SU1266549A1 - Fire-fighting device - Google Patents

Abstract

The invention relates to fire extinguishing in combination with fire extinguishing agents and improves fire extinguishing efficiency by increasing the extinguishing area. Case 1 contains upper and lower bases made in the form of discs and connected by means of a rod 3. The side surface 2 is made in the form of an elastic shell and serves to hold the fire extinguishing material 5, which is separated from the charge layer 4 of the bluish substance by means of a porous partition 6. At the same time, the charge layer 4 of the bristled substance is applied n on the axial rod 3 of the housing 1, and on the upper base of the housing 1 is mounted; an additional zargd 7 of explosive is installed. 1 il. (L

Description

The invention relates to the field of fire fighting by an explosion in combination with fire extinguishing agents and can be used, in particular, when extinguishing burning surfaces of a liquid, ⁵ bottom forest fires, as well as to create refractory strips.

The aim of the invention is to increase the efficiency of fire fighting by increasing the area of extinguishing.

The drawing shows a fire fighting device.

The fire fighting device comprises a housing 1 having the shape of a circular cylinder, a side wall (surface ⁵ ) of which is elastic. The upper and lower bases of the housing 1 are connected by an axial rod 3, which is a cylinder of variable diameter and having the cross section in the form of an I-beam. An explosive (BB) charge layer .4 is deposited on the axial rod 3 mainly in the region of a smaller diameter. The thickness of the side wall 2 of the housing 1 3-5 times • exceeds the thickness of the layer 4 of the explosive charge.

The body cavity is filled with a fire extinguishing agent (material) 5, for example, powder separated from the explosive charge layer 4 by an elastic porous ^cross- section 6. The height of the shell 1 of the projectile is 0.2-0.4 of its diameter. On the upper base of the housing 1, an additional charge is installed on its axis, 7 explosives of a cylindrical shape, not exceeding the main charge. Layer 4 of explosive charge and additional charge 7 are connected by detonating cord 8 with detonator 9 (the drawing shows the option of simultaneously initiating the main and additional charges, however, for cases of initiation of charges with a slowdown, each of them is connected to its detonator).

Fire device operates as follows.

When a triggering pulse is applied to the detonator 9 installed on the housing 1 (through the detonating cord 8), the main and additional _5C charges 4 and 7 explode. Under the action of the blast wave from the main charge 4, a gas-powder flow with a high initial velocity of expansion, breaking the side wall 2 enclosures 1. Since wall 2 is made of a material, such as a film, which is elastic and has little tensile impact, it simultaneously ruptures' · gay along the entire perimeter of housing 1, thereby ensuring uniform spraying e powder around the device.

The direction of expansion of the products of the explosion (PV) is perpendicular to the surface of the explosive charge; therefore, cylindrical charges create an explosive wave in the form of a cylinder. In this case, the main part of the radiation propagates radially and only insignificantly - up and down. In an explosion in a closed sealed volume, for example in a fire extinguisher, the main part of the air defense and the mass ejected by them propagate towards the least resistance (in this case, towards the elastic side wall of the housing 1). Thus, a cylindrical blast wave from the explosion of the main charge displaces the extinguishing powder 5 from the housing 1, mainly in the radial direction, forming a disk-shaped flat gas-powder flow parallel to the combustion surface.

. A blast wave formed during the explosion of an additional explosive charge acts on top of the extinguishing stream, flattening it, increasing the concentration of powder in the stream. In this case, the sliding action of the gas-powder extinguishing stream is ensured, its separation from the combustion surface_ is excluded, which is most effective for extinguishing burning liquids, grass, shrubs, and a significant extinction radius is provided - continuous areas of the burning liquid up to 2.5 m and local burning foci liquids, grass, shrubs up to 4.5-5 m.

Claims (1)

The invention relates to the field of explosion extinguishing in combination with fire extinguishing agents and can be used, in particular, for extinguishing the burning surfaces of liquid, lower forest fires, as well as for creating fire-fighting strips. The aim of the invention is to increase the efficiency of extinguishing by increasing the area of extinguishing. The drawing shows a fire device. The fire prevention device comprises a housing 1 having the shape of a circular cylinder, the side wall (surface) 2 of which is elastic. The upper and lower bases of the housing 1 are connected by an axial rod 3, which is a cylinder of varying diameter and having an I-shaped cross-section. A layer of .4 charge of explosive (BB) is deposited on the axial rod 3 mainly in the region of smaller diameter. The thickness of the side wall 2 of the housing 1 is 3-5 times higher than the thickness of the explosive charge layer 4. The cavity of the housing is filled with the extinguishing agent (material) 5, for example, powder separated from the explosive charge layer 4 by an elastic porous partition 6. The height of the shell 1 is 0.2-0.4 of its diameter. On the upper base of the housing 1, an additional charge, cylindrical 7 explosives, not exceeding the main charge, is installed on its axis. The explosive charge layer 4 and the additional charge 7 are connected by a detonating cord 8 to the detonator 9 (the drawing shows a variant of simultaneous initiation of the main and additional charges, however for cJiy4aeB initiating charges with retarding, each of them is connected to its detonator). The fire protection device works in the following way. When initiating a pulse is applied to the detonator 9 mounted on the housing 1 (through the detonating cord 8, the main and additional charges 4 and 7 explode. Under the action of the blast wave from the main charge 4, a gas-powder flow is formed with a high initial velocity of scattering, which breaks the side wall 2 Enclosures 1. Since wall 2 is made of an elastic and low-impact material, such as a film, to impulse effects, it is simultaneously lucent at the same time as the case of body 1, it is therefore uniform e powder around the device. The explosion of the explosion products (PV) is perpendicular to the surface of the explosive charge, therefore cylindrical charges create an explosive wave in the form of a cylinder. At the same time, the main part of the explosive propagates radially and only slightly up and down. in a sealed volume, for example, in the fire extinguishing projectile, the main part of the VF and the mass ejected by them spreads towards the least resistance (in this case towards the elastic side wall of the housing 1). Thus, the cylindrical blast wave from the explosion of the main charge displaces the fire extinguishing powder 5 from the housing 1, mainly in the radial direction, forming a disk-shaped flat gas-powder flow parallel to the combustion surface. . An explosive wave, formed during the explosion of additional explosive charge, acts from above on the fire extinguishing stream, flattens it, increasing the powder concentration in the stream. This ensures the sliding action of the gas-powder fire extinguishing stream, prevents its separation from the burning surface, which is most effective for extinguishing burning liquids, grass, bushes, and also provides a significant extinguishing radius — solid areas of burning liquid up to 2.5 m and local sources of combustion fluids, herbs, shrubs up to 4.5-5 m. Formula for gaining fire-fighting device containing a body, fire extinguishing material and an explosive substance located inside the body and separated by means of elastic porous septum, means for holding extinguishing material, made of an elastic shell, characterized in that, in order to increase fire extinguishing efficiency 1 by increasing the area of extinguishing, the housing has an upper and lower base, made in the form of discs, and an axial rod, the base between them, with a layer of explosive body, 31 / .ГГ) (94 is applied to the axial rod, an additional charge is installed on the upper base of the core explosive.