RU2537280C2 - Generator of fire extinguishing aerosol - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: invention relates to fire-extinguishing equipment, and in particular to devices generating gas and aerosol mixture of flame retardants, designed for total fire extinguishing in closed unventilated premises. The generator of fire extinguishing aerosol comprises a housing with holes, which is made of two oppositely stacked containers of dished shape. The containers are provided with heat-insulating interlayers, in one of which the pyrotechnic checker of end burning is fixed. In the pyrotechnic checker the igniter is mounted which reacts with the initiating unit. The unit is secured to the bottom of the second container of the housing, bearing the cylindrical shell. Inside the shell the central housing is located with a radial gap, which end abuts the annular jumper of the container junction. The outlet holes are distributed along the periphery of the container bottom, free from pyrotechnic checker. The volume between the coaxially located cylindrical shell and the central housing, which are made perforated, is filled with bulk heat material.

EFFECT: proposed technical solution provided highly effective fire extinguishing due to the separation of large unburned particles of thermal decomposition of pyrotechnic checker and liquid phase of the generated aerosol for their more complete burning inside the generator, accompanied by additional outfeed of thermal energy from the fire-extinguishing mixture in the filter-cooler.

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Description

The invention relates to fire fighting equipment, in particular to devices generating a gas-aerosol mixture of combustion inhibitors for volumetric extinguishing of a fire in closed unventilated rooms, with automatic start from an initiating signal from fire alarm sensors.

The level of this technical field is characterized by a throwing fire extinguishing device according to patent RU 89966 U1, A62C 19/00, 2009, which contains a gas-aerosol extinguishing mixture generating a charge, placed in a housing equipped with heat-insulating interlayers of gypsum.

The housing is made of two counter-fastened with a nozzle disk gap between the flanges of the dish-shaped containers, in each of which a pyrotechnic checker of a functional charge is fixed.

A handle bracket is mounted coaxially to the disk nozzle of the housing, under which in the sleeve mounted on one of the containers, a grate-type ignition unit is installed, closed by a safety cap

The ignition unit by means of an inclined fire-transfer channel in the pyrotechnic block communicates with the end gap between the pyrotechnic blocks.

The end gap between the pyrotechnic blocks performs the functions of a combustion chamber, where it extinguishes the gas-aerosol mixture and accumulates and is evenly distributed into the protected volume through the disk nozzle.

The required clearance height and the bore of the disk outlet nozzle are set by means of adjacent convexes on the flanges of the housing containers when they are connected.

Interlayers of gypsum are reinforced with a metal mesh, which increases the dynamic strength of the device being thrown into the fire.

A disadvantage of the known device is the technological complexity of ensuring the communication of the igniter with functional checkers, which are unevenly initiated and burn, which violates the calculated dynamics of the supply of the extinguishing mixture.

The extremely small volume of the combustion chamber and the absence of special means for cooling the generated gas-aerosol products is the reason for their high temperature, which limits the practical use of the fire extinguisher.

More perfect is the automatic fire extinguishing aerosol generator according to patent RU 115673 U1, A52C 35/00, 13/22, 2011, which is selected by technical essence and the number of matching features as the closest analogue to the proposed device.

The known fire extinguishing aerosol generator contains an axisymmetric igniter mounted on the open end of the pyrotechnic checker mounted through a heat-insulating layer in one of the two plate-shaped containers of the casing, counter-joined by flanges forming a disk outlet nozzle, and a reversible outlet channel between the coaxial casing and the second casing partially mounted overlap.

A design feature is that the central casing is mounted on a membrane mounted in the gap located above the pyrotechnic checker, forming a combustion chamber with a central outlet for the generated aerosol into the labyrinth channel in communication with the output disk nozzle.

In the labyrinth channel, aerosol flow is decelerated and rotated, accompanied by heat transfer in the recuperator, formed by a metal casing with a membrane and a shell, on which a liquid high-temperature condensed phase is deposited, which has high adhesive ability, where it burns out and is not carried out into the protected volume.

At the outlet of the generator nozzle, the temperature of the gas-aerosol mixture does not exceed 200 ° C, which is significantly lower than the ignition temperature of most materials, and at a distance of 0.7 m from the generator, the temperature is 40-50 ° C.

A swivel bracket, mounted between the flanges of the containers, serves to install the generator on bearing surfaces and allows it to be oriented relative to the likely source of ignition.

A continuation of the described advantages of the generator are the inherent disadvantages, namely:

- the disk nozzle spreads the quenching mixture well in a protected volume, but does not form a narrowly directed aerosol stream into a remote ignition center for its dynamic suppression;

- partial flame combustion at the generator output due to the fact that large unburned particles of thermal destruction of the functional checker and the high-temperature liquid phase of the aerosol are not burnt inside the gas-aerosol stream, which can cause secondary fires.

The technical problem to which the present invention is directed is to increase the efficiency of fire extinguishing and improve the purpose of the extinguishing device.

The required technical result is achieved by the fact that in the known fire extinguishing aerosol generator, comprising a housing with outlet openings, made of two counter-stacked dish-shaped containers equipped with heat-insulating interlayers, in one of which a pyrotechnic face-burning checker is fixed, where an igniter is installed, which interacts with the initiating unit mounted on the bottom of the second capacity of the housing, bearing a cylindrical shell, inside which with a radial clearance is located the central according to the invention, the containers of the case are docked gaplessly, the outlet openings are distributed around the bottom periphery of a container free of pyrotechnic checkers, while the volume between the cylindrical shell coaxially located along its entire height and the central casing made perforated is filled with bulk heat resistant material.

Distinctive features of the proposed technical solution provided highly effective fire extinguishing due to the separation of large unburned particles of thermal decomposition of the pyrotechnic checker and the liquid phase of the generated aerosol for more complete combustion inside the generator, accompanied by additional selection of thermal energy from the extinguishing mixture in the filter-cooler.

The gap-free fastening of the flanges of the dish containers localized the volume of the generator with labyrinth channels for reversing the flow of gaseous products of combustion of the pyrotechnic checker, which are distributed and deployed along the way, which is accompanied by heat removal and a noticeable decrease in the temperature of the quenching mixture at the outlet.

The distribution of the outlet openings along the periphery of the bottom of the container body, free of pyrotechnic checkers, made it possible to direct the entire extended stream of generated aerosol oriented toward a probable source of ignition.

At the same time, high-speed jet aerosol streams are additionally cooled by the injected air of the protected volume, providing a sharp decrease in the temperature of the diluted extinguishing mixture.

Filling the volume between the cylindrical shell and the central casing, which are perforated (gas-permeable) over the entire height of the housing capacity free of pyrotechnic checkers, formed a new structural element of the generator - a cooling filter, inside which a large-sized localized combustion chamber is formed.

The filter with numerous labyrinth channels forms a high gas-dynamic resistance for the gaseous products of the combustion of the pyrotechnic checker, as a result of which it is impermeable to large solid particles and the liquid phase of the aerosol, which are retained, where they are completely burnt and oxidized.

At the same time, the metal shell, casing and jumper actively select and remove thermal energy, performing the functions of a convector.

Therefore, each essential feature is necessary, and their combination in a stable relationship is sufficient to achieve novelty of quality, that is, the technical problem posed in the invention is not solved by the sum of the effects, but by a new super-effect of the sum of the attributes.

A comparative analysis of the proposed technical solution with identified analogues of the prior art, from which the invention does not explicitly follow for a specialist in fire fighting equipment, showed that it is not known, and taking into account the possibility of industrial serial production of fire extinguishing aerosol generators in an existing production, we can conclude that patentability criteria.

The invention is illustrated by the drawing, which has a purely illustrative purpose and does not limit the scope of the claims of the totality of the essential features of the formula.

The drawing schematically shows the proposed generator of a fire extinguishing aerosol.

The body of the device is made of two counter-joined flanging containers 1 and 2 of a dish-shaped shape without a gap between them.

Tanks 1 and 2 are equipped with heat-insulating interlayers 3 from the inside, mainly from technological cured material: gypsum, foam concrete, etc., which additionally carries out structural functions.

A pyrotechnic checker 4 of end-face combustion is fixed in the container 1, as a result of which a gas-aerosol extinguishing mixture is formed containing combustion inhibitors and solid condensed particles with high energy.

At the open end of the pyrotechnic checker 4, an igniter 5 is installed, which is sensitive to thermal impulse, which is a mixture of potassium nitrate with epoxy resin, which is sufficient for adhesive fastening at the end of checker 4.

In the gap-free junction of the flanges of containers 1, 2, by means of connecting bolts 6, a mounting bracket 7 and an annular cross member 8 are fixed above the end of the checker 4.

The bracket 7 is used to mount the device on the supporting surface of the protected premises and is made with the possibility of angular rotations of the generator for orientation on a possible source of ignition.

A cylindrical shell 9 and a central casing 10 are coaxially mounted on the annular cross member 8, made perforated, between which there is a layer 11 of bulk heat-intensive material, in particular basalt chips, which together form a filter cooler.

A volumetric combustion chamber 12 is formed inside the described filter-cooler, and outside is a receiver 13 equipped with outlet openings 14 distributed over the periphery of the bottom of the tank 2.

At the bottom of the tank 2 of the housing, a central launch unit 15 directed to the igniter 5 is installed, which is electrically connected to an external starting device.

The fire extinguishing aerosol generator operates as follows.

When the fire automatics system is triggered by exceeding the set temperature threshold or smoke in the protected room, the triggering pulse 1-2A with a duration of 1.5-2 s is fed to the central launch unit 15.

The force of the flame from the triggered launch unit 15 is sent directly to the igniter 5 at the end of the checker 4, as a result of which the composition of the igniter 5 sensitive to the heat pulse is initiated and sets fire to the pyrotechnic checker 4, during the combustion of which a fire-extinguishing aerosol is generated.

The gaseous combustion products of the pyrotechnic checker 4 fill the combustion chamber 12, where the pressure rises, as a result of which the aerosol through the perforations of the central casing enters the filter cooler from the bulk heat-resistant material 11, where, overcoming the gas-dynamic resistance, the aerosol is cleaned of unburned large particles, the liquid phase and cooled due to convective heat sink.

Next, gas-aerosol products, overcoming the perforations of the shell 9, fill the receiver 13, where they mix, accumulate and, under pressure, are ejected through openings 14 with thin distributed jets into the protected volume, filling it.

Upon reaching the required concentration of combustion inhibitors in the room, fire suppression occurs.

The installation of an additional gas-permeable filter-cooling device between the increased-volume combustion chamber and the receiver with distributed outlet openings ensured a delay at the entrance of large particles, which are crushed and returned to the combustion chamber for afterburning, cleaning the aerosol from the liquid phase and dirt.

Thin jets of gas-aerosol combustion products distributed in labyrinth channels of fractionated filling are actively cooled, with convective heat removal through the structural elements of the filter-cooler.

As the tests of the prototype generators of the invention showed, the composition of the extinguishing aerosol reduces the content of unoxidized compounds, which reduces the fire load in the protected room and the toxicity of its environment for safer people during the rescue time.

Claims (1)

A fire extinguishing aerosol generator comprising a housing with outlet openings made of two counter-stacked dish-shaped containers equipped with heat-insulating interlayers, in one of which a pyrotechnic face-burning checker is mounted, where an igniter is installed, which interacts with an initiating assembly fixed to the bottom of the second housing capacity that carries a cylindrical shell, inside of which, with a radial clearance, a central casing is located, adjacent to the annular jumper of the junction of the tanks, end characterized in that the outlet openings are distributed around the periphery of the bottom of the container, free of pyrotechnic checkers, while the volume between the coaxially arranged cylindrical shell and the central casing, made perforated, is filled with bulk heat-resistant material.