RU2008048C1 - Fire-fighting plant - Google Patents

Abstract

FIELD: fire-fighting equipment. SUBSTANCE: fire-fighting plant has cluster of hoses 5 mounted on carriage. Each hose is provided with individual shock absorber 16 and is connected to system of automatic control of time of feeding charges of fire-fighting compound to place of fire. Each hose 5 accommodates ejection charge 9 and fire-fighting compound 8 contained in hermetically sealed enclosure 7 made from material easily destroyed be effect of shock wave. Ejection charge 9 and fire-fighting compound 8 are separated from one another and from wall of enclosure 7 by means of closing plugs 10 and 12. EFFECT: enhanced fire-fighting capability. 4 cl, 4 dwg

Description

 The invention relates to fire fighting equipment, namely to a fire extinguishing installation.

 The most powerful of the known examples of fire fighting equipment that provide remote supply of fire extinguishing compounds to the fire, are airfield fire trucks (E. A. 2201608), designed to extinguish burning aircraft on the runway. These cars, which are also used in extinguishing large-scale fires, are equipped with several tanks with a total supply of fire extinguishing compounds (water, foaming agent and powder) up to 10-30 tons, as well as powerful pumps, compressors and fire monitors supplying fire extinguishing compositions to a distance of up to 100 m.

 A powerful fire extinguishing installation (A 4875526) is known on a caterpillar chassis, containing a platform on which control means are located, containers for storing a large amount of extinguishing agent, hoses connected to containers, and controllable sprinklers supplying the extinguishing agent in all directions.

However, these installations cannot quickly extinguish large-scale fires (in a time measured by no more than a few seconds). This is due to the fact that pneumatic and hydraulic installations for supplying extinguishing compositions carry out only fragments, a local extinguishing effect that is not able to provide quick fire extinguishing of large-scale fires. Extinguishing such fires usually takes several hours with high costs of fire extinguishing compositions up to 1 t / m ² and this is preceded by complicated preparation to concentrate a lot of equipment for supplying fire extinguishing compositions, pumping stations, pipelines and tanks with thousands of tons of fire extinguishing compositions. Therefore, fire extinguishing in hard-to-reach areas cannot be carried out quickly enough and, in addition, it is associated with a large number of people being exposed to various damaging effects for a long time. Modern pneumatic and hydraulic equipment cannot carry out the rapid installation of large-scale light-and-heat curtains, the localization and deactivation of active dusts, aerosols in large areas and volumes, including the inhibition of explosive gas environments, vapors, dusts,
To extinguish local fires in hard-to-reach areas, fire extinguishing shells and missiles have been developed (Titkov V. Delivery of fire extinguishing shells to the fire source. - Fire Department, 1985, No. 6, p. 35). Fire extinguishing ammunition bursting in a fire is characterized by small quantities of extinguishing compounds and, accordingly, small extinguishing areas - not more than 10-15 m ² , significant radii of dispersion of the destructive fragments, which causes the danger of using these ammunition, as well as a high degree of turbulization of the burning surface and spraying burning particles outside the effective fire extinguishing zone, which leads to increased burning around the fire extinguishing zone of ammunition.

 For effective pulse extinguishing, it is necessary that the front of the extinguishing stream simultaneously or sequentially affect the entire combustion surface. In this case, the flow should have strictly defined ranges of parameters in terms of concentration and dispersion, speed and direction of the flow effect. To obtain such a flow, fire extinguishing ammunition must explode at a strictly defined distance from the combustion surface. For each type of ammunition, the permissible dispersion of this distance is in the range of 0.5-1.5 m. When throwing at a distance measured in hundreds and thousands of meters, based on the characteristics of modern fuses, there is no way to ensure the required accuracy. An explosion of ammunition at a distance less than the required sharply reduces the extinguishing effect, since the extinguishing stream due to aerodynamic drag quickly loses speed and cannot overcome (destroy) the upward flows of combustion products in order to effectively affect the burning surface. An explosion of ammunition at a distance less than the required distance from the combustion surface provides a small extinguishing area, a large area of turbulization of the burning surface and spraying of burning particles, which leads to an increase in the intensity of combustion and the scale of the source. It is possible to compensate for these negative effects of overflights and short-durations of fire extinguishing ammunition only by the mass consumption of ammunition, which leads to significant destruction of the burning object. Mass exposure to fire extinguishing ammunition is advisable only when extinguishing areas of a forest fire, when it is necessary to stop the fire at any cost. In other widespread cases of fires that occur, for example, when burning tanks with gas or oil products, warehouses with explosive materials, workshops, process plants and others, fire extinguishing ammunition is not applicable.

 Due to the limited scope of the use of fire extinguishing ammunition, the development of barrel impulse systems is being carried out, directly throwing the extinguishing composition from the barrels. A technical solution is known (I. Abdurahimov. For extinguishing gas fountains. - Firefighting, 1985, N 80, pp. 16-17) of ten-barrel and single-barrel installations that throw a fire extinguishing composition onto a fire. The barrel contains separate chambers for charge combustion, pressure accumulation, a membrane unit, a piston, the barrel itself, filled with powder, and a nozzle. Due to the complexity of the barrel design and the lack of direct interaction of the energy carrier - gaseous products of the explosion and the missile composition of the installation, they are characterized by low efficiency, small kinetic energy and a short range of effective fire extinguishing effects of the flow of not more than 10-15 m. These installations extinguish gas fountains from a distance of not more than 10-15 m. Installations cannot throw liquids and viscous compounds, which does not allow using them to provide pulsed combined fire fighting.

 The basis of the present invention is the creation of a fire extinguishing installation with such placement in the barrel of expelling and extinguishing charges and supplying doses of the extinguishing composition to the fire, which would increase the kinetic energy and the degree of dispersion of the extinguishing composition, providing an increase in the speed, direction and extinguishing efficiency of its continuous application uniform front into the high-temperature surface of the fire.

 To do this, in a fire extinguishing installation containing a package of trunks installed on the chassis, each of which contains a blowout with its igniter and a fire extinguishing composition, in each barrel the blowout and fire extinguishing composition are placed in an airtight shell of readily destructive material in which the wads are installed, the igniter is connected with expelling charge, while each barrel has an individual shock absorber and is connected to a system for automatically controlling the time of supply of doses of extinguishing agent to the fire.

 To ensure longer and safer storage of the extinguishing agent and the expelling charge, it is advisable that the shell be divided into two non-communicating pressurized compositions, in one of which the extinguishing agent is placed, and in the other - the expelling agent, with wads installed in each compartment.

 In each barrel, a fire extinguishing composition can be placed in a sealed enclosure made of readily destructible material, which, together with the charge, is enclosed in a housing, along the entire length of which along its longitudinal axis are spray charges mounted on a detonating cord, the ends of which are connected to the igniter expelling charge and initiator connected to electrical contacts, with each barrel has an individual shock absorber and connected with its electrical contacts to the system automatically th regulation by the time of supply of doses of the extinguishing agent to the fire.

 It is advisable that each wad would be made in the form of solid disk spacers.

 In order to provide a flexible setting of the rhythm of shots from individual barrels participating in a salvo, it is preferable that the installation be provided with a system for automatically controlling the time for delivering doses of extinguishing agent to the fire.

 The present invention allows to reduce the time of reloading the barrel to 2-3 s, provides the ability to fill the projectile with powder, liquid or gas, to increase the range of flow.

 In FIG. 1 shows a multi-barrel fire extinguishing installation; in FIG. 2 - the barrel, in which the expelling charge and the fire extinguisher is placed in a common airtight shell; in FIG. 3 - a barrel in which the expelling charge and extinguishing agent are placed in the compartments of the shell; in FIG. 4 - a barrel in which only a fire extinguishing composition is placed in an airtight shell.

 Fire extinguishing installation contains a chassis 1 (Fig. 1) with a hatch 2 for the operator and sight 3. As the chassis 1, the chassis of an armored personnel carrier, tank or self-propelled artillery on a wheeled or tracked track can be used. On the tower pursuit 4 of the chassis 1, a package of shafts 5 is installed, which are connected to a system 6 for automatically controlling the time for delivering the doses of the extinguishing agent to the fire and whose axes are located at least 100 mm apart.

 Each barrel 5 (Fig. 2) is a hollow smooth-bore pipe, in which a sealed sheath 7 is made, made of a material that is easily destroyed by the action of an explosive wave, for example cardboard or low-strength brittle plastic. A fire extinguishing composition 8 and an expelling charge 8 are placed in the casing 7, separated from each other by a wad 10 and a gasket 11. The extinguishing composition 8 is also separated from the wall of the casing 7 by wad 12. As a wad 10 and 12, solid disk pads can be used. In each barrel 5, outside the shell 7, an igniter 13 is mounted, mounted on a holder 14 and connected to electrical contacts 15 connected to the system 6 (Fig. 1). In addition, each barrel 5 (Fig. 2) has an individual shock absorber 16.

 Fire extinguisher composition 8 (Fig. 3) and blow-out charge 9 can be enclosed in different sealed compartments 7a and 7b of the shell 7, and in compartment 7a an additional wad 17 is installed between its wall and fire extinguishing composition 8.

 To extinguish local foci that are more than 100 m from the installation location, only the extinguishing composition 8 is placed in the sealed shell 18 (Fig. 4). The shell 18, together with the expelling charge 9, separated from it by wad 10 and gasket 11, is enclosed in a cylindrical body 19 with a streamlined head portion 20 in which the igniter 13 is placed. Spray charges 21 are mounted along the entire length of the housing 19 along its longitudinal axis, mounted on a detonating cord 22, the ends of which are connected to the igniter 13 and the torus 23 connected with the electrical contacts 15. The spray charges 21 may be of different shape and their relative position is selected depending on the desired configuration spraying. The ratio of the mass of the expelling charge 9 to the mass of the sprayed extinguishing composition 8 is 0.1-0.005.

 The proposed fire extinguishing installation operates as follows.

 In the trunks 5 (Fig. 1), either an airtight shell 7 (Fig. 2) is inserted, including a fire extinguishing composition 8 and a blowout charge 9, or its separation 7a and 7b (Fig. 3), or a shell 18 with a fire extinguishing composition 8 (Fig. 1). 4).

 Using sight 3 (Fig. 1), the installation is aimed at the fire and the required number of trunks 5 is triggered at predetermined time intervals (at least 0.3 s). In this case, the igniter 13 (Fig. 2), when an initiating pulse is supplied to it, is triggered and initiates an explosion of the expelling charge 9 with a blast wave of a flat front. Wad 10 and gasket 11 partially reduce the speed of the blast wave, equalize the mass velocities of its particles and, accordingly, the front of the blast wave. Due to this, the extinguishing composition 8 (powder, liquid or gas) in the sealed enclosure 7 is more gently and smoothly loaded by the blast wave. The elastic shell 7 (Fig. 2 and 3) can be made of cardboard, low-strength brittle plastic. In this case, the shell 7 is destroyed in the barrel 5 or at a distance of not more than 5-10 m from the barrel 5. The fire extinguishing composition is directly ejected from the barrel 5, with the release of 20 kg of powder, a powerful gas-powder flow is generated, moving up to 30-35 m, when water is discharged up to 20-25 m. An elastic hermetic shell 7 and wad 12 covering the bore of the barrel 5 help to equalize mass flow rates, delay the onset of flow interaction with the environment and stimulate compression by a massive, steady-state blast wave Resistant to aerodynamic drag, the head of the gas powder flow.

 When using spray charges 21 (Fig. 4) during the explosion of the knockout charge 9, the detonating cord 22 lights up. The explosion of charges 21 occurs simultaneously with the explosion of the igniter 13 at the time of its impact in the fire.

 The system for automatic control of the time of the shots used in the installation provides the task of the rhythm of shots in the range from 0 to 0.9 s between shots from individual barrels 5 (Fig. 1) participating in the salvo.

 The barrel 5 (Fig. 2), in which the discharge charge 9 and the fire extinguishing composition 8 are placed in the same sealed shell 7, allows you to extinguish significant areas and powerful foci at a distance of up to 100 m, while reducing the time for reloading the barrel 5, it can be made at the place of work shortly before use (short-term storage).

 Curb barrel 5 (FIG. 3), in which the discharge charge 9 and extinguishing agent 8 are placed in different compartments 7a and 7b of the sealed sheath 7 of elastic material, has a similar application advantage as the curb barrel 5 in FIG. 2, but, in addition, separately sealed knockout charges 9 from the extinguishing agent 8 make it possible to ensure their long-term and safe storage.

 Curb barrel 5 (Fig. 4), in which a shell 18 with a fire extinguishing composition 8 is enclosed in a cylindrical body 19, allows to extinguish local foci more than 100 m away, completely bring the fire extinguishing composition to the fire center and ensure its spraying directly in the fire center fire.

 The main advantages of the invention is to reduce the reload time of the barrel to 20-30 s, providing the ability to fill the projectile with powder, liquid or gases, increasing the range of the flow by 20-30% compared with the prototype.

 The invention is most suitable for extinguishing large-scale and rapidly developing fires, burning explosive materials and products, as well as for extinguishing fires in hard-to-reach areas, characterized by the presence of powerful streams of light, heat, radioactive radiation, explosive dusts, vapors, gases, aerosols, toxic dusts, vapors , gases, aerosols. (56) Copyright certificate of the USSR N 4885526, cl. A 62 C 27/00, 1987.

Claims (4)

 1. FIRE EXTINGUISHING INSTALLATION, containing a package of shafts installed on the chassis, each of which contains a blowout charge with its igniter and fire extinguishing composition, characterized in that in each barrel the blowout charge and fire extinguishing composition are placed in an airtight shell made of a material that is easily destroyed by the action of an explosive wave in which the wads are installed, and the igniter is connected with a knockout charge, with each barrel having an individual shock absorber and connected to a system for automatically controlling the time for delivering doses of og non-extinguishing composition to the fire.  2. Installation according to claim 1, characterized in that the shell is divided into two non-communicating pressurized compartments, one of which contains a fire extinguishing composition, and the other has an expelling charge, with wads installed in each compartment.  3. Installation according to claim 1, characterized in that in each barrel the fire extinguishing composition is placed in an airtight shell made of a material that is readily destructible when exposed to an explosive wave, which, together with the expelling charge, is enclosed in a body along the entire length of which is longitudinally spaced from each other are spray charges mounted on a detonating cord, the ends of which are connected to the igniter of the expelling charge and the initiator connected to the electrical contacts to the system for automatically controlling the dose fire-extinguishing composition in the fire.  4. Installation according to paragraphs. 1 and 2, characterized in that each wad is made in the form of solid disk pads.

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