SU1268176A1 - Apparatus for powder fire-fighting - Google Patents

Description

The invention relates to fire fighting equipment, in particular, to powder fire extinguishing installations, and can be used in the coal industry in extinguishing underground fires. The purpose of the invention is to improve the usability of the device. Figure 1 shows a powder fire extinguishing installation; in Fig. 2 a mixing chamber with a closed valve (nom, section; in Fig. 3, a mixing chamber with an open valve. The powder fire extinguishing device contains containers for fire extinguishing powder 1 and liquid nitrogen 2 connected through a siphon 3 and pipe 4 to supply nitrogen from the mixing tank By measure 5, the charge air evaporator 6 “. In addition, it has a lever 7, and the mixing chamber contains a valve 8 with a stem and a collector 9 with holes 10 against the powder flow and 10 holes; the lever is located outside the chamber and connected to the stem, and the collector with The nitrogen supply pipe serves as the valve seat. There is a spring 11 in the mixing chamber valve. The powder fire extinguishing device works as follows. In the initial state of the container with powder 1 and liquid nitrogen 2 is under pressure. The pressure in the tank with liquid nitrogen must be Bbmie than in the tank with powder. The valve 8 in the mixing chamber 5 is closed and rests on the valve seat with its surface, closes the outlet ports of liquid nitrogen from the manifold 9, and the outlet port of the powder from 1. To start the device, the lever, made in the form of a two-armed lever, is actuated, while the valve 8 is opened, opening the holes in the collector 9, as well as the outlet of the powder from the tank 1 "Pressurized gas mixture under pressure in the tank 1, through a siphon 3, it is retracted into the mixing chamber 5. At the same time, liquid nitrogen is fed from tank 2 through conduit 4 to collector 9 and from woolen 10, which are directed against the flow of powder. Liquid nitrogen, the exit from the reservoir holes in the form of jets, penetrates the powder flow, there is an intensive mixing of the powder flow and liquid nitrogen and, thus, an intensive heat exchange between the powder and liquid nitrogen. The cooled powder is supplied to the fire with the use of additional energy of the vaporized nitrogen gas. Thus, the valve and the manifold, placed in the mixing chamber, allow to simultaneously close and open two streams — the powder stream and the liquid nitrogen stream — and thereby control the two streams with one lever, which increases the ease of operation and control of the device. the design of the mixing chamber allows for more intensive evaporation of liquid nitrogen by directing the flows into the countercurrent or cross-current, cooling the powder during its residence in the mixing chamber, thus Therefore, to improve efficiency and increase the distance of powder transportation to the fire. Formula for obtaining a fire extinguishing powder device containing tanks for fire extinguishing powder to liquid nitrogen, connected through a siphon and a pipeline for supplying nitrogen to the mixing chamber, an evaporator of pressurization, characterized in that, in order to be easy to operate, a valve is placed in the mixing chamber with a rod connected to a lever brought out of the Chamber, and a manifold with anti-powder holes, connected to a liquid nitrogen supply pipeline and serving as a valve seat.

Claims (1)

35 claims A powder fire extinguishing device containing containers for fire extinguishing powder and liquid nitrogen, 40 connected via a siphon and a pipe flow of nitrogen supply water with a mixing chamber, a boost evaporator, characterized in that, in order to improve ease of use, a valve with a stem is placed in the 45 mixing chamber, connected to a lever outside the chamber, and a collector with openings directed against the powder flow, connected to a liquid nitrogen supply pipe and serving as a valve seat.