RU190536U1 - Device for preventing and extinguishing large-scale forest, industrial and emergency transport fires with fast-hardening foam - Google Patents

Abstract

The utility model relates to fire fighting equipment for extinguishing large-scale forest, peat, soil, steppe, industrial and emergency transport fires and creating barrier strips in front of the edges of fires. To improve the efficiency and reliability, a device for preventing and extinguishing large-scale forest, industrial and emergency transport fires contains located on the frame with the means of its attachment to the cable suspension to the helicopter, the capacity of the components of the extinguishing agent, the means of mixing and foaming to components of a fire extinguishing agent to produce a foam extinguishing agent in the form of ejector mixers / foam generators arranged vertically or at an angle to the vertical and means for feeding the components of the fire extinguishing agent into the means of mixing the components of the extinguishing agent and foaming the mixture of components of the extinguishing agent made with the possibility of obtaining and filing in the fire zone and on the barrage as an extinguishing agent of the foamed silica gel forming a fast-hardening foam obtained by mixing and foaming the components of the extinguishing agent supplied to the means of mixing and foaming - component A in the form of an aqueous solution of a mixture of sodium silicate and the foaming surfactant and component B in the form of an aqueous solution of acetic acid, and with the possibility of feeding silica gel into the fire zone or into the barrier strip in the form of at least two jets of quick-hardening foam with the possibility of contact or mutually fast-hardening foam of overlapping jets combined to form a single jet of fast-hardening foam of foamed silica gel, the fire extinguishing agent and foaming a mixture of fire extinguishing agent components. 10 hp f-ly, 6 ill.

Description

TECHNICAL FIELD

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

BACKGROUND

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

It is also known that the extinguishing of highland fires (propagating mainly on the upper part of tree crowns) and lower fires (propagating mainly on the surface of the earth) require the use of various technologies and fire extinguishing agents.

Fires at industrial sites often occur on large areas, and at considerable heights, and in difficult for firefighter ground transportation, and when burning low-density (floating to the surface of the water) oil and chemical products. This makes it difficult and often impossible to supply fire extinguishing substances into the fire center with traditional, well-known and widely practiced methods and equipment of traditional fire extinguishing.

Fire monitors and handheld barrels that form low-expansion water jets or foams with a feed range of 20-60 m are known, but they do not allow for a large coverage area, require the use of expensive film-forming fluorinated frothers and require their ground delivery to the fire boundary, which does not allow obtaining the required fire extinguishing effect, leads to the inhibition of the time of extinguishing and the high cost of blowing agents used in extinguishing a fire and the impossibility of extinguishing large fires in difficult to reach ground Ransport locations.

Known methods of extinguishing fires of peat, forest fires, fires in high-rise buildings gas-droplet stream formed by the waste products of combustion of gas turbine engines [RU 2236876, А62С 3/00, publ. 2004.09.27; RU 2292959, V05V 7/04 publ. 2007.02.10].

There is a method of fire suppression, which includes the formation of a protective strip by placing the aircraft with pipes with radial holes and feeding the 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 dropped on the protective strip, the pipes are pulled 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 the images The area with the fire suppressant substance when it is sprayed from the radial holes of the pipes [RU 2129893, А62С 3/02, publ. 1999.05.10.].

It is known to use in case of local fires of medium expansion foam, which has increased (compared to low expansion foam) fire extinguishing efficiency in extinguishing oil and oil products and foam generators in a portable and stationary version. However, the majority of known foam generators of medium multiplicity provide foam jets from 3 to 8 m, which complicates the process of their use due to the high risk of personnel of fire departments working in the fire zone, known methods and generators of foam of medium multiplicity (multiplicity of foam KP = 40- 100) have the required fire extinguishing efficiency and allow the use of water-soluble blowing agents, but they are able to supply medium expansion foam only from 3 to 8 m, which is clearly not enough to extinguish large Ożarów over large areas.

Known low-multiplicity foam generators, which provide a jet delivery range from 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 with a low-expansion jet coating.

A known method of supplying foam of increased multiplicity and device for its implementation, according to which to increase the range of supply of a jet of foam of increased multiplicity provide intersection of foam jets within the generator case and use special rotating jet accelerators [RU 1614813, A62C 5/02, publ. 12/23/90].

A device for extinguishing fires and for throwing foam of medium and low multiplicity over a long distance and creating a sprayed and compact water jet is located next to a medium multiplicity foam generator and a watering barrel of a low multiplicity generator [RU 2129895, A62C 31/12, publ. 10.05.99 g].

Known previously developed by the authors of the proposed utility model and previously patented by the applicant CJSC "NPO SOPOT" method of forming a jet of medium multiplicity of foam of increased range, including the supply of a jet of foam solution to the grid in the foam generator body and obtaining a jet of medium multiplicity foam from one or more nozzles or other means of forming directional jet or jets under pressure of the foaming agent solution in front of the nozzles from 0.4 to 1.2 MPa, located from the grid at a distance in the direction from Tra jet of foam to the periphery, while the network simultaneously serves two or more jets of foam solution from two or more nozzles or other means of forming directed jets with the possibility of education in the body of the foam generator and / or for its redistribution two or more in contact and / or mutually overlapping jets of medium expansion foam with the formation of a single jet of medium expansion ratio foam of increased range [RU 2180607, А62С 5/02, publ. 2002.03.20].

These methods and equipment are practically ineffective in extinguishing large fires in large areas and in places difficult to access for land road transport. Therefore, technologies and equipment for extinguishing fires with the use of aviation, mainly airplanes and helicopters, are developing intensively, which is primarily due to the speedy delivery of fire extinguishing equipment to places difficult to reach for ordinary vehicles.

The most common means of extinguishing fire using airplanes to date is water, which is usually poured from flying airplanes to forest fires, but it is known that it is impossible to extinguish fires of petroleum products and fires in urban environments and at industrial facilities, as well as by means of this method. places.

The preemptive use of helicopter equipment in fire extinguishing is connected, first of all, with the possibility of prompt delivery of firefighters, rescuers, technical fire extinguishing equipment, as well as evacuation of injured people to the site of an emergency. 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 means of fighting forest fires and eliminating the consequences of accidents and disasters on industrial objects.

The essential advantages of helicopters are their ability to hover in place and perform vertical ascent and descent. This allows them to take off and land in a limited space and, in essence, translates helicopters into a class of non-aerodrome aircraft, thanks to which helicopters are able to perform tasks inaccessible to aircraft. Therefore, at present, aviation fire extinguishing technologies are being intensively developed with the primary use of helicopters.

The currently most common method of fire extinguishing with helicopters is the delivery of water to a fire site and its discharge into a fire using devices transported on the external suspension of a helicopter and made with the possibility of diverting water from reservoirs in the hang mode of helicopters [US Pat. USA 4,474,245, NCI 169/53, Pat. USA 4576237, NCI 169/53, RU 2143295, A62C 31/00, publ. 1999.12.27].

Known helicopter for fighting fires, including the fuselage, the power plant, consisting of an engine and propeller system, a fire extinguishing device, consisting of a rotary fire barrel, consisting of a barrel and a sleeve, installed behind an area of the projectile area, associated with the working fluid supply line, and supply systems for working fluids, including those from an external source of the working fluid [US Patent 4090567, А62С 27/30, 1976].

Known helicopter fire extinguishing installation containing a container with a shut-off valve for the liquid, a system of sleeves and pipelines with fittings, which contains pumps placed in an airtight chamber connected to the ejector, while the pumps are connected via pipes to a suction hose, tank, sleeve to the fire shaft and a manifold with nozzles, the tank is made of rubberized fabric, is enclosed in belt bandages and is suspended from the fuselage assemblies, it has a suction hose-tightening system containing a winch, a system blocks, through which the winch cable is connected with the end of the suction hose [RU 2097276, B64D 1/18, publ. 1997.11.27].

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

Known developed by JSC "Kamov" helicopter for fighting fires, including the fuselage with external attachment points, the power unit from the engine and screw system, containing a fire extinguishing device, consisting of a mounting frame, an external boom, located on it a rotary fire barrel, worker supply line the body to the trunk and the supply system of working fluids, including from an external source of the working fluid, the mounting frame and the outrigger bar fixed to the fuselage of the helicopter, and the fire extinguishing device is equipped with an additional a nozzle mounted on the end of the extension rod and having a source of additional air supply, while inside the additional nozzle there is a rotary barrel, and at least one vertical fire barrel, pointing down and installed inside the estimated area of the screws [RU 2248916 B64D 1/18 , А62С 27/00, publ. 2005.03.27].

Known developed by the Lyubertsy scientific and production association "Union" used for extinguishing fires in industrial and other enterprises, in public and other buildings, a fire extinguishing system containing a container made of composite material based on fiberglass, organofiber or carbon fiber with a neck lid, coaxially with the upper and lower pole holes mounted in the tank trigger mechanism, the gas generator with a gas tube and a pipe with spray nozzles, characterized in that to increase the effect It has a bottom cover above which the screen is located, in the form of a cup, with holes in the top of the neck with safety membranes and a gas generator attached to the top of the neck 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 to the pipe and connected by the uprights with the bottom cap, and between the posts coaxially with the inlet of the pipeline is a float valve. A screen preventing ingested oxidized gases of combustion of the charge with the fluid flow and their release into the combustion zone is turned downside to the gas flue pipe and is connected to the bottom lid by racks, 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 gas-vapor mixture inside the tank. Gas pipe, fixed to the bottom of the gas generator is installed with a gap relative to the screen. [EN 2022582 A62C 3/08 Publ. 11/15/1994]

Known previously developed by the authors method and device for fire and explosion prevention and fire extinguishing in the form of fast-hardening inorganic foam based on silica gel foam SiO ₂ , and can be used for fire and explosion prevention in the initial stage of emergency situations in closed rooms and in open areas and during fire fighting of combustible materials . The method of fire and fire prevention and solid extinguishing involves preparing a foamed silica gel in the form of a rapidly hardening foam by mixing component A in the form of an aqueous solution of a mixture of alkali metal silicate and a foaming surfactant, mainly a synthetic hydrocarbon frother, at a ratio of, by mass. %: 10-70, mainly 20-50 sodium silicate, 1-15, mainly 3-6 foaming surfactant, the rest is water, with component B, constituting 20-60%, mainly from 30-50% aqueous acetic acid solution. The device for fire and explosion prevention and solid extinguishing includes containers with components of the extinguishing agent placed in them, pipelines of the components of the extinguishing agent, means for mixing the components of the extinguishing agent and means for foaming a mixture of the components of the extinguishing agent. The device is made with the possibility of obtaining as a fire extinguishing agent foamed silica gel in the form of a fast-hardening foam obtained by mixing and foaming a mixture of components A and B, with a volume ratio of components A and B from 15: 1 to 6: 1, mostly 10: 1. The result is an increase in the reliability of fire extinguishing equipment and fire and explosion prevention and the effectiveness of fire extinguishing and fire and fire prevention processes [RU 2672945 A62C 13/04, A62C 5/02, C01B 33/14, B01F 3/08 publ. 11/21/2018].

The disadvantage of RU 2672945 is the inability to use for helicopter devices extinguishing forest and industrial large-scale fires.

The main requirement for extinguishing large-scale forest and industrial fires is high efficiency. This leads to the widespread use of aviation, despite the high cost of its use. As a means of delivering fire extinguishing substances to the fire zone, usually airplanes or helicopters are used, and helicopters have a number of advantages, which include:

- the ability to reach fire sources inaccessible to ground-based fire fighting equipment and fire river and sea vessels due to the lack of roads, traffic jams, debris, etc .;

- independence from equipped airfields, runways and other aerodrome infrastructure in comparison with aircraft;

- various applications for extinguishing fires - targeted fire extinguishing, fire extinguishing in the area, when the length and width of the fire extinguishing zone varies according to the horizontal speed and the height of the combat discharge of extinguishing agents, the creation of barrier strips.

Quenching a forest fire has its own specifics. The quenching efficiency decreases sharply with an increase in discharge height, since a significant part of the water evaporates before reaching the ground. Low altitude can cause engines to surge, as hot air is depleted of oxygen. Increasing the height of the suspension between the helicopter and the drain tank can lead to a hook on the trees, while reducing accuracy and performance.

The most effective way to combat forest fires - the installation of barrier strips. The effectiveness of this method is manifested only when using foam, which requires special equipment.

The closest in technical essence and achieved with the use of the result (prototype) is a method developed earlier by the authors for supplying a fire extinguishing agent to the fire zone and / or to the barrier strip, in which a combined jet of low-multiplicity air-foam with a multiplicity of 7 to 20 is used as an extinguishing agent. and medium multiplicity with multiplicity from 20 to 70, and a helicopter device, which according to the first embodiment contains a combined fire extinguishing installation with the possibility of generating and supplying foam combined jet low and medium ratio and installed on the frame obliquely, horizontally or vertically the water tank. Water tanks contain suction nozzles communicating with the motor-pumping unit at the bottom and are connected to tanks for the foaming agent and motor-pumping unit with pipelines. The helicopter device according to the second embodiment comprises the installation of a combined fire extinguishing with the possibility of generating and feeding into the fire zone and / or into the barrier strip of two or more contiguous or mutually intersecting combined jets of low and medium multiplicity foam. This achieves an increase in the efficiency of simultaneous extinguishing of both high and low 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 drawbacks of the prototype device are the insufficient efficiency of extinguishing large-scale fires in forests and industrial facilities with low and medium-size water-air foam, which is relatively quickly destroyed in a fire flame and on the barrier strip.

OBJECTIVES AND TECHNICAL RESULTS

The main technical problem (the inventive problem that has not been resolved to date), which hinders the increase in the efficiency of modern methods and equipment for extinguishing large fires in forests and industrial facilities using helicopters, is that the known weir and water devices are not effective in extinguishing large-scale fires on large areas and are also ineffective when simultaneously extinguishing both low and high forest fires, while extinguishing oil and oil products fires from the air s, and when extinguishing industrial fires due to intensive evaporation of the water-air foam and low magnification and the multiplicity of secondary flames, low adhesion to the vertical and sloping surfaces and relatively rapid destruction of water-air foam after its generation.

The technical result achieved when using the utility model is to increase the efficiency of preventing and extinguishing large-scale forest, industrial and emergency transport fires over large areas and in places difficult for ordinary ground transportation, creating a long time invariable defensive strips in front of the edges of the fires when localized ground forest, industrial and other fires in places remote and difficult to access for ordinary ground transportation.

DISCLOSURE OF USEFUL MODEL

The goal, required and obtained when using the utility model, the technical result is achieved by the fact that the device for extinguishing fires in forests and industrial facilities with fast-hardening foam contains located on the frame with means of its attachment to the cable suspension to the helicopter

the capacity of the components of the extinguishing agent

means of mixing and foaming the components of the extinguishing agent to produce a foamed extinguishing agent and

means for supplying the components of the extinguishing agent from the tanks of the components of the extinguishing agent to the means for mixing the components of the extinguishing agent and foaming the mixture of the components of the extinguishing agent,

made with the possibility of receiving and filing in the fire zone and on the barrier strip as a fire extinguishing agent of the foamed silica gel, forming a quick-hardening foam obtained by mixing and foaming the extinguishing agent components supplied to the mixing and foaming means -

component A in the form of an aqueous solution of a mixture of sodium silicate and a foaming surfactant

and component B in the form of an aqueous solution of acetic acid,

with the possibility of obtaining in the fire zone and on the barrier strip of a solid ceramic foam material based on a foamed silica gel having thermal stability when exposed to a temperature of 1000 ° C for at least 60 minutes, and which

in the dehydrated state contains, by weight. %, 13-65, mainly 20-50 silica, 1-15, mainly 6 foaming surfactants, water - the rest;

has a volume weight of 0.1-0.8 g / cm ³ ;

has a volume stability of at least 22 hours with a volume change of no more than 10%,

and in a dehydrated state

has a bulk density of 0.05-0.1 g / cm ³ and

retains at least 95% of the volume form when heated to a temperature of 1000 ° C for at least 40 minutes;

It has a micro and macroporous structure with a specific surface area of at least 20 m ² / g;

has a plastic gel structure with a multiplicity of from 2 to 20;

has a hardness in viscosity more than 100 Pa 100s;

has white or yellowish white color.

The device contains a remote control system.

The means of mixing and foaming the components of the extinguishing agent is made in the form of ejector mixers-foam generators arranged vertically or at an angle to the vertical,

ejector mixers-foam generators are made with the possibility of ejection of component B into the flow of component A and foaming of the mixture of components A and B ejected into the ejector mixers-foam generators with atmospheric air,

containers for the components of the fire extinguishing agent contain valves for filling and quick draining of the components of the fire extinguishing agent,

and the means for supplying the components of the extinguishing agent from the tanks of the components of the extinguishing agent to the means for mixing and foaming the components of the extinguishing agent is made in the form of a motor or electric pump or compressor unit connected by pipelines with the tanks of the components of the extinguishing agent and with the means for mixing and foaming the components of the extinguishing agent and made placed closed housing with the possibility of automatic sealing when immersed in water.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a general view of the device, showing: tanks 1 for placing components of a fire extinguishing agent, which are placed on frame 2 with means for fastening it 3 to the helicopter cable, suspension motor unit 4 and ejector mixers-foam generators 5.

FIG. 2 - photo of the creation through the device of the barrier strip.

FIG. 3 - photo of extinguishing a fire by means of a barrier strip device.

FIG. 4, 5 - a photo of a wood pile and a fire zone extinguished with a rapidly hardening foam.

FIG. 6 - photo of the edges of the protective strip created by the device.

IMPLEMENTATION OF THE USEFUL MODEL

To confirm the feasibility of implementing a utility model by industrial means and to experimentally confirm the possibility of achieving the required technical result, prototypes of the inventive devices were made and tested, which showed high efficiency of their use with placement of K-32, Mi-8, Mi- 26MT.

The extinguishing and localization of fires is carried out by feeding under the pressure of jets of a quick-hardening foam of their foamed silica.

The device is controlled remotely from the operator’s control panel by radio or wired network.

The remote control system of the motor-pumping unit and the device according to the invention includes a control panel, which is located in the helicopter cabin and the actuators mounted on the motor-pumping or motor-compressor unit and functionally important elements of the device.

A motor-pumping or motor-compressor unit can be made on the basis of a serially produced internal combustion engine (ICE) of a passenger car, a pump and a compressor.

The device according to the invention contains several soft or hard containers with a usable volume of 2 m ³ and more, one or two ejection mixers-foam generators in the form of combined solid-state fire extinguishing installations PURT produced by LLC NPO SOPOT placed in a closed case with the possibility of automatic sealing during the immersion into the water of the main and backup motor-pumping units, ensuring the creation of pressure components of the extinguishing agent, remote control equipment, dosing equipment giving components of a fire extinguishing agent, cable suspension system to a helicopter 15-20 m long with a swivel, a wired or remote control system.

The method and device according to the invention make it possible to “pierce” the crowns of trees supplied under pressure by a combined jet of fast-hardening foam and to ensure effective volumetric extinguishing of ground fire with fast-hardening foam while simultaneously efficiently extinguishing a high fire with fast-hardening foam.

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 fires, simultaneous extinguishing of both high and low forest fires and creation from the air.

The principle of operation of the device and implementation of the method is as follows.

By means of a working pressure generated by a motor-pump or motor-compressor unit, up to 0.5-0.8 MPa, component A through an exhaust pipe that enters ejector mixers of foam generators, which also receives component B.

In the ejector mixers of the foam generator, the components of the extinguishing agent are mixed, foamed by the ejected atmospheric air and in the form of jets of quick-hardening foam of foamed silica are thrown down and solidified on the fire center or on the barrier line (Fig. 2, 3).

The device rose to a height of 10-12 m, was made burning the stack of lumber.

After the start of the supply of the fire extinguishing agent, the device moved to the zone of the source of ignition and extinguished it within 3-5 s.

The test results are shown in FIG. 4-6.

The total ejection time was 40 seconds, which corresponds to an installation capacity of 55-60 l / s.

At the end of the tests, it was found that a layer of fast-hardening foam with good adhesion was formed on all surfaces; in some places of the site, a layer of fast-hardening foam reached 10-15 cm.

A day after the test, it was found that a layer of fast-hardening foam was formed in the entire area of the landfill, 10-15 cm thick. A stack of lumber was also covered with a layer of fast-hardening foam 2-3 mm thick.

The tests showed the following:

- all the components of the device and worked in the normal mode;

- the time for extinguishing the simulated intensively burning source of ignition is 3-5 seconds;

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

- the total ejection time was 40 seconds;

- total consumption was 55-60 l / s;

- a layer of fast-hardening foam was formed around the entire landfill site, which did not collapse for more than 24 hours;

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

Taking into account the multiplicity of foam, equal to 3-3.5, as well as a layer of fast-hardening foam on the surface of 1.5-2 mm, the expected surface treatment area will be more than 3000 m ² . With the width of the barrier strip 6-8 meters, the length of the barrier strip will be about 500 m.

In the case of using frame bundles of several tanks (2000 × 2; 2000 × 3; 2000 × 4), the treatment area will be up to 12000 m ² , and the length of the barrier strip up to 2000 m.

Thus, experimentally proved the possibility of obtaining a fast-hardening foam in the mode of hovering and helicopter flight from systems like UPAT-2000 (FTsDT "Soyuz")

Tests conducted by NPO SOPOT LLC in conjunction with FBU Avialesokhrana, the Khanty-Mansi Autonomous Okrug-Yugra Khanty-Mansiysk Aeronautical and Ground Forest Fire Prevention Base, FBU SPbNIILH, Rigel OJSC with the PSSU Purga 30x2 in 2015, showed high efficiency of use of devices for fighting forest fires.

The quick-hardening foam obtained with the help of these devices possesses high adhesive abilities, a long-term nature of action, and is capable of preventing the development of forest fires practically throughout the entire fire-hazardous season.

The resulting barrier strips are several times longer than the length of the barrier strips, obtained with the help of solutions of conventional foaming agents and wetting agents.

The devices can be used in the elimination of fires in high-rise buildings, in industrial plants, railway junctions, in the aftermath of man-made disasters, spills of flammable liquids.

As shown by field tests, operational coating of quick-hardening silica gel on the surfaces of emergency bottling of flammable liquids and explosive objects ensures a sharp decrease in the evaporation rate of flammable liquids and heating of explosive objects in a few seconds, which ensures quick and effective fire and fire prevention and extinguishing of fire at the very beginning of emergency situations

Improving the reliability of operation of the device is ensured by the possibility of first-time supplying component A to the means of blowing and mixing components A and B directly in the means of foaming, that is, they are made with the possibility of starting the operation of the sequential supply device to the means of mixing the extinguishing agent components from the beginning of component A and then component B, and at the end of the operation of the device of sequential cessation of supply to the mixing and foaming means the fire extinguisher substance component B and then the component A.

This not only completely prevents the possibility of solidification of the foamed silica gel inside the pipeline for supplying the fire-extinguishing agent to the foaming agent and inside the foaming agent, but provides the possibility of repeated on / off operation of the device and its repeated normal use until the charges of the A and B components are fully developed.

Thus, the use of the proposed device ensures the confident achievement of the technical result, namely it significantly increases the reliability of the fire extinguishing device and the effectiveness of fire extinguishing with a quick-hardening foam from the foamed silica gel, and also proves that all essential features of the utility model are in a causal relationship with the technical result, derived from the use of the utility model.

Specific materials, design features and manufacturing technology of the device and / or its individual parts are chosen in the usual way with reference to the specific conditions of its operation.

The manufacture of prototypes and the test examples shown above in real conditions showed a confident achievement of the technical result.

As separate elements and assemblies of the proposed fire extinguisher for solid-state extinguishing, various fire-fighting equipment known in the technique of fire extinguishing, commonly used in the manufacture and use of fire extinguishers, can be used.

The analysis also shows that all general and specific features of the utility model are essential, since each of them is necessary, and together they are not only sufficient to achieve the goal of the utility model, but also allow the utility model to be implemented industrially.

Considering the novelty of the essential features, the technical solution of the task, the inventive step and the materiality of all the general and particular features of the utility model, proved in the section “Technological level” and “Disclosure of the utility model”, proved in the section “Implementation of the utility model”, the technical feasibility and industrial applicability of the useful successful solution of the inventive problem and the confident achievement of the required technical result in the implementation and use of the utility model; According to him, the claimed utility model meets all the requirements for eligibility requirements for a utility model.

The possibility of implementing the method by means of the device and the purpose of the device for implementing the method proves compliance with the criterion of unity of inventions and the possibility of combining the method and device in one application.

Claims (11)

1. Device for extinguishing fires in forest areas and industrial facilities with fast-hardening foam, characterized in that it contains containers of fire extinguishing substance components, means for mixing and foaming of fire extinguishing substance components to form a fire extinguishing substance in the form of a fire extinguishing agent located on the frame with means of its fastening located vertically or at an angle to the vertical of ejector mixers-foam generators and means for supplying components of a fire extinguishing substance from compost containers fire extinguishing agents in the means of mixing the components of the extinguishing agent and foaming the mixture of components of the extinguishing agent, made with the possibility of obtaining and supplying to the fire zone and the barrier strip as a fire extinguishing agent of the foamed silica gel, forming a fast-hardening foam, obtained by mixing and foaming the supplied mixing agents and foaming of the components of the extinguishing agent - component A in the form of an aqueous solution of a mixture of sodium silicate and foaming over the active substance and component B in the form of an aqueous solution of acetic acid, and with the possibility of feeding the foamed silica gel into the fire zone or into the barrier strip in the form of at least two jets of quick-hardening foam with the possibility of contact or mutual overlapping of the jets of fast-hardening foam with the formation of a single the combined stream of quick-hardening foam made of foamed silica gel. 2. The device according to p. 1, characterized in that it is made with the possibility of obtaining in the fire zone and on the barrier strip a solid ceramic foam material based on foamed silica gel having thermal stability when exposed to a temperature of 1000 ° C for at least 60 minutes and which is in a dehydrated state contains, wt%, 13-65, mainly 20-50 silica, 1-15, mostly 6 foaming surfactants, water - the rest; has a volume weight of 0.1-0.8 g / cm ³ ; has a volume stability of at least 22 hours with a volume change of not more than 10%, and in a dehydrated state it has a volume weight of 0.05-0.1 g / cm ³ and retains at least 95% of the volume form when heated to a temperature of 1000 ° C for not less than 40 minutes; It has a micro and macroporous structure with a specific surface area of at least 20 m ² / g; has a plastic gel structure with a multiplicity of from 2 to 20; has a hardness in viscosity more than 100 Pa 100s; has white or yellowish white color. 3. The device according to claim 1, characterized in that it contains a remote control system. 4. The device according to claim 1, characterized in that the ejector mixers-foam generators are made with the possibility of ejection of component B into the flow of component A and foaming of the mixture of components A and B ejected into the ejector mixers-foam generators with atmospheric air. 5. The device according to claim 1, characterized in that the containers for the components of the extinguishing agent contain valves for filling and draining the components of the extinguishing agent. 6. The device according to p. 1, characterized in that the containers for the components of the extinguishing agent contain means for quick discharge. 7. The device according to claim 1, characterized in that the means for supplying the components of the extinguishing agent from the containers of the components of the extinguishing agent to the means for mixing and foaming the components of the extinguishing agent are made in the form of a motor or electric pump or compressor unit connected to the tanks of the components of the extinguishing agent and with means of mixing and foaming components and manufactured placed in a closed case with the possibility of automatic sealing immersion in water. 8. The device according to claim 1, characterized in that the means for supplying the components of the extinguishing agent from the tanks of the components of the extinguishing agent to the means for mixing and foaming the components of the extinguishing agent is made in the form of a motor or electric pump or compressor unit with the possibility of supplying the foamed silica gel to the fire zone or on the barrier strip in the form of a rapidly hardening foam under pressure from 0.4 to 1.2 MPa, mainly 0.8 MPa. 9. The device according to claim 1, characterized in that the ejector mixers-foam generators are configured to eject component B into component flow A. 10. The device according to claim 1, characterized in that the ejector mixers-foam generators are made with the possibility of mixing components A and B in the ejector mixers-foam generators of the initial supply of component A and then component B, and at the end of the mixing of components A and B of the original stopping the supply to the ejector mixers-foam generators of component B, and then stopping the supply of component A. 11. The device according to claim 1, characterized in that the ejector mixers-foam generators are made with the possibility of mixing components A and B immediately before foaming and foaming the mixture of components A and B are made immediately after mixing components A and B by ejection into atmospheric ejector mixers of air.

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