SU1475685A1 - Gas generator for powder fire-extinguisher - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to fire fighting equipment and can be used in powder fire extinguishing means to displace fire extinguishing compositions. The aim of the invention is to increase the efficiency of the gas generator. The essence of the technical solution is that in a device for cooling gases, which are coaxially arranged chambers, the middle chamber contains a thermally decomposing powder - heat sink, and the exit from the smaller chamber has nozzles, one of which is immersed in powder, and the others are located on the lateral surface. cameras are tangential. 1 hp f-ly, 1 ill.

Description

The invention relates to fire fighting equipment and can be used in powder fire extinguishing means to displace fire extinguishing compositions.

The aim of the invention is to increase the efficiency of the gas generator.

The drawing shows a gas generator.

The gas generator for a powder fire extinguisher consists of body 1, in which solid fuel charge 2, diaphragm 3 and nozzle 4 are located. The body is closed by a cover 5 with igniter 6. Coaxially to the body 1 after the nozzle 4, a gas cooling device is located, which is a labyrinth from coaxially located cameras. The smaller chamber 7 has at its exit into the chamber 8 an additional nozzle 9, the end 10 of which is immersed in a thermally decomposing heat-absorbing powder 11, and tangential nozzles 12, the Large chamber 13 encloses the chamber 8 and ends with a flare extinguishing powder 14.

The gas generator works as follows.

After the igniter has been triggered, the solid fuel composition 2 and the hot combustion products are burned through the diaphragm 3 and the nozzle 4 with high speed into the chamber 7, where it expands, partially brakes. At the same time, some of the heat of the outgoing gases is transferred to the chamber wall 7, chamber 7, the products of combustion exit into chamber 8, where the powder-heat-absorber 11 is located. At the same time, part of the gas passes through nozzle 9 into powder 11,

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aerator him and give him some warmth. Another part of the gas passes through the tangential nozzles 12 and, twisting, rises to the outlet of the chamber 8. The aerated powder is fed into this stream and during the movement of the two-phase flow, an intensive heat exchange of the gas with the powder and the two-phase mixture with the walls of chambers 7 and 8 By absorbing 1heat, the powder 11 decomposes with the formation of gaseous decomposition products, which allows, by lowering the temperature of the products of combustion, to increase the amount of propellant gas. As the flow between chambers 7 and 8 moves, the walls of chamber 7 are cooled, and the walls of chamber 8 are heated. At the exit from chamber 8, a change in the translational motion of the swirling flow occurs. The passage of the chamber 13, the two-phase flow interacts with the walls of the chambers 8 and 13. In addition, there is heat exchange between the gas and solid particles in the flow itself. The cooled gases through the blower 14 enter the fire extinguisher.

The invention makes it possible to take into account the properties of the powders used and to provide the necessary degree of cooling of the combustion products, preventing not only sintering, but also the clumping of the powder, thereby achieving an increase in the efficiency of the powder extinguishers with a solid gas generating device.

Claims (2)

1. Gas generator for a powder fire extinguisher, comprising a housing with an igniter placed in it, a solid-fuel charge, a nozzle for the release of generated gases, directed into a chamber of smaller diameter, a device for cooling gases, made in the form of a labyrinth of coaxially arranged chambers, a tiller differing in; that, in order to increase the efficiency of the gas generator by creating additional pressure and better cooling of gases, it has additional nozzles, one of which is installed at the outlet of the chamber of smaller diameter, the others on the side surface of this chamber are tangential, and the middle chamber contains thermally-decomposing heat-absorbing powder, with the end of the additional nozzle immersed in powder, 2. A gas generator according to claim 1, characterized in that the thermo-dispersed powder is made of oxamide. / J