RU2846201C1 - Automatic fire extinguishing means - Google Patents

Abstract

FIELD: fire-fighting means.

SUBSTANCE: invention relates to fire-fighting equipment, namely to an automatic fire extinguishing means equipped with an external ignition means in the form of a fire-resistant cord, automatic means contains a case with a tray in which an aerosol-forming charge coated with a heat-resistant enamel, two asbestos gaskets and a thrust tube are structurally connected, wherein one asbestos gasket is fixed at the end of the aerosol-forming charge, which height is not more than 1/2 of the sleeve height, and the second asbestos gasket acts as a damper, on which the sleeve is rolled, and the thrust tube is placed between two asbestos gaskets, wherein one end of fire cord is connected with open part of aerosol-forming charge, and second is brought out through hole in tray, which area is from 0.6 to 0.8 of area of end surface of aerosol-forming charge, free volume between hole in tray and firing cord is filled with silicone sealant.

EFFECT: increase of fire-extinguishing efficiency at improvement of processability indices.

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 combustion inhibitors, intended to suppress fires with a flow of extinguishing mixture.

The automatic fire extinguishing means of the proposed design is intended for volumetric aerosol extinguishing of fires of solid and liquid flammable substances, as well as electrical equipment, including that under voltage, in closed, unventilated spaces, with automatic start-up from a fuse cord placed inside the protected space.

The level of this field of technology is characterized by a device for volumetric aerosol fire extinguishing according to patent RU 2649548 A62C 13/22 dated 11.04.2017.

The known device contains a pyrotechnic charge initiation unit, supported by a diametrical bridge and secured through a heat-insulating layer in a metal housing in the form of a glass, combined with an axial receiver, provided with perforations for communication with an annular channel, a coaxial casing, closed by a lid with outlet openings, which is covered from the inside with a layer of building plaster, limited by a gas-permeable shell.

An osmotic membrane is adjacent to the gypsum layer of the casing, ensuring diffusion into the reversible channel, the gas-permeable shell of which is a large-mesh wire mesh.

The insulating layer, directly adjacent to the functional block, is made of a material that hardens upon swelling - cellular concrete, and the one-way diffusion membrane is made of geotextile or geofabric.

A special feature of the described device is that the layer on the casing made of building gypsum is equipped with an osmotic membrane adjacent from the inside, which ensures the diffusion of structural and added process moisture of the solution, which makes it possible to eliminate a separate operation for drying the formed heat-insulating coating, which disrupts the process flow and significantly increases the cost of the product.

The creation of a heat-insulating layer on the surface of a pyrotechnic block made of heat-resistant aerated concrete that hardens during swelling (GOST 20910-90) and contains a phosphate binder simplifies the technology of adhesive fastening of the central block in a metal casing, which is not additionally perforated.

However, the noted advantages of the known device are accompanied by its inherent disadvantages.

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

The device is activated 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 noted shortcomings have been eliminated in a more advanced autonomous fire extinguishing aerosol generator according to patent RU 2788244, A62C 13/22 dated 06/08/2022, which was chosen as a prototype due to the number of matching features and technical essence.

The known generator comprises a polymer housing in the form of a glass, a charge of pyrotechnic composition of a fire-extinguishing aerosol, an initiation means, functional equipment for cooling the aerosol and a perforated diaphragm, onto which the housing is crimped through a sealing ring, according to the invention, above the charge of pyrotechnic composition of a fire-extinguishing aerosol, located in the bottom part of the housing, an aerosol mixing chamber is formed, in which an initiation means in the form of a fuse cord is placed, one part of which is made in the form of a spiral and rigidly fixed on the end surface of the charge through a stop tube, and the other part is led out through the central opening 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 fixed tightly in the recess of the diaphragm, is filled with granules of a substance based on ammonium oxalate.

The pyrotechnic fire extinguishing aerosol charge is coated with heat-resistant organosilicon enamel, which ensures uniform combustion without flame flashes along the side surface of the charge, and also significantly simplifies the technological process of manufacturing products, since the coating is applied by spraying, without requiring the production of special armoring compositions.

The use of granules made of a substance based on ammonium oxalate as a chemical coolant ensures the efficient extraction of thermal energy from the gaseous combustion products of the pyrotechnic composition.

The presence of a metal mesh enhances the flame-extinguishing effect in the body and prevents large fragments from flying out along with the highly dispersed aerosol.

However, the noted advantages are accompanied by their inherent disadvantages:

- the presence of a chemical coolant reduces the fire extinguishing efficiency of the composition due to the fact that aerosol particles settle on the coolant granules and do not participate in the flame extinguishing process;

- the presence of a metal mesh and ammonium oxalate granules complicates the design; pressing the granules requires additional equipment and special tooling, which increases the labor intensity and cost of the product as a whole.

The technical problem that the present invention is aimed at solving is to increase fire extinguishing efficiency while improving processability indicators.

The required technical result is achieved by the fact that the automatic fire extinguishing means, equipped with an external ignition means in the form of a fuse cord, contains a sleeve with a plastic tray, in which an aerosol-forming charge covered with heat-resistant enamel, two asbestos gaskets and a stop tube are monolithically connected.

The peculiarity of the proposed technical solution is that one asbestos gasket is fixed on the end of the aerosol-forming charge, the height of which is no more than 1/2 the height of the sleeve, and the second asbestos gasket performs the function of a damper, onto which the sleeve is rolled, while one end of the fuse cord communicates with the open part of the aerosol-forming projectile, and the second is brought out through an opening in a plastic tray, the area of which is from 0.6 to 0.8 of the area of the end surface of the aerosol-forming charge, while the free volume between the opening in the plastic tray and the fuse cord is filled with silicone sealant.

The presence of asbestos gaskets prevents the spread of flame from the combustion of the aerosol-forming charge beyond the cartridge case, so the proposed automatic fire extinguishing device is not in itself a potential source of ignition.

The free space between the fuse cord and the hole in the tray is filled with silicone sealant, so the aerosol-forming charge is reliably protected from atmospheric moisture, which allows the proposed product to be used in cabinets with electrical equipment installed in unheated rooms or outdoors.

The automatic fire extinguishing device is made in the form of a 12-gauge plastic sleeve, which ensures a high level of technological efficiency, since this sleeve is manufactured on serial equipment, and its crimping is performed using standard equipment.

The height of the aerosol-forming charge, which is no more than 1/2 the height of the cartridge, provides a fire-extinguishing concentration for extinguishing flames in volumes from 0.2 to 0.5 ^m3 . When the charge height is more than 1/2 the height of the cartridge, the burning time increases, as a result of which the cartridge body burns through.

The design of the proposed means does not contain chemical coolant granules, but there is no flame combustion during its operation. This is ensured by the fact that the area of the hole in the plastic tray, which in its functional purpose is a nozzle for the outlet of the fire-extinguishing aerosol, is from 0.6 to 0.8 of the area of the end surface of the aerosol-forming charge.

When the area ratio is less than 0.6, the internal pressure in the cartridge increases, which leads to unstable combustion of the aerosol-forming charge and the likelihood of dismantling the product.

When the area ratio is greater than 0.8, sparks and flames appear during aerosol formation.

The absence of chemical coolant granules in the design significantly increases fire extinguishing efficiency compared to the prototype due to the fact that all useful aerosol enters the combustion zone without settling on coolant particles.

In addition, this significantly increases manufacturability and reduces the cost of the product.

The simplicity and efficiency of the design of the declared automatic means allow for the speed and technological effectiveness of its production at fairly low costs.

The essence of the proposed technical solution is explained by the drawing (Fig. 1), which has a purely illustrative purpose and does not limit the scope of claims of the set of features of the invention formula. The drawing shows the proposed automatic fire extinguishing means.

The cartridge case with the tray (1) contains a charge (2) of an aerosol-forming composition, covered with heat-resistant organosilicon enamel (3), and also contains two asbestos gaskets (4), between which there is a support tube (5), made of cardboard.

One asbestos gasket (4) is directly adjacent to the aerosol-forming charge (2), and the second asbestos gasket (4) performs a damping function and a sleeve with a tray (1) is rolled onto it in a star shape.

Between the end surface of the aerosol-forming charge (2) and the plastic tray (6), one end of the fuse cord (7) is pressed, which is led out through an opening (the area of which is from 0.6 to 0.8 of the area of the end surface of the aerosol-forming charge) in the plastic tray (6) with the other end.

The annular space between the opening of the plastic tray (6) and the fuse cord (7) is filled with silicone sealant (8).

The automatic fire extinguishing system operates as follows.

When the critical temperature is reached in the protected volume, the fuse cord (7) ignites.

The fire impulse from the fuse (7) ignites the aerosol-forming charge (2), creating an aerosol stream that passes through the hole in the plastic tray (6) into the protected volume.

The resulting aerosol, when filling the volume, creates the necessary fire-extinguishing concentration of combustion inhibitors.

A comparison of the proposed technical solution with the closest analogues of the state of the art did not reveal an identical match of the set of essential features of the invention.

The proposed differences in the automatic fire extinguishing system are not obvious to a fire safety specialist and do not directly follow from the formulation of the technical problem.

The production of a set of structural elements of the proposed automatic fire extinguishing means in their interconnection in a single device can be carried out in the existing production of pyrotechnic products.

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

Claims (1)

An automatic fire extinguishing device equipped with an external ignition means in the form of a fuse cord, containing a sleeve with a tray, in which an aerosol-forming charge covered with heat-resistant enamel, two asbestos gaskets and a stop tube are structurally connected, characterized in that one asbestos gasket is fixed on the end of the aerosol-forming charge, the height of which is _no more than ^1/2 the height of the sleeve, and the second asbestos gasket performs the function of a damper, onto which the sleeve is rolled, and the stop tube is placed between two asbestos gaskets, wherein one end of the fuse cord communicates with the open part of the aerosol-forming charge, and the second is brought out through an opening in the tray, the area of which is from 0.6 to 0.8 of the area of the end surface of the aerosol-forming charge, wherein the free volume between the opening in the tray and the fuse cord is filled with silicone sealant.