RU147640U1 - FIRE EXTINGUISHING AEROSOL GENERATOR - Google Patents

Abstract

1. A fire extinguishing aerosol generator containing a pyrotechnic checker mounted through a heat-insulating layer in an overlapped annular membrane of one of the two counter-stacked dish-shaped containers of the housing, and a combustion chamber communicating with the outlet openings by means of a reversing channel formed with a partial overlap by the central casing fixed in a central casing fixed to membrane, and a coaxial shell mounted on the bottom of the second tank, on which an axisymmetric trigger assembly is mounted, is electrically ki connected with an external initiating device, characterized in that the containers of the housing are gaplessly connected, the outlet openings are distributed around the periphery of the bottom of the container, free of pyrotechnic pieces, while the axisymmetric launch unit is located inside the central casing as the central body of the nozzle and mounted with the possibility of longitudinal movements. 2. The generator according to claim 1, characterized in that the initiating device of the launch site is located in a sealed junction box.

Description

The proposed utility model relates to fire fighting equipment, in particular, to devices generating a gas-aerosol mixture of combustion inhibitors, designed for volumetric fire extinguishing 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 fire extinguisher device according to patent RU 2237503 C1, А62С 13/22, 3/00, 2003, which contains a housing made up of two counter-fastened dish-shaped containers with a gap between their flanges, forming a disk outlet nozzle, fixed in both containers of the body through the heat-insulating interlayers of gypsum, the pyrotechnic charges of the end-combustion checkers generating a gas-aerosol extinguishing mixture, and the initiation unit, electrically connected to an external starting device.

A feature of the described fire extinguishing device is the implementation of the initiation unit in the form of a resistor filled with an adhesive igniter directly between the ends of the pyrotechnic pieces, the ignition of which occurs almost instantly and simultaneously.

Secondly, the geometric ratio of the overall size of the device and the diameter of the pyrotechnic charges of the checker is optimized, that is, the length of the output disk nozzle that provides the necessary gas-dynamic outflow of the quenching mixture.

At the same time, the mass of the pyrotechnic charge and the volume of the generated aerosol for effective fire fighting increased.

The disadvantage of this fire extinguishing device is partial flame combustion at the generator output, because large unburned particles of thermal destruction of the functional checker and a high-temperature liquid phase of the aerosol are in the gas-aerosol stream.

The high temperature of a dynamic aerosol jet, which is practically not cooled inside, which limits the conditions of use only in the open volumes of the protected premises in order to avoid damage to the interior, equipment and possible secondary fires.

The noted drawbacks are eliminated in a more advanced automatic fire extinguishing aerosol generator according to patent RU 115673 U1, А52С 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 launching unit mounted above the open end of the pyrotechnic checker mounted through a heat-insulating layer in one of the two plate-shaped containers of the body, counter-joined by flanges forming a disk outlet nozzle, and a reversing outlet channel between the shell housings located in the second shell and a shell mounted with partial 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.

The temperature of the gas-aerosol mixture does not exceed 200 ° С at the outlet of the generator’s disk slit, which is much lower than the ignition temperature of most materials, and at a distance of 0.7 m from the generator, the temperature is 40-50 ° С.

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 disadvantage of the known generator is unsatisfactory cooling inside the gas-aerosol stream body, the free flow of which occurs through the central casing of a large flow area, reaching the outlet, almost bypassing the dead end receiver, and the body capacity, free from pyrotechnic checkers, weakly selects the heat energy of the extinguishing mixture.

In addition, the sealant mount of the launch unit at the bottom of the second capacity of the housing eliminates the possibility of preventive inspection in service and replacement, which reduces the functional reliability of the generator.

The remote location of the launch unit over the overall central casing, which does not focus thermal products from the launch unit, reduces the dynamics and stability of ignition of the pyrotechnic checker and, therefore, the supply of the extinguishing mixture to the protected volume in case of fire.

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

The required technical result is achieved by the fact that in the known fire extinguishing aerosol generator containing a pyrotechnic checker mounted through a heat-insulating layer in an overlapped annular membrane of one of two counter-aligned dish-shaped containers of the housing, and a combustion chamber communicating with the outlet openings through a reversible channel formed with a reversible channel formed with a reversible channel formed overlapping by a central casing fixed in an annular membrane and a coaxial shell mounted at the bottom of the second tank, on which an axisymmetric trigger assembly is mounted, electrically connected to an external initiating device, at the suggestion of the authors, the casing tanks are gaplessly connected, the outlet openings are distributed around the periphery of the tank bottom, free of pyrotechnic pieces, while the axisymmetric trigger assembly is located inside the central casing as the central nozzle body and mounted with the possibility of longitudinal movements.

Another difference is that the initiating device of the launch unit is located in a sealed junction box.

Distinctive features of the proposed technical solution made it possible to increase the functional reliability of the extinguishing aerosol generator due to the stable ignition and combustion of the pyrotechnic checker with regulation of the gas-dynamic regime of the extinguishing mixture supply, while improving its cooling inside the case.

The execution of the generator housing from two dish-shaped containers, which are interconnected by flanges seamlessly, forms a volume closed to the generated aerosol, where it is additionally processed (cleaning and cooling) before being fed into the protected volume.

Placing the launch unit inside the central casing, which serves as the nozzle of the combustion chamber, is necessary for the formation of a concentrated plume of its combustion products, concentrated on the end of the pyrotechnic checker, which increases the reliability of its ignition and stabilizes combustion.

Equipping the receiver in the body of the casing, free of pyrotechnic checkers, with outlet openings on the end of the generator, it is possible to organize the longitudinal exit of the extinguishing mixture into the protected volume with orientation to a remote ignition center, which provides dilution and additional cooling of the thin jets of aerosol with the injected air of the protected room.

Placing the launch unit inside the adjacent casing forms a nozzle outflow of the generated aerosol from the combustion chamber - an annular stream flowing around the central body, the gas-dynamic effect of which is regulated by a change in their relative position, due to the longitudinally movable connection with the communication box.

At the same time, the triggered launch unit performs the additional functions of an effective convector that selects and removes thermal energy to the body.

The implementation of the initiating device in the form of a sealed launch box localizes the volume of the generator from external influences and makes it easy to remove the launch unit for routine inspection and mobile replacement, which expands the technological and functional capabilities of the proposed design.

Therefore, each essential sign is necessary, and their combination in a stable relationship is sufficient to achieve the 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 signs.

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: in FIG. 1 - the proposed generator of a fire extinguishing aerosol; in FIG. 2 - the same, top view.

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.

Mounting brackets 6 and an annular membrane (cross member) 7 above the end of the checker 4 are fixed in the gap-free junction of the flanges of containers 1, 2 by means of connecting bolts 5, forming a chamber 8 for its combustion.

In the cross member 7, a central casing 9 is installed, made in the form of a nozzle of the combustion chamber 8, in which the central body is placed (see, for example, Rocket engines under the editorship of T. Melkumov, Mechanical Engineering, M., 1968, pp. 480-481 ) - launch unit 10, mounted with the possibility of relative longitudinal movements in a sealed communication box 11 installed on the bottom of the tank 2 of the generator housing.

At the bottom of the tank 2, a coaxial shell 9 is fixed to the shell 12 with a partial overlap, which forms a labyrinth channel of communication with the external receiver 13 - the free volume of the tank 2.

On the periphery of the bottom of the tank 2 of the housing are distributed outlet openings 14, which communicate with the receiver 13.

The proposed generator operates as follows.

The impulse from the fire alarm signal when the temperature is exceeded and / or sludge and smoky ™ in the protected room enters the start box 11, where it is identified, after which there is a switching to initiate the start unit 10.

When the trigger unit 10 is triggered, a torch of high-temperature combustion products of its equipment is formed, which is sent by the adjacent casing 9 to the end of the pyrotechnic checker 4, igniting it.

When the checkers 4 are burned end-to-end, the slotted combustion chamber 8 is filled with gas-aerosol products that flow out through the nozzle opening of the casing 9, the critical section of which is regulated by the longitudinal movement of the central body of the nozzle, which is the launch unit 10, screwed to the mark in the launch box 11 in accordance with the gas-dynamic resistance created at the same time at the nozzle exit.

The thin ring flow of the generated aerosol formed in the gap between the casing 9 and the central body of the nozzle — the triggered launch unit 10 — is effectively cooled by convective heat removal to the body and box 11 by means of the heated shell of the unit 10.

Further, the flow of gas aerosol products is repeatedly inhibited and unfolds in the shell 12 and receiver 13, expanding and mixing, which is accompanied by additional heat transfer and, accordingly, a noticeable decrease in their temperature.

In the receiver 13, the generated gas-aerosol products accumulate with increasing pressure, as a result of which they are dynamically ejected through the outlet 14 into the protected volume, where its air is injected into the stream, which is accompanied by dilution and a sharp decrease in temperature in thin jets of the quenching mixture directed to the source fires.

The temperature of the products of the extinguishing mixture does not exceed 150 ° C, which has a less aggressive effect, since the slag and unburned liquid phase of the aerosol are not carried out into the protected volume.

The gas-aerosol mixture fills the protected volume, and when the required concentration of combustion inhibitors is reached, the fire is suppressed.

The proposed design of a fire extinguishing aerosol generator, in which it is possible to regulate the thermodynamic regime and aerodynamic resistance of the extinguishing mixture flow, is more productive and efficient than existing analogues and should be in demand by consumers.

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 eligibility criteria.

Claims (2)

1. A fire extinguishing aerosol generator containing a pyrotechnic checker mounted through a heat-insulating layer in an overlapped annular membrane of one of the two counter-stacked dish-shaped containers of the housing, and a combustion chamber communicating with the outlet openings by means of a reversing channel formed with a partial overlap by the central casing fixed in a central casing fixed to membrane, and a coaxial shell mounted on the bottom of the second tank, on which an axisymmetric trigger assembly is mounted, is electrically ki connected with an external initiating device, characterized in that the containers of the housing are gaplessly connected, the outlet openings are distributed around the periphery of the bottom of the container, free of pyrotechnic blocks, while the axisymmetric launch unit is placed inside the central casing as the central body of the nozzle and mounted with the possibility of longitudinal movements. 2. The generator according to claim 1, characterized in that the initiating device of the launch site is located in a sealed junction box.

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