RU3387U1 - POWDER FIRE EXTINGUISHER - Google Patents

Abstract

1. A powder fire extinguisher comprising a body with an extinguishing composition, a gas generator consisting of a body, a trigger mechanism, a combustion chamber with a charge of solid chemical fuel, a cooler, a filter, a gas duct connected to a gas distribution system, and a fire extinguishing composition supply unit, characterized in that a gas generator is installed in it, the combustion chamber of which consists of two parts isolated from each other and interconnected by a gasdynamic connection, the charge consists of two different-mode charges placed in these parts x chambers, one of which has a constant combustion surface, and the other is multi-tower, while the trigger mechanism is connected to that part of the combustion chamber in which a charge with a constant combustion surface is placed, and the cooler is placed in the annular space between the gas generator body and the outer wall of the combustion chamber, and it houses perforated tubes. 2. A fire extinguisher according to claim 1, characterized in that a cooler is also located in the gas duct.

Description

BOILER FIRE EXTINGUISHER USEFUL MODEL)

The proposed utility model relates to fire fighting equipment, namely to the design of fire extinguishers. And can be used in mobile or stationary equipment to extinguish fires of various classes.

Currently, there are many designs of fire extinguishers. Most of them are a body with a fire extinguishing agent and a device that creates pressure in the body to expel this substance. As the latter, gas-balloon systems are used (see, for example, A.S.NN 1268176, 1388061.1402352, class. & 2 С 13/50, acNN 1484352.1540637, 1551385 according to class A 62 C13 / 00 and others), or gas generating devices (see, for example, a, S.MS 848044.860773.10 | 5ShL2ShZO, 130Sh4 ;; -: 1637813 according to class .y 62 C 13/22, etc.) I;:,; ,; - /

Gas systems have pain. srabaty 1vanya; j g:

they cannot, without special devices, (| no need to post I

pressure in the body of the fire extinguisher and, as a consequence, .p (GostoyNogo - the consumption of the extinguishing agent from the fire extinguisher. Gas supply regulators are used as such devices. Gas generators can provide almost any operating time, since the gas intake is determined by the charge surface, fuel burning rate, dimensions critical nozzle section that can

vary over a wide range. When using gas generators with a short response time in the fire extinguisher body

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constant pressure is not provided. To ensure this, it is necessary to use gas flow regulators, similar to those used in Gaoball systems. When using gas generators with a constant gas flow rate, a quick fire extinguisher is not provided.

There are designs to ensure a short response time of the fire extinguisher, as well as a uniform flow rate of fire extinguishing composition. This design is the closest to the proposed, taken as a prototype design of a fire extinguisher according to a, cN 848044. It contains a trigger mechanism, a housing with a fire extinguishing composition, a gas generating device with a conical nozzle, a cylindrical aerator located behind the nozzle, and a unit for supplying the extinguishing agent to the fire, In order to increase reliability in operation, by stabilizing the parameters of the gas-generating of the first device, it has a body of variable cross-section placed with a gap in the critical section of the nozzle, while the aerator is made of material with a high coefficient of thermal elongation, and the body of a variable cross-section is connected; To the lower part of the aerator via a rod, ....

The disadvantages of this design is the difficulty of manufacturing individual components of the gas generator: (body nepeMjBHHoro се.

readings, aerator) associated with great accuracy, and the need for f ..

the use of special structural materials, and therefore the high market value of the fire extinguisher as a whole. In addition, in this design the gases have a high temperature, which may result in partial sintering of the extinguishing powder, which will reduce the efficiency of the fire extinguisher.

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The objective of this technical solution is to develop a more efficient construction of a powder fire extinguisher due to the simplification and improvement of the reliability of the means included in it, which creates pressure in the casing to expel the extinguishing agent.

The problem is solved by the proposed design of the fire extinguisher. It contains a body with an extinguishing composition, a gas generator having a body, a trigger mechanism, a combustion chamber with a charge of solid chemical fuel, a cooler, a filter, a gas duct, a gas distribution device and an extinguishing composition supply unit. The gas generator’s combustion chamber consists of two parts isolated from each other and interconnected by a gasdynamic connection, the charge of solid chemical fuel consists of two different-mode charges, respectively placed in these parts of the chamber. One of the charges has a constant burning surface, and the other has a multi-shell, trigger mechanism connected to that part of the combustion chamber in which a charge with a constant combustion surface is placed. In the annular space between the gas generator housing and the outer wall of the combustion chamber a cooler is placed, and therein are perforated tubes. If necessary, more powerful cooling of the gases supplied to the gas distributor, a cooler is placed in the gas duct.

The essence of the proposed design is illustrated in Fig., Which shows a fire extinguisher in a section. In the drawing, the designations are taken: - fire extinguisher body, 2 - fire extinguishing composition, 3 gas generator body. 4 - igniter, 5 - igniter, b part of the combustion chamber with a solid fuel charge with constant combustion surface - 7, nozzles -8.6 - part of the combustion chamber

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with a multi-cup charge -9, nozzles -10.11 - gas duct, 12 - cooling composition, 13 - perforated tubes, I - filter, 15 - gas distribution system, 16 - fire extinguishing composition feed.

The fire extinguisher operates as follows: after applying an electrical impulse to the igniter -4, the -7 charge ignites from the igniter -5, in the combustion chamber part -6. Due to the gas-dynamic connection, the gases generated through the -8 nozzle enter the combustion chamber part -6 and they ignite charge -9. The gases formed, through nozzles -10 are sent to perforated tubes -13, being cooled in cooler -12, and passing through filter-14, gas duct -and with cooler, enter gas distribution unit -15, they extinguish extinguishing powder, which then pop gives to the node - 16. When both charges are working in the gas generator body in a short time, the initial pressure is created, which is necessary to extinguish the ale to start work. After the charge -9 has worked, a further ejection of the powder occurs under the pressure created by the products of combustion of the -7 charge with a constant burning surface. Due to the constant gas inlet, this charge ensures uniform discharge of the pofflKa.

Comparison of the proposed design of the fire extinguisher and the prototype showed that the common feature in these structures is the presence of almost all nodes characterizing fire extinguishers, in which a gas generator is used as a means for creating pressure extinguishing the extinguishing powder. The difference lies in the use of a different gas generator design, which does not known not only from the prototype design, but also

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other fire extinguisher designs. However, it was the use of such a gas generator that made it possible to significantly increase the efficiency of the proposed fire extinguisher, providing faster and more reliable fire extinguishing. At the same time, the design is easier to manufacture, which means it is more reliable and cheaper. The foregoing suggests that the proposed design has novelty.

The manufacture of such a fire extinguisher will not cause difficulties. The components included in it have previously been manufactured in technology, and the principle of manufacturing a dual-mode design for a gas generator is taken from rocketry and is also not difficult. The need for fire extinguishers with improved technical characteristics is not in doubt. The proposal also has industrial applicability.

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Claims (2)

1. A powder fire extinguisher comprising a body with an extinguishing composition, a gas generator consisting of a body, a trigger mechanism, a combustion chamber with a charge of solid chemical fuel, a cooler, a filter, a gas duct connected to a gas distribution system, and a fire extinguishing composition supply unit, characterized in that a gas generator is installed in it, the combustion chamber of which consists of two parts isolated from each other and interconnected by a gasdynamic connection, the charge consists of two different-mode charges placed in these parts x chambers, one of which has a constant combustion surface, and the other is multi-tower, while the trigger mechanism is connected to that part of the combustion chamber in which a charge with a constant combustion surface is placed, and the cooler is placed in the annular space between the gas generator body and the outer wall of the combustion chamber, and it houses perforated tubes.  2. Fire extinguisher according to claim 1, characterized in that a cooler is also placed in the gas duct.