RU2450841C1 - Method of fire-quenching and device for its realisation - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: vessel, where a fire-quenching substance is stored, is fixed with brackets to a building structure of a room and is equipped with a gas phase discharge device and a device of gas-liquid mixture generation. The generated gas and liquid mixture is sent along a central pipeline to an assembly point of a distributor network, and then via a distributor network to all irrigators, besides, each irrigator or a unit of irrigators is equipped with a device of alignment in one or two planes, and the gas-liquid mixture is supplied via a central tee to each irrigator arranged as capable of controlling the diameter of a gas-water torch and dispersion of its particles.

EFFECT: improved efficiency of a fire-quenching device and effectiveness of gas-liquid mixture spraying.

2 dwg

Description

The invention relates to fire fighting equipment.

A known fire extinguishing method according to the patent of the Russian Federation No. 2394619, using a gas-liquid mixture, which is carried out by means of a vessel in which a fire extinguishing substance is stored, and connected to a starting gas cylinder with a working gas (prototype).

The disadvantages of the known system are the relatively low speed and efficiency of spraying a gas-liquid mixture.

The technical result is an increase in the speed of the fire extinguishing system and the efficiency of spraying a gas-liquid mixture.

This is achieved by the fact that in a fire extinguishing method using a gas-liquid mixture, which is carried out by means of a vessel in which a fire extinguishing substance is stored, and connected to a starting cylinder with a working gas, the vessel in which the fire extinguishing substance is stored is fixed with brackets to the building’s building structure and equipped its gas phase discharge device, combined with a measuring probe for extinguishing agent and a device for forming a gas-liquid mixture of a vortex type, which is performed in the form of a conical mixing chamber with a tangential gas inlet at the top, then connected by a flexible hose of the working gas of high pressure, for example nitrogen or CO _2, to the container of the starting cylinder, the gas supply is carried out by the vortex element coaxial chamber and adapted as a conical perforated spiral with a coefficient perforations lying in the range of 50 ÷ 80%, and the gas-liquid mixture is supplied to the central pipeline from the lower part of the chamber connected to the extinguishing agent discharge device, combined with a fuse a valve, while the vertical chamber pipe is connected via a tee to a fire extinguishing agent device and a pressure signaling device, and the formed gas-liquid mixture is directed through a central pipeline to the nodal point of the distribution network, and then through the distribution network to all sprinklers, each sprinkler or sprinkler unit is supplied orientation device in one or two planes.

Figure 1 presents a diagram of a device for implementing a fire extinguishing method using a gas-liquid mixture, figure 2 is a diagram of the sprinkler.

A device for implementing a fire extinguishing method using a gas-liquid mixture contains a vessel 1 in which a fire extinguishing agent is stored. It is attached by brackets 18 to the building’s building structure and has a gas phase discharge device 5 combined with a measuring probe for extinguishing agent.

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 at the top connected via a flexible high-pressure hose 9 for supplying working gas (for example, nitrogen or CO ₂ ) to the vessel 1 from the starting cylinder 7, while the gas is supplied through the vortex element 21, the coaxial chamber 2 and made in the form of a conical perforated spiral with a perforation coefficient lying in the range of 50 ÷ 80%, and the supply of gas-liquid mixture in price The swirl pipe 11 is carried out from the bottom of the chamber, connected to a fire extinguishing agent drain device, combined with a safety valve 4. The vertical pipe 19 of the chamber 2 is connected via a tee 20 to the fire extinguisher inlet device 3 and a pressure signaling device 6.

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. To ensure the supply of a gas-liquid mixture of optimal concentration to all sprinklers 14, each node of the distribution network 17 must include a gas-liquid mixture distribution device, a standard tee 12 is used to divide the flow into two directions, and a special design distribution device 13 is used to divide the flow into three or more directions , for example chamber type. Each sprinkler 14 or block of sprinklers 15 is equipped with an orientation device 16 in one or two planes.

Each sprinkler 14 consists of a housing 26 made in the form of a sleeve, coaxially to which a fitting 27 is fixed to its inner surface, made in the form of a sleeve with threaded and conical parts at the ends. In the fitting 6, a channel 28 is made for the supply of compressed air. Perpendicular to the axis of the housing 26, a nozzle 25 with a water supply channel 22 connected to an annular channel 23 formed by the inner surface of the housing 26 and the outer surface of the nozzle 27 is connected to its outer surface. An element of gas-water formation is installed in front of the conical part of the nozzle 27 torch, made in the form of a washer, which is a removable chipper 24, mounted on the end of a bolt 34, interacting with a nut 33, rigidly mounted on an arcuate rod 32 mounted on a lock nut 29, located on the outer surface of the casing 26. On the outer surface of the casing 26, a removable movable nozzle 30 made in the form of a sleeve is fixed by a threaded connection, on the end of which is facing the removable chipper 24, a conical hole is formed, which forms an annular gap with the conical part of the nozzle 27 for water outlet. The chipper 24 with the end surface of the conical part of the nozzle 27 form a gap 31, which is adjusted by means of a bolt 34 and a nut 33. The surface of the removable chipper 24, facing the conical part of the nozzle 27, can be made concave and curved, for example spherical.

For optimal operation of the sprinkler of the fire extinguishing system, the following ratios of its parameters must be observed:

The ratio of the inner diameter "D" of the nozzle to the inner diameter of "d" lies in the optimal range of values: D / d = 1,5 ÷ 2,5;

The ratio of the diameter “D” of the nozzle to the gap “s” between the removable chipper and the end of the nozzle lies in the optimal range of values: D / s = 15 ÷ 25.

The ratio of the diameter “d” of the nozzle to the annular gap “s ₁ ” between the conical surface at the end of the nozzle and the movable nozzle lies in the optimal range of values: d / s ₁ = 9.5 ÷ 15.5.

The fire extinguishing method using a gas-liquid mixture is as follows.

The vessel 1, in which the extinguishing agent is stored, is attached by brackets 18 to the building’s building structure and is equipped with a gas phase discharge device 5 combined with a measuring probe for the extinguishing agent and 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 a gas inlet in the upper part, then is connected by a flexible hose 9, the high pressure working gas, such as nitrogen or CO _3, to the vessel 1 of the starting cylinder 7, wherein the gas supply implement they are revealed by a vortex element 21, a coaxial chamber 2 and made in the form of a conical perforated spiral with a perforation coefficient lying in the range of 50–80%, and the gas-liquid mixture is supplied to the central pipeline 11 from the lower part of the chamber connected to the extinguishing agent discharge device combined with a safety valve 4. The vertical pipe 19 of the chamber 2 through a tee 20 is connected to the device 3 of the extinguishing agent and pressure switch 6. The formed gas-liquid mixture through the central pipe the wire 11 is sent to the nodal point of the distribution network, and then through the distribution network 17 to all sprinklers 14. Each sprinkler 14 or block of sprinklers 15 is provided with an orientation device 16 in one or two planes.

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. To ensure the supply of a gas-liquid mixture of optimal concentration to all sprinklers 14, each node of the distribution network 17 must include a gas-liquid mixture distribution device, a standard tee 12 is used to divide the flow into two directions, and a special design distribution device 13 is used to divide the flow into three or more directions , for example chamber type. Each sprinkler 14 or block of sprinklers 15 is equipped with an orientation device 16 in one or two planes.

A device for implementing a fire extinguishing method using a gas-liquid mixture.

In standby mode in the vessel 1 for the extinguishing agent there is no excess pressure. When the ZPU is triggered on the launch cylinder 7, the working gas enters the device 2 for forming a gas-liquid mixture and provides a gas-liquid mixture of the required concentration due to the vortex element 20, made in the form of a conical perforated spiral with a perforation coefficient lying in the range of 50 ÷ 80%.

Sprinkler 14 fire extinguishing system operates as follows.

The gas-liquid mixture is fed through the central tee 35. Using the movable nozzle 30, the gas-liquid mixture flows in the form of a ring with an adjustable thickness. The gas-liquid mixture passes inside this jet and, reflected from the chipper 3 at an angle of 90 °, provides unhindered circular dispersion of thin drops. The shock velocity of compressed gas is 150 ... 160 m / s, due to which a high degree of crushing of the gas-liquid mixture and the stability of the fire extinguishing system are achieved.

The sprinkler of the gas-water fire extinguishing system is characterized by the ability to control the diameter of the gas-water torch and the high dispersion of its particles, which is ensured by the concave shape of the chipper and the ease of its movement. The narrower the gap that the chipper leaves for the release of compressed gas, the larger the diameter of the torch and the stiffer its shape, the more finely dispersed drops in the torch.

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.

Claims (1)

A fire extinguishing device containing a vessel in which a fire extinguishing substance is stored, attached by brackets to the building’s building structure and equipped with a gas phase discharge device, gas supply and gas-liquid mixture supply devices to the central pipeline with a nodal point of the distribution network and sprinklers with an orientation device in one or two planes characterized in that the housing of each sprinkler is made in the form of a sleeve, coaxially to which, on its inner surface, a fitting is made, made in the form nozzles with threaded and conical parts at the ends and a channel for supplying a gas-liquid mixture, and perpendicular to the axis of the housing, to its outer surface, a fitting is connected with a channel for supplying a gas-liquid mixture connected to an annular channel formed by the inner surface of the body and the outer surface of the nozzle for supplying a gas-liquid mixture, in front of the conical part of which, coaxially to it, an element of the formation of a gas-water torch is installed, made in the form of a washer, representing a removable chipper, fixed at the end of the one interacting with a nut rigidly fixed on an arcuate rod mounted on a lock nut located on the outer surface of the housing, on which a removable movable nozzle is made by means of a threaded connection, made in the form of a sleeve, on the end part of which is turned towards the removable chipper, is made conical the hole forming with the conical part of the fitting for supplying the gas-liquid mixture, an annular gap for the exit of the gas-liquid mixture, moreover, the chipper with the end surface of the conical hour These nozzles form a gap, the adjustment of which is carried out by means of a bolt and nut, and the surface of the removable chipper facing the conical part of the nozzle for supplying a gas-liquid mixture is concave and spherical.

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