composition are located in the cells of the base film. In this case, the fire extinguishing elements from the aerosol forming composition are made in the form of tablets with a diameter of 5-50 mm.

In another preferred embodiment, the flame retardant material is in the form of a bedspread or cover.

In another preferred embodiment, the device further comprises an internal heat-insulating layer made of batting or felt. Fireproof material reinforced with metal mesh.

The proposed fire-retardant device is a fireproof screen (cover) made of one or more layers of fire-resistant material, containing from the side of the fire exposure an additional bulk layer.

As a flame-retardant material, a fabric or mat of basalt and / or silica fibers with a diameter of 2-25 μm and a length of 10-150 mm and a surface density of 70-800 g / m ³ and / or filaments of these fibers is used.

A two-layer polymer film consists of a base film, on the surface of which cells are formed, and a backup film,

interconnected, while in the cells fire extinguishing elements from an aerosol-forming composition, made in the form of tablets, are introduced.

A two-layer polymer film is made according to the same technology by which the so-called shock-absorbing films are made. As a rule, this process is a two-stage process. In the first stage, a base film is obtained, for example, by blowing. The second step involves forming the cells on a base film and joining the films by gluing or welding. The base film is heated to a state close to plastic, after which it enters the first zone, where the vacuum molding of cells uniformly distributed over the surface of the film is carried out. At the same time, on the other hand, a backup film enters, is heated to a plastic state, and at the point of contact with the forming drum, an overlapping film is applied to the base film and the films are joined.

The main difference from the known technology is that in the second stage, fire extinguishing elements from an aerosol forming composition are introduced into the already formed cells. Thus, a two-layer film is obtained with fire-extinguishing elements of an aerosol-forming composition evenly distributed between the layers.

A two-layer polymer film can be made by extruding a film sleeve, which is passed under pressure between two parallel cylindrical rolls, so that the sleeve is flattened into a two-layer film.

When flattening, the sleeve surfaces facing each other are welded under the influence of heat and pressure. One of the rolls, or both on its outer surface, has a plurality of recesses of the target configuration spaced apart. When flattening the sleeves, fire-extinguishing elements of an aerosol-forming composition are distributed in the pockets.

The raw materials for the manufacture of a two-layer film are thermoplastics: polyethylene, polypropylene, polystyrene, polyurethane, polyvinyl chloride, etc., the melting point of which is lower than or equal to the temperature at which fire extinguishing elements work.

Next, a fire-resistant material and a two-layer film are connected, for example, by gluing or stitching, so that the cells with fire extinguishing elements are located on the outside of the device (from the fire side).

The uniform distribution of fire extinguishing elements on the surface of the device increases the contact area of the gas-aerosol stream formed during extinguishing, and provides functional reliability of the sequential action of fire extinguishing elements.

Fire extinguishing elements are made of special aerosol-forming fire extinguishing compositions (AOS).

During the combustion of fire extinguishing elements, an aerosol is released, the particles of which break off the chain reactions that occur in flames during the combustion of various organic substances in the air.

In terms of fire extinguishing efficiency, aerosol-forming extinguishing compositions are 3 ... 12 times higher than the most effective and widely used freon, which have a destructive effect on the ozone layer of the Earth.

There are various AOCs in which various plasticized organic polymers are used as a binder, and KNO3 is used as an oxidizing agent (in some compositions, in addition to KNO3, KClO4 is also used).

The device may further comprise an internal heat-insulating layer made of batting or felt, intended not only for thermal insulation, but also at the same time acting as a filter for outgoing gas flows during

burning, protecting, thus, objects located near the source of ignition from the harmful effects of combustion products.

On the other hand, layers of flame-retardant material and a heat-insulating layer do not allow oxygen to penetrate to the source of fire, thereby performing an oxygen-insulating function, which also increases the fire-extinguishing ability of the device.

Reinforcing the upper outer layer of the device (flame-retardant material) with a metal wire, for example, a steel wire with a diameter of 0.1-1 mm, allows to give the structure increased reliability and rigidity.

The proposed design of the device ensures its safe use during operation, due to the fact that combustion occurs at a pressure close to atmospheric, as well as high fire extinguishing ability, due to evenly distributed fire extinguishing elements.

These advantages allow you to use this fire extinguishing device to extinguish fires in various rooms, warehouses, holds, workshops, in the engine and other compartments of automobile, railway, river, sea transport, garages, basements, etc.

Claims (9)

1. Fire-retardant device, which is a cover made of one or more layers of fire-resistant material, characterized in that the device on the fire side contains at least a two-layer polymer film, between the layers of which are fire-extinguishing elements of an aerosol-forming composition. 2. Fire-retardant device according to claim 1, characterized in that the two-layer polymer film consists of connected film-base and backup film. 3. Fire-retardant device according to claim 2, characterized in that the cells based on the film are uniformly distributed over its surface. 4. Fire-retardant device according to claim 3, characterized in that the fire extinguishing elements of the aerosol forming composition are located in the cells. 5. Fire-retardant device according to claim 4, characterized in that the fire extinguishing elements of the aerosol forming composition are made in the form of tablets with a diameter of 5-50 mm 6. Fire-retardant device according to claim 5, characterized in that the fire-resistant material is made in the form of a bedspread or cover. 7. Fire retardant device according to claim 6, characterized in that it further comprises a heat insulating layer. 8. The fireproof device according to claim 7, characterized in that the heat insulating layer is made of batting or felt. 9. Fireproof device according to any one of claims 1 to 8, characterized in that the fire-resistant material is reinforced with a metal mesh.