RU2419474C1 - Installation of modular fire-fighting equipment - Google Patents

Abstract

FIELD: fire-fighting equipment.

SUBSTANCE: container with fire-fighting agent is attached with brackets to building structure of the premises and is equipped with a devise of discharge of gas phase, combined with measuring probe for extinguishing liquid, and stop-starting device of electromagnetic type, which is connected with a tube for input of the fire-extinguishing liquid into the foam generator, which includes the output nozzle with a conical diffuser chamber and the centrifugal swirler of compressed air flow and fluid flow, made in the form of a cylindrical sleeve within which a cylindrical chamber for mixing and formation of air-mechanical foam is coaxially located to the outer surface of the sleeve. Output of the mixing chamber is connected to an input of a coaxially placed conical diffuser chamber and the compressed air enters the centrifugal swirler and mixing chamber through the duct of a turbocharger, a signal for which comes to switch-on together with a signal to activate the automatic stop-start device from the control unit of fire-extinguishing system, and to provide automatic fire-fighting mode LSD and turbocharger are connected electrically via a control unit to smoke detectors. The cylindrical sleeve is provided with an axial throttling channel connected to a fluid supply tube, formed in its end wall, and contains at least three tangentially directed channels formed in its side wall. Submission of air-mechanical foam is carried out into the central conduit, and then to a nodal point of the distribution network, and through the distribution network - to all the irrigators.

EFFECT: improving efficacy of fire-fighting.

1 dwg

Description

The invention relates to fire fighting equipment.

A known fire extinguishing installation (Recommendations for the design of an automatic sub-layer fire extinguishing system in reinforced concrete tanks and steel vertical tanks with a fixed and floating roof at the facilities of Transneft, Moscow, 1996, p. 20, fig. 7; p. 23, p. 23 .10), in which the fire is extinguished by means of the vessel in which the extinguishing agent is stored, and connected to a starting gas cylinder (prototype).

A disadvantage of the known system is the relatively low fire extinguishing efficiency.

The technical result is an increase in the efficiency of fire fighting through the use of high-foam.

This is achieved by the fact that in a modular fire extinguishing installation containing a vessel in which the extinguishing agent is stored, the vessel in which the extinguishing agent is stored is attached by brackets to the building’s building structure and is equipped with a gas phase discharge device combined with a measuring probe for the extinguishing agent and a locking-starting device, a device, for example, of an electromagnetic type, which is connected by a pipe to a pipe for introducing extinguishing liquid into a foam generator, which includes an output a nozzle with a conical diffuser chamber and a centrifugal swirl of compressed air flow, made in the form of a cylindrical sleeve, inside of which there is a cylindrical mixing chamber coaxially to the outer surface of the sleeve, where an air-mechanical foam is formed, the outlet of which is connected to the inlet of the coaxially located conical diffuser chamber, and the compressed air enters the centrifugal swirl and mixing chamber through the duct from the turbocompressor, the signal for the inclusion of which comes simultaneously with the signal on the the locking and starting automatic device is removed from the fire extinguishing system control unit, moreover, to ensure automatic fire extinguishing mode, the switchgear and the turbocharger are electrically connected through the control unit to smoke detectors, and the cylindrical sleeve, which serves as a centrifugal swirl of the liquid flow, is made with an axial throttling channel connected to the tube the fluid supply formed in its end wall, while the sleeve contains at least three tangentially directed channels, formed in the side wall of the sleeve, with the supply of the resulting air-mechanical foam to the central pipeline, and then to the nodal point of the distribution network, and through the distribution network to all sprinklers, each sprinkler or block of sprinklers is provided with an orientation device in one or two planes.

The drawing shows a diagram of the installation of modular fire extinguishing.

Installation modular fire extinguishing contains a vessel 1, which stores a fire extinguishing liquid. It is attached by brackets 3 to the building construction 4 of the room and has a device for dumping the gas phase 2, combined with a measuring probe for extinguishing agent. The vessel 1 is equipped with a locking-starting automatic device 5 (ZPU), for example, of an electromagnetic type, which is connected by a pipe 6 to a tube 13 for introducing extinguishing liquid into a foam generator 14, which includes an output nozzle 19 with a conical diffuser chamber 21 and a centrifugal flow swirl compressed air, made in the form of a cylindrical sleeve 15, inside of which a cylindrical mixing chamber 18 is located coaxially to the outer surface of the sleeve, the outlet of which is connected to the inlet coaxially located conically oh diffuser chamber 21. Compressed air enters the centrifugal swirl and mixing chamber 15 through the duct 8 from the turbocharger 7, the signal for the inclusion of which comes simultaneously with the signal for the inclusion of the shut-off and automatic device 5 from the control unit 9 of the fire extinguishing system. To ensure automatic fire extinguishing, the ZPU 5 and the turbocharger 7 are electrically connected via a control unit 9 to smoke detectors 10, 11, 12. A cylindrical sleeve 15, which performs the function of a centrifugal swirl of the fluid flow, is made with an axial throttling channel 16 connected to the fluid supply pipe 13 and formed in its end wall. The sleeve 15 contains at least three tangentially directed channels 17 formed in the side wall of the sleeve 15.

The resulting air-mechanical foam is supplied to the central pipeline 23, and then to the nodal point of the distribution network and through the distribution network 29 to all sprinklers 26. Each sprinkler 26 or sprinkler block 27 is provided with an orientation device 28 in one or two planes.

Installation modular fire extinguishing works as follows.

If a fire occurs in the protected room (not shown in the drawing), the detectors 10, 11, 12 provide a signal to the control unit 9, which, in turn, generates an electrical impulse to open the switchgear 5 and turn on the turbocharger 7.

The liquid displaced from the tank 1 by compressed gas enters through an open locking and starting device 5, a tube 13 and an axial throttling channel 16 into a cylindrical mixing chamber 18 of a centrifugal swirler. In addition, when the turbocharger 7 is turned on, compressed air is supplied to the cylindrical cavity 22 of the foam generator 14, which forms a vortex air flow entering the mixing chamber 18 through the tangential channels 17. In the mixing chamber 18, the vortex air flows with the liquid to form a foam, which It is a dispersed system, where air bubbles are enclosed in thin shells of a non-combustible liquid (aqueous solutions of salts, acids, surfactants). The extinguishing effect of the foam is based on the isolation of the surface of the burning liquid from oxygen in the air and heated combustible vapors released from the surface of this liquid. Foam not only dramatically reduces the evaporation process, but also cools the surface of the burning liquid. Air-mechanical foam is formed by mechanical mixing of air and a surfactant (foaming agent PO-1 or PO-6). The air-mechanical foam contains about 90% (by volume) of air and 10% of an aqueous solution of a foaming agent. To extinguish fires, it is more efficient to use high-pressure air-mechanical foam, which contains about 99% (by volume) of air, 0.96% of water and about 0.04% of a foaming agent. The multiplicity of a conventional air-mechanical foam is 8 ÷ 12, and a multiple of 100 and more. Durability of air-mechanical foam from 20 to 40 minutes

Foam should be used when burning cotton fiber other poorly wettable fibrous materials. Foam is especially effective in extinguishing fires of flammable liquids (LVH), as well as combustible liquids.

Claims (1)

A modular fire extinguishing installation containing a vessel in which a fire extinguishing medium is stored, characterized in that the vessel in which a fire extinguishing liquid is stored is attached by brackets to the building structure of the room and is equipped with a gas phase discharge device combined with a volumetric probe for fire extinguishing liquid and an automatic shut-off and trigger a device, for example, of an electromagnetic type, which is connected by a pipe to a pipe for introducing extinguishing fluid into a foam generator, which includes an output nozzle with a conical diffuser chamber and a centrifugal swirl of compressed air flow, made in the form of a cylindrical sleeve, inside of which there is a cylindrical mixing chamber coaxially to the outer surface of the sleeve, where an air-mechanical foam is formed, the outlet of which is connected to the inlet of the coaxially located conical diffuser chamber, and the compressed air enters the centrifugal swirl and mixing chamber through the duct from the turbocompressor, the signal for the inclusion of which comes simultaneously with the signal on e shut-off and start-up automatic device from the fire extinguishing system control unit, and to ensure an automatic fire-extinguishing mode, the shut-off-start device and turbocharger are electrically connected through the control unit to smoke detectors, and the cylindrical sleeve serves as a centrifugal swirl of the fluid flow and is made with an axial throttling channel connected with a fluid supply tube formed in its end wall, wherein the sleeve contains at least three tangentially the channel formed in the side wall of the sleeve, the resulting air-mechanical foam is supplied to the central pipeline, and then to the nodal point of the distribution network and through the distribution network to all sprinklers, each sprinkler or block of sprinklers being provided with an orientation device in one or two planes.

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