RU2414942C1 - Mobile pulse multiple dry powder fire extinguishing installation - Google Patents

Abstract

FIELD: fire-fighting means.

SUBSTANCE: invention refers to fire-fighting equipment, namely to mobile pulse dry powder fire extinguishing installations. The installation comprises a bed plate (1), a cartridge (2). Dry powder fire extinguishing nozzle units (4) are installed in guide rails (3) of the cartridge (2). The bed plate (1) is coupled with the cartridge (2) by a rotary axis (5) that enables tilting the cartridge in a vertical plane to be fixed through a rodding (6). A portion of a smaller diametre (7) of each nozzle unit (4) is overlapped by a braking membrane (8). Each nozzle unit (4) is equipped with an electrical connector (9). Each nozzle unit (4) contains a chemical powder (10), a replaceable gas generator (11) fixed in a body portion of a greater diametre and coupled with the electrical connector. The gas generator (11) has formed holes (12) for powder (10) aeration.

EFFECT: design of the simple to operate installation allows higher effectiveness of fire extinguishing, enhanced and usability, wider range of application as provided by existing requirements due to conditioning avoiding dry chemical flow disintegration and fast speed loss, maintaining practically continuous operating conditions of fire extinguishing by minimising loss of reloading time with simultaneously increasing functional outcome reliability and installation portability as a whole.

3 cl, 4 dwg

Description

The invention relates to fire fighting equipment, namely to mobile pulsed powder fire extinguishing installations. The installation is intended for use as an operational fire extinguishing medium, providing remote supply of extinguishing agent to the fire at facilities with a high rate of fire development (for example, ground fires in forestry), at facilities remote from fire departments, when extinguishing fires caused by accidents at gas, oil and gas wells, etc.

Known fire extinguishing installation (RF patent No.2008048, publ. 02.28.1994), containing a package of trunks, a control panel supply initiating pulse.

A disadvantage of the known design is the separation of the expelling charge and the extinguishing composition and the exclusion of their mixing before being ejected from the barrel, i.e. there are no conditions for the preliminary extinguishing of the extinguishing agent and the exclusion of its clumping. Separation of the expelling charge and the extinguishing agent leads to a complication of the assembly, and when recharging it requires cleaning of the components of the previous assembly, i.e. Significant delays occur when requiring operational fire fighting.

In addition, a disposable shell containing a fire extinguishing composition, when fired, collapses, is ejected from the barrel along with the fire extinguishing composition, partially surrounding it, and at the initial stage of movement in air interferes with the normal formation of the flow of the fire extinguishing composition, and the separation of the shell from the stream destroys its integrity , which reduces the effectiveness of fire fighting.

The operation of equipping the barrel with a container with a fire extinguishing composition and expelling charge is carried out from the muzzle of the barrel, i.e. there is no possibility of monitoring the position of the knockout charge relative to the bottom of the barrel. This leads to the formation of outburst charge chambers of various volumes, the size of which affects the speed and range of the release of the extinguishing agent, as a result, the efficiency of the generated extinguishing stream is further reduced, and it is possible to achieve conditions when the pressure in the combustion chamber exceeds the maximum allowable, which can lead either to destruction of the barrel structure, or to exceeding the maximum allowable recoil force. The installation of expelling charges in the barrel is carried out before (or simultaneously) installing a fire extinguishing composition in it, which, according to the conditions of safe movement, requires the entire operation of the equipment of the trunks after arriving at the place of fire, which leads to a significant delay in the start of fire fighting from the moment of arrival.

The presence of trunks to accommodate containers and expelling charges complicates the design of the cartridge, and the use of a barrel of constant cross section leads to great recoil forces at the time of the ejection of the extinguishing agent with fragments of the destroyed shell, to compensate for which additional structural elements are introduced - each barrel is equipped with a shock absorber.

These shortcomings cause a significant limitation of operational capabilities and amenities, reduce the reliability of obtaining a functional result and the speed of its achievement.

The prior art fire extinguishing installation according to the patent of the Russian Federation No. 2121856 (publ. 11/20/1988), adopted as a prototype, containing made with the possibility of mounting on a mobile vehicle bed, an axis with a removable cassette with trunks and a control panel for supplying an initiating pulse.

The disadvantages of the prototype include the separation of the container with the extinguishing agent and the expelling charge with an igniter, which are installed separately and in different places: the container with an extinguishing agent - in the barrel, the expelling charge with an igniter - in the bolt, which complicates assembly, and when recharging cleaning from components of the previous assembly is required, i.e. Significant delays occur when requiring operational fire fighting.

The separation of the expelling charge and the extinguishing agent eliminates their mixing before being ejected from the barrel, i.e. There are no conditions for pre-fluffing the extinguishing agent and preventing its clumping.

The measures to limit clumping during the release of the extinguishing agent also have their drawbacks. The movable bottom and lid in the container with a fire extinguishing composition are interconnected by rigid partitions, eliminating their mutual movement during the release of the extinguishing agent. When the expulsion charge is triggered by the gases generated, the lid in the container with the extinguishing agent begins to move and squeezes the bottom of the container through the hard partitions. As a result, a fire extinguishing composition flies out of the barrel, connected with the lid, bottom and partitions, which in flight quickly lose their speed, are separated from the mass of the fire extinguishing composition, destroy the integrity of the stream, which reduces the efficiency of fire fighting.

The use of quick-burning compositions in a knockout charge (for example, gunpowder) creates conditions for an almost instantaneous increase in pressure in front of the container lid, therefore, to reduce the likelihood of barrel destruction, the shutter is equipped with a safety valve to relieve excessive pressure.

The method used to eject the extinguishing agent involves the use of a barrel of constant cross section with a long booster portion behind the container with the extinguishing agent, which leads to significant recoil efforts at the time of ejection of the extinguishing agent with the components of the container (cover, bottom, partitions), for which each barrel is equipped with shock absorbers.

A large number of assembly units reduces the reliability of the functioning of a known installation.

The presence of long barrels for placing containers and expelling charges complicates the design of the cassette, increases its overall mass characteristics, which is expensive in the manufacture of the installation, and transportation requires specially prepared mobile off-road vehicles. Given the large mass of the barrel cassette, as well as the presence of significant recoil forces, which cannot be fully compensated by the shock absorbers available, the use of light self-propelled means or trailers for self-propelled means is inadmissible in this case.

The objective of the present invention is to provide an easy-to-use mobile pulsed multi-barrel powder fire extinguishing installation, which allows to increase fire extinguishing efficiency, expand operational capabilities and amenities, the range of applications in accordance with the existing need by creating conditions for eliminating the violation of the integrity of the flow of the extinguishing agent and the rapid loss of its speed , to ensure a mode of almost continuous operation during extinguishing by minimizing Otero time during charge while enhancing the reliability of receiving the functional result and the compactness of the entire system.

The problem is solved by the proposed design of a mobile pulsed multi-barrel powder fire extinguishing installation, comprising a bed with a removable cassette with trunks and a control panel for initiating an impulse supply mounted on a mobile vehicle. The peculiarity lies in the fact that each barrel is removable, it is a reusable powder fire extinguishing module that contains a fire extinguishing powder, a gas generator with the possibility of its replacement, while simultaneously providing aeration of the fire extinguishing powder, an electrical connector for connecting to the corresponding cable connector on the control panel, the housing of each module made with a diameter that is variable in length, a part of the case with a smaller diameter is placed coaxially with the part of the outlet of the extinguishing powder The case of a larger diameter or offset relative to its axis and covered by an opening membrane, while the case of each module is equipped with mounting elements for movement in the guides of the cassette, equipped with position locks for each module.

In particular, the mounting elements of each module case are made in the form of separate pointwise installed elements placed at the ends of a larger diameter housing part, or in the form of point or extended elements placed along the forming part of a larger diameter housing.

In particular, a self-propelled vehicle or a trailer to it is used as a mobile means.

The analysis shows that the claimed installation while maintaining the advantages of the prototype for the possibility of salvo or sequential suppression, the possibility of changing the inclination of the cartridge in the vertical plane differs from the closest analogue in a different form of execution of each barrel - with a diameter that varies along the length (in the prototype - a constant diameter); ensuring structural unity, shift, representing a single product of the trunks, causing simplicity and speed of service (in the prototype - the container and the shutter are inserted into the barrel as independent assembly units); another type of gas source used is a replaceable gas generator that delivers gas directly to the volume of the extinguishing powder, ensuring its swelling and eliminating clumping; the presence of an opening membrane that excludes external unauthorized exposure to the internal space of the trunk; another functional result - a narrow continuous cross-sectional flow of extinguishing agent without impurities with increased hit accuracy (in the prototype, the flow has sections weakened by concentration) is pulsed from the barrel pulsedly.

It is the combination of the features distinctive from the prototype of the proposed solution with the remaining essential features that made it possible to achieve the above technical result, which cannot be obtained when implementing the prototype, and to solve the problem.

The proposed mobile pulsed multi-barrel powder fire extinguishing installation is illustrated by the drawings:

Figure 1 - external front view of the installation with coaxial placement of parts of the barrel with different diameters;

Figure 2 - external rear view of the installation with coaxial placement of parts of the barrel with different diameters;

Figure 3 - sectional view of the barrel-module with coaxial placement of its parts of different diameters;

Figure 4 - section of the barrel module when placing its parts of different diameters with mixing relative to each other.

A mobile pulsed multi-barrel powder fire extinguishing installation contains a frame 1, a cartridge 2. In the guides 3 of the cartridge 2 are mounted powder fire extinguishing modules 4. The frame 1 is connected to the cartridge 2 by a rotary axis 5, which allows the cassette 6 to be tilted in the vertical plane with fixation cassettes 2 in the required position. A portion of the smaller diameter 7 of each barrel module 4 is covered by an opening membrane 8. Each barrel module 4 is equipped with an electrical connector 9 for connection to a corresponding cable connector of a launcher (not shown).

Each barrel module 4 contains a fire extinguishing powder 10, a gas generator 11, mounted in a part of a larger diameter housing and connected to an electrical connector. The gas generator 11 is equipped with holes 12 for aeration of the powder 10. The structural embodiment of each module is not an exhaustive embodiment for the claimed invention, but is shown for illustration. The basis for the alternative designs of each module are adapted for the inventive installation of the applicant’s development (patent No. 2297261, publ. 04/20/2007, application No. 2009114175 dated April 14, 2009). The drawings show the installation of 9 barrel modules. In practice, it is possible to use a larger number of trunks.

Mobile pulse multi-barrel installation of powder fire extinguishing works as follows.

In case of fire, the mobile vehicle with the installation is brought to a safe distance to the source or areas of the fire. Using the rod system 6, the operator tilts the cartridge in such a way that the barrels are directed into the fire zone and, through the starting device, feeds current pulses to the electrical connectors 9 of one or more barrel-modules 4. The gas generator 11 works, through the openings 12 the gas enters the internal the volume of each module 4, aerates the powder 10, preparing it for throwing. When the gas reaches the pressure of the appropriate level, a sharp dynamic section of the membrane 8 occurs and the gas-powder mixture in a harmoniously organized flow is discharged into the fire zone. After using all the barrel-modules 4 in the cassette 2, if necessary, extinguishing, the operator replaces them, inserting each module into the guides 3 of the cassette 2 in almost one step.

Field tests were carried out to extinguish three wooden stacks 4 m long, 1 m wide, 1.5 m high each. The distance between the stacks is 2 m. For extinguishing, a 9-barrel installation with a fire extinguishing powder in each barrel of 22 kg was used. A mobile vehicle (cargo GAZelle) moved along burning stacks at a distance of 12 m from them and the operator launched the trunks one by one. All stacks were extinguished from 6 trunks.

Thus, the proposed mobile pulsed multi-barrel installation of powder fire extinguishing is practically feasible, allows you to satisfy a long-standing need for solving the problem.

Claims (3)

1. A mobile pulsed multi-barrel powder fire extinguishing installation, comprising a bed with a removable cassette with trunks that can be mounted on a mobile vehicle and an initiating pulse supply control panel, characterized in that each barrel is replaceable, is a reusable powder fire extinguishing module that contains a fire extinguishing powder, gas generator with the possibility of its replacement, while simultaneously providing aeration of the extinguishing powder, electrical connector for connection with the corresponding cable connector of the control panel, the case of each module is made with a diameter that is variable in length, a part of the case with a smaller diameter is placed on the discharge side of the extinguishing powder coaxially with a part of the case of a larger diameter or offset relative to its axis and is covered by an opening membrane, while the case of each the module is equipped with mounting elements for movement in the cassette guides, equipped with position locks for each module. 2. The installation according to claim 1, characterized in that the mounting elements of each module housing are made in the form of separate pointwise installed elements located at the ends of the larger diameter housing, or in the form of point or extended elements placed along the forming part of the larger diameter housing. 3. Installation according to claim 1, characterized in that as a mobile means use a self-propelled vehicle or trailer to it.

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