SU1587217A1 - Line for conveying foam into fire focus - Google Patents

Abstract

The invention relates to the mining industry. The goal is to improve the quality of the transported foam by stabilizing its structure and ensuring control over the parameters of the foam. For this purpose, foam stabilizers are installed between the joints of the main pipeline (MT) 1 communicated with the foam generator. Each of them is made in the form of a helical blade 7 placed in a tubular case 3, fixed with a roller and rigid connections. In the roller is made through channel 5, connected by a branch pipe 8 through the valve 9 with the annular space. Part of the housing 3 is made with a diameter of large diameter MT 1, with the formation of the transition 11, in the lower part of which the cryogenic gasifier is installed. The latter is made in the form of a perforated sector collector 12 with nozzles. The latter are communicated through the inlet 13 with a source of cryoproduct. When foam is supplied through MT 1 to the fire source from the foam generator through taps 9 pipes 8 foam stabilizers take samples of foam passing through channel 5. In case of foam destruction or deterioration of its parameters, cryogenic product is fed through pipe 13 of the foam stabilizer 13 (for example , a liquid nitrogen). The latter enters the incoming flow of the frother solution through the nozzles 14 and ensures the formation of foam of the required dispersion. The foam is redistributed by means of a screw blade 7 and its quality is improved. 2 Il.

Description

The invention relates to the mining industry and can be used for transporting foam through pipelines laid in mine workings for | farther distances, for example, for extinguishing underground fires or for dust pressure.

I The purpose of the invention is to improve the quality of the Transported foam by stabilizing the AII of its structure and ensuring control over the Parameters of the foam.

: FIG. 1 shows a section of the main pipeline with a foam stabilizer installed between the ends of its links; 1 to FIG. 2 shows section A-A in FIG. one.

The pipeline for transporting foam consists of parts of pipes of the main pipeline 1, at the joints of which flanges are bolted 2, a tubular body 3 is installed, a foam stabilizer made in the form of fixed by means of a roller 4 with a through channel 5 and rigid connections 6, a helical blade 7 The through channel 5 is connected by a branch pipe 8, terminated by a valve 9, with the annulus.

Part 10 of the tubular body 3 is made with a diameter greater than the diameter of the main pipeline 1 with the formation of junction 11, in the lower part of which a cryogenic gasifier is installed in the form of a perforated sector collector 12. The latter is connected via a feed inlet 13 to a source of cryogenic product, for example with a source of liquid gas KAE-1 nitrogen (not shown), and with nozzles installed in the sector sewer manifold 12. The trunk pipeline is connected at the inlet to the foam generator (not

shown).

The pipeline operates as follows.

When preventing or extinguishing an underground fire in a spent space or a dead-end by means of foam using a foam method, a special foam pipe is laid to the work site or the existing main line is used for these purposes.

pipeline 1. in preparing it to work at the calculated distance from each other at the junction of the pipe joints, stabilizers of the foam structure are installed, the perforated sector collectors 12 are connected through nozzles 13 to the source of liquid

nitrogen.

To obtain foam, a foam generator (not shown) is connected to the pipeline 1 at a safe distance from the emergency section and the foam formed is injected into the fire department under pressure. The quality of the supplied foam is periodically monitored at the installation sites 5 of the foam stabilizers, for which the valve 9 is opened and a sample is taken through the outlet 8. In case of foam collapse or deterioration of its structure, sector collector 12 is fed through pressure pipe 13 with liquid nitrogen under pressure, which, when released into the sector collector, is separated by an aqueous stream of foaming agent, due to intensive heat exchange with it. with the formation of a large amount of finely cellular foam structure. Lastly, the meeting on its way of the screw blade 7, is rotated by 180, and is mixed with the gas phase released as a result of foam collapse in the upper part 30 of the pipeline. The result is a qualitative redistribution of foam flow.

The invention makes it possible to increase the multiplicity of the foam with adjustment in a wide range as compared with the initially obtained in the foam generator, to improve its structure and, consequently, to increase the possible range of its transportation and 40 quality of the foam.

formula and inventions Pipeline for transporting foam to the fire center, including the main pipeline, between the joints of which foam stabilizers are installed, each of which is made up of a helical blade fixed with a roller and rigid links placed in a tubular body with an inlet orifice, and conductive pipe connected to gas nozzles, characterized in that, in order to improve the quality of the transported foam by stabilizing its structure and ensuring control over the parameters of the foam, it wives gasifier kriopro- product that has a perforated sector collector connected

with the inlet pipe, at that part of the tubular body is made with a diameter greater than the diameter of the main pipe: groove, the perforated sector collector is placed in the lower part of the tubular body from the side of the inlet at the junction with a larger diameter to a smaller one, connected by means of a tapping pat10 cabin with a valve with annular space.

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Claims (1)

Claim A pipeline for transporting foam to the fire, including a trunk pipeline, between the joints of which foam stabilizers are installed, each of which is made in the form of a screw blade mounted in a tubular housing with an inlet 5 and fixed with a roller and rigid connections, and a conductive pipe connected with gas supply nozzles, characterized in that, in order to improve the quality of the transported foam by stabilizing its structure and providing control over the parameters of the foam, it is equipped with a gasifier and product, made in the form of a perforated sector collector connected to the inlet pipe, while part of the tubular body is made with a diameter greater than the diameter of the main pipe; of the wire, the perforated sector collector is located in the lower part of the tubular body from the inlet side at the transition from a larger diameter to a smaller one, and a through channel is made in the roller, connected by a branch pipe to a crane with an annular space. Aa