RU2788244C1 - Autonomous fire-extinguishing aerosol generator - Google Patents

Abstract

FIELD: fire-extinguishing equipment.

SUBSTANCE: invention relates to fire-extinguishing equipment, more specifically to stationary devices for generating a gas-aerosol mixture of flame retardants, designed to suppress fires with a flow of an extinguishing mixture in confined spaces. Autonomous generator of fire-extinguishing aerosol contains a polymer case in the form of a glass, a block of pyrotechnic composition of fire-extinguishing aerosol placed in the bottom part of the case, an initiator, functional equipment for cooling the aerosol and a perforated diaphragm, on which the case is rolled through the sealing ring. The polymer body above the cartridge made of the pyrotechnic composition of the fire-extinguishing aerosol includes an aerosol mixing chamber, in which the initiating means is placed in the form of a igniter cord, one part of which is made in the form of a spiral and is rigidly fixed by means of a damper gasket on the end surface of the cartridge through the thrust tube, and the other part is brought out through the central hole of the perforated diaphragm, the perforation windows of which are covered with a metal mesh. The annular space between the inner diameter of the housing and the guide tube, which is tightly fixed in the recess of the diaphragm, is filled with granules from a substance based on ammonium oxalate by means of a sealing ring. A checker made of a pyrotechnic composition of a fire-extinguishing aerosol is covered with heat-resistant silicone enamel.

EFFECT: increasing the cooling efficiency of the fire-extinguishing aerosol jet.

1 cl, 1 dwg

Description

The invention relates to fire-fighting equipment, and more specifically to stationary devices for generating a gas-aerosol mixture of flame retardants, designed to suppress fires with a flow of an extinguishing mixture in confined spaces.

The generator of the proposed design is intended for volumetric aerosol extinguishing of fires of solid and liquid combustible substances, as well as electrical equipment, including those under voltage, in closed unventilated spaces, with automatic start from a igniter cord placed inside the protected volume.

The level of this field of technology characterizes a device for volumetric aerosol fire extinguishing described in the patent for invention RU No. 2164808, class IPC - A62C 13/22, priority - 04/28/1999, which contains an initiation unit, a piece of pyrotechnic composition installed with a gap of a metal case equipped with communication openings for communication with a reversible annular channel of the casing, closed by a lid with outlet openings, a heat exchanger and a receiver.

What is new is that the heat exchanger is made in the form of a perforated shell external to the body, a coaxially reinforced block in the casing through a layer of building gypsum, which is also filled into the gap between the block and the body, combined with the receiver, and communication holes are made on its side surface.

The combustion products of the pyrotechnic cartridge are cooled by heat exchange with partial absorption for the evaporation of moisture bound and attached by gypsum, which is mixed with the extinguishing aerosol flow in the annular reverse channel by distributed transverse steam jets, reducing the temperature and diluting the mixture.

The described device is characterized by increased productivity of generation of flame retardants and high efficiency of cooling the products of the extinguishing mixture inside the device.

The disadvantages of the described device for volumetric aerosol fire extinguishing include 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.

An additional perforated metal shell of the casing, carrying a gypsum layer, significantly increases the mass of the device and reduces its payload, that is, the fire extinguishing efficiency.

The noted shortcomings are eliminated in a more advanced device for volumetric aerosol fire extinguishing according to the patent for invention RU No. 2649548, class IPC - A62C 13/22, priority - 04/11/2017, which, according to the number of matching features and technical essence, was chosen as a prototype.

The invention relates to the field of fire extinguishing, to devices generating gas-aerosol flame retardants formed during the combustion of a pyrotechnic composition and organized in a protected volume to suppress the source of ignition, and which can be used both in autonomous and automatic fire extinguishing systems in stationary installations and when fire extinguishing by hand.

SUBSTANCE: device for volumetric aerosol fire extinguishing contains an ignition unit for a pyrotechnic cartridge supported on a diametrical jumper and reinforced through a heat-insulating layer in a metal case in the form of a glass, combined with an axial receiver equipped with perforations of communication with an annular channel, a coaxial casing closed by a cover with outlet openings, which from the inside covered with a layer of building gypsum, limited by a gas-permeable shell.

According to the invention, an osmosis membrane is adjacent to the gypsum layer of the casing, which ensures diffusion into the reverse channel, the gas-permeable shell of which is a large-mesh wire mesh, and the insulating layer adjacent to the functional block directly is made of a material that hardens during swelling - cellular concrete, and the membrane of one-way diffusion made of geotextile or geofabric.

The implementation of a thermally insulating layer on the surface of the pyrotechnic checker from heat-resistant aerated concrete cured during swelling (GOST 20910-90), containing a phosphate binder, simplifies the technology of adhesive fastening of the central checker in a metal case, which is not additionally perforated.

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

The use of heat-resistant aerated concrete (GOST 20910-90), containing a phosphate binder, as a thermal insulating gasket is complicated by the high cost of the components (for the production of binders, scarce chromites are needed).

The device is actuated by an ignition unit, automatically initiated by a signal from the fire alarm system, which requires the installation of additional equipment. In addition, the described device cannot be used in objects not connected to the power supply, therefore it is not autonomous.

The technical problem to be solved by the proposed technical solution is to expand the functionality of autonomous operation of the generator, which provides effective cooling of the fire-extinguishing aerosol jet while achieving high fire-extinguishing efficiency in confined spaces, which allows it to be used for volumetric aerosol extinguishing of fires of solid and liquid combustible substances, including electrical equipment. , including those under voltage, in closed small-sized volumes.

The required technical result is achieved by the fact that:

In the well-known stand-alone fire-extinguishing aerosol generator, containing a glass-shaped polymer case, a piece of pyrotechnic composition of a fire-extinguishing aerosol located in the bottom part of the case, an initiator, functional equipment for cooling the aerosol and a perforated diaphragm, on which the case is rolled through the sealing ring, according to the invention, the polymer body above the cartridge made of the pyrotechnic composition of the fire-extinguishing aerosol, includes an aerosol mixing chamber, in which the means of initiation is placed in the form of a igniter cord, one part of which is made in the form of a spiral and is rigidly fixed by means of a damper gasket on the end surface of the cartridge through the thrust tube, and the other part brought out through the central hole of the perforated diaphragm, the perforation windows of which are covered with a metal mesh.

The annular space between the inner diameter of the housing and the guide tube, which is tightly fixed in the recess of the diaphragm, by means of a sealing ring, is filled with granules from a substance based on ammonium oxalate.

A checker made of a pyrotechnic composition of a fire-extinguishing aerosol is covered with heat-resistant silicone enamel.

The distinctive features of the proposed solution ensured the achievement of the goals set, namely, the expansion of the functionality of the generator operation through the use of a igniter cord as a means of initiation, which made it possible to quickly and efficiently use an autonomous generator without additional fire fighting equipment and reliably prevent the spread of a fire source until it completely stops.

The design of the generator is compact, which allows it to be used to extinguish fires in small hermetic and conditionally hermetic spaces, such as switch cabinets, switchboards with electrical equipment, safes, etc.

A piece of pyrotechnic composition of a fire-extinguishing aerosol is covered with heat-resistant silicone enamel, which ensures uniform combustion without flashovers along the side surface of the piece, and also greatly simplifies the technological process of manufacturing products, since the coating is applied by spraying, without requiring the manufacture of special armoring compositions.

The use of granules from a substance based on ammonium oxalate as a chemical coolant provides an efficient selection of thermal energy of the gaseous combustion products of the checker from the pyrotechnic composition.

The presence of a metal mesh enhances the effect of flame extinguishing in the body and eliminates the flight of large fragments together with a highly dispersed aerosol.

The gap between the block with cooling granules and the pyrotechnic checker forms a mixing chamber for the fire-extinguishing aerosol, where the flame-extinguishing processes are also completed.

Consequently, each essential feature is necessary, and their combination is sufficient to achieve a novelty of quality that is not inherent in features in disunity, that is, the set technical problem is solved not by the sum of effects, but by a new super-effect of the sum of features.

The comparative analysis of the proposed technical solution with the identified analogues of the level of this field of technology, from which the invention does not explicitly follow for a specialist in fire fighting equipment, showed that it is unknown, and taking into account the possibility of practical serial production of a fire extinguishing aerosol generator at the current production of pyrotechnic products of the enterprise, it is possible to make conclusion on compliance with the patentability criteria.

The essence of the proposed technical solution is illustrated by the drawing (figure 1), which has a purely illustrative purpose and does not limit the scope of claims of the totality of the features of the claims. The drawing shows the proposed autonomous generator of fire extinguishing aerosol.

In the bottom part of the polymer body (1) there is a checker (2) made of a pyrotechnic composition of a fire-extinguishing aerosol, covered with heat-resistant silicone enamel.

A metal shell (4) is pressed to the end surface of the block (2) made of pyrotechnic composition through a damping gasket (3) made of cardboard, which ensures guaranteed fixation of a part of the igniter cord (5) made in the form of a spiral. The other part of the igniter cord (5) is brought out through the channel of the guide tube (6) through the central hole of the perforated diaphragm (7), the perforation windows of which are covered with a metal mesh (8). When assembling the product, a guide tube (6) and a restrictive tube (9) are installed to the perforated diaphragm (7).

The annular space between the guide tube (6) and the restrictive tube (9) is filled with granules (10) from a substance based on ammonium oxalate.

A checker (2) made of a pyrotechnic composition, a metal shell (4) and a restrictive tube (9) are coaxially pressed due to the rolling of the polymer body (1) through the sealing ring (11).

The content of the polymer body (1) is waterproofed by a sealing gasket (12) glued to the outer surface of the perforated diaphragm (7).

The autonomous generator of fire-extinguishing aerosol operates as follows.

When the critical temperature is reached in the protected volume, the igniter cord (5) ignites.

With a fire pulse from the igniter cord (5), the pyrotechnic composition checker (2) will ignite, forming an aerosol jet passing through the granules of the substance (10) based on ammonium oxalate, which, taking heat away for decomposition, reduce the temperature of the aerosol.

The resulting aerosol has a relatively low temperature and, when the volume is filled, creates the necessary fire-extinguishing concentration of flame retardants.

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

The proposed differences of the stand-alone fire-extinguishing aerosol generator are not obvious to a specialist in fire fighting technology, which do not directly follow from the formulation of the technical problem.

On the basis of the test report, the authors of the alleged invention confirmed the possibility of manufacturing the proposed autonomous generator at the current production of pyrotechnic products of the enterprise.

From the foregoing, it can be concluded that the invention complies with the conditions of patentability.

Claims (1)

Autonomous generator of fire-extinguishing aerosol, containing a polymer case in the form of a glass, a block of pyrotechnic composition of a fire-extinguishing aerosol placed in the bottom part of the case, an initiator, functional equipment for cooling the aerosol and a perforated diaphragm, onto which the case is rolled through a sealing ring, characterized in that the polymer the body above the cartridge made of the pyrotechnic composition of the fire-extinguishing aerosol includes an aerosol mixing chamber, in which the means of initiation is placed in the form of a igniter cord, one part of which is made in the form of a spiral and is rigidly fixed by means of a damper gasket on the end surface of the cartridge through the thrust tube, and the other part is brought out through the central hole of the perforated diaphragm, the perforation windows of which are covered with a metal mesh, the checker of the pyrotechnic composition of the fire-extinguishing aerosol is covered with heat-resistant silicone enamel, while the annular space between the internal with a diameter of the body and a guide tube, tightly fixed in the recess of the diaphragm, is filled with granules from a substance based on ammonium oxalate by means of a sealing ring.

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