RU2649548C1 - Device for three-dimensional aerosol fire fighting - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: invention relates to the field of fire extinguishing, to devices generating gas-aerosol fire retarders formed during combustion of pyrotechnic compound and sent to protected volume in organized manner to suppress fire at the incipient stage, and which can be used both in autonomous and in automatic fire-fighting system for fixed installation and for manual fire fighting. Device for volume aerosol fire fighting contains a node for fusing of pyrotechnic stick, supported by a diametric bridge and reinforced through thermal barrier in metal body of glass’s shape, combined with axial receiver, equipped with perforations of communication with annular channel, coaxial drum closed by a lid with outlets, which is internally covered with gypsum plaster, bounded by gas-penetrable cover. According to the invention, a membrane of osmotic action adjoins the gypsum layer of drum, providing diffusion into the reversible channel, the gas-penetrable cover of which is a coarse-meshed wire mesh, and the insulating layer adjoining the functional stick itself is made of cure during bursting expansion material, foamed concrete, the one-way diffusion membrane being made of geotextile or geofabric.

EFFECT: proposed technical solution is aimed at increasing the fabricability of the generator and the efficiency of its main operation for the purpose with simplification of the construction.

1 cl, 1 dwg

Description

The invention relates to the field of fire extinguishing, to devices generating gas-aerosol combustion inhibitors generated during the combustion of a pyrotechnic composition and organized into a protected volume to suppress a fire source, and which can be used both in stand-alone and in automatic fire extinguishing systems for stationary installation and for extinguishing a fire manually.

The level of this field of technology is characterized by the device for volumetric fire extinguishing described in patent RU No. 2096055, A62C 13/22, 1997, which contains the site of the initiation of the pieces of the pyrotechnic composition, installed with a gap in a metal case, equipped with communication holes for communication with a reversible annular channel casing, closed with a cover with outlet openings, slotted heat exchanger and receiver.

Changing the direction of the aerosol flow of the generated combustion products of the pyrotechnic checker by 180 ° in the reversible annular channel ensures their additional cooling inside the device, and the main heat is taken out in a spiral slotted heat exchanger from a material with a melting point above the temperature of the combustion products.

Placing a spiral heat exchanger between the functional checker and the receiver ensured flameless smoke formation without sparks and efficient dispersion of the flow of combustion products for the smooth passage of combustion inhibitors, since the formation of slag is eliminated.

The disadvantages of the described fire extinguishing device include the following.

The low performance of the extinguishing gas-aerosol mixture due to the relatively small mass of the pyrotechnic checker, since the longitudinal structural arrangement of the structural elements determines the large linear dimensions of the device, therefore, poor mechanical strength, as well as a low filling ratio, i.e. the ratio of the mass of the checker (functional equipment) to the mass of the generator as a whole.

Insufficient cooling of the combustion products of the pyrotechnic checker due to the fact that the accumulated heat is transferred to the casing by means of heat transfer from the spiral heat exchanger, and then it is radiated into the extinguishing mixture of the annular reversible channel, again heating its products.

The use of this device is limited only to stationary due to the high temperature of the casing, heated by direct interaction with the hot products of the flowing aerosol stream.

The noted drawbacks are eliminated in a more advanced device for volumetric aerosol fire extinguishing according to patent RU No. 2164808 C2, A62C 13/22, 2001, which is selected as the closest analogue to the one proposed according to the number of matching features and technical nature.

The known device comprises an initiation unit, a piece of pyrotechnic composition, mounted with a gap in a metal case, equipped with communication holes for communication with a coaxially located reversible channel of the casing, which is closed by a lid with exit nozzle openings for the generated aerosol.

The cylindrical housing is combined with an axial receiver, which, together with a perforated shell spaced from the outer casing, forms a tube-in-tube heat exchanger.

Moreover, in the gaps between the central block and the body, as well as between the casing and the additional shell, heat-insulating layers of gypsum are placed, which provide structural rigidity to the device as a whole.

An advantage of the known design is the better cooling of the generated aerosol due to the efficient internal heat exchange organized with partial energy absorption on the two-sided evaporation of moisture from gypsum layers adjacent to the outputting reverse channel, which dilutes the extinguishing mixture and is itself an environmentally friendly combustion inhibitor.

The combination of the housing with the axial receiver simplifies the design, providing uniform end-face combustion of the pyrotechnic checker with almost equal consumption of the extinguishing mixture from the generator.

Additional thermal insulation of the outer casing by the carrier layer of gypsum makes it possible to hold the device with your hands during the entire work cycle, aiming the extinguishing mixture flow directly to the ignition site, which expands the technological possibilities of the intended use and the effectiveness of fire fighting.

However, a continuation of the noted advantages of the known device are inherent disadvantages.

Firstly, this is unsatisfactory functional reliability due to the presence of moisture in the heat-insulating gypsum layer adjacent to the pyrotechnic block, which negatively affects its flammability, combustion stability and structural integrity during storage.

This requires forced drying of the gypsum layer after curing and booking the surface of the checker by means of a varnish coating, however, through the open end surface and perforations of the body of the gypsum layer, the gypsum layer communicates with the atmosphere and inevitably absorbs moisture.

Thus, both gypsum layers attach water during storage to a third of the mass, which significantly complicates the device as a whole, making it difficult to use it manually.

Secondly, to remove the steam generated during the functioning of the gypsum interlayers, the body and the casing of the casing are forced to be equipped with perforations, which in addition to drying the interlayers and armoring the checkers complicates the manufacturing technology of the device with a concomitant increase in consumer cost.

The technical problem to which the present invention is directed is to modernize the structure to improve its manufacturability and increase functional reliability while expanding the possibilities for manual effective fire fighting.

The required technical result is achieved by the fact that in the known device for volumetric aerosol fire extinguishing, comprising a pyrotechnic checker initiation unit supported by a diametrical jumper and strengthened through a thermally insulating interlayer in a glass-shaped metal case combined with an axial receiver equipped with perforations of communication with an annular channel, coaxial a casing closed with a cover with outlet openings, which is internally covered with a layer of gypsum, limited by gas permeability my shell, according to the invention, an osmotic membrane adjacent to the gypsum layer of the casing provides diffusion into the reversal channel, the gas-permeable shell of which is a coarse wire mesh, and the insulating layer adjacent to the functional block directly is made of a material which is cured by swelling - cellular concrete, the one-sided diffusion membrane is made of geotextile or geotextile.

Distinctive features of the proposed technical solution are aimed at improving the manufacturability of the generator and the efficiency of its main action as intended, while simplifying and simplifying the design.

Equipping the layer on the casing of building gypsum with an osmosis membrane adjacent from the inside ensures diffusion of the structural and attached technological moisture of the solution, which eliminates the separate drying operation of the formed thermally insulating coating, breaking the process flow and significantly increasing the cost of the product.

This eliminates the arbitrary flow of moisture into the volume of the gypsum layer during storage and in official circulation of the generators.

The implementation of a gas-permeable shell on the gypsum layer of the casing, which forms the annular reversible channel for supplying the generated aerosol to the outlet openings in the form of a coarse wire mesh, minimizes the gas-dynamic resistance of the evaporated moisture into the functional aerosol and significantly reduces the mass of the generator, in particular, eliminating the heat exchanger as unnecessary.

The implementation of a thermally insulating layer on the surface of a pyrotechnic block made of aerated concrete - a gas-or foam concrete material that does not contain moisture, which cures when swollen, simplifies the technology of adhesive fastening of the central block in a metal case, which is not additionally perforated.

In addition, an insulating layer of cellular concrete is automatically formed due to the expansion of the material filling the gap, with adhesive fastening to the functional block, that is, adjacent directly without technological and protective layers between them, which greatly simplifies the manufacturing process.

The implementation of a membrane adjacent to the gypsum layer of the casing with one-sided diffusion of geotextiles / geotextile is the simplest technical solution to the target task with a guaranteed effect according to the calculation and practice of intended use.

Therefore, each essential feature is necessary, and their combination is sufficient to achieve the novelty of quality that is not inherent in the signs of disunity, 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.

Comparison of the proposed technical solution with the closest prior art analogues did not reveal an identical match of the totality of the essential features of the invention.

The proposed differences of the device for volumetric aerosol fire extinguishing, which do not directly follow from the statement of the technical problem, are not obvious to a specialist in fire fighting equipment.

The manufacture of a fire extinguishing aerosol generator according to the invention is possible at the current production in series.

From the foregoing, we can conclude that the invention meets the conditions of patentability.

The essence of the proposed technical solution is illustrated by the drawing, which has a purely illustrative purpose and does not limit the scope of the claims of the set of essential features, which shows a longitudinal section of a fire extinguishing aerosol generator according to the invention.

A device for volumetric fire extinguishing includes a functional pyrotechnic checker, generating aerosol during combustion, including gaseous substances and solid dispersed particles - combustion inhibitors.

The central pyrotechnic block 1 is adhesively fixed in a cylindrical metal casing 2 by means of a heat-insulating annular layer 3 of heat-resistant aerated concrete (GOST 20910-90), which is cured during expansion, containing a phosphate binder, which in this case increases in volume up to five times, forming a structural monolith.

The housing 2 is combined with a coaxial receiver 4, equipped with perforations 5 messages with an annular reverse channel 6 to the outlet 7 of the cover 8.

Pyrotechnic checker 1 from the side of the open (lower in the drawing) end rests on a diametrical rod cross-member 9, located in the perforations 5 of the receiver 4.

Coaxially to the housing 2 there is an external casing 10, rigidly connected with the bottom 11 and the cover 8, forming the generator itself.

On the inside of the casing 10, a heat-insulating layer 12 of gypsum is fixed, on the inner surface of which is an osmosis membrane 13 made of geotextile or geotextile (GOST R 53225-2008), which provides one-sided diffusion of moisture removed from the gypsum of the layer 12 into the adjacent channel 6, from where then it merges after molding, before assembling the generator.

The diffusion membrane 13 is externally pinched by a coarse wire mesh 14, which functions as a process cage and forms an annular channel 6 for reversing the aerosol stream from perforations 5 of the receiver 4.

A threaded sleeve 15 is mounted in the bottom 11, where an ignition unit 16 for external initiation is installed, directed to the open end of the functional block 1.

The proposed device operates as follows.

A heat pulse from the ignition unit 16, automatically initiated from the signal of the fire alarm system when the temperature threshold is exceeded, or manually pyrotechnic bomb 1 is ignited from the open end, during combustion of which a gas-aerosol mixture of effective combustion inhibitors is formed.

In the volume of the receiver 4, the gaseous products of combustion accumulate, expand and equalize the pressure, under the influence of which the extinguishing mixture is distributed by transverse jets through the perforations 5 into the annular channel 6, where the flow unfolds and flows back to the outlet openings 7 in the cover 8.

At the same time, the protective layer 12 made of gypsum with poor thermal conductivity practically does not transfer energy to the casing 10, which during the operation of the device does not heat above 40 ° C, which allows it to be held by hands, aiming the quenching aerosol flow to the ignition site, which is suppressed.

When a gas-aerosol mixture is introduced into the combustion zone under the action of active inhibitors, the chain mechanism of active radical reproduction breaks, as a result of which combustion ceases.

Excellent thermal insulation of the outer casing of the device allows you to use it for effective fire extinguishing manually, where possible and appropriate.

The use of a heat-insulating layer of a pyrotechnic block of the material swelling during curing during simplification simplified the manufacturing technology of a device characterized by a structural unity of form and function.

The proposed technological design of a device for volumetric aerosol fire extinguishing is compact, efficient and versatile, reliable and easy to operate with guaranteed functioning of structural elements in conjunction for efficient use for their intended purpose.

The device according to the invention is intended for installation in industrial, office premises, warehouses, energy facilities, traction vehicles and so on.

Bench and full-scale comparative tests of prototypes of the device according to the invention, standard and prototype showed its higher efficiency and fire extinguishing rate for stationary and manual use, which allows us to recommend the design for delivery to customers.

Claims (2)

1. A device for volumetric aerosol fire extinguishing, comprising a pyrotechnic checker initiation unit supported by a diametrical jumper and fastened through a thermally insulating interlayer in a glass-shaped metal case combined with an axial receiver equipped with perforations of communication with an annular channel, a coaxial casing, closed by a lid with outlet openings which is internally covered with a layer of gypsum bound to a gas-permeable shell, characterized in that to the gypsum layer of the casing adjacent to the osmotic membrane, which provides diffusion into the reversal channel, the gas-permeable shell of which is a coarse wire mesh, and the insulating layer adjacent to the functional block directly is made of cellular material that is cured during expansion. 2. The device according to claim 1, characterized in that the one-sided diffusion membrane is made of geotextile or geotextile.

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