RU2701409C1 - Device for prevention and extinguishing of forest, industrial and emergency-transport fires and laying of barrier strips with air-mechanical foam - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: invention relates to fire prevention and suppression of large-scale forest, peat, soil, steppe, industrial and emergency transport fires and creation of barrier strips ahead of fires at localization of upper and lower forest, soil, peat, steppe and other fires. Device for prevention and extinguishing of forest, industrial and emergency transport fires and laying of barrier strips with air-mechanical foam contains sealed housing located in protective frame with components of fire-extinguishing substance in form of component A – water and component B – water solution of foaming agent, means for mixing components of fire-extinguishing substance and subsequent foaming of mixture of components of fire-extinguishing substance with ejected air in form of interconnected at least two mixers-generators of foam of low and medium multiplicity with the possibility of obtaining at least one combined jet of air-mechanical foam average multiplicity of increased range, means of supplying fire-extinguishing substance components from the housing to a means for mixing components of the fire-extinguishing substance under the effect of pressure inside the housing and then foaming the mixture of fire-extinguishing substance components with ejected atmospheric air, means to create pressure inside housing in form of at least one solid-propellant gas generator with possibility of creation of pressure inside pressure tight housing.

EFFECT: higher efficiency of operation and simplified design while improving its compactness.

18 cl, 10 dwg, 1 tbl

Description

FIELD OF TECHNOLOGY

The invention relates to fire fighting equipment for the prevention and suppression of large-scale forest, peat, soil, steppe, industrial and emergency transport fires and the creation of foam barrier strips and protective foam-filled trenches in front of the edges of the fires in the localization of upper and lower forest, soil, peat, steppe and other fires .

BACKGROUND

It is known that forest fires often occur in large areas, sometimes several tens or more hectares, and spread almost at the speed of the wind, therefore the main task of extinguishing forest fires is to suppress its spread by cutting off its front, for which barriers are usually arranged by creating barrage trenches, plowing the land and cutting clearings.

It is also known that the suppression of horse fires (propagating mainly along the upper part of tree crowns) and ground fires (propagating mainly along the surface of the earth) require the use of various fire-fighting technologies and means.

Fires at industrial facilities and during transport accidents often occur over large areas, and at significant heights, and inaccessible to ground fire transport, and during the burning of low-density (floating to the surface of the water) oil and chemical products. This makes it difficult and often makes it impossible to supply extinguishing substances to the fire with traditional, known fire extinguishing methods and equipment.

Known technologies and equipment for extinguishing with air-mechanical foam of low and medium multiplicity.

Known fire monitors and hand barrels that form jets of water or foam of low multiplicity with a feed range of 20-60 m, however, they do not allow for a large coverage area, require the use of expensive film-forming fluorinated blowing agents and require their ground delivery to the border of the fire, which does not allow to obtain the required fire extinguishing effect, leads to a delay in the extinguishing time and the high cost of blowing agents used in extinguishing a fire and the inability to extinguish large fires that are difficult to access for ground transportation places.

It is known that in local fires foam of medium multiplicity is used, which has increased (compared to low-foam) fire extinguishing effectiveness in extinguishing oil and oil products and foam generators in portable and stationary versions. However, most of the well-known medium foam generators provide foam jets from 3 to 8 m, which complicates the process of their use due to the high risk of fire department personnel working in the fire zone, known methods and medium foam generators (KP = 40- 100) have the required fire extinguishing efficiency and allow the use of water-soluble foaming agents, but they are capable of delivering foam of medium multiplicity of only 3 to 8 m, which is clearly not enough to extinguish large Ożarów over large areas.

Known low-foam generators, providing a spray range of 20 to 60 m, do not allow the use of affordable low-cost water-soluble foaming agents and do not provide the required fire extinguishing efficiency and low-foam foam coverage area.

There is a method of supplying foam of increased multiplicity and a device for its implementation, according to which, to increase the range of supply of a jet of foam of increased multiplicity, the jets of foam are intersected within the generator body and special rotary jet accelerators are used [RU 1614813, A62C 5/02, publ. 12/23/90].

Air-mechanical foams of high multiplicity are characterized by increased fire extinguishing efficiency, but insignificant, up to 8-10 m range of high-frequency foam jets

A device for extinguishing fires and for dispensing foam of medium and low multiplicity over a long distance and creating a sprayed and compact jet of water are adjacent adjacent to a single water main, a medium-sized foam generator and a foamy low-frequency foam generator barrel [RU 2129895, А62С31 / 12, publ. 05/10/99 g].

Known previously developed by the authors of the claimed invention and previously patented by the applicant ZAO NPO SOPOT is a method of forming a medium-range foam jet with increased range, including supplying a jet of a foaming solution to the mesh in the foam generator body and receiving a medium-sized foam jet from one or more nozzles or other directional formation means jets or jets under pressure of a foaming agent solution in front of nozzles from 0.4 to 1.2 MPa located at a distance from the grid, in the direction from the center jets of foam to the periphery, while two or more jets of a foaming agent solution are supplied from the grid from two or more nozzles or other means of forming directed jets simultaneously with the possibility of the formation of two or more contacting and / or mutually overlapping foam generators in the housing and / or behind it jets of foam of medium multiplicity with the formation of a single jet of foam of medium multiplicity of increased range [RU 2180607, A62C5 / 02, publ. 2002.03.20].

Known methods and equipment are not sufficiently ineffective in extinguishing large fires in large areas and in places inaccessible to land automobile transport. Therefore, technologies and equipment for extinguishing fires using aircraft, mainly airplanes and helicopters, are being intensively developed, which is due, first of all, to the speed of delivery of fire extinguishing equipment to places inaccessible to ordinary vehicles.

The most common fire extinguishing method using airplanes so far is water, which is usually poured out of flying airplanes into forest fires, but it is known that it is not possible to extinguish oil product fires and fires in urban environments and industrial facilities, as well as in remote areas from airfields in this way places.

The predominant use of helicopter equipment in fire fighting is primarily associated with the possibility of prompt delivery to the emergency site of firefighters, rescuers, fire fighting equipment, as well as the evacuation of victims. The cost of such work is much higher than the cost of work with road transport, but in the presence of rough terrain, blockages or traffic jams on the roads and the presence of high-rise residential and industrial buildings, a helicopter is often the only way to deal with forest fires and eliminate the consequences of accidents and disasters on industrial objects.

A significant advantage of helicopters is their ability to hang in place and perform vertical ascent and descent. This allows them to take off and land in a limited space and, in essence, transfers helicopters to the class of aerodrome-free aerodromes, so that helicopters are capable of performing tasks inaccessible to aircraft. Therefore, at present, aviation fire fighting technologies are being intensively developed with the predominant use of helicopters.

The most common fire extinguishing method using helicopters is to deliver water to the fire place and drain it to the fire using devices transported on the external suspension of the helicopter and made with the possibility of taking water from reservoirs in the mode of helicopter hovering [Pat. U.S. 4,474,245, NKI 169/53, Pat. USA 4576237, NKI 169/53, RU 2143295, А62С 31/00, publ. 1999.12.27].

Known helicopter for fighting fires, including a fuselage, a power plant, consisting of an engine and a propeller system, a fire extinguishing device, consisting of a rotary fire barrel, consisting of a barrel and a sleeve installed outside the area of the throwing area of the screw associated with it the supply line of the working fluid, and the supply system of the working fluid, including from an external source of the working fluid [US Patent 4090567, A62C 27/30, 1976].

Known helicopter fire extinguishing installation containing a container with a shut-off valve for liquid, a system of hoses and pipelines with valves, which contains pumps located in a sealed chamber connected to the ejector, while the pumps are connected via pipelines to the suction sleeve, tank, sleeve with a fire barrel and a manifold with nozzles, the container is made of rubberized fabric, enclosed in waist bandages and suspended from the fuselage assemblies, has a suction sleeve pull-up system containing a winch, a system blocks through which the winch cable is connected to the end of the suction sleeve [RU 2097276, B64D 1/18, publ. 1997.11.27].

After the well-known fire of the Ostankino TV tower to extinguish fires in high-rise buildings, a specialized horizontal fire extinguishing installation called Igla-V was developed, containing a water cannon, which, as it turned out later, can only be used on coaxial helicopters, since if used on a tail rotor helicopter the jet of water is broken by turbulent air flows formed around the helicopter and turns into a shapeless cloud of sprayed water.

A well-known helicopter for fighting fires, including a fuselage with external attachment points, a power plant from an engine and a propeller system, comprising a fire extinguishing device, consisting of a mounting frame, an external rod, a rotary fire barrel placed on it, a supply line for the working fluid to the barrel, and a feed system working bodies, including from an external source of the working medium, and the mounting frame and the remote rod are mounted on the fuselage of the helicopter, and the fire extinguishing device is equipped with an additional nozzle installed on the end of the extension rod and having a source of additional air supply, while inside the additional nozzle there is a rotatable barrel, and at least one vertical fire barrel directed downward and installed inside the swept area of the screws [RU 2248916 B64D1 / 18, А62С 27/00, publ. 2005.03.27].

A fire extinguishing installation is used for extinguishing fires in industrial and other enterprises, in public and other buildings, containing a container made of composite material based on fiberglass, organofibre or carbon fiber with a neck cap, coaxial upper and lower pole holes, a trigger mechanism fixed in the tank, and a gas generator with gas pipe and a pipe with spray nozzles, characterized in that to increase the efficiency of extinguishing it has a bottom cover, above which there is a screen en, in the form of a glass, and holes with safety membranes are made in the neck cover, and the gas generator is attached to the neck cover with a groove in the lower part of its body, the gas pipe is installed with a gap relative to the screen facing the bottom of the pipe and connected by struts to the bottom cover, and between the racks coaxially with the inlet of the pipeline placed float valve. The screen, which prevents the entry of under-oxidized gases, products of combustion of the charge with the liquid flow and their discharge into the combustion zone, faces the bottom of the gas pipe and is connected by racks to the bottom cover, and a float valve is placed between the racks coaxially to the outlet pipe. In the final stage of liquid displacement, the float closes the vapor-gas mixture inside the tank. A gas pipe fixed to the bottom of the gas generator is installed with a gap relative to the screen. [RU 2022582 A62C 3/08 Publ. 11/15/1994]

The main requirement for extinguishing forest and industrial large-scale fires is high efficiency. This leads to widespread use of aviation, despite the high cost of its use. Aircraft or helicopters are used as delivery vehicles, and helicopters have a number of advantages, which include:

- the ability to reach fires inaccessible to ground-based fire fighting equipment and firefighters of river and sea vessels due to the lack of roads, road congestion, blockages, etc .;

- independence from equipped airfields, runways and other airfield infrastructure compared to aircraft;

- various applications for extinguishing fires - targeted fire extinguishing, extinguishing a fire in an area when the length and width of the fire extinguishing zone varies according to the horizontal speed and height of the combat spillway.

Extinguishing forest fires has its own specifics. Extinguishing efficiency decreases sharply with increasing discharge height of the extinguishing agent, which is usually used as dispersed or sprayed water, since a significant part of the usually discharged water evaporates before reaching the ground, and a significant part of the dispersed or sprayed water is held back by the upper crowns of trees.

At the same time, a low altitude of flight can lead to surging of engines, since hot air is depleted of oxygen, and an increase in the height of the suspension between the helicopter and the drain tank can lead to a catch on the trees, while reducing accuracy and performance.

The closest in technical essence and achieved by using the result (prototype) is the previously developed method of NPO SOPOT, CJSC, a method of supplying a fire extinguishing agent to a fire zone and / or to a barrier strip, in which a combined jet of low-frequency water-air foam with a multiplicity is used as a fire extinguishing agent from 7 to 20 and medium multiplicity with a multiplicity of from 20 to 70, as well as a helicopter device according to the first embodiment comprises a combined fire extinguishing installation with the possibility of generating feeding and supplying a combined jet of foam of low and medium multiplicity and installed on the frame inclined, horizontally or vertically of the water tank. Water tanks contain suction nozzles in communication with the motor-pumping unit from below and are connected by pipelines to the foam-forming containers and the motor-pumping unit. The helicopter device according to the second embodiment comprises a combined fire extinguishing installation with the possibility of generating and supplying to the fire zone and / or to the barrier line two or more adjoining or intersecting combined jets of foam of low multiplicity and medium multiplicity. EFFECT: increased efficiency of simultaneous extinguishing of both top and bottom forest, peat and soil fires, industrial and emergency transport fires [RU 2394724 B64D 1/16, А62С 3/02 А62С 5/02, publ. 07/20/2010 (prototype)].

The technical disadvantages of the prototype device are the insufficient fire extinguishing efficiency, the complexity and bulkiness of the structure, the insufficient high speed and insufficient efficiency of the device.

TASKS AND TECHNICAL RESULTS

The main technical problem (the inventive task has not been solved so far), which restrains the increase in the effectiveness of modern methods and equipment for preventing and extinguishing large fires in forests and industrial facilities using helicopters, is that the known spillway and water-filled devices are not effective enough to extinguish fires on large areas when extinguishing from air large-scale forest, peat, soil, steppe, industrial and emergency transport fires and the creation of foam barrier strips and barrier foam-filled trenches in front of the edges of the fires in the localization of upper and lower forest, soil, peat, steppe and other fires.

The technical result achieved by using the invention is to increase the efficiency of preventing and extinguishing forest, industrial and emergency transport fires over large areas and heights in remote places inaccessible to conventional ground transportation, as well as simplifying the design of the device while increasing its compactness, speed and functioning efficiency.

SUMMARY OF THE INVENTION

The goal, the required and obtained by using the invention, the technical result is achieved by the fact that the proposed device for preventing and extinguishing forest, industrial and emergency transport fires and laying barrier strips with air-mechanical foam according to the invention contains

a sealed enclosure located in a protective frame with means of suspension to a helicopter or to a lifting device with components of a fire extinguishing agent placed in it in the form of component A — water and component B — aqueous foaming agent,

means for mixing the components of the extinguishing agent and subsequent foaming of the mixture of the components of the extinguishing agent with ejected atmospheric air in the form of at least two low and medium multiplicity foam mixers-generators with the possibility of obtaining at least one combined jet of medium-speed air-mechanical foam of increased long range ,

means for supplying the components of the extinguishing agent from the housing to the means for mixing the components of the extinguishing agent under the influence of pressure inside the housing and subsequent foaming of the mixture of components of the extinguishing agent with ejected atmospheric air,

means for creating pressure inside the housing in the form of at least one solid fuel gas generator with the possibility of creating pressure during combustion inside the sealed housing.

At the same time, foam mixers-generators of low and medium multiplicity are made

with the possibility of obtaining foam of low multiplicity with a multiplicity of from 7 to 20 and foam of medium multiplicity with a multiplicity of from 20 to 70;

with the possibility of obtaining at least one combined jet of air-mechanical foam of medium multiplicity with a multiplicity of 30 ± 10;

with the possibility of obtaining jets of dispersed and sprayed water with an average dispersion of 100-150 microns when a small amount of component B, an aqueous solution of a foaming agent, is fed into mixer generators;

attached to the protective frame with the possibility of rotation and fixing in an inclined position.

The sealed case is made of a composite material based on fiberglass, organ fiber or carbon fiber, located in a protective frame with means of suspension to a helicopter or to a lifting device, and in design options it can be

made with a top cover with the possibility of installing at least one solid fuel gas generator and an overpressure relief valve in the housing and or

made with a bottom cover with the possibility of installing valves in it for the intake and discharge of components of the extinguishing agent.

The device may include means for quickly draining the components of the extinguishing agent.

The means of supplying the components of the extinguishing agent from the body to the mixing means of the components of the extinguishing agent can be made in the form of pipelines equipped with shut-off and control valves for supplying the components of the extinguishing agent to the means of mixing the components of the extinguishing agent under the influence of pressure inside the case.

The means for creating pressure inside the casing is made in the form of at least one solid fuel gas generator with remote actuation, which, when ignited and burning, creates pressure inside the casing and supplies the components of the extinguishing agent from the casing to the means for mixing the components of the extinguishing agent and foaming the mixture of components of the extinguishing agent.

In this case, one of the components of the extinguishing agent (component A is water) is located directly in the sealed enclosure, and the other component of the extinguishing agent (component B is an aqueous foaming solution) is located inside the container made of elastic material in the sealed enclosure with the possibility of supplying the components of the extinguishing agent according to the corresponding pipelines into the means for mixing the components of the extinguishing agent under the influence of pressure inside the sealed enclosure.

The device in design options

made with the possibility of generating and supplying to the zone for preventing and extinguishing the fire or to the barrier line two or more jets of adjoining or intersecting combined jets of air-mechanical foam of medium multiplicity of increased range,

contains a remote control system with the possibility of remote initiation of the inclusion of solid fuel gas generators,

contains a system for remote on / off mixer-generators of foam of low and medium multiplicity,

contains a system for remote control of the flow rate control of the foam supplied to the mixer-generators of low and medium multiplicity of the components of the extinguishing agent of the extinguishing agent components.

BRIEF DESCRIPTION OF THE DRAWINGS

The essence of the proposed device for the prevention and suppression of forest, industrial and emergency transport fires and the creation of barriers with air-mechanical foam is illustrated by drawings, which show: 1 - a sealed enclosure made of composite material for placement of component A of a fire extinguishing substance (water), 2 - adapter; 3 - bottom cover; 4 - gas generators, designed to create inside the sealed enclosure of the working pressure of the displacing gas resulting from the combustion of the gas generating substance of the solid fuel cartridge of the gas generator; 5 - exhaust pipe for supplying component A (water) from the housing through the corresponding pipelines to the foam mixer-generators 12 attached to the protective frame 7; 6 - a container made of elastic material located inside a sealed enclosure to accommodate component B of a fire extinguishing agent (aqueous foaming agent solution) in it; 7 - a protective frame with mounting loops to the suspension of a helicopter or a lifting device, made in the form of hollow pipelines with the possibility of supplying component A of a fire extinguishing agent (water) to the foam mixer-generators 12 located at the corners of the protective frame; 8 - splitter for distributing the flows of component A along the pipelines of its supply to the foam mixer-generators 12; 9 - adapter splitter 8; 10 - internal pipelines for the supply of component B of the extinguishing agent (aqueous foaming agent solution) from the tank 6; 11 - external pipelines for the supply of component B of the extinguishing agent from the tank 6 to the foam mixer-generators 12.

In FIG. 1 and 4 show general views, and in FIG. 2 shows a top view of the proposed device.

In FIG. 3 is a cross section of the proposed device on the plane AA.

In FIG. 5 is a photo of a sample of the proposed device in a suspended position.

In FIG. 6 and 7 - photo at the stages of beginning and end of extinguishing the fire, the proposed device.

In FIG. 8-10 photo of the types of fire after extinguishing the device.

IMPLEMENTATION AND INDUSTRIAL IMPLEMENTATION OF THE INVENTION

The functioning of the proposed device is based on the principle of the displacement of extinguishing agent components under the action of gas pressure in a sealed enclosure 1, which is generated when at least one solid fuel gas generator 4 is activated, in which compositions are used that do not have explosive properties and burn stably at various pressures with the release of gaseous products combustion.

The device operates as follows:

As a result of the operation of the gas generators, within 0.5-3 seconds, the pressure inside the body rises to 0.5-1.2, mainly 0.8 MPa, which displaces the component A of the extinguishing agent (water) inside the body 1 through the exhaust pipe 5, which through the corresponding pipelines it enters the main highways of the foam mixer-generators 12.

The pressure generated by the gas generators in the sealed enclosure 1 simultaneously displaces the extinguishing agent component B (water solution of the foaming agent) from the elastic container 6 located inside the enclosure 1, which corresponding pipelines 10 enter the additional lines of the foam generator-generators 12, where components A and B are mixed, foamed ejected atmospheric air and are thrown out in the form of a stream of foamed extinguishing agent.

A photo of industrial testing of the device is shown in FIG. 5-10.

The UPAT-2000 containers made of fiberglass with a capacity of 2000 liters [http://www.fcdt.ru] were used as the body, and the gas generators GG-10 (B) -02) [https: //www.b2b-center were used as gas generators. com / catalog / tovari / generator-gaza-gg-10-b-02-m18kh1-5-2803670 /], and as foam mixers-generators the foam generators produced by the applicant are of the type UKTP Purga [http://sopot.ru]

The device was raised to a height of 10-12 m and a stack of lumber was set on fire.

After local or remote initiation of the ignition of solid fuel, at least one gas generator was activated and provided pressure in housing 1, which squeezed components A and B out of the housing into foam mixer-generators, where components A and B were mixed and the mixture of components foamed to form streams of foamed extinguishing agent that extinguished the fire in 3-5 seconds.

The total ejection time was 30-40 seconds, which corresponds to a device performance of 55-60 l / s.

At the end of the tests, it was found that a layer of air-mechanical foam with good adhesion was formed on all surfaces, in some places of the site the foam layer reached 10-15 cm (Fig. 8-10).

A stack of lumber was also covered with a layer of air-mechanical foam with a thickness of 2-3 mm (Fig. 8-9)

Industrial tests of the device showed that

- all equipment devices worked normally;

- the time of extinguishing the source of fire 3-5 seconds;

- actuation of the gas generator of the first chamber of the installation showed a pressure of 0.4 MPa, which ensured a weak filling of the jets;

- the gas generating device of the second chamber worked after 12 seconds, which led to an increase in pressure to 0.8 MPa, the jets became filled, the flow rate of the foamed extinguishing agent increased;

- the total time of the release of the extinguishing agent was 30-40 seconds;

- total flow rate was 55-60 l / s;

- a layer of air-mechanical foam was formed over the entire site of the landfill;

- the area of the discharge of the extinguishing agent, taking into account the filled baths, was about 150 m ² .

Considering the multiplicity of foam equal to 3-3.5, as well as the layer of air-mechanical foam on the surface of 1.5-2 mm, the expected surface treatment area will be more than 3000 m ² when the air-mechanical foam is formed as a fire extinguishing agent.

With the width of the barrier strip 6-8 meters, the length of the barrier strip in this case will be about 500 m.

In the case of using a frame bundle of several similar devices (2000 × 2; 2000 × 3; 2000 × 4), the processing area, respectively, will be up to 12000 m ² , and the length of the barrier strip up to 2000 m, i.e. up to 2 km.

Thus, it has been experimentally proved that air-mechanical foam can be produced by pulsating a source of displacement of a fire extinguishing agent by means of pressure generated by gas generators from tanks of the UPAT-2000 type.

The protective frame 7 can be made by welding from pipes and bends so that through their internal cavities it is possible to feed component A displaced from the housing into the foam mixer-generators.

The protective frame 7 may be provided with eyes for attaching it to the suspension device of a fire helicopter or a lifting device.

Preliminary calculations showed that to bring the device into action it is necessary:

- the volume of component A (water) in the UPAT-2000 tank is 1550-1600 liters;

- the volume of component B (an aqueous solution of a foaming agent) in a separate container is not less than 150-160 liters;

- gas-generating charges of the type OI-617-06 p. 89-15-l, OI-617-07 p. 93-14-l, OI-617-08 p. 55-15-l with a total weight of up to 10 kg.

Thus, for this design variant of the device:

- the total charge of components A and B is about 1700-1750 l,

- the amount of air space above the surface of component A is 300 l;

- four shafts with UKTP Purga-TP with a total maximum capacity of 80 l / s.

- the pressure created as a result of the operation of gas generating devices inside the tank with an interval of 10-12 seconds of the order of 0.8-0.9 MPa;

- the expected time of the release of the extinguishing agent is 40-50 s.

To confirm the feasibility of implementing the invention in an industrial way and experimentally confirm the feasibility of achieving the required technical result, pilot samples of the claimed device were manufactured and tested, which showed high efficiency of their use.

Fire extinguishing and localization is carried out by supplying combined jets of air-mechanical foam under pressure.

The combined fire extinguishing installations of the UKTP “Purga” manufactured by NPO SOPOT, CJSC, provide for various operating modes with the possibility of generating separate or combined jets of extinguishing agent, which makes it possible to quickly regulate the fire extinguishing capabilities of the device depending on the characteristics of a particular fire.

A distinctive feature of this device from the well-known domestic spillway devices VSU-5, VSU-15A and foreign type HL7600 (Canadian production) is the ability to effectively extinguish large industrial and emergency transport fires from the air, while simultaneously extinguishing both top and bottom forest fires by using empirically identified effect of air-mechanical foam.

Table 1 shows the proven effectiveness of the use of the device according to the invention in comparison with devices of the type APU-5, APU-15A and HL7600 (Canadian production).

Preliminary tests of the device as part of a helicopter device, conducted on the territory of the Russian Federation (Gelendzhik), proved the possibility of a significant increase in the efficiency of eliminating fire sources and creating protective fire strips on the vegetation cover and protecting tree crowns from fire.

The main factor influencing the improvement of the fire extinguishing process is a new method for transporting and delivering fire extinguishing foams using UKPP PURGA manufactured by NPO SOPOT CJSC, which provides the creation of pressurized fire extinguishing agent jets of combined low and medium multiplicity air-mechanical foam jets range.

Thus, the possibility of prompt elimination using the proposed device of large fires at industrial facilities and transport, large forest fires (top, bottom and soil) from the air, the rapid creation of an effective insulating foam layer on burning facilities, foam barriers in front of the edge of a forest fire and practically proved protective foam-filled trenches for localization of soil fires, effective industrial and emergency transport fires over large areas and heights, including Heat oil and petroleum products.

The invention can be used in the elimination of forest agricultural fires, fires in residential and industrial facilities of high storeys, industrial facilities of the fuel, chemical and oil refining industries, fires in areas of oil and gas production and processing, fires in enterprises of the forestry, woodworking and pulp and paper industries , large-scale post-accident fires of aircraft on the ground, accidents and catastrophes in railway, sea and river transport, in buildings shennoy-rise warehouses and bases of fuel and rocket fuel and chemical products, as well as in places far from site and urban fire protection services.

As materials in the manufacture of individual components and parts of the device as a whole, various materials and components used and usually used in fire fighting equipment can be used.

The analysis also shows that all the general and particular features of the invention are essential, since each of them is necessary, and all together they are not only sufficient to achieve the purpose of the invention, but also make it possible to realize the invention in an industrial way.

Given the novelty of the essential features, the technical solution of the problem, the inventive step and the materiality of all general and particular features of the invention, proven in the section "prior art" and "Disclosure of the invention", proven in the section "Implementation of the invention" technical feasibility and industrial applicability of the invention, a successful solution the inventive task, a causal relationship of the essential features of the invention and the technical result, the confident achievement of the required result-ethnic in the implementation and use of the invention, in our opinion, the claimed invention meets the requirements of patentability, requirements for inventions.

Claims (22)

1. A device for the prevention and suppression of forest, industrial and emergency transport fires and the laying of barrier strips with air-mechanical foam, characterized in that it contains a sealed enclosure located in the protective frame with the components of the extinguishing agent in it in the form of component A — water and component B — aqueous foaming agent, means for mixing the components of the extinguishing agent and subsequent foaming of the mixture of the components of the extinguishing agent with ejected atmospheric air in the form of at least two low and medium multiplicity foam mixers-generators with the possibility of obtaining at least one combined jet of medium-speed air-mechanical foam of increased long range , means for supplying the components of the extinguishing agent from the housing to the means for mixing the components of the extinguishing agent under the influence of pressure inside the housing and subsequent foaming of the mixture of components of the extinguishing agent with ejected atmospheric air, means for creating pressure inside the housing in the form of at least one solid fuel gas generator with the possibility of creating pressure during combustion inside the sealed housing. 2. The device according to p. 1, characterized in that the mixer-generators of foam of low and medium multiplicity are made with the possibility of obtaining foam of low multiplicity with a frequency of 7 to 20 and foam medium frequency with a frequency of 20 to 70. 3. The device according to p. 1, characterized in that the mixer-generators of foam of low and medium multiplicity are made with the possibility of obtaining at least one combined jet of air-mechanical foam of medium multiplicity with a multiplicity of 30 ± 10. 4. The device according to claim 1, characterized in that the low and medium multiplicity of foam generators are made with the possibility of producing jets of dispersed and atomized water with an average dispersion of 100-150 microns when a small amount of component B, an aqueous foaming agent, is fed into the mixer generators . 5. The device according to p. 1, characterized in that the sealed enclosure is made of a composite material based on fiberglass, organ fiber or carbon fiber. 6. The device according to claim 1, characterized in that the sealed housing is located in a protective frame with means of suspension to a helicopter or to a lifting device. 7. The device according to p. 1, characterized in that the sealed housing is made with a top cover with the possibility of installing at least one solid fuel gas generator and an overpressure relief valve in the housing. 8. The device according to p. 1, characterized in that the sealed enclosure is made with a lower cover with the possibility of installing valves in it for collecting and draining the components of the extinguishing agent. 9. The device according to claim 1, characterized in that it contains means for quickly draining the components of the extinguishing agent. 10. The device according to claim 1, characterized in that the means for supplying the components of the extinguishing agent from the body to the means for mixing the components of the extinguishing agent are made in the form of pipelines for supplying the components of the extinguishing agent with shutoff and control valves to the means for mixing the components of the extinguishing agent under the influence of pressure inside the enclosure. 11. The device according to p. 1, characterized in that the mixer-generators of foam of low and medium multiplicity attached to the protective frame with the possibility of rotation and fixing in an inclined position. 12. The device according to p. 1, characterized in that the means of creating pressure inside the housing is made in the form of at least one solid fuel gas generator with remote actuation, which, when ignited and burning, creates pressure inside the housing and delivers components of the extinguishing agent from the housing to the tool mixing the components of the extinguishing agent and foaming the mixture of the components of the extinguishing agent. 13 The device according to claim 1, characterized in that one of the components of the extinguishing agent is located directly in the sealed enclosure, and the other component of the extinguishing agent is located inside the container of elastic material located in the sealed enclosure with the possibility of supplying the components of the extinguishing agent through appropriate pipelines to the component mixing means extinguishing agent under the influence of pressure inside a sealed enclosure. 14. The device according to p. 1, characterized in that it is made with the possibility of generating and supplying to the zone for preventing and extinguishing the fire or to the obstacle strip two or more jets of adjoining or intersecting combined jets of medium-mechanical-air foam of increased long range. 15. The device according to p. 1, characterized in that the protective frame of the device is equipped with means of suspension to a helicopter or to a lifting device. 16. The device according to p. 1, characterized in that it contains a remote control system with the ability to remotely initiate the inclusion of solid fuel gas generators. 17. The device according to p. 1, characterized in that it contains a system for remote on / off mixer-generators of foam of low and medium multiplicity. 18. The device according to p. 1, characterized in that it contains a system for remote control of the flow rate control supplied to the mixer-generators of foam of low and medium multiplicity of the components of the extinguishing agent of the components of the extinguishing agent.

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