RU17059U1 - PIPELINE FOR TRANSPORTING FOAM ON UNDERGROUND MINING WORKS INTO THE FIRE OF THE FIRE - Google Patents

Abstract

1. A pipeline for transporting foam through underground mine workings to a fire, including interconnected sections of the foam pipes and a foam generator, made in the form of a screw blade with a longitudinal roller and a through channel placed along the blade contour and equipped with nozzles in communication with the channel, one of the rigid connections of the screw blade is made in the form of a rod with a gas supply channel and is equipped with a nozzle, characterized in that the second of the fastening connections of the screw blade is also made with a through channel and with It is connected with a tubular roller of a helical blade, which is additionally equipped with spray nozzles and has an inlet pipe for supplying a foaming agent with an aerosol of fire extinguishing flame retardant, for example, Freon 114B2.2. The pipeline according to claim 1, characterized in that the longitudinal roller along the axis and the contour of the helical blade redistribution of the gas phase and the saturation of the foam flow are made elastic. The pipeline according to claim 1 or 2, characterized in that the lower screw intake vane with gas nozzles has a larger pitch.

Description

PIPELINE DAY TRANSPORT1: RESPONSE

ON SUBMITTED BY MOUNTAIN DRILLER

in the center of fire

A useful pipeline model relates to the mining industry and can be used to transport foam through pipelines laid in mine workings over long distances, for example, to extinguish underground fires in dead-end mine workings.

The pipeline D1ya is known for transporting foam through underground mine workings to a fire, including a foam generator, interconnected pipe links, in the joints of which foam structure stabilizers are installed, made in the form of a screw lobster with a screw pitch and fixed by means of a roller, rigid connections and bolted joints provides an increase in the range of transportation of the foam by maintaining the multiplicity and stability of the foam (ed. certificate. USSR No. 810990, class E 21 P 5/00, 1977).

However, for large lengths of the foam pipe, foam structure stabilizers installed in the pipe joints through separate grooves of its length in the form of a screw lobster stabilize the foam flow only partially, since part of the already formed liquid phase (foam syneresis) manages to drain along the walls when passing through the screw blade of the stabilizer foam pipe, moreover, © accumulates during further transportation

Known pipeline for transporting foam., Made in addition to autosvid. L 810990, where the helical blade is made with a through channel placed along its contour, and is equipped with nozzles in communication with the channel, while one

E 21 P 5/00 A 62 C 5/00

of rigid connections it is made in the form of a fennel with a gas supply cable and is equipped with an inlet and outlet assembly (autoswitch.SSSR X 1016534, class E 21 P 5/00, A 62 C 5/00, 1982).

A disadvantage of the known device is the insufficient degree of increasing the efficiency of the stabilizing structure of the foam stream due to the non-satisfactory redistribution of its structure

The purpose of the useful dividend is to increase the range of transportation of foam through underground pipelines by increasing the redistribution of the structure of the foam stream by additionally incorporating a nozzle into the system and supplying an additional foaming agent or IIFC2 freon inhibitor along the longitudinal roller of the screw blade, which expands the scope of the transport pipeline.

The goal is achieved by the fact that the utility model proposed by improving the well-known pipeline, with its combination of distinctive features specified in the paragraphs of formulas I ... 3, expands the scope of its application and allows achieving the possibility of mounting a screw elastic blade for redistributing the gas phase and saturating the foam flow long-distance main fire-and-irrigation pipeline of a dead-end production mine without large extension in length at the joints of pipes15.

The drawing shows a section of the main pipeline,

equipped with an elastic stabilizer redistribution of foam flow.

The foam shower pipeline consists of pipe links I of the main pipeline at the joints of which a screw elastic blade 3 is installed between the flanges 2 with a screw pitch of 180, fixed by means of a flexible tubular roller 4, rigid couplings 5 and a bolted connection. At the same time, at least two rigid ties fastening in the joints of pipes I are equipped with nozzles 6 and 7 for supplying a gaseous product, a foaming agent

and various fire extinguishing antishrogey. The nozzles 6 and 7 have gas supply channels 8 and 9 of the shh channel 8 of the screw blade 3 is equipped with nozzles 19, and the tubular channel 9 has spray nozzles II of the exit of the foaming agent or flame retardant, which can be used as coolants II4B2. The nozzles 6 and 7 are provided with check valves 12 and 13 "

The pipeline works as follows.

During the prevention or extinguishing of an underground fire in a long-distance dead-end mining or in the worked-out space of a formation in a fire-irrigation pipe or slurry line, air duct, degassing pipeline, etc. with a small degree of bifurcation of the pipes, foam structure stabilizers are installed at the joints of the pipe links, and inert gas and foaming agent (or additional flame retardant) are connected through nozzles 6 and 7.

To pump inert foam under pressure to the pipeline at a safe distance from the emergency section, connect a foam generator and feed it into pipeline I (not shown). The foam formed during the generation process is injected under pressure into the emergency section. By its physical nature inherent in gas-liquid systems, the foam is unstable and from the moment it is received, spontaneous processes occur in it, leading to destruction.

As a result, at a certain section of its transportation through the pipeline, its structure changes. The change is associated with fluid swelling in the interbubble films and thinning of the films. The films become so thin that the structural strength of the foam decreases sharply, while in the upper part

a light foam forms in the flow, and in the lower one it is denser with the liquid phase of the foaming agent solution (foam syneresis).

foam stream about the connection of a gas inert gas source to the pipe 6 and an additional foaming agent to the shower pipe 7 redistribution of the processes of destruction of the foam stream and its saturation flame retardant.

Encountering an installed stabilizer on its way, the foam passes through the expanded suction channel of the screw blade 3 and turns to be heavier and denser in the upper part of the pipeline and envelops the bubbles of foam, increasing the thickness of the films.

In addition, the liquid phase, passing along the peripheral helix, additionally enters the spray zone of the gas stream. The flow of gas through the pipe 6 provides

active dispersion of the foam stream and the complete redistribution of the remaining heavy phase of the foam into an equally dispersed structure,

those. a qualitative redistribution of the foam flow occurs, its multiplicity increases and ei transportability improves.

An additional effect of the foam flow is achieved by supplying a foaming agent or flame retardant through the pipe 7, while the redistribution and full saturation of the foam flow along the entire length of the screw blade, through the spray nozzles II.

The proposed utility model of the pipeline for transporting foam allows, to a better extent, compared with those known in practice, to increase the multiplicity of the foam, to improve its transportability, to ensure the stability of its structure, which increases the range of transportation and the speed of its impact on the fire. Leading Patente Authors: M.A. Chernova. Chuprikov. Fedchenko. Popov A.S. Golik

Claims (3)

1. A pipeline for transporting foam through underground mine workings to a fire, including interconnected sections of the foam pipes and a foam generator, made in the form of a screw blade with a longitudinal roller and a through channel placed along the blade contour and equipped with nozzles in communication with the channel, one of the rigid connections of the screw blade is made in the form of a rod with a gas supply channel and is equipped with a nozzle, characterized in that the second of the fastening connections of the screw blade is also made with a through channel and with It is connected with a tubular roller of a helical blade, which is additionally equipped with spray nozzles and has an inlet pipe for supplying a foaming agent with an aerosol of fire extinguishing flame retardant, for example, Freon 114B2.  2. The pipeline according to claim 1, characterized in that the longitudinal roller along the axis and the contour of the screw blade redistribution of the gas phase and the saturation of the foam flow are made elastic. 3. The pipeline according to claim 1 or 2, characterized in that the lower screw intake vane with gas nozzles has a larger pitch.