SU1282850A1 - Apparatus for putting out fire - Google Patents

Abstract

The invention relates to installations comprising a powder as a fire extinguishing agent, and makes it possible to increase the efficiency of fire extinguishing by creating a fire-extinguishing composition in a tank with a silica gel. In the event of a fire, the high-pressure gas system (HVD) is automatically turned on, which enters the tank and displaces the freon in two directions along heated pipelines. Freon enters a gaseous state, enters an additional tank formed by a nozzle and a conical perforated bottom of the tank with silica gel, and saturates the powder. A pyrotechnic type gas generator works, providing the required pressure in the tank to displace silica gel. At the same time, high pressure high pressure gas is supplied to the inlet of the ejector. There is a departure stub. The high pressure pump passes into the annular chamber with a slit, the ejector nozzle, and provides the overhang of powder, which is saturated with vapors of freon. Freon gas is supplied through the porous conical bottom surface. 1 il. o (l

Description

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The invention relates to fire fighting equipment, in particular, to installations in which powder is used as a fire grill.

The purpose of the invention is to increase the efficiency of fire extinguishing by creating an extinguishing composition in a tank with silica gel.

The fire-extinguishing composition is obtained by soaking the silica gel powder with freop gas obtained from liquid freon by heating it.

The use of liquid freon in the installation is due to better storage conditions compared to gaseous freon, which is able to escape through valves.

The drawing shows a fire extinguishing system.

The installation consists of a tank 1 with silica gel 2, an ejector 3 installed at the outlet section of the tank, a high-pressure gas system 4, connecting pipes 5 and a separate tank 6, containing liquid freon 7.

The container 1 is made in the form of a cylindrical tank with a perforated conical bottom 8. A pyrotechnic type 9 gas generator 9 is located in the tank, and a perforated partition 10 is attached to the side wall of the tank 10. On the side of the conical bottom 8 there is an attachment 11 with silica gel 2 to the tank 1, forming with a conical bottom 8 additional capacity 12.

In the case of the ejector 3, installed at the outlet of the fire-fighting composition from the tank 1, the plug 13 is pressed in.

Pipelines 5, equipped with heaters 14, connect an additional tank 12 to a tank b, in which the liquid freon 7 is stored. The pipe coming out

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wound valve 15. Thereafter, high pressure gas enters the tank b and displaces the freon 7 from it, which enters in two directions through the heated pipes 5. The passage through the heated pipes 5, the freon 7 changes its state to gaseous and enters the container 12 formed by the nozzle 11 and the conical perforated bottom 8 of the tank 1 with silica gel 2, saturating the powder.

A command is issued to trigger the pyrotechnic-type gas generator 9, while in the tank 1 the required pressure is provided to displace silica gel 2. At the same time, the command is supplied to supply high-pressure gas to the inlet of the ejector 3. As the pressure in the tank 1 rises, the stub 13 ejects from the narrow section of the ejector 3. Thereafter, high pressure gas is supplied to the annular

20 camera with a slit, the ejector nozzle 3 accelerates the movement of the drip in the ejector, ensuring its departure. In the process of removing the powder from the tank 1, it is saturated with vapors of freon 7. This is ensured by supplying gaseous freon through the porous conical surface of the bottom 8.

In the proposed device, the pseudo-liquefaction of silica gel 2 in the tank 1 can be performed through a perforated partition 10 by opening the valve of the high-pressure gas system 4.

Claims (3)

Invention Formula A fire extinguishing installation containing a silica gel tank, an ejector at the outlet of the tank, a high-pressure gas system and connecting pipes with valves; characterized in that, in order to increase the efficiency of fire extinguishing, from the tank b with freon 7, it is equipped with a membrane DO, it includes a tank with freon, and a container with the valve 15, and the pipeline 16 connecting the high pressure system 4 to the perforated partition 10 with a valve. In addition, there is a pipeline connecting the high-pressure gas system 4 to the inlet of the ejector 3, in the casing of which an annular chamber with a slit is formed, and a pipeline 17 connecting the tank b to the high-pressure system tank 4. The installation works as follows. In the event of a fire, an automatic control unit (not shown) is triggered, including a high-pressure gas system 4 and a membrane gel made with a conical perforated bottom and a pyrotechnic type gas generator introduced into the installation and a perforated partition, with the installation fitted with a nozzle adjacent to the sewer tank. from the side of the perforated bottom and forming a container with the last one, an extractor plug installed in the ejector and a pipeline heater, and the tank with freon is connected by means of warming pipeline with a tank formed by the nozzle and the tank with silica gel. wound valve 15. Thereafter, high pressure gas enters the tank b and displaces the freon 7 from it, which enters in two directions through the heated pipes 5. The passage through the heated pipes 5, the freon 7 changes its state to gaseous and enters the container 12 formed by the nozzle 11 and the conical perforated bottom 8 of the tank 1 with silica gel 2, saturating the powder. A command is issued to trigger the pyrotechnic-type gas generator 9, while in the tank 1 the required pressure is provided to displace silica gel. 2. At the same time, a command is given to supply high-pressure gas to the inlet of the ejector 3. Due to the increase in pressure in the tank 1, the cap 13 is ejected from a narrow section of the ejector 3. Thereafter, high pressure gas is supplied to the annular a chamber with a slit, an ejector nozzle 3 accelerates the movement of the drip in the ejector, ensuring its departure. In the process of removing the powder from the tank 1, it is saturated with the vapors of freon 7. This is ensured by supplying gaseous freon through the porous conical surface of the bottom 8. In the proposed device, the pseudo-liquefaction of silica gel 2 in the tank 1 can be performed through a perforated partition 10 by opening the valve of the high-pressure gas system 4. Invention Formula A fire extinguishing installation containing a silica gel tank, an ejector at the outlet of the tank, a high-pressure gas system and connecting pipes with valves; characterized in that, in order to increase the efficiency of fire extinguishing, it includes a tank with freon, and a tank with The silica gel is made with a conical perforated bottom and contains a pyrotechnic type gas generator introduced into the installation and a perforated partition, and the installation is equipped with a nozzle adjacent to the silica tank from the perforated bottom and forming a capacitance with the last, fitted with an extractor plug installed in the ejector, and the last one installed. the heater of the pipeline, and the tank with freon is connected by means of a heated pipeline to the tank formed by the nozzle and the tank with silica gel. t-cz to  x