RU131974U1 - FIRE EXTINGUISHER FOR PACKAGING VEHICLES CARRYING OUT OF DELIVERY OF A VICTIM IN A EMERGENCY SITUATION OF POPULATION IN TEMPES OF TEMPORARY ACCOMMODATION - Google Patents

Abstract

Fire extinguisher for a complete set of vehicles delivering the population affected by emergency in temporary accommodation centers containing a container with a fire extinguishing liquid, a system for displacing a liquid from a container, including a siphon tube, a locking and starting device connected to the outlet of the siphon tube, a liquid flow limiter, providing regulation of the cross-sectional area of the flow channel depending on the pressure of the liquid in the tank, a liquid atomizer, characterized in that the liquid spray is made in the form of an ejection-type foam generator that contains a spray, a foam nozzle and a two-phase flow divider, the spray being connected to a foam nozzle body made in the form of a cylindrical shell mounted coaxially and axisymmetrically with respect to the spray nozzle, and on the foam nozzle body, in part located closer to the atomizer, at least three windows for ejection of air are made, and a two-phase flow divider, made in the form of a round webs, and the atomizer body is made with a channel for supplying liquid and has a coaxial sleeve rigidly connected to the body with a nozzle fixed in its lower part, made in the form of a cylindrical two-stage sleeve, the upper cylindrical step of which is connected by a threaded connection to a central core installed with an annular a gap relative to the inner surface of the cylindrical sleeve, and consisting of a cylindrical part with a ball segment having throttle fixed coaxially with it in the lower part

Description

The utility model relates to portable fire extinguishing installations, in particular to fire extinguishers for the assembly of vehicles that transport the victims of emergency situations to temporary accommodation.

The object of the claimed solution closest in technical essence is the fire extinguisher described in published international application WO 94/06517 (published on 03/31/1994, IPC A62C 31/03; B05B 1/12), and containing a container with a fire extinguishing liquid, a system for displacing a liquid from a container including a siphon tube, a locking and starting device connected to the outlet of the siphon tube, a flow rate limiter that provides control of the cross-sectional area of the flow channel depending on the pressure of the liquid in the tank - prototype.

A disadvantage of the known device is the unevenness of the fluid supply and the low degree of dispersion of the extinguishing stream.

The technical result is an increase in the efficiency of using fire extinguishing liquid to extinguish fires of various classes.

This is achieved by the fact that in a fire extinguisher containing a container with a fire extinguishing liquid, a system for displacing a liquid from a container, including a siphon tube, a locking and starting device connected to the outlet of the siphon tube, a liquid flow limiter that provides control of the cross-sectional area of the flow channel depending on the liquid pressure in the tank, a liquid atomizer, which is made in the form of an ejection-type foam generator, which contains an atomizer, a foam nozzle and a two-phase flow divider, this sprayer is connected to the foam nozzle body made in the form of a cylindrical shell mounted coaxially and axisymmetrically with respect to the spray gun, and at least three windows for air ejection are made on the foam nozzle body, in the part located closer to the spray gun, and at the exit a two-phase flow divider, made in the form of a round mesh, is fixed, and the atomizer body is made with a channel for supplying liquid and has a coaxial sleeve rigidly connected to the body with a nozzle fixed in its lower part m, made in the form of a cylindrical two-stage sleeve, the upper cylindrical step of which is connected by a threaded connection to a central core installed with an annular gap relative to the inner surface of the cylindrical sleeve, and consisting of a cylindrical part with a spherical segment fixed coaxially with it in the lower part, having throttle openings whose axes are located along the radii of the spherical surface forming the spherical segment, and the annular gap is connected to at least three dialysis channels made in a two-stage sleeve connecting it with an annular cavity formed by the inner surface of the sleeve and the outer surface of the upper cylindrical stage, the annular cavity being connected to the channel of the housing for supplying liquid, while on the lateral surface of the cylindrical part of the central core, in its lower part connected to the spherical segment, at least two rows of cylindrical throttle holes are made, with axes lying in planes perpendicular to the axis of the core And in each row is satisfied, at least three openings, the axes of the throttle orifices of one row are offset relative to the axes of the throttle openings of the other row at an angle in the range of 15 ° ÷ 60 °.

Figure 1 shows a frontal section of a fire extinguisher; figure 2 is a longitudinal section of a liquid atomizer.

A fire extinguisher for a complete set of vehicles delivering the injured population in emergency situations to temporary accommodation (Fig. 1) contains a container 1 filled with fire extinguishing liquid. The gas cavity of the tank 1 is filled with compressed gas. The system for displacing liquid from the tank 1 includes a siphon tube 2 and a locking and starting device 3 connected to the outlet of the siphon tube 2. The locking and starting device 3 includes a spring-loaded valve 4 and a lever 5. The output of the locking and starting device 3 is connected to the spray gun the liquid 6 through the pipeline 7. At the open end of the siphon tube 2, a filter is installed 8. The fire extinguisher also contains a flow rate limiter 9, which is installed in the flow channel 10 of the siphon tube 2 and provides control of the cross about the cross section of the flow channel depending on the pressure of the liquid in the tank 1.

The liquid spray 6 (Fig. 2) is made in the form of an ejection-type foam generator, which includes a spray 11, which is connected to the housing 24 of the ejection nozzle, made in the form of a diffuser mounted axisymmetrically relative to the spray. At least three windows 23 for ejecting air are made on the housing 24 of the ejection nozzle, in the part located closer to the atomizer 11, and a two-phase flow divider 25 made in the form of a circle of mesh or perforated material is fixed at the outlet.

The atomizer 11 comprises a cylindrical hollow body with a channel 13 for supplying liquid and a coaxial sleeve 12 rigidly connected to the body with a nozzle fixed in its lower part and made in the form of a cylindrical two-stage sleeve 14, the upper cylindrical step 16 of which is connected by a threaded connection to the central core, mounted with an annular gap 19 relative to the inner surface of the cylindrical sleeve 14, and consisting of a cylindrical part 17 with a ball segment fixed coaxially with it in the lower part m 21 having throttle holes 22 whose axes are arranged parallel to the axis 11 of the nozzle body. Throttle holes 22 made in the spherical segment 21 can be located along the radii of the spherical surface forming the spherical segment 21.

The annular gap 19 is connected with at least three radial channels 15 made in a two-stage sleeve 14, connecting it with an annular cavity 18 formed by the inner surface of the sleeve 12 and the outer surface of the upper cylindrical stage 16, and the annular cavity 18 is connected with the channel 13 of the housing 11 for supplying fluid. At least two rows of cylindrical throttle holes 20, with axes lying in planes perpendicular to the axis of the core, are made on the lateral surface of the cylindrical part 17 of the central core, in its lower part connected to the spherical segment 21, and in each row, at least three holes. In this case, the axes of the throttle holes of one row are offset relative to the axes of the throttle holes of the other row by an angle lying in the range of 15 ° ÷ 60 °.

A fire extinguisher for a complete set of vehicles delivering the injured in emergency situations to temporary accommodation centers works as follows.

A fire extinguisher is pre-charged with a charge of a fire extinguishing liquid and then pressurized with compressed gas (air) to a storage pressure (2 MPa). The fire extinguisher is charged with liquid through the neck of the tank 1, into which the locking and starting device 3 is then screwed.

In the process of charging a fire extinguisher with compressed gas, the locking-starting device 3 is in the open position. Gas under excess pressure is pumped into the tank 1 through the outlet of the locking and starting device 3. The liquid under pressure of compressed gas is displaced from the channel 10 of the siphon tube 2 through the filter 8.

The generation of a gas-droplet flow of a fire extinguisher during the operation of the fire extinguisher is carried out by pressing the lever 5. Under the action of the force exerted on the lever 5, the shut-off valve 4 is released and the passage of the shut-off and start-up device 3 is opened. The liquid displaced from the tank 1 by compressed gas enters through the filter 8 into the channel 10 of the siphon tube 2. Passing through the fine-meshed structure of the filter 8, the liquid is cleaned of solids formed during its long-term storage in the tank 1.

The liquid spray 6 operates as follows.

In the event of a fire, a pumping unit (not shown in the drawing) delivers a foaming solution from a metering tank or a fire engine to the inlet pipe of the foam generator connected to the cavity of the atomizer body 11 and then flows in two directions: the first into the annular cavity 18 through 15 radial channels an annular gap 19 between the nozzle and the Central core. At inlet pressures of more than 0.2 MPa, the liquid accelerates on the outer cylindrical surface of the core with the formation of a liquid film that does not come off from its outer surface. Acceleration of the liquid in the lower part of this surface is accompanied by a decrease in its static pressure and, as a result, vaporization and the release of soluble gases. This phenomenon further prepares the liquid for crushing into small drops. Upon reaching a liquid flow of oncoming flows flowing out of the cylindrical throttle holes 20, multiple crushing of the film occurs with the formation of a finely dispersed phase.

The second direction in which the liquid enters is through the channel 13 for supplying liquid to the cavity of the central core, and then to the lower part of the cylindrical part 17 of the core, from which part of the liquid flows through the radial holes 20, with multiple crushing of droplet fluid flows flowing from throttle bores. The presence of gas inclusions in a liquid additionally perturbs its surface, which leads to wave formation and volumetric crushing of the liquid film. The loss of mechanical energy during external acceleration (on the external conical surface) is reduced compared with the same acceleration in a closed channel.

After the atomizer 11, the flow enters the inlet of the diffuser 24, through the windows 23 of which air is ejected to form foam, which is sent to the divider 25 of the two-phase flow. 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.

Tests have shown that even in conditions of intense smoke, foam is formed in predetermined volumes and has good resistance to decay.

As a foaming agent in such fire extinguishing systems, a fluorosynthetic foaming agent of the "Multipena" type is used. The foam generator also works on a 6% - aqueous solution of the fluorinated foam former “Sublayer” under conditions of smoke in the room.

The fire extinguisher allows you to maintain the flow rate of the extinguishing fluid at a constant level when the fluid pressure in the capacity of the fire extinguisher changes from the maximum storage pressure level to the minimum pressure values. This feature, which manifests itself during the operation of the fire extinguisher until the fire extinguisher fluid is fully charged, significantly affects the reduction of unproductive residues of the fire extinguisher located in the capacity of the fire extinguisher. It can be used in the development of fire extinguishing means of fire centers of various classes. To do this, additional chemical additives are included in the composition of the extinguishing fluid. Fire extinguishers made according to the present invention can be widely used as a standard means of extinguishing at various facilities: in the premises of hospitals, libraries, museums and residential premises, as well as for extinguishing fires in open spaces.

Claims (1)

Fire extinguisher for a complete set of vehicles delivering the population affected by emergency in temporary accommodation centers containing a container with a fire extinguishing liquid, a system for displacing a liquid from a container, including a siphon tube, a locking and starting device connected to the outlet of the siphon tube, a liquid flow limiter, providing regulation of the cross-sectional area of the flow channel depending on the pressure of the liquid in the tank, a liquid atomizer, characterized in that the liquid spray is made in the form of an ejection-type foam generator, which contains a spray, a foam nozzle and a two-phase flow divider, the spray being connected to a foam nozzle body made in the form of a cylindrical shell mounted coaxially and axisymmetrically relative to the spray nozzle, and on the foam nozzle body, in part located closer to the atomizer, at least three windows for ejection of air are made, and a two-phase flow divider, made in the form of a round webs, and the atomizer body is made with a channel for supplying liquid and has a coaxial sleeve rigidly connected to the body with a nozzle fixed in its lower part, made in the form of a cylindrical two-stage sleeve, the upper cylindrical step of which is connected by a threaded connection to a central core installed with an annular a gap relative to the inner surface of the cylindrical sleeve, and consisting of a cylindrical part with a ball segment having throttle fixed coaxially with it in the lower part holes whose axes are located along the radii of the spherical surface forming the spherical segment, and the annular gap is connected to at least three radial channels made in a two-stage sleeve, connecting it to the annular cavity formed by the inner surface of the sleeve and the outer surface of the upper cylindrical stage, moreover, the annular cavity is connected with the channel of the housing for supplying fluid, while on the side surface of the cylindrical part of the Central core, in its lower part, connected to at least two rows of cylindrical throttle holes, with axes lying in planes perpendicular to the axis of the core, and at least three holes are made in each row, while the axes of the throttle holes of one row are offset relative to the throttle axes holes of another row at an angle lying in the range of 15 ÷ 60 °.

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