RU2490040C1 - Mobile fire-extinguishing plant - Google Patents

Abstract

FIELD: fire-prevention facilities.

SUBSTANCE: invention relates to portable fire extinguishing plants. The mobile fire-extinguishing plant comprises a fire extinguisher of pump type with a stop and start device of manual type and a system of liquid supply with a foaming agent, The fire extinguisher of pump type is filled with non-flammable liquid and comprises a system of gas (air) supply. The system of air supply includes a microswitch installed on the stop and start device. When the fire extinguisher has been started, simultaneously the compact compressor will also start, supplied from a portable accumulator unit. The foaming agent comprises a sprayer, an ejecting nozzle and a splitter of double-phase flow.

EFFECT: increased efficiency in extinguishing of fires of different classes due to usage of multiple-use air mechanical foam.

5 cl, 2 dwg

Description

The invention relates to portable fire extinguishing installations, in particular to fire extinguishers.

The closest in technical essence the object of the claimed invention is the installation according to the patent of the Russian Federation No. 2429037 (prototype), which is an injection type fire extinguisher filled with a non-combustible liquid, with a manual type locking and starting device and a fluid supply system with a foam generator.

A disadvantage of the known device is the relatively low fire extinguishing efficiency and uneven fluid supply and a low degree of dispersion of the fire extinguishing stream.

The technical result is an increase in the efficiency of extinguishing fires of various classes through the use of high-pressure air-mechanical foam.

This is achieved by the fact that in a mobile fire extinguishing installation containing a portable fire extinguishing means, which is an injection type fire extinguisher filled with non-combustible liquid, with a manual type locking and starting device and a fluid supply system with a foam generator, an additional gas (air) supply system is included, which includes includes a microswitch installed on the locking and starting device so that when starting the fire extinguisher, a compact compressor operating from the transfer is simultaneously turned on battery pack.

Figure 1 shows the installation diagram, figure 2 presents a diagram of a foam generator with counter-swirling flows.

Installation for mobile fire extinguishing includes a portable fire extinguishing means 1, which is an injection type fire extinguisher filled with non-combustible liquid, with a manual type locking and starting device 2 and a liquid supply system 3 (for example, in the form of a diffuser), a gas (air) supply system, which includes microswitch 4, mounted on the locking-starting device 2 in such a way that when starting the fire extinguisher, a compact compressor 6 is simultaneously activated, operating from a portable battery pack 5, for example 12 V power supply. A compact compressor 6 through the air duct 7 supplies compressed air to the foam generator 10 by means of an annular nozzle 9. Non-combustible foaming liquid enters through a manual trigger-type locking device 2, and a liquid supply system 3 and a pipeline 8.

The vortex-type foam generator (Fig. 2) includes a spray gun, which is connected to the housing 21 of the ejection nozzle, made in the form of a diffuser mounted axisymmetrically relative to the spray gun. At least three windows 22 for ejecting air are made on the housing 21 of the ejection nozzle, in the part located closer to the atomizer, and a biphasic flow divider 23 made in the form of a circle of mesh or perforated material is fixed at the outlet.

The sprayer contains a housing consisting of two coaxial, interconnected, cylindrical bushings: bushings 15 of a larger diameter and bushings 14 of a smaller diameter. Inside the sleeve 14 of smaller diameter, coaxial to it, is a screw 11, rigidly connected to its inner surface, for example, pressed into it. The outer surface of the screw 11 is a helical groove with a right (or left) thread. Inside the screw 11, a hole 12 is made with a left (or right) screw thread.

In the sleeve 15 of a larger diameter, coaxially to it, there is a fitting 17, rigidly fixed therein, for example by means of a threaded connection, through a sealing gasket 16. Inside the fitting 17, a cylindrical hole 18 is coaxially made, passing into an axisymmetrically located diffuser 19, which is connected to the cylindrical chamber 20 formed by the inner surface of the sleeve 14 of smaller diameter, and the end surface of the screw 11.

Installation of mobile fire extinguishing works as follows.

A portable fire extinguishing device 1, which is an injection type fire extinguisher, is filled with non-combustible liquid and gas, the shut-off and start device is set up so that when you press the start lever of the injection fire extinguisher, the following simultaneously turn on: liquid (water) supply system 3, gas (air) supply system which are fed into the foam generator 10 two streams: the first is the supply of fluid from the fire extinguisher through the pipe 8, the second is the supply of compressed air through the annular pipe 9.

Foam vortex type works as follows.

In the event of a fire, the pumping unit (not shown in the drawing) supplies the foaming agent solution from the metering tank or the fire engine to the inlet pipe of the foam generator connected to the hole 8 of the spray gun body.

The foaming solution is fed through a cylindrical hole 18 of the nozzle 17 into the diffuser 19, and from it into the chamber 20, from which it flows simultaneously in two directions under pressure: firstly, into the screw external cavity of the screw 11, forming an external rotating fluid flow, and secondly - in the hole 12 with a screw thread, forming an internal rotating fluid flow.

At the outlet of the atomizer, there are two rotating fluid flows, moreover, one flow, for example, the internal one, rotates in the direction opposite to the external flow going along the screw 11, or it can perform the associated (same) rotation if the direction of the screw grooves coincides. In the interaction of rotating flows at the outlet of the atomizer, additional dropping of liquid droplets occurs due to their collision in the associated or opposite rotating fluid flows (external and internal). In this case, the total finely dispersed rotating stream at the outlet may have a direction of rotation, which is determined by the hydraulic resistance of the external or internal screw cavities and grooves of the screw 11, respectively, and may be stationary, in the case of the opposite direction of rotation of the flows, and the equality of their reduced mass velocities. The screw 11 can be made of solid materials: tungsten carbide, ruby, sapphire. At an average pressure supplied through a cylindrical hole 18 of the liquid under a pressure of 6 ... 9 MPa, spraying is provided from 400 to 1000 kg / h of liquid.

After the atomizer, the flow enters the inlet of the diffuser 21 of the ejection nozzle, and air is ejected through the windows 22 to form a foam, which is sent to the two-phase flow divider 23. At the beginning of the plume, the sprayed spray of the foaming agent solution has the highest speed and due to air ejection a foam is formed with bubbles of both small size (2–3 mm across) and larger bubbles (4–12 mm across). Thus, the foam generator produces polydisperse (differently sized for bubbles) foam, which has the property of rapid spreading over the surface.

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 the usual air-mechanical foam is 8 ÷ 12, and the multiplicity is 100 or 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 (5)

1. Installation of mobile fire extinguishing, containing a portable fire extinguishing means, which is an injection type fire extinguisher filled with non-combustible liquid, with a manual type locking and starting device and a fluid supply system with a foam generator, in addition, the fire extinguisher includes a gas (air) supply system, which includes a microswitch mounted on the locking and starting device in such a way that when starting the fire extinguisher, a compact compressor running on a portable battery is simultaneously turned on th block, characterized in that the foam generator comprises a nebulizer nozzle and ejecting the two-phase stream splitter. 2. The mobile fire extinguishing installation according to claim 1, characterized in that the atomizer body consists of two coaxial, interconnected cylindrical bushings: a larger diameter sleeve and a smaller diameter sleeve, while inside the sleeve of a smaller diameter, a screw is rigidly connected coaxially with it with its inner surface, for example, pressed into it, and the outer surface of the screw is a helical groove, and a screw hole is made inside the screw, and in the larger sleeve there are pieces aligned with it EP rigidly mounted therein, for example, by a threaded connection through the sealing gasket, the inside fitting coaxially formed cylindrical hole passing axially disposed in a diffuser, which is connected to a cylindrical chamber formed by the inner surface of the smaller diameter sleeve and the end surface of the screw. 3. Installation of mobile fire extinguishing according to claim 1, characterized in that the foam generator spray is connected to the body of the ejection nozzle, made in the form of a diffuser mounted axisymmetrically relative to the spray. 4. The mobile fire extinguishing installation according to claim 1, characterized in that at least three windows for ejecting air are made on the body of the ejection nozzle, in the part located closer to the atomizer, and a two-phase flow divider is fixed at the outlet. 5. Installation of mobile fire extinguishing according to claim 1, characterized in that the two-phase flow divider is made in the form of a circle of mesh or perforated material.

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