SU740961A1 - Fire-extinguishing unit - Google Patents

Description

The invention relates to the field of mining and can be used in mines for extinguishing fires in blind workings.

A known installation for extinguishing fires, including carbon dioxide cylinders and a jumper through which carbon dioxide is supplied through pipes from the cylinders [1].

The disadvantage of this installation is that it does not allow to obtain a high concentration of carbon dioxide and to sharply reduce the oxygen content in the combustion zone.

Also known installation for extinguishing, fires, containing a jumper, cylinders with an extinguishing agent, a chamber with labyrinth channels and a blower [2].

The disadvantage of this installation is the low efficiency of extinguishing the fire, since it creates a flowing stream of air and does not provide filling with the extinguishing agent of the entire production volume.

The aim of the invention is to increase the efficiency of extinguishing a fire by creating directional circulation and gas-air flows.

This is achieved by the fact that the installation is equipped with a chimney located in the upper part of the jumper and a spray nozzle made in the form of a flat diffuser with a slit-like outlet and mounted p in the middle part of the jumper, and a chamber with labyrinth channels is placed in the lower part of the jumper, while spraying nozzles and a labyrinth chamber in parallel are connected to the extinguishing agent cylinders, and the blower is installed in the exhaust pipe with the possibility of providing suction ventilation.

The blower is made in the form of an ejector connected to cylinders with fire-extinguishing composition.

740,961

In FIG. 1 shows the proposed installation; in FIG. 2 - flat diffuser, front view; in FIG. 3 - diffuser, top view; in FIG. 4 - camera. With labyrinth channels in a section, top view; ₅ in FIG. 5 is the same side view; in FIG. 6 installation with a blower in the form of an ejector.

The installation consists of cylinders 1 filled under pressure with an extinguishing agent 10, lintel 2, blower 3, exhaust pipe 4 installed in the upper part of the lintel, spray nozzle 5, made in the form of a flat diffuser with a slit-like outlet from -. 15 versts, chambers 6 with labyrinth channels, located at the bottom of the jumper. The spray nozzles 5 and the chamber 6 are connected in parallel with the cylinders 1. To simplify the installation and increase the reliability of its operation by eliminating the rotating elements, the blower 3 for exhausting air can be made in the form. ejector. connected to cylinders 1. ²⁵

Installation works as follows.

The valves of the cylinders 1 open and the blower 3 is turned on. The spray nozzle 5 maintains ³⁰ extinguishing pressure of 400–600 kPa, and in the chamber 6, 100–200 Pa. 3 provides a blower suction air from top of the production of exhaust pipe, and the lower portion ³⁵ through the generation chamber 6 with labyrinth channels extinguishing agent flows from cylinders 1, the initial speed of which is quenched upon expansion chamber 6. Thereby decreases turbulent pereme- ⁰ sewing the extinguishing agent with the working air. Through the spray nozzles 5, through the slit-like outlet, the extinguishing agent is supplied from the cylinders 1 under high pressure, as a result of which ⁴⁵ it exits into the mine with a high-speed directed jet and separates the flows of sucked air and supplied to the lower part of the mine.

The use of the installation allows you to create a directed circulation of gas and air flows in the production, and in the area of the fire, to provide a high concentration of extinguishing composition with subsequent filling of the entire production volume, while significantly increasing the fire fighting efficiency.

Claims (2)

The invention relates to the field of mining and can be used in mines for extinguishing a fire in dead-end workings. A fire extinguishing installation is known, which includes carbon dioxide cylinders and a bridge through which carbon dioxide is fed through the pipes from the cylinders. The disadvantage of this installation is that it does not allow to obtain a high concentration of carbon dioxide and sharply reduce the oxygen content in the combustion zone. Also known is an installation for extinguishing, fires containing a jumper, cylinders with fire composition, chamber with labyrinth channels and blower 2. The disadvantage of this installation is the low efficiency of extinguishing the fire, so I as it creates a flowing stream of air and does not provide for the fire extinguishing composition to fill the entire volume of work. The purpose of the invention is to increase the effectiveness of extinguishing a fire by creating directional circulation and gas-air flows. This is achieved by the fact that the installation is equipped with a chimney located in the upper part of the jumper and a spray nozzle made in the form of a flat diffuser with a slit-like outlet and installed in the middle part of the jumper, and the chamber with labyrinth channels is placed in the lower part of the jumper, This expansion nozzle and labyrinth chamber are connected in parallel with bladders with an extinguishing agent, and the blower is installed in the exhaust pipe with the possibility of providing suction ventilation. The blower is made in the form of an ekkts, connected to cylinders with a fire-fighting composition. J74 Ha FIG. 1 shows the proposed installation in FIG. 2 - flat diffuser, front view; in fig. 3 - diffuser, top view; in fig. 4 - camera. With labyrinth channels in a section, top view; in fig. 5 - the same, side view; in fig. 6 installation with an ejector blower. The installation consists of cylinders 1 filled under pressure with an extinguishing agent, jumper 2, blower 3, exhaust pipe 4 installed in the upper part of the jumper, spray nozzle 5 made in the form of a flat diffuser with a slit-like outlet. version, camera 6 with labyrinth channels, located at the bottom of the sliver. The filling nozzles 5 and chamber 6 are connected in parallel with the cylinders 1. In order to simplify the installation and increase the reliability of its operation by eliminating the rotating elements, the blower 3 for air suction can be used. performed as. of an ejector connected to the cylinders 1. The installation works as follows. The valves of the cylinders 1 are opened and the blower 3 is turned off. In the pilot nozzle 5, the pressure of the extinguishing agent is maintained at 400,600 kPa, in chamber 6 100-2OO Pa. Air blower 3 sucks air from the upper part of the excavation through the exhaust pipe, and the lower part of the output through the chamber 6 with the labyrinth channels enters the fire-fighting composition from cylinder 1, the initial velocity of which is quenched when expanded in chamber 6. This reduces turbulent mixing fire extinguishing composition with air generation. The fire extinguishing composition is supplied from cylinders 1 under high pressure through the slotted nozzle 5 through a slit-like outlet, as a result of which it emerges into production at a high speed with a directed jet and separates the flows of sucked air and the fire extinguishing composition . The use of the installation allows the creation of a directional circulation of gas-air flows in the mine, and in the area of the fire source to ensure a high concentration of the fire extinguishing composition followed by filling it with the entire volume of the mine, thereby greatly increasing the fire extinguishing efficiency. Claims 1. An extinguishing installation, mainly in dead-end mining operations, including a bridge, fire-fighting cylinders with a chamber with labyrinth channels and a blower, characterized in that, in order to increase the efficiency of extinguishing a fire by creating a directed circulating gas flows, the installation is equipped with a chimney installed in the upper part of the jumper, and a hot air outlet, made in the form of a flat diffuser with a flipped outlet The labyrinth chamber is installed in the lower part of the bridge, while the spray nozzle and labyrinth chamber are connected in parallel with the fire-extinguishing cylinders and the blower is installed in the exhaust pipe with the possibility of providing a suction valve. 2. Installation under item 1, characterized in that the blower is completed in the form of an ejector connected to cylinders with a fire-extinguishing agent. Sources of information taken into account in the expropriation 1.Suharevsky V.M. Isolation of underground fires with the use of inert gases. M., Ugletekhizdat, 1952, s .. 122125. 2. USSR author's certificate number 334985, cl. And 69 - and oS, 1970 (prototype). x v vyx y / xv / xvyx y s s x y Phie 2 and fie.Z ..- J