RU77785U1 - HELICOPTER DEVICE FOR COMBINED FIRE EXTINGUISHING FIRE FIGHTS FOR FOREST ARRAYS AND INDUSTRIAL OBJECTS (OPTIONS) - Google Patents

Abstract

To increase the efficiency of simultaneous extinguishing of both top and bottom forest, peat and soil fires, industrial and emergency transport fires over large areas and heights, including oil and oil product fires, the creation of defensive foam-filled trenches and barrier bands in front of the edges of the fires in the localization of top and bottom forest , industrial and other fires in remote, inaccessible for conventional land transport places helicopter combined extinguishing of forest fires and industrial objects contains contains installed on the frame and communicating with each other pipelines water tanks, containers for a foaming agent, a motor-pump unit, and a combined fire extinguishing installation with the possibility of generating and feeding into the fire zone and / or on the barrier strip a combined low and medium multiplicity foam jet or compact and sprayed water.

2 n.p. f-ly, 17 z.p. crystals, 1 tab., 2 ill.

Description

The utility model relates to fire fighting equipment, to the technology and equipment for extinguishing large-scale forest, peat, soil, industrial and transport fires and the creation of foam barrier strips and barrier foam-filled trenches in front of the edges of the fires when localizing upper and lower forest, soil, peat and other fires.

BACKGROUND

It is known that forest fires often occur in large areas, sometimes several tens or more hectares, and propagate almost at the wind speed, 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 sites often occur both on large areas and at considerable heights 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 agents to the fire with traditional, well-known and widely used in practice methods and equipment of traditional water fire extinguishing.

Known fire monitors and manual trunks 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 the blowing agents consumed in extinguishing a fire and the inability to extinguish large fires in places inaccessible to ground transportation.

Known methods of extinguishing peat bog fires, forest fires, fires in high-rise buildings with a gas-droplet jet formed by waste products of combustion of gas turbine engines [1, 2].

A known method of suppressing fire, including the formation of a protective strip by placing the aircraft with pipes with radial holes and supplying a fire-suppressing substance under pressure to the protective strip through radial holes, through which at least two pipes are attached to the anchor device, which is dumped on the protective strip, stretch the pipe along the protective strip after fixing the anchor device and place them simultaneously on the protective strip at a fixed distance between them, which corresponds to images a zone with a fire suppressing substance when spraying from radial holes of pipes [3].

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 efficiency and coverage area of the low-foam foam jet.

A known 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 provide the intersection of the foam jets within the body of the generator and use special rotary jet accelerators [4].

A device is known 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; adjacent are a medium-sized foam generator and a low-frequency foam generator barrel connected to the same water line [5].

Known previously developed by the authors of the claimed utility model and previously patented by the applicant ZAO NPO SOPOT is a method of forming a jet of foam of medium multiplicity of increased range, including supplying a jet of foam solution to the mesh in the foam generator body and receiving a jet of foam of medium multiplicity from one or more nozzles or other means of formation directed jet 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 foam jets 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 forming two or more contacting and / or mutually adjacent foam generators in the body overlapping jets of foam of medium multiplicity with the formation of a single jet of foam of medium multiplicity of increased range [6].

These methods and equipment are practically 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 areas in this way

conditions and industrial facilities, as well as in areas remote from airfields.

The predominant use of helicopter equipment in fire fighting is primarily due to the possibility of prompt delivery to the place of emergency, 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 possible way to deal with forest fires and eliminate the consequences of accidents and disasters on industrial facilities.

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 a fire place and discharge it to a 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 [7, 8, 9].

Also known is a 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 behind the area of the throwing area of the screw, associated with it the mains for supplying the working fluid , and the supply system of the working fluid, including from an external source of the working fluid [10].

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 collector

with nozzles, the container is made of rubberized fabric, enclosed in waist bandages and suspended from the fuselage nodes, has a suction sleeve pull-up system containing a winch, a block system through which the winch cable is connected to the end of the suction sleeve [11].

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

The closest in technical essence and achieved by using the result (prototype) is a helicopter designed to fight fires developed at Kamov, including a fuselage with external attachment points, a power plant from an engine and a propeller system, containing a fire extinguishing device consisting of a mounting frame, a remote rod, a rotary fire barrel placed on it, a supply line for the working fluid to the barrel, and a supply system for working fluids, including from an external source of the working fluid, the mounting frame and the remote rod is mounted on the fuselage of the helicopter, and the fire extinguishing device is equipped with an additional nozzle mounted on the end of the remote rod and having an additional air supply, while a rotary barrel is placed inside the additional nozzle, and at least one vertical fire barrel pointing down and installed inside the swept area of the screws [12 (prototype)].

The technical disadvantages of the prototype device are the relatively short range of the extinguishing spray of sprayed water and the inability to extinguish oil fires and lower forest fires that are similarly sprayed with water, as well as extinguishing both top and bottom forest fires at the same time.

TASKS AND TECHNICAL RESULTS

The main technical problem (the inventive task not solved until now), holding back the increase in the efficiency of modern

methods and equipment for extinguishing large fires of forests and industrial facilities, lies in the fact that the known spillway devices are not effective in extinguishing fires in large areas, as well as ineffective in simultaneously extinguishing both lower and upper forest fires, in addition, they are not applicable when extinguishing from the air oil and oil product fires.

Known waterborne technologies and fire extinguishing equipment cannot be used to extinguish large forest fires and fires at industrial sites.

The technical result achieved by using the utility model is to increase the efficiency of simultaneous extinguishing of both top and bottom forest, peat and soil fires, industrial and emergency transport fires over large areas and heights, including fires of oil and oil products, the creation of defensive foam-filled trenches and barriers in front of the edges of the fires in the localization of upper and lower forest, industrial and other fires in remote, inaccessible places for conventional ground transport .

DISCLOSURE OF A USEFUL MODEL

The goal, the required and obtained by using the utility model technical result is achieved by the fact that when extinguishing fires in forests and industrial facilities, including the supply of a fire extinguishing agent to a fire zone and / or to a barrier strip, according to a utility model, a combined foam jet is used as an extinguishing agent low and medium multiplicity or compact and atomized water.

At the same time, the extinguishing agent is supplied to the fire zone and / or to the guard lane from a helicopter by means of a combined fire extinguishing plant manufactured by NPO SOPOT, made with the possibility of generating and supplying pressure from 0.4 to 1.2 MPa, mainly 0, 8 MPa, into the fire zone and / or onto the barrier strip of the combined jet of low and medium foam or compact and atomized water with increasing frequency and decreasing density in the direction from the center of the jet to the periphery of the vertical rientatsii or at an angle to the vertical.

In this case, a combined jet of foam of low multiplicity with a multiplicity of 7 to 20 and foam of medium multiplicity with a multiplicity of 20 to 70 are used.

To increase the efficiency of fire extinguishing, two or more combined jets of low and medium multiplicity foam or compact and atomized water from one, two or more combined fire extinguishing systems are simultaneously supplied to the fire zone and / or to the obstacle bar with the possibility of forming two or more combined foam jets low and medium multiplicity or compact and atomized water with the possibility of contact or mutual overlap of the jets with the formation of a single combined jet foam of high pressure and increased area of coverage of the fire zone and the barrage.

The goal, the required and obtained by using the utility model technical result is also achieved by the fact that the helicopter combined fire extinguishing of forests and industrial facilities according to the utility model includes a combined fire extinguishing installation UKTP "Purga" manufactured by NPO SOPOT, with the possibility of generating and supplying to the fire zone and to the barrier strip of the combined jet of low and medium-frequency foam or compact and sprayed water.

At the same time, the helicopter device for combined fire extinguishing of forests and industrial facilities contains water tanks installed on the frame and connected with each other by pipelines, a motor pump unit, foam blower tanks and a combined fire fighting system with the possibility of generating and supplying pressure from 0.4 to 1 , 2 MPa, mainly 0.8 MPa, into the fire zone and / or onto the barrier strip of the combined jet of low and medium foam or compact and sprayed water.

Moreover, the helicopter device is capable of generating and supplying to the fire zone and / or to the obstacle line two or more adjacent or mutually intersecting combined jets of low and medium multiplicity foam or compact and sprayed water.

In the helicopter device, the frame is equipped with a means of suspension to the helicopter, the device contains a remote control system, water containers contain valves for collecting and draining water and are mounted obliquely on the frame,

horizontally or vertically and contain from below communicating with the motor-pump unit suction nozzles and means for quickly draining water.

At the same time, the motor-pump unit is equipped with an ejection water mixer with a foaming agent solution, made communicating with containers for water and a foaming agent solution, and with a combined fire extinguishing installation, and manufactured in a closed case with the possibility of automatic sealing when immersed in water.

In this case, the helicopter device is equipped with an additional backup motor-pumping unit and is configured to implement the method described above.

As follows from the above review of the prior art, the claimed method and devices are new, they are unknown from publicly available information sources, they do not follow explicitly from the prior art, i.e. the proposed technical solutions of the inventive task are not obvious to the average specialist and meet the requirements of the criterion of "inventive step".

Compared with the prototype and analogues, the utility model contains a new, previously unknown set of essential features, therefore, the utility model meets the requirements of the criterion of "novelty."

Some of the individual essential features of the utility model are known, however, the totality of general and particular distinctive essential features of the utility model among the solutions known in science and technology has not been identified in volume. In addition, a new set of essential features of the utility model performs new, previously unknown functions, that is, it provides the opportunity to obtain a new technical result.

The combination of general and private essential features of a utility model provides the opportunity to solve the inventive task and achieve the goal of inventions (the required technical result when using inventions), which is proved in the implementation and industrial implementation of the utility model.

DESCRIPTION OF DRAWINGS

Figure 1 - shows a side view of the helicopter device.

Figure 2 is a General view of a helicopter device.

The helicopter device according to a utility model contains (FIGS. 1, 2) water containers 1 with means for collecting and draining water, as well as adjacent containers for a solution of foaming agent 2. Water containers 1 are placed on the frame 3 obliquely, horizontally or vertically, and contain bottom communicating with the motor pump unit 4 suction nozzles.

One or two combined fire extinguishing installations 5 are connected to a motor-pumping unit 4 by means of a discharge pipeline 5 in the form of a UKPP “Purga” manufactured by NPO SOPOT, made with the possibility of generating and supplying one, two or more to the fire zone and to the obstacle line adjoining or intersecting combined jets of foam of low and medium multiplicity or compact and sprayed water.

The motor-pumping unit 4 contains an ejection mixer of water with a foaming solution.

All equipment of the device is made located on the frame 3 with means of attachment to the cable suspension system to a helicopter with a swivel. IMPLEMENTATION AND INDUSTRIAL IMPLEMENTATION OF A USEFUL MODEL

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

The applicant ZAO NPO SOPOT designed, manufactured and carried out preliminary element-by-stage tests of combined fire extinguishing installations of the UKTP “Purga” as part of a helicopter device mounted on the external sling of domestic K-32, Mi-8, Mi-26MT helicopters.

The device according to the utility model is intended for taking water from open reservoirs (reservoirs, lakes, rivers, or seas), delivering water and a blowing agent to the fire site.

Fire extinguishing and localization is carried out by means of a supply under pressure of combined jets of foam of low and medium multiplicity or sprayed and compact water.

Combined fire extinguishing installations of UKTP “Purga” manufactured by NPO SOPOT CJSC provide for various operating modes with the possibility of generating separate or combined jets of low-foam and medium-sized foam, atomized and compact water jets, which allows you to quickly control the fire extinguishing capabilities of the device depending on the characteristics specific fire.

The composition of the device according to the utility model provides for an emergency or accelerated discharge of the entire mass of water in 5-8 seconds.

The device according to the utility model with UKTP “Blizzard” allows to draw water in hovering mode from practically any water body, including shallow ones with a depth of 1.5-2 m.

Water discharge and combined jets are controlled remotely from the operator’s control panel via radio or wired network.

The remote control system of the motor-pumping unit and the device according to the utility model include a control panel, which is located in the helicopter cockpit and actuators mounted on the motor-pumping unit and functionally significant elements of the device.

A motor-pumping unit can be made on the basis of a commercially available internal combustion engine (ICE) of a passenger car and pump.

The device according to the utility model contains one or more soft or hard containers with a useful volume of 2 m ³ or more, one or two foam generators in the form of combined fire extinguishing systems UKTP “Purga” manufactured by NPO SOPOT, placed in a closed case with automatic sealing when dipping into the water the main and reserve motor-pumping units that ensure the creation of water pressure and the supply of water and a foaming solution to the foam generator, remote control equipment, dosed equipment supplying foam solution, water extraction equipment from an open reservoir in the hover mode of the helicopter, the rope suspension system to the helicopter length of 15-20 m with a swivel, a wired or remote control system.

The method and device according to the utility model make it possible to “break through” the crown of trees supplied with a combined stream of foam or compact water and deliver effective volumetric fire extinguishing with a foam

low multiplicity or compact water with simultaneous effective volumetric extinguishing of an uphill fire with medium foam or atomized water.

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 transport fires from the air, simultaneously extinguish both top and bottom forest fires using an empirically identified effect leading jets of compact water or jets of foam of low multiplicity and simultaneous supply of sprayed water or foam of medium multiplicity to the fire zone.

A comparative table of indicators of the proven effectiveness of the method and device according to the utility model is given below.

No.
p / p Technical details APU-5 APU-15 Hl7600 The device according to the utility model with UKTP "Blizzard" one The total mass of the spillway, t 5 fifteen 8 5-15 2 Volume of capacity for water, m ³ 3,5 fifteen 7.57 3,5-15 3 The volume of the container for the foaming agent, m ³ - - - 0.25-0.5 four Average discharge water, l / s 800 900-1000 900 900 5 The time of filling the tank with water when the device is immersed in a reservoir, sec 10 twenty 40 10 6 Time for emptying the tank through the drain valve, min 2-3 16 9 2-3 7 The time of emptying the tank during the operation of UKTP "Purga", sec - - - 60 8 Drain valve closing time, sec 40 40 - 5-7

9 The maximum permissible depth of the reservoir for using the spillway device, m 2-3 3-3.5 3-3.5 1,5-2 10 The time of lifting the drain pipe from the lower position to the upper, sec 20-40 20-40 20-50 5-7 eleven Possibility to extinguish class fires A (solid combustible materials) A (solid combustible materials) A (solid combustible materials) A (solid combustible materials), B (flammable liquids and gases), C (energized electrical equipment) D (fires of metals and premises) Ability to supply combined jets - water + + + + 12 - low foam - - - + - foam of medium multiplicity - - - + - foam of low and medium multiplicity, compact and atomized water - - - + 13 Ability to supply jets under pressure - - - + fourteen The thickness of the foam layer on the combustion surface, m 0.1-0.15 fifteen Barrier Width, m - - - 8-10 16 Barrier length, m - - - 600-3000 17 Types of Foaming Agents Used - - - All existing types

118 The length of the external suspension of the helicopter, m twenty thirty thirty thirty 119 Bringing time, min 30 with the participation of 4 people - - APU is assembled and in constant combat readiness

The experimental design work in the field of creating a new technology for combating large-scale fires at especially explosive and hazardous facilities and facilities with high toxicological hazard using the combined fire extinguishing systems of UKTP "PURGA" allows us to conclude that it is possible to create a fundamentally new method and equipment for eliminating large fires and accidents and air disasters using conventional helicopters.

Preliminary tests of PURGA installations of NPO SOPOT CJSC as part of a spillway helicopter device conducted in 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 increase in the efficiency of the fire extinguishing process is a new method for transporting and delivering fire-extinguishing combined foams of low and medium multiplicity using the UKPP PURGA manufactured by NPO SOPOT, which provides the creation of pressure combined water and water jets.

Thus, the possibility of prompt liquidation of large fires at industrial facilities and transport, large forest fires (upstream, downstream and soil) from the air, and the rapid creation of an effective insulating foam layer on burning facilities, with the help of UKPP PURGA produced by NPO SOPOT, has been practically proved. foam barriers in front of the edge of a forest fire and barrage foam filled trenches for the localization of soil fires, effective industrial and emergency transport fires over large areas and you combs, including fires of oil and oil products.

The utility model 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 forestry, woodworking and pulp and paper industry, large-scale post-accident fires of aircraft on the ground, accidents and disasters in railway, sea and river transport, in buildings high storeys, in warehouses and bases of fuel and rocket fuel and chemical products, as well as in places remote from object and city fire services.

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

Specific dimensions and individual design features of individual units can be selected from standard sizes and standards of fire fighting equipment and industrial engineering.

INFORMATION SOURCES:

1. RU 2236876, A62C 3/00, publ. 2004.09.27.

2. RU 2292959, B05B 7/04, publ. 2007.02.10.

3. RU 2129893, А62С 3/02, publ. 1999.05.10.

4. RU 1614813, A62C 5/02, publ. 12/23/90

5. RU 2129895, A62C 31/12, publ. 05/10/99 g.

6. RU 2180607, A62C 5/02, publ. 2002.03.20.

7. Pat. U.S. 4,474,245; NKI 169/53.

8. Pat. U.S. 4,576,237; NKI 169/53.

9. RU 2143295, A62C 31/00, publ. 1999.12.27.

10. US patent 4090567, A62C 27/30, 1976.

11. RU 2097276, B64D 1/18, publ. 1997.11.27

12. RU 2248916 B64D 1/18, A62C 27/00, publ. 2005.03.27 (prototype).

Claims (19)

1. Helicopter device for extinguishing fires in forests and industrial facilities, characterized in that the helicopter device for extinguishing fires in forests and industrial facilities includes an installation for extinguishing a fire with the possibility of generating and delivering a low foam foam jet to the fire zone and / or to the barrier strip and medium multiplicity or compact and atomized water. 2. The helicopter device according to claim 1, characterized in that the helicopter device for combined fire extinguishing of forests and industrial facilities contains mounted on the frame and communicating with each other pipelines water tanks, containers for a foaming agent, a motor pump unit and a combined fire extinguishing installation with the possibility generating and feeding into the fire zone and / or onto the barrier strip a combined jet of low and medium multiplicity foam or compact and atomized water. 3. Helicopter device according to any one of claims 1 and 2, characterized in that it comprises a combined fire extinguishing installation of the UKTP "Purga" manufactured by NPO SOPOT. 4. The helicopter device according to claim 1, characterized in that the combined fire extinguishing installation is configured to generate and supply into the fire zone and / or on the barrier strip of the combined jet of low and medium multiplicity foam or compact and atomized water under pressure. 5. The helicopter device according to claim 1, characterized in that the combined fire extinguishing installation is configured to generate and supply into the fire zone and / or on the barrier strip of the combined jet of low and medium multiplicity foam or compact and atomized water under pressure from 0.4 up to 1.2 MPa, mainly 0.8 MPa. 6. A helicopter device according to any one of claims 1 and 2, characterized in that it is arranged to generate and supply to the fire zone and to the guard strip two or more combined jets of low and medium multiplicity foam or compact and atomized water. 7. Helicopter device according to any one of claims 1 and 2, characterized in that it is configured to generate and feed into the fire zone and / or on the obstacle strip two or more adjacent or intersecting combined jets of low and medium multiplicity foam or compact and atomized water. 8. A helicopter device according to any one of claims 1 and 2, characterized in that the device frame is equipped with a means of suspension to the helicopter. 9. A helicopter device according to any one of claims 1 and 2, characterized in that it comprises a remote control system. 10. A helicopter device according to any one of claims 1 and 2, characterized in that the water containers contain valves for collecting and draining water. 11. Helicopter device according to any one of claims 1 and 2, characterized in that the water tanks are mounted on the frame obliquely, horizontally or vertically and contain suction nozzles communicating with the motor-pump unit from below. 12. The helicopter device according to claim 1, characterized in that the water tanks contain means for quickly draining water. 13. The helicopter device according to claim 1, characterized in that the motor-pump unit is made in communication with a water tank, a container for a foaming agent solution and a combined fire extinguishing installation, and is made housed in a closed housing with the ability to automatically seal the housing when immersed in water. 14. A helicopter device according to any one of claims 1 and 2, characterized in that it is equipped with an additional backup motor pump unit. 15. A helicopter device according to any one of claims 1 and 2, characterized in that the pumping unit is equipped with an ejection mixer of water with a foaming agent solution. 16. Helicopter device for extinguishing fires in forests and industrial facilities, characterized in that the helicopter device for extinguishing fires in forests and industrial facilities contains water tanks, containers for a foaming agent, a motor-pumping unit and a combined unit installed on the frame and connected to each other by pipelines fire extinguishing equipment of UKTP “Purga” produced by NPO SOPOT CJSC with the possibility of generating and delivering to the fire zone and / or to the guard zone nirovannoy jet foam of low and medium ratio or compact and nebulized water under pressure from 0.4 to 1.2 MPa, preferably 0.8 MPa. 17. The helicopter device according to clause 16, characterized in that it is made with the possibility of generating and supplying to the fire zone and / or to the obstacle line two or more contacting or mutually intersecting combined jets of low and medium multiplicity foam or compact and sprayed water. 18. The helicopter device according to clause 16, characterized in that the device frame is equipped with a means of suspension to the helicopter, contains a remote control system, and water tanks contain valves for collecting and draining water, placed on the frame obliquely, horizontally or vertically and contain communicating from below with a motor-pumping unit, suction nozzles and means for quickly draining water. 19. The helicopter device according to clause 16, characterized in that the motor-pump unit is equipped with an ejection water mixer with a foaming solution, made communicating with a water tank, a container for a foaming solution and with the installation of a combined fire extinguishing and manufactured in a closed case with automatic sealing when dipping in water.