RU2651223C1 - Automatic fire-fighting system - Google Patents

Abstract

FIELD: fire safety equipment.

SUBSTANCE: this is achieved by the fact that in an automatic fire extinguishing system containing a vessel in which the extinguishing agent is stored, a starting cylinder with a working gas, a network of pipelines with sprinklers, the vessel is fixed by brackets to the building construction of the room and has a gas phase relief device combined with a measuring probe for the extinguishing agent, and is equipped with a vortex-type gas-liquid mixture forming device which is made in the form of a conical mixing chamber with a tangential inlet at the top, by means of a flexible high-pressure hose, working gas to the vessel from the starting cylinder, while the supply of the extinguishing agent is carried out along a vertical branch pipe coaxial with the axis of the conical chamber, and the gas-liquid mixture supply to the central pipeline is carried out from the lower part of the chamber connected to the extinguishing agent discharge device combined with a safety valve, wherein the mixing chamber vertical branch pipe is connected to the fire extinguishing agent filling device and the pressure indicator, and starting cylinder is located close to the fire-extinguishing agent container and equipped with stop-starting device of electric or thermal mechanical start, and each distribution network node includes a gas-liquid mixture distribution device, wherein when dividing the flow into two directions, a standard tee is used, and when the flow is divided into three or more directions, the distribution device of a special design is used, for example a chamber type, and every sprinkler or unit of sprinklers is equipped with orientation device in one or two planes.

EFFECT: technical result is faster operation of fire extinguishing system.

1 cl, 2 dwg

Description

The invention relates to fire fighting equipment.

Known automatic fire extinguishing system containing a vessel in which a fire extinguishing substance is stored, a starting gas cylinder with working gas, a network of pipelines with sprinklers according to the patent of the Russian Federation No. 2413555, class. A62C 35/00, (prototype).

A disadvantage of the known system is the relatively low speed.

The technical result is an increase in the speed of the fire fighting system.

This is achieved by the fact that in an automatic fire extinguishing system containing a vessel in which a fire extinguishing agent is stored, a starting gas cylinder with a working gas, a network of pipelines with sprinklers, the vessel is attached by brackets to the building’s building structure and has a gas phase discharge device combined with a measuring probe for a fire extinguisher substances, and is equipped with a device for forming a gas-liquid mixture of a vortex type, which is made in the form of a conical mixing chamber with a tangential input in the upper part, made in the form of a flexible high pressure hose connected to a starting cylinder filled with a working gas (for example, nitrogen or CO ₂ ), and the gas-liquid mixture is supplied to the central pipeline from the lower part of the chamber connected to the fire extinguishing agent drain device combined with a safety valve, while the nozzle of the mixing chamber is connected to the device of the fire extinguishing agent and pressure signaling device, and the launch cylinder is located next to the container for the extinguishing agent and is equipped with a locking and starting device by electric or thermomechanical start-up, and each node of the distribution network includes a gas-liquid mixture distribution device, and a standard tee is used to divide the flow into two directions, and a special design distribution device, for example, a chamber type, is used when the flow is divided into three or more directions the sprinkler or sprinkler unit is provided with an orientation device in one or two planes.

In FIG. 1 is a diagram of an automatic fire extinguishing system, FIG. 2 - embodiment of irrigators 14, 15.

An automatic fire extinguishing system contains a vessel 1 in which a fire extinguishing agent is stored. It is attached by brackets 18 to the building building structure 19 and has a gas phase discharge device 5, combined with a measuring probe for extinguishing agent.

In standby mode in the vessel 1 for the extinguishing agent there is no excess pressure. The vessel 1 is equipped with a device 2 for forming a gas-liquid mixture of a vortex type, which is made in the form of a conical mixing chamber with a tangential inlet in the upper part, made in the form of a flexible hose 9 of high pressure, connected to a starting cylinder 7 filled with a working gas (for example, nitrogen or CO ₂ ) The extinguishing agent is supplied through a vertical pipe (not shown in the drawing), coaxial with the axis of the conical chamber of the gas-liquid mixture forming device 2, and the gas-liquid mixture is supplied to the central pipe 11 from the lower part of the chamber connected to the extinguishing agent discharge device, combined with a safety valve four.

The vertical branch pipe of the chamber is connected to the device 3 of the extinguishing agent and pressure alarm 6. For centralized installations, the alarm device about the operation of the installation is determined by the project.

The working gas for modular installations is stored in the launch cylinder 7, located next to the container for the extinguishing agent, which is equipped with a locking and starting device 8 of electric or thermomechanical starting.

The bracket 10 is used to mount the cylinder to the building structure. For centralized installations, the working gas is stored in a working gas battery, the composition of which is determined by the project and is not part of the module.

When triggered by the ZPU on the starting cylinder 7, the working gas enters the device 2 for forming a gas-liquid mixture and provides a gas-liquid mixture of the desired concentration. Formed gas-liquid mixture through the Central pipeline 11 enters the nodal point of the distribution network.

To ensure the supply of a gas-liquid mixture of optimal concentration to all sprinklers 14, each distribution network node 17 must include a gas-liquid mixture distribution device, and when dividing the flow in line 20 into two directions, a standard tee 12 is used, and when dividing the flow into three or more directions, the distribution device of a special design 13, for example, chamber type

Each sprinkler 14 or block of sprinklers 15 is equipped with an orientation device 16 in one or two planes.

Automatic fire extinguishing system operates as follows.

When triggered by the ZPU on the starting cylinder 7, the working gas enters the device 2 for forming a gas-liquid mixture and provides a gas-liquid mixture of the desired concentration. Formed gas-liquid mixture through the Central pipe 11 enters the nodal point of the distribution network, and then through the distribution network 17 to all sprinklers 14. Each sprinkler 14 or sprinkler block 15 is equipped with an orientation device 16 in one or two planes.

A feature of this system is the use of a gas-liquid mixture, which is supplied to the sprinklers of the installation via one pipeline, which greatly simplifies the installation scheme, its installation and operation.

The dispersion efficiency of the liquid is ensured by the following features and technologies: the outflow from the sprinklers of the gas-liquid mixture previously obtained in the special device 2. This allows at low pressures (0.3-1.0) MPa to obtain a high droplet velocity (up to 200 m / s), which contributes to their effective crushing; creating a special vortex flow regime of the gas-liquid mixture at the inlet to the sprinkler 14 using a conical mixing chamber with a tangential inlet.

The sprinkler 14 is made in the form of a drencher (Fig. 2), comprising a housing made in the form of a central sleeve 22 with an external hexagonal and internal cylindrical surfaces, while an internal thread is made on the two end sides of the central sleeve 22, and is mounted axisymmetrically to one of the end sides , by means of a lock nut 25, a supply pipe 26, and to the other, a spray element made in the form of a sleeve 21, the inner diameter of which is equal to the internal diameter of the supply pipe 26. To the sleeve 21 by means of arcs 27, located GOVERNMENTAL along a conical surface mounted socket 28, which is a part of a spherical surface 31 bounded by the inner and outer hemispheres, and having a «s» thickness. The center of the hemisphere lies on the line connecting the axis of the central sleeve 21 and the axis of the inlet pipe 26. At least three grooves 29 are made on the spherical surface 31 from its outer side, the axes of which are located on the lines radial with respect to the hemisphere, and in the peripheral part of the hemisphere, at least three throttle holes 30 are made, the centers of which lie in a plane parallel to the diametrical plane of the hemisphere, which is perpendicular to the axis of the inlet pipe 26.

An axisymmetric to the spraying element is a blocking valve made in the form of a ball 24 fixed by a spring 23 located inside the central sleeve 22 to a conical surface 32 made at the end of the inlet pipe 26 facing the spraying element. In the lateral surface 33 of the central sleeve 22 with the external hexagonal and internal cylindrical surfaces, there are made at least three throttle openings 34 inclined towards the socket 28, whose axes intersect at a point lying on the axis of the central sleeve 22, and make an acute angle with this axis in the plane of the drawing.

Drencher works as follows.

In the initial state, the spring 23 presses the ball 24 to the inlet pipe 26 to ensure tightness and the exclusion of fluid leakage from the distribution pipe. When excessive pressure occurs from the main pipeline with a pressure of 4 ÷ 10 atmospheres, the latter squeezes the ball 24 with compression of the spring 23, and the fluid flow rushes in two directions: the first through the throttle holes 34, the axes of which intersect at a point lying on the axis of the central sleeve 22, and the second to the spray element 28, creating a water curtain.

When adjusting in the case of spontaneous drainage of the fluid by rotation of the sleeve 22, the spring 23 is compressed with an increase in the tightened ball 24 until the supply pipe 26 completely overlaps and ensures tightness. The final position of the sleeve is fixed with a lock nut 25. If there is no drainage from the sprinkler, the latter is adjusted by rotating the sleeve 2 in the opposite direction with the spring 23 expanding, reducing the pressed ball 24, the appearance of a fluid duct and the subsequent slight twisting of the sleeve 22 until the central opening of the inlet pipe 26 is completely closed. Finally, the position of the sleeve is fixed with a lock nut 25. The drencher allows you to irrigate 6-36 m ^{2 of the} area of the room. Instead of water, a foaming agent solution may be used as a fire extinguishing agent. It is possible to use with the following types of extinguishing agent: water, aqueous solutions, foam. The multiplicity of the foam is 13.2%, the concentration is 3%. As a foaming agent in such fire extinguishing systems, a fluorosynthetic foaming agent of the "Multipena" type is used. It also works on a 6% aqueous solution of fluorinated foaming agent "Sublayer" in the conditions of smoke in the room.

It is possible that at least three throttling holes 34 inclined toward the outlet 28, made in the side surface 33 of the central sleeve 22 with external hexagonal and internal cylindrical surfaces, are screw-cut, and the direction of the screw thread in the throttling holes 34 is made with alternating left and right directions, and the cross section of arcs 27 located on a conical surface and connecting the sleeve 21 to the socket 8, is made profile, for example screw, to increase defects fine atomization foaming solution.

Claims (1)

An automatic fire extinguishing system containing a vessel that stores a fire extinguishing substance, a starting gas cylinder with a working gas, a network of pipelines with sprinklers, the vessel is attached by brackets to the building’s building structure and has a gas phase discharge device combined with a measuring probe for a fire extinguishing substance and is equipped with a forming device gas-vortex-type mixture, which is made in the form of a conical mixing chamber with a tangential inlet in the upper part, made in the form of a flexible hose of high pressure I connected to the trigger cylinder filled with a working gas (e.g. nitrogen or CO _2), and feed-liquid mixture into a central duct made from the bottom chamber connected to a drain of extinguishing agent, combined with a safety valve, wherein the vertical mixing chamber pipe connected with a device for filling the extinguishing medium and a pressure signaling device, and the launch canister is located next to the container for the extinguishing agent and is equipped with an electric or thermomechanical start-up, and each node of the distribution network includes a gas-liquid mixture distribution device, and when dividing the flow into two directions, a standard tee is used, and when dividing the flow into three or more directions, a special design distribution device is used, for example, a chamber type, and each sprinkler or sprinkler unit equipped with an orientation device in one or two planes, the sprinkler is made in the form of a drencher containing a housing and a spray device, the housing is made it is in the form of a central bushing with an external hexagonal and inner cylindrical surfaces, with an internal thread being made on the two end sides of the central bushing, moreover, the inlet pipe is axially symmetrically attached to one of the end sides by means of a lock nut, and the spraying element is made to the other bushings, the inner diameter of which is equal to the inner diameter of the inlet pipe, and to which, through arcs located on a conical surface, a socket is attached, which is part of a spherical a surface bounded by the inner and outer hemispheres, with the center of the hemisphere lying on the line connecting the axis of the central sleeve and the axis of the inlet pipe, and at least three grooves are made on the spherical surface from its outer side, the axes of which are located on the radial with respect to the hemisphere of the lines, and in the peripheral part of the hemisphere, at least three throttle openings are made, the centers of which lie in a plane parallel to the diametrical plane of the hemisphere, which is perpendicular to the axis of the feed a tube, moreover, an axisymmetric spray element has a blocking valve made in the form of a ball fixed by a spring located inside the central sleeve to a conical surface made at the end of the inlet pipe facing the spray element, and in the side surface of the central sleeve with an external hexagonal and internal cylindrical surfaces made of at least three inclined toward the outlet, throttle holes whose axes intersect at a point lying on the central axis of the sleeve, and make an acute angle with this axis in the plane of the drawing, and the cross section of arcs located on the conical surface and connecting the sleeve with a socket is performed with a profile to increase the effect of fine spraying of the foaming agent, characterized in that at least three inclined toward the outlet, throttling holes made in the side surface of the Central sleeve with an external hexagonal and inner cylindrical surfaces, perform with a screw thread, and the direction screw cutting in throttling holes is performed with alternating left and right directions.

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