RU98117589A - ARMY FIRE FIGHTER - FIRE EXTINGUISHER AND METHOD OF ITS APPLICATION FOR A NEW APPOINTMENT - Google Patents

Claims (22)

1. Army flamethrower, characterized in that it is used for its new purpose as an aero (aqua) soldering fire extinguisher (generator) and is taken from the group of any army flamethrowers of any design: light infantry flamethrower, knapsack flamethrower, jet flamethrower, including ampoule flamethrower mounted on mobile vehicles tank or civilian flamethrower, flamethrower-grenade launcher.  2. Army flamethrower-fire extinguisher according to claim 1. characterized in that it is additionally equipped with a reservoir of any design for storing and transporting a fire extinguishing agent (composition, means).  3. Army flamethrower fire extinguisher according to paragraphs. 1 and 2, characterized in that it is additionally equipped with a device for rapid ejection or exhaustion of a liquid.  4. Army flamethrower fire extinguisher according to paragraphs. 1 and 2, characterized in that the fire extinguishing agent (composition, agent) is thrown in a garnet ampoule.  5. Army flamethrower fire extinguisher according to paragraphs. 1-3, characterized in that for the directed exit of the jet of fire extinguishing agent (composition, means) to the fire object, it is additionally equipped with output (exhaust) pipes (nozzles) with their preliminary orientation towards the intended fire object.  6. Army flamethrower fire extinguisher according to paragraphs. 1-5, characterized in that for changing the dispersion of the missile extinguishing agent (composition, means), the outlet (outlet) nozzles (nozzles) are additionally equipped with nozzles.  7. Army flamethrower in paragraphs. 1-6, characterized in that as a fire extinguishing agent (composition, means) are used aerosol (aqua) generating composition of one or different compositions, or a mixture of aerosol generating composition (or compositions) or with fire extinguishing powders, or with water, or with aqueous solutions salts, or with a volume-detonating mixture, including a mixture of components of different densities; or mixtures thereof.  8. A method of extinguishing fires using flamethrowers for a new purpose, which consists in suppressing combustion processes by exposing the fire to a fire with a directed high-speed jet of fire-extinguishing aero (aqua) sol formed during throwing (outflow from a generator), igniting and burning in flight at least one solid liquid or thickened (gel-like) aerosol (aqua) generating composition containing a fuel-binder and / or fuel, an oxidizing agent and / or a cooler (including in the form of water or its solutions), reaching a fire source, extinguishing the aerosol envelops the combustion zone, comes into contact with the flame, while exerting blowing (on the flame) and inhibitory effect on the physicochemical combustion processes, leading to extinguishing or localizing the fire, and aerosol (aqua) generating compositions are used one or different compositions, or a mixture of an aerosol generating composition (or compositions) or with fire extinguishing powders, or with water, or with aqueous solutions of salts, or with a volume detonating mixture, including a mixture of components entents of different densities, or mixtures thereof, with different arrangements for throwing and igniting in flight, while the composition or compositions ignite and burn with the formation of a directed aerosol jet in flight and / or above a burning object and / or inside a burning object.  9. The method of extinguishing fires according to claim 8, characterized in that at least one of dinitramide salts, for example, ammonium, potassium, is used as an oxidizing agent to increase the efficiency of the aerosol jet and to completely oxidize the combustion products of the fuel-binder and cooler in the propelled composition sodium, cesium, both in pure form, and its (their) mixture (mixture) with nitrates, nitrites, perchlorates, chlorates of the same metals and cations; or pure nitrates, nitrites, chlorates, perchlorates, permanganates, chromates of the same metals, cations, or mixtures thereof; or mixtures thereof.  10. The method according to PP. 8 and 9, characterized in that as a combustible and / or combustible binder, contributing to an increase in the efficiency of the aerosol stream and the complete oxidation of the combustion products, at least one of the compounds taken from the group of cellulose polyesters, polymers, rubbers is used in the missile composition mixed with appropriate plasticizers and fillers (organic, heterocyclic and inorganic), including those containing fragments of nitric, nitrous and nitric acid and / or mixtures thereof, or a mixture of the above components, and as a cooler, crystalline hydrates, carbonates, natural minerals (such as marble, dolomite, limestones, etc. compounds, minerals), water or its solutions with appropriate additives, etc.  11. The method according to PP. 8-10, characterized in that the aerosol combustion products of the composition are cooled before exposure to the fire.  12. The method according to PP. 8-11, characterized in that part of the aerosol combustion products of the composition is sent to a gas-dynamically coupled additional extinguishing means.  13. The method according to PP. 8-12, characterized in that as a reagent that helps to lower the equilibrium reaction temperature of the complete oxidation of the combustion products of the fuel-binder, the thermal decomposition products of low-energy additional fuel are used.  14. The method according to PP. 8-13, characterized in that as a reagent that helps to reduce the equilibrium temperature of the combustion reaction, the thermal decomposition products of low-energy additional fuel are used in combination with the combustion products of low-hydrogen and low-carbon compounds mixed with polymers, resins, rubbers, which are introduced into the preparation stage a fuel-binder in the form of individual components or mixtures thereof, and / or mixtures thereof with water or its multicomponent solutions.  15. The method according to PP. 8,13,14, characterized in that as low-energy additional fuel use low-carbon or non-carbon polyazole compounds or organic and inorganic azides.  16. The method according to p. 8, characterized in that simultaneously aero (aqua) soldering compositions varying in composition and combination are thrown (produced) in different sequence, and if necessary, each composition can be ignited in different parts of the trajectory, including the volume where the fire occurs, or over a burning object.  17. The method according to PP. 8-16, characterized in that the aero (aqua) soldering composition is thrown by compressed air, gas, combustion products of gunpowder or pyrotechnic charges, water under pressure without an igniter.  18. The method according to PP. 8-17, characterized in that the aerosol generating composition as an energy fuel and / or cooler contains compounds taken from the series: metals - aluminum, magnesium or their alloys, or their alloys with metals of the 1-2 group, iron, copper , metal hydrides in an amount of 0.2 to 10 wt. %; alcohols, glycols, acetates, ethers, benzene, toluene, gasoline, kerosene, organic azides and glycol nitrates, rubbers, polyesters, polymers, resins, their mixtures, their solutions and mixtures of their solutions with water, mixtures of solvents and their solutions, including including and thickened with polymers and / or additives, including nitrocellulose, in the amount of 10-70 wt. %; low-carbon poly nitrogen compounds selected from the series: azodicarbonamide, guanidine, dicyandiamide, melon, melem, melamine, urea, urotropin, azobisformamide, semicarboside, tetrazole, dietrazole and their derivatives or salts, and / or guanomino (melamine) -formaldehyde or organic or inorganic azides of potassium, sodium, magnesium, calcium, and / or oxalic salts of strontium, barium, sodium, potassium, magnesium, aluminum, ammonium, and / or their carbonates, and / or mixtures thereof, and / or crystalline hydrates of these compounds , and / or mixtures thereof, taken in an amount of 5.0 - 55.0 ma with. %  19. The method according to PP. 8-18, characterized in that when extinguishing a fire of oil and gas wells or large in area of fires, the speed reported by the propelled aero (aqua) ash stream (in front of the fountain) provides a decrease in the Damkeler number (D) below a critical level.  20. The method according to PP. 8-19, which consists in the fact that in a fire extinguishing system based on army flamethrower-fire extinguishers, equipment is also used, devices containing an apparatus for placing a fire-extinguishing composition, including an oxidizing agent and a fuel-binder / cooler, a combustion initiator of the composition with the formation of combustion products in the form fine aerosols, for subsequent exposure to an aerosol medium on the fire, characterized in that it is equipped with a means placed in the reactor to reduce the content of toxic substances in zone g the burning of the composition, and the initiator of combustion is thermodynamically and mechanically connected to a fire sensor with the possibility of setting fire to the composition in the event of a sharp increase in ambient temperature in case of fire.  21. The method according to p. 20, characterized in that to increase the efficiency of the system based on army flamethrower-fire extinguishers contains compositions made in the form of a chemically active charge, helping to lower the equilibrium temperature of the reaction of complete oxidation of the combustion products of the fuel-binder.  22. The method according to PP. 20 and 21, characterized in that as a chemically active charge a fire extinguishing system based on army flamethrower-fire extinguishers contains low-energy additional fuel, and / or water, and / or its solutions.