RU2581379C1 - Kochetov mobile unit with two-phase fire spray - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: invention relates to a fire extinguishing agents, particularly portable (knapsack). Mobile fire extinguishing unit with two-phase sprayer comprises a container with extinguishing liquid, which is mounted on backpack knapsack operator displacing fluid system type. System includes high-pressure cylinder with compressed gas, compressed gas feed line in tank gas chamber with shutoff valve and gas-pressure reducer, fluid sprayer installed on shaft with trigger valve mechanism. Sprayer made double-phase and is connected to tank by two pipes: first supply line to a supply nozzle sprayer and connected in series and coaxial with it confusor and a cylindrical nozzle, and second supply line - with annular chamber. Annular chamber performs tangential supply of liquid through coaxial with cylindrical nozzle, which is made in form of a cylindrical sleeve. Vortex circular chamber with a branch for supply of liquid is secured on a cylinder section of sleeve. Two rows of liquid supplying tangential channels are made on ends of circular chamber. In each row there are least three tangential channels connecting annular chamber with cylindrical cavity of mixing chamber of housing. To mixing chamber housing coaxially to round plate is located perpendicular to axis of vortex annular chamber and rigidly connected with housing cylindrical chamber in its end section. Perpendicular to round plate is attached a slotted nozzle, which is made combined and consists of two mutually perpendicular rectangular parallelepipeds with throttle through holes of rectangular section, connected to cavity of housing.

EFFECT: providing increased fire extinguishing efficiency due to fine dispersion of droplets in stream and gas-droplet flow supply range.

1 cl, 2 dwg

Description

The invention relates to fire extinguishing means, in particular portable (knapsack) fire extinguishing means.

The closest technical solution to the claimed object is a portable fire extinguishing installation, which is equipped with various types of liquid sprayers, known from patent RU No. 2484866, B05B 7/04, (prototype), which generates a long-range gas-droplet jet. The liquid atomizer included in such an installation includes a profiled gas-dynamic nozzle, a liquid-gas mixing chamber, means for dispersing the liquid flow supplied to the mixing chamber, and a system for supplying liquid and gas to the mixing chamber. The extinguishing fluid in this device is stored in a container and is forced out of it during operation under the action of compressed gas pressure.

Consider the known device as well as other analogues, it is not possible to adjust the angle of expansion of the generated flow of extinguishing agent at a given level of dispersion of droplets in the stream and the range of gas-droplet flow.

EFFECT: increased fire extinguishing efficiency due to the finely dispersed droplets in the stream and the gas-droplet stream supply range.

This is achieved by the fact that in a mobile fire extinguishing installation with a two-phase sprayer containing a container with a fire extinguishing liquid, which is installed on the operator’s shoulder bag, a displacement type fluid supply system including a high pressure cylinder with compressed gas, a compressed gas supply line to the gas cavity containers with a shut-off valve and a gas reducer, a liquid atomizer mounted on the barrel with a trigger valve mechanism, the atomizer is two-phase and connected to a tank of two tons plumbing: the first inlet pipe with the inlet nozzle of the spray gun and the confuser and cylindrical nozzle connected in series and coaxial with it, and the second inlet pipe with the annular chamber, which delivers the tangential liquid supply through the coaxial with the cylindrical nozzle body, made in the form of a cylindrical sleeve, on the cylindrical part which is fixed to a vortex annular chamber with a nozzle for supplying fluid, while along the edges of the annular chamber there are two rows of supplying liquids tangential channels, while in each row there are at least three tangential channels connecting the annular chamber to the cylindrical cavity of the mixing chamber of the housing, to which is coaxially attached a circular plate located perpendicular to the axis of the vortex annular chamber and rigidly connected to the cylindrical cavity of the housing in it end section, and perpendicular to the round plate attached slotted nozzle, which is made combined and consists of two mutually perpendicular rectangular parallelepipeds with throttle through holes of rectangular cross section connected to the cavity of the housing.

In FIG. 1 is a schematic diagram of a mobile fire extinguishing installation with a two-phase liquid atomizer; in FIG. 2 is a longitudinal section through a two-phase atomizer.

The mobile fire extinguishing system with a two-phase atomizer shown in FIG. 1, contains a container (container) 1 with a fire extinguishing liquid (water or foaming agent), which is installed on the shoulder bag of the operator (user). The installation also includes a displacement type fluid supply system, which includes a high pressure cylinder 2 with compressed gas (air), a compressed gas supply line to the gas cavity of the tank 1 with a shut-off valve 3 and a gas reducer 4. The fire extinguishing installation includes a liquid spray 5 mounted on the barrel 6 with the trigger valve mechanism 7. The atomizer 5 is connected to the tank 1 by two pipelines: the first inlet pipe 8 with the inlet pipe 14 of the sprayer, the second inlet pipe 13 - with annular mixing chamber 19. The tank 1 communicates with the filling line through the filling valve 9. A filling valve 10 and a pressure gauge are installed on the cylinder 2. The supply of compressed air (gas) to the atomizer 5 is carried out by means of a line 11 from a high-pressure tank 2 through a gas reducer 12.

The atomizer 5 (Fig. 2) contains a two-way fluid supply system, including an axial fluid supply through the inlet pipe 14 and a confuser 16 and a cylindrical nozzle 17 connected in series and coaxial with it. The tangential fluid supply is through the housing 18 in coaxial with the cylindrical nozzle 17 in the form of a cylindrical sleeve, on the cylindrical part of which a vortex annular chamber 19 is fixed with a nozzle 20 for supplying liquid, while along the edges of the annular chamber 19 there are two rows 21 and 22 of fluid supply there are at least three tangential channels (not shown) in each row connecting the annular chamber 19 with the cylindrical cavity of the mixing chamber 23 of the housing 18, to which the round plate 24 is coaxially attached (Fig. 2), located perpendicular to the axis of the vortex annular chamber 19 and rigidly connected to the cylindrical cavity of the housing 18 in its end section, and perpendicular to the round plate 24, a slotted nozzle 25 is attached, which is combined and consists of two mutually perpendicular linear rectangular parallelepipeds 26 and 27 with throttle through holes of rectangular cross section connected to the cavity of the housing 18.

The sprayer operates as follows.

The supply of extinguishing fluid (water or foaming agent) to the spray gun 5 is carried out when the operator presses the trigger mechanism 7 with two pipelines: the first supply pipe 8 with the supply pipe 14 of the spray gun, the second supply pipe 13 with an annular chamber 19. Supply of compressed air (gas) to the atomizer 5 is carried out through the line 11 from the high-pressure tank 2 through a gas reducer 12 and a valve 28. In the mixing chamber 23, a two-phase flow occurs. Vortices of liquid are injected into the mixing chamber 23 through tangential channels placed in rows 21 and 22, which are mixed with the incoming air flow, resulting in a gas-droplet flow. The maximum values of the air pressure at the inlet to the nozzle and the relative concentration of water in the two-phase flow are selected from the condition of extremely dense packing of water particles in the air flow: gP = 5.7108 Pa, where P is the gas pressure at the inlet to the mixing chamber 23; g is the relative concentration of water in a two-phase flow.

The two-phase flow created in the mixing chamber 23 with the above parameters is accelerated in the slotted combined nozzle 25 in two mutually perpendicular directions along the rectangular throttle through holes made in rectangular parallelepipeds 26 and 27. Using the combined nozzle allows you to compact a gas-droplet jet with a relatively uniform distribution of water droplets along the jet cross section and expand the gas-droplet jet supply zone.

The results obtained indicate that a two-phase flow, the parameters of which are selected according to the above conditions, is accelerated in the spray gun 5 to a speed at which the range of the gas-droplet jet is 25 ÷ 35 m.

Mobile fire extinguishing system operates as follows.

Before the first use of the fire extinguishing installation, the tank 1 is filled with fire extinguishing liquid. Water with foaming agent and other chemical additives that increase the efficiency of fire fighting is used as a fire extinguishing liquid. The tank 1 is refilled through the filling valve 9. The volume of the liquid to be filled is ~ 12 l for the fire extinguishing backpack unit with a total tank volume of 15 l. Through the filling valve 10, the cylinder 2 is charged with compressed air from the compressor to a pressure of (150-300) · 10 ⁵ Pa. After that, a preliminary pressurization of the gas cavity of the tank 1 through the compressed gas supply line is carried out. For this, the shut-off valve 3 opens, and the compressed gas enters the inlet of the gas reducer 4. The pressure at the outlet of the reducer 4 and, accordingly, in the gas cavity of the tank 1 is (8-10) · 10 ⁵ Pa. As a result, the fluid pressure in a given range is set in the fluid cavity of the tank 1 and in the supply pipe 8 to the entrance to the controlled normally-closed valve (not shown in the drawing). This valve is installed in the barrel 6. The valve is controlled using the trigger mechanism 7.

The above pressure level in the fluid supply system to the atomizer is due to the required flow rate of the generated gas-droplet flow in the range from 0.2 to 0.4 l / s. The pressure level in the tank 1 is selected taking into account hydraulic losses in the inlet pipe 8 and in the liquid spray 5. Moreover, the flow rate of gas-droplet flow through the spray 5 in this example implementation of the invention is associated with the required fire extinguishing efficiency, which is an important factor when using the spray as part of a portable fire extinguishing installations.

Capacity 1 and cylinder 2 with a compressed gas supply line and fittings are installed on the operator's backpack or in a portable container. The generation of a gas-droplet stream is carried out by the operator using a liquid atomizer 5 mounted on the barrel 6, by means of the trigger mechanism 7.

Claims (1)

A mobile fire extinguishing system with a two-phase atomizer, containing a container with a fire extinguishing liquid, which is installed on the operator’s shoulder bag, a displacement type liquid supply system, which includes a high pressure cylinder with compressed gas, a compressed gas supply line to the gas cavity of the tank with a shut-off valve and gas a reducer, a liquid atomizer mounted on a barrel with a trigger valve mechanism, characterized in that the atomizer is two-phase and connected to the tank with two pipes by wires: the first inlet pipe with the inlet nozzle of the spray gun and the confuser and cylindrical nozzle connected in series and coaxial with it, and the second inlet pipe with the annular chamber, which delivers tangential fluid supply through the coaxial with the cylindrical nozzle body, made in the form of a cylindrical sleeve, on the cylindrical part which is fixed to a vortex annular chamber with a nozzle for supplying fluid, while along the edges of the annular chamber there are two rows of liquid supplying tanks there are at least three tangential channels in each row connecting the annular chamber with the cylindrical cavity of the housing mixing chamber, to which the circular plate is coaxially attached, located perpendicular to the axis of the vortex annular chamber and rigidly connected to the cylindrical cavity of the housing in it end section, and perpendicular to the round plate attached slotted nozzle, which is made combined and consists of two mutually perpendicular rectangular parallelepipeds with other sselnymi through holes of rectangular cross section connected to the body cavity.

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