SU1595538A1 - Installation for fire-extinguishing with powder - Google Patents

Abstract

A fire extinguishing installation as a powder relates to a fire extinguishing technique using powder and makes it possible to increase the reliability of fire extinguishing. The installation contains additional tanks 13 and 14 for powder, communicated by means of electro-valves 24,25,26,27 with feed tank 1 by source 21 of compressed gas. Limit switches 30 and 31 when exposed to the piston 2 provide a cyclic powder supply to the fire through the nozzles 9 and 10 of the supply tank. 2 Il.

Description

The invention relates to fire engineering, in particular, to devices for feeding powdered materials to a fire site, and can be used in industrial pneumatic conveying systems in which fine particulate material is moved.

The aim of the invention is to improve the reliability of extinguishing fires by providing a continuous supply of powder.

FIG. T shows a device for the supply of fire extinguishing powder in the fire, general view; in fig. 2 - limit switch.

The device includes a supply tank 1 with two working volumes A and B separated by a piston 2 with a sealing ring 3. The ends 4 and 5 of the tank are hemispherical and are separated from the cylindrical part by perforated partitions 6. At each end, holes 7 and 8 are made into which nozzles are inserted 9 and 10, at the outlet of which solenoid valves 11 and 12 are installed. The device also includes two additional tanks 13 and 14 for powder. The outputs of these tanks through the pipes 15 and 16

with electrically controlled valves 17 and 18, they are connected to openings 19 and 20 in the made bottoms 4 and 5 and are connected to the volumes A and B of the tank, respectively. The device also includes a source 21 of compressed gas, which through valve 22 and reducer 23, as well as through valves 24-27, is connected to cavities 28 and 29 of the supply tank 1 and to gas cavities of additional tanks 13 and 14. Limit switches 30 are installed on perforated partitions 6 and 31, including the rod 32 and the electrocontacts 33. In this case, the electrocontacts of the switches 30 and 31 are included in the supply circuit of the solenoid valves 17 and 18.

The device works as follows.

The piston is, for example, in the extreme right position, i.e., volume A is completely filled with fine powder. Upon Start command, valve 22 opens and high-pressure gas from cylinder 21 through reducer 23 enters the lines containing valve 24 and 27. After that valve 24 opens and gas enters cavity A of the working tank through perforated

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partition 6. At the same time, in this volume of the tank, the fluidization of the powder occurring in it occurs. Next, the flow valve 11 is opened and the fluidized powder flows out of the volume A. After the piston has moved away from its extreme position, the end is triggered; begins to flow into volume B. In this case, the pressure in cavity B must be greater than the pressure in cavity A. Thus, when piston 2 moves from the right position to the left I, a simultaneous emptying of cavity 1 and filling n Rays In new portions of powdered material. At the approach of the piston in the extreme left position, the flow valve 11 of the gas valve 24, the flow valve 18 to open the valve 17, the valve 26 and the flow valve 12 closes. As a result, the fluidized powder flows out from the cavity B through the right pipeline and the valve 12.

The installation allows to significantly increase the time of continuous operation of the fire extinguishing system. Additional tanks with powdered material are larger in volume than the supply tank, due to which multi-cycle plant operation from one start-up is achieved, which allows to increase the reliability of fire extinguishing.

Claims (1)

Invention Formula A powder fire extinguishing installation containing a cylindrical feed tank with a piston installed in it, an exhaust pipe installed at one end of the tank, a source of compressed gas associated with an automatic system for supplying gas to the feed tank, in order to improve the reliability of fire extinguishing fire by providing a continuous supply of powder, it has two powder containers communicating with the cavity dp of alternately feeding the supply tank from its opposite ends, and limit switches, associated with an automatic gas supply system, while the supply tank is made with an additional outlet nozzle located on its other end, and both ends of the tank are hemispherical and separated from its cylindrical part by perforated partitions, while the source of compressed gas is connected with additional capacities powder, and the limit switches are set to perforated bulkheads for alternating contact with the piston. 9 12 Fig1