RU2456043C1 - Device for 3d fire fighting using dual-mode generators - Google Patents

Abstract

FIELD: fire-fighting means.

SUBSTANCE: invention relates to fire fighting engineering, in particular to equipment for 3D fire extinguishing. The device for 3D fire extinguishing using a dual-mode nonlinear generator comprises elements for fire fighting, interconnected by a fuse. Elements for fire fighting are located in the volume of the room so that their axes intersect at the geometric center of the room, which is defined as the point of intersection of the diagonals of a rectangular parallelepiped or a cube. Fuse connecting the elements for fire fighting with a charge of smoke-forming composition form a closed quadrangle. The elements for fire fighting are based on a dual-mode nonlinear fire-extinguishing aerosol generator, which body is made of two semi-casings with elements of mounting and comprises aerosol-forming charges placed in the cavity the body. At that the charge of the first mode is separated from the charge of second mode by layer of slow-burning fuel. At the end surfaces of discharge acoustic whistles are installed. The charge of fuel of second mode has a developed surface, an additional igniter and is placed in a separate chamber connected to the cavity of the charge through the hole with a layer of slow-burning fuel. The chamber is equipped with the surfaces of discharge, which shape and orientation is selected from the conditions of particular application to ensure intensive mixing.

EFFECT: increased reliability and effectiveness of 3D fire-fighting system.

1 cl, 2 dwg

Description

The invention relates to fire fighting equipment, and in particular to equipment for volumetric fire extinguishing.

The closest technical solution to the proposed one is the method for volumetric fire extinguishing according to the patent of the Russian Federation No. 2401675, which consists in the fact that in the room set the elements for extinguishing with a charge of a smoke-forming composition, which are interconnected by fire-resistant cords made of a material that transfers combustion ( prototype).

A disadvantage of the known device is the relatively low response speed due to the lack of elements that contribute to the disclosure of the charge zone.

The technical result is an increase in the reliability and efficiency of the volumetric fire extinguishing system.

This is achieved by the fact that in an installation for volumetric fire extinguishing using a two-mode nonlinear generator, including elements for extinguishing a fire, interconnected by fire-resistant cords, the elements for extinguishing are located in the volume of the room so that their axes intersect in the geometric center of the room, which is defined as the intersection point of the diagonals of a rectangular parallelepiped or cube, while the fire-resistant cords connect the elements to extinguish a fire with a charge of a smoke-forming composition, the image A closed quadrangle with vertices in which these elements are installed, and each of the elements for extinguishing a fire is made on the basis of a two-mode nonlinear generator of a fire extinguishing aerosol, the body of which is made of two half-bodies with fastening elements and contains aerosol-forming charges placed in the body cavity, equipped with an igniter and heat-sensitive cords passing through the sealed surface of the expiration and performing the functions of fire sensors, while the charge of the first mode is separated flax from the charge of the second mode by a layer of slow-burning fuel, the thickness and burning rate of which is determined by the required evacuation time, and acoustic whistles are installed on the discharge surfaces, while the fuel charge of the second mode has a developed surface, an additional igniter and is placed in a separate chamber connected to the charge cavity through an opening with a layer of slow-burning fuel, and the chamber is equipped with flow surfaces, the shape and orientation of which is selected from the conditions of a particular hostname to provide intensive mixing, e.g., through the use of increased ability penetrates supersonic jets.

Figure 1 shows a diagram of an installation for volumetric fire extinguishing, figure 2 is an element for extinguishing with a charge of a smoke-forming composition.

The installation for volumetric fire extinguishing using dual-mode generators (Fig. 1) in the production room 1 contains elements 2, 3, 4, 5 for extinguishing with a charge of a smoke-generating composition, which are interconnected by fire-resistant cords 6, 7, 8, 9, made from material providing the transfer of combustion. Elements 2, 3, 4, 5 are located in the volume of the room in such a way that their axes intersect in the geometric center of the room, which is defined as the intersection point of the diagonals of a rectangular parallelepiped or cube, while the fire-resistant cords 6, 7, 8, 9 connect the elements 2, 3, 4, 5 to extinguish a fire with a charge of a smoke-forming composition, forming a closed quadrangle with the vertices in which these elements are installed.

Each of the elements 2, 3, 4, 5 for extinguishing a fire is made in the form of a generator (figure 2), using the effect of replenishing the premises with a fire extinguishing aerosol and mixing it.

A two-mode nonlinear generator (Fig. 2) of a fire-extinguishing aerosol contains a housing made of two half-bodies 10 with fastening elements 11 and contains aerosol-forming or smoke-forming compounds 12 located in the body cavity, equipped with an igniter 13 and heat-sensitive cords 14 passing through the sealed outflow surfaces 15 and acting as fire detectors. The charge 12 of the first mode is separated from the charge of the second mode 16 by a layer 17 of slow-burning fuel, the thickness and burning rate of which is determined by the required evacuation time. Acoustic whistles 18 are installed on some discharge surfaces.

Installation for volumetric fire extinguishing using dual-mode generators works as follows.

When a fire occurs, first one of the fire-resistant cords 6, 7, 8, 9 is ignited, and then all are ignited, since they are connected together in a closed chain. Then, from the cords, the nodes of the initiation elements 2, 3, 4, 5 are connected to extinguish the fire, which, in turn, ignite the charges 12 of the smoke-forming composition.

In case of fire, heated combustion products when reaching the ignition temperature of the heat-sensitive cord 14 set fire to it. The fire beam is transmitted to the igniter 13 and ignites the charge 12. When the charge 12 is burned, the aerosol flowing through the discharge surface fills the room to the calculated height, while simultaneously exciting the whistle 18 in the acoustic cavity. In this case, the fuel charge 16 of the second mode has a developed surface, an additional igniter 19 and is placed in a separate chamber 20 connected to the charge cavity 12 through an opening with a layer of slow-burning fuel 17. The chamber 20 is provided with the surfaces of the outflows 15, the shape and orientation of which is selected from the conditions of a particular application to ensure intensive mixing, for example, due to the use of the increased prining ability of supersonic jets.

The proposed device allows efficient volumetric fire extinguishing of gaseous, liquid and solid combustible substances in stationary premises, in rail and road transport, sea and river vessels, airplanes, including in purged compartments, for example, in aircraft engines. The advantages of the proposed device also include ease of maintenance, high reliability, a wide domestic raw material base, and the ability to prevent explosions of steam and gas mixtures in bulk after extinguishing.

Claims (1)

Installation for volumetric fire extinguishing using a two-mode nonlinear generator, including elements for extinguishing a fire, interconnected by fire-resistant cords, characterized in that the elements for extinguishing are located in the volume of the room so that their axes intersect in the geometric center of the room, which is defined as a point the intersection of the diagonals of a rectangular parallelepiped or cube, while the fire-resistant cords connect the elements to extinguish a fire with a charge of a smoke-forming composition, forming a closed quadrangle with vertices in which these elements are installed, and each of the elements for extinguishing a fire is made on the basis of a two-mode non-linear generator of a fire-extinguishing aerosol, the body of which is made of two half-bodies with fastening elements and contains charges of an aerosol forming composition equipped with an igniter and heat-sensitive cords passing through the sealed surface of the expiration and acting as fire sensors, while the charge of the first mode is separated from the charge of the second regime by an interlayer of slow-burning fuel, the thickness and burning rate of which is determined by the required evacuation time, and acoustic whistles are installed on the discharge surfaces, while the fuel charge of the second regime has a developed surface, an additional igniter and is placed in a separate chamber connected to the charge cavity through a hole with a layer of slow-burning fuel, and the chamber is equipped with flow surfaces, the shape and orientation of which is selected from the conditions of a particular application eniya to provide intensive mixing, e.g., through the use of increased penetrating power of the supersonic jets.

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