SU1797915A1 - Fire extinguishing device - Google Patents

Description

The invention relates to fire extinguishing by explosion in combination with extinguishing agents and can be used to extinguish burning surfaces of liquids, bottom forest fires, as well as to create refractory strips.

The aim of the invention is to increase the efficiency of fire extinguishing by expanding the technical capabilities of the device and improving the parameters of the generated flows of extinguishing media.

The drawing shows a fire fighting device.

The fire fighting device comprises a cardboard body 1, the upper and lower bases of which are made in the form of disks, and the Less durable side surface 2 is in the form of a convex hemisphere. The difference in strength characteristics is achieved by reducing the thickness of the side wall material. The firing device contains a housing having an upper and lower base, inside of which there is a main charge of explosive, two additional charges and fire extinguishing material. The main charge is placed along the axis and consists of two or more different types of explosive materials located coaxially, with explosive material with a larger specific volumetric energy of the explosion located inside. Additional charges are located on the inner surfaces of the upper and lower bases. The side surface of the body has the shape of a convex hemisphere, and the ratio of the height of the body to the diameter is 0.1-0.15. 1 ill.

relative to the thickness of the disks (for example, twice), the location of the grooves on the side surface (for example, to a depth of 90% of the thickness of the wall material). An additional explosive charge 3 and 4 is fixed on the inner surfaces of the upper and lower bases, and the main charge placed along the axis consists of different types of explosive materials 5 and 6 (detonating cord (LH) and smoky gunpowder (DRP) located coaxially, and the explosive material of the detonating cord 5, which has a higher specific volume energy with respect to the DRP, is located inside. The internal cavity of the body is filled with extinguishing (fire-resistant) composition 7 (extinguishing powder composition OPS). 1 is 0.1-0.15 of its diameter. To detonate, use the detonator 8. triggering 1797915 of the base AG and through the fire extinguishing material to the side wall of the casing. When the side surface (as the weakest casing element) is destroyed, the fire extinguishing material is ejected in the radial direction. the triggering of additional charges 3 and 4 creates even more favorable conditions for the generator from a mechanical, or electrical, or some other impulse, the choice of which is based on specific tasks and conditions application of the device, however, in all cases, the detonator 8 acts on the axial charge 5.

Fire device works as follows.

When a device is thrown into the center of a flat radial flow of a fire extinguishing due to the ratio of the height of the shell of the Sushi material due to the compression of the flow to a diameter of 0.10.15 (the ratio under the simultaneous counter action of the combustion products of these charges on the flow. In this case, the fire extinguishing device provides 15 sliding relative to the flat surface of the fire extinguishing material flow over a burning surface in a certain radius of action.The combination of charges 5, 6.3 and 4 allows without increasing the strength of In order to increase the efficiency of the operation of charges, and thereby provide greater stability in the operation of the device, the ability to control the flow parameters by changing the masses of charges and the choice of grades of gunpowder.

The proposed fire device in comparison with the prototype has the following advantages.

The housing design (height to diameter ratio of 0.1-0.15, hemispherical side surface), symmetrical arrangement of additional charges provide the required orientation of the device without additional structural elements and effective operation when the device falls on any of the bases.

selected close to the ratio of coins (0.06-0.1), which are always located on one of the bases on the plane), the device is in contact with the soil on one of the bases, the sphericity of the side surface 2 also contributes to this. From the impulse received at when detonator 8 is triggered, detonates charge: row 5 (detonating cord), the detonation products of which ignite the DRS of charge b and additional charges 3 and 4. Smoke powder, which is a typical example of a propellant explosive, most fully exhibits properties at r o- “rhenium under conditions of the highest possible pressure. Such conditions can be realized in cases in which gunpowder burns (for the proposed device this is excluded due to the high explosive action, or due to the influence of the detonation wave on the combustion process of gunpowder). It is known that smoke powder under the influence of detonation: waves do not detonate. However, this significantly (not less than 100 times) increases the rate of combustion of the DRP. This effect is used in the proposed device. The need to use low-strength device housings leads to the fact that their destruction occurs at pressures of not more than 20 kgf / cm ² . DRP has an open-air ignition rate 100 times greater than its burning rate, so the pressure of destruction * of the case is reached quickly, and the bulk of charge 6 (like 3 and 4) burns out outside the device. When a charge is ignited from a DRP by a detonating cord, the mabs of the burnt part of the charge increases by no less than 1.5 times, which increases the pressure from charges to 40 kgf / cm ² . In this case, the case of the device does not have time to collapse at a lower pressure, since the process of increasing pressure in this case is no less than 2 times faster than the process when ignited. The charge without LH. The pressure of gases generated during detonation and combustion of charges 5,

6, 3, 4. acts directly on both or when using high strength25

Claims (1)

The invention is a fire-fighting device containing a housing having upper and lower bases in the form of disks, inside of which there is an explosive charge and fire extinguishing material, characterized in that in order to increase the efficiency of fire fighting by expanding the technical capabilities of the device and improving the parameters of . flow of extinguishing agents, additional charges are located on the inner surfaces of the upper and lower bases, the main charge being placed along the axis and consisting of two or more different types of materials located coaxially, with explosive material with a larger specific volumetric energy of the explosion located inside, the side surface of the shell has the shape of the convex hemisphere, and the ratio of the height of the hull to the diameter is 0.1-0.15.