RU2041723C1 - Fire extinguisher - Google Patents

Abstract

FIELD: fire protection engineering. SUBSTANCE: device has casing, projectile with initiator, wadding and cap. The device also has reservoir filled with fire extinguishing agent and foaming agent. The wadding forms the bottom of the reservoir and the cap is explosive. Three dimensional cellular network is spaced in the casing outlet opening. EFFECT: enhanced effectiveness in fighting fire. 2 cl, 1 dwg

Description

 The invention relates to the field of fire fighting equipment and is intended to extinguish fires using foam, such as gas-mechanical.

 There are various devices for producing extinguishing foam by mixing the components of a liquid fire extinguishing composition (AOC) (a.s. N 1225086, class A 62 1/12, 1985), mixing air with an AOC in a grid package using a corona discharge of electricity (a. S. N 1235034, class A 62 C 19/00, 1985), it is possible to obtain foam using a rotating impeller (A.S. N 1573786, class A 62 C 31/02, 1989), the fire barrel is equipped with a cassette with a volumetric the grid.

 Increasing the efficiency of the formation of gas-mechanical foam is achieved by introducing various additional elements, such as a cylinder with compressed air or compressors with a system of valves, membranes, nozzles, etc., which complicates the design of such devices.

 The pulsed fire extinguishing method has been recognized, the advantage of which is that the extinguishing agent, entering the fire at a high speed, further enhances its properties due to kinetic parameters (Vingradov V. Titkov V. Pulse fire extinguishing // Fire Department, 1989, N 12 , p. 22). Various technological means are known using this fire extinguishing method, for example a supersonic gun with a shell equipped with a liquid emulsion. In all of these devices, the use of extinguishing agents with the formation of foam is not provided.

 In particular, a powder fire extinguisher for pulse fire extinguishing contains a container with a fire extinguishing powder, a propellant charge with a detonator at the bottom of the container, a wad located between the propellant charge and the fire extinguishing powder, a cover in the form of a cone, segment or hemisphere that protects the fire extinguishing powder from rash.

 The disadvantage of a fire extinguisher is the inability to obtain a gas-mechanical foam.

 The purpose of the invention is the expansion of the range of applicability of a fire extinguisher by using gas-mechanical foam to extinguish a fire, increasing the efficiency of fire fighting.

 This goal is achieved by the fact that the fire extinguisher is equipped with a container with a liquid fire extinguishing composition and a foaming agent, made in a shape that repeats the inner part of the body of the fire extinguisher. The wad sharing the propellant with the initiator and the JOS is the bottom of the tank. In the outlet of the housing to obtain a gas-mechanical foam by mixing ZhOS, foaming agent and gas, a three-dimensional cell grid is placed. The cover, protected by ZhOS from pouring, is made bursting.

 If there is a lack of air to produce foam in the bulk mesh, the wad is made discontinuous, for example of variable thickness or weakened in radius. This allows the gases produced by the combustion of the propellant to take part in the formation of gas-mechanical foam. A cover to exclude the interaction of the ZhOS with the bulk mesh before launch can be placed in front of this mesh. Then, when the fire extinguisher fires, its fragments clog the cells. Therefore, the cover is made with holes closed by a bursting disc.

 The main distinguishing feature of the invention is the presence of a container with ZhOS and a foaming agent, wad made in the form of the bottom of the container, a volumetric mesh and a destructible lid.

 The drawing shows a fire extinguisher.

 The fire extinguisher consists of a housing 1, a propellant charge and initiator 2, placed on two buildings 1, a container 3 with a liquid-cooled substance and a foaming agent, a volumetric cell grid 4, located in the outlet of the housing 1, a wad 5 made in the form of the bottom of a container 3 with a variable thickness, cover 6, which protects against pouring ZhOS from the fire extinguisher.

 In order to exclude the effect of ZhOS on the volumetric cell grid 4 during storage of the fire extinguisher, the cover 6 can be placed in front of the grid 4 and made with holes 7 closed by a bursting membrane 8.

 A fire extinguisher operates as follows. As a result of the triggering of the initiator and the propellant charge 2, the gases generated from the combustion of the charge expel the wad 5, forcing the JOS with the foaming agent from the tank 3. It is possible to eject the JOS directly with these gases when the wad is burst 5. In this case, these gases are mixed with the JOS. Under the pressure created in the tank 3, the membrane 8, which covers the openings 7, the cover 6, is torn and the liquid-containing materials with a foaming agent enter the volumetric cell grid 4, where gas-mechanical foam is mixed and formed, which is expelled from the fire extinguisher under pressure. Other variations and combinations of the main features of the invention may be used.

 The use of the invention will allow in a pulsed fire extinguishing method to use a highly effective gas-mechanical foam.

Claims (3)

 1. FIRE EXTINGUISHER, comprising a housing in which a propellant with an initiator is placed at the bottom of the housing, a wad and a lid, characterized in that it is provided with a container shaped to the inside of the body with a liquid fire extinguishing composition and a foaming agent, the wad being the bottom of the tank, in the outlet of the housing there is a three-dimensional mesh grid, and the lid is made explosive.  2. Fire extinguisher according to claim 1, characterized in that the wad is discontinuous.  3. The fire extinguisher according to claim 1, characterized in that the lid has openings closed by a bursting disc.

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