RU2484866C1 - Mobile fire-extinguishing installation - Google Patents

Abstract

FIELD: fire-prevention facilities.SUBSTANCE: invention relates to portable backpack fire fighting means. The mobile fire-extinguishing installation comprises a container with liquid, a pressurised liquid supply system, a liquid flow swirler with guide elements, a liquid sprayer connected through the supply pipeline to the container. The sprayer housing is designed in the form of a feeding fitting with a central opening, and rigidly connected to it and a coaxial cylindrical sleeve. On the lower part of the housing a nozzle is connected through the sleeve. The nozzle is made in the form of a centrifugal liquid flow swirler with tangential inlets in the form of cylindrical openings. The sleeve is a part of the nozzle and is mounted coaxially and in alignment with respect to the centrifugal swirler in the end surface of which a cylindrical orifice is made. The centrifugal swirler is mounted in a cylindrical housing chamber to form an annular cylindrical liquid supply chamber and is connected to the diffuser outlet chamber. The tangential inlets are made in the form of channels which are located to the inner surface of the cylindrical insert. The confusor is coaxially attached to the sleeve, the inner cavity of which through the openings, formed on its side surface, connect its cavity to the outside air. At the outlet of the confusor the choke is fixed in the form of a cylindrical shell, which increases the flow long-range capability of the whole unit.EFFECT: increased efficiency of fire extinguishing due to fine dispersion of droplets in the flow and range of stream of gas-droplet flow.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 a variety of types of liquid spray, known from patent RU No. 2132752 C1 (IPC ⁶ B05B 7/04, published July 10, 1999), by which a long-range gas-droplet jet is generated. 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 containing a container with a liquid intended for fire fighting, a pressurized fluid supply system, a fluid flow swirl with guiding elements, a liquid spray connected through a supply pipe to the container, the spray housing is made in the form of a supply fitting with the Central hole, and rigidly connected to it and a coaxial cylindrical sleeve with an external thread, and coaxially to the housing, in its lower part is connected by means of a sleeve with an internal threaded nozzle made in the form of a centrifugal swirl of a fluid flow in the form of a cylindrical insert with at least three tangential inlets in the form of cylindrical holes, the sleeve being a part of the nozzle and mounted coaxially and coaxially with respect to the centrifugal swirl, in the end surface of which a cylindrical throttle hole is made, and a centrifugal swirl is installed in the cylindrical chamber of the housing with the formation of an annular cylindrical chamber for supplying fluid to the tangential to the inlet of the centrifugal swirler and is connected to the diffuser outlet chamber, and the tangential inlets are made in the form of channels tangentially located to the inner surface of the cylindrical insert, and a confuser is coaxially attached to the sleeve, the inner cavity of which connects the cavity through openings made on its side surface with outside air, and at the outlet of the confuser, a throttle in the form of a cylindrical shell is fixed, which increases the range of the installation jet as a whole.

Figure 1 presents a schematic diagram of a mobile fire extinguishing installation with a liquid atomizer; figure 2 is a longitudinal section of a liquid atomizer.

The mobile fire extinguishing installation depicted in figure 1, contains a container (container) 1 with water, 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. In the considered embodiment, the liquid spray is presented as part of the fire extinguishing installation, however, this spray can be used I as an autonomous unit within another destination device.

The atomizer 5 is connected to the tank 1 through the inlet 8. The water is supplied to the liquid atomizer 5 by pressing the trigger mechanism 7. The tank 1 communicates with the gas line via the gas valve 9. A gas valve 10 and a pressure gauge 11 are installed on the cylinder 2.

The sprayer (figure 2) includes a housing 12, which is made in the form of a fluid supply fitting with a central hole 14, and rigidly connected to it and a coaxial cylindrical sleeve 13 with an external thread.

Coaxially to the housing 12, in its lower part a nozzle 16 is connected by means of a sleeve 18 with an internal thread, made in the form of a centrifugal swirl 17 of a fluid flow in the form of a cylindrical insert 22 with at least three tangential inlets 21 in the form of cylindrical openings. The sleeve 18 is part of the nozzle 16 and is mounted coaxially and coaxially with respect to the centrifugal swirler 17.

In the end surface of the centrifugal swirl 17 is made a cylindrical throttle hole 20.

A centrifugal swirl 17 is installed in the cylindrical chamber 15 of the housing with the formation of an annular cylindrical chamber 19 for supplying fluid to the tangential inlets 21 of the centrifugal swirl 17 and is connected to the diffuser outlet chamber 23. The tangential inlets 21 are made in the form of channels tangentially located to the inner surface of the insert 22. K the sleeve 18 is coaxially attached to the confuser 25, the internal cavity of which through the holes 24 made on its lateral surface connect its cavity to the outside air, and at the outlet Fusor fixed throttle 26 in the form of a cylindrical shell, which increases the range of the jet installation as a whole.

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 knapsack 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) · 105 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) · 105 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. 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.

When the operator presses the trigger mechanism 7, the controlled valve of the barrel 6 opens, and the liquid under pressure (8-10) · 105 Pa enters the nozzle 12 of the nozzle. In the cavity of the insert 22, which performs the function of a centrifugal fluid swirl 17, a vortex is formed, which swirls a stream of fluid flowing out of a cylindrical throttle hole 20.

The swirling fluid flow in the cavity of the insert 22 is formed by mixing the jets flowing from the tangentially directed channels 21.

At the outlet of the cavity of the insert 22, a fluid flow is formed, characterized by a constant tangential velocity. The angular velocity of the swirling fluid flow in the channel of the nozzle 16 of the atomizer determines the value of the spray angle of the generated gas-droplet flow. The magnitude of the tangential velocity in the cavity of the insert 22 depends on the ratio of the total cross-sectional area of the tangential channels 21 and the cross-sectional area of the axial cylindrical throttle hole 20. The swirling fluid flow formed in the centrifugal swirler 17 enters the diffuser outlet chamber 23, where the droplets are crushed when they collide with each other another due to the expanding and rotating fluid flow. Then the vortex flow enters the cylindrical mixing chamber 25 and the conical 26, in which the flow is accelerated, leaving the throttling channel 27.

The proposed installation can be used in fire extinguishing systems and as part of technological equipment for various purposes. As a fire extinguishing agent, it can be used in mobile installations for extinguishing fires at various objects: in the premises of hospitals, libraries and museums, on ships, airplanes, as well as fires in open spaces, etc.

Claims (1)

A mobile fire extinguishing installation comprising a container with a liquid intended for fire fighting, a pressurized liquid supply system, a fluid flow swirl with guiding elements, a liquid spray connected through a supply pipe to a container, characterized in that the spray gun body is made in the form of a supply fitting with a central hole , and rigidly connected to it and a coaxial cylindrical sleeve with an external thread, and coaxially to the housing, in its lower part, is connected by means of a sleeve with an internal thread A nozzle made in the form of a centrifugal swirl of a fluid flow in the form of a cylindrical insert with at least three tangential inlets in the form of cylindrical holes, the sleeve being part of the nozzle and mounted coaxially and coaxially with respect to the centrifugal swirl, in the end surface of which a cylindrical throttle hole, and a centrifugal swirl is installed in the cylindrical chamber of the housing with the formation of an annular cylindrical chamber for supplying fluid to the tangential the inlet of the centrifugal swirl is connected to the diffuser outlet chamber, and the tangential inlets are made in the form of channels tangentially located to the inner surface of the cylindrical insert, and a confuser is coaxially attached to the sleeve, the inner cavity of which connects its cavity to the outer through the holes made on its side surface air, and at the outlet of the confuser a throttle in the form of a cylindrical shell is fixed, which increases the range of the installation jet as a whole.

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