RU2206353C1 - Apparatus for volumetric fire extinguishing with the use of aerosol extinguisher - Google Patents

Abstract

FIELD: fire-fighting equipment. SUBSTANCE: apparatus has initiating unit made in the form of electric and thermochemical starting initiators, which are mounted on surface of aerosol-generating charge cartridge in the vicinity of receiver. Discharge openings are arranged on cylindrical housing near its metal cover and/or on it. Ratio of area of charge burning surface and total area of discharge openings is 10-100. EFFECT: improved quality of aerosol flow and convenient application for different objects. 2 cl, 1 dwg

Description

 The invention relates to the field of fire extinguishing, in particular to devices generating gas-aerosol combustion inhibitors generated by the combustion of a pyrotechnic composition and organized in a guarded volume.

 A device for volumetric aerosol fire extinguishing comprising an initiation unit, a pyrotechnic bomb mounted with a gap in a metal casing, equipped with communication communication holes with a reversible annular casing channel, closed with a cover with inlet openings, a slotted heat exchanger and receiver (see US Pat. RF 2096055, class A 62 C 13/22, published on November 20, 1997 in BI 32).

 However, the known device has a relatively low mass-dimensional characteristics due to the relatively small ratio of the mass of the pieces to the total mass of the product.

 By technical nature, the closest to the proposed invention is a device for volumetric aerosol fire extinguishing (RF patent 2164808, class A 62 C 13/22, publ. 10.04.2001), containing the initiation unit, the charge of the aerosol forming composition, installed with a gap filled with a binder substance in a perforated metal case in the form of a glass in such a way that at the open end of the glass in a free space a receiver is formed, connected through communication holes with a reversible annular channel between perforated a metal body and a perforated metal shell mounted with a gap filled with a binder in a cylindrical metal casing closed by a metal cover, under which there is a chamber having outlet openings into which the reversible annular channel is open.

 However, in the known device for igniting the AOS charge, it is necessary to use an intermediate charge of a different chemical composition, which leads to the appearance in the initial period of time of components in the combustion product that are not inherent in the generated aerosol.

 In addition, the known device does not solve the problem of optimizing the ratio of the surface area of the combustion charge and the total area of the outlet openings, which does not allow using the effect of the transfer of thermal energy into kinetic to reduce the temperature of the aerosol stream.

 Placing all outlet openings on the lid limits the ability to place the device indoors.

 The technical result is to improve the quality of the aerosol stream by eliminating from it at the initial stage of operation of chemical compounds that are not inherent in the generated aerosol, and ease of use for various objects.

 This is achieved by the fact that the device for volumetric aerosol fire extinguishing contains an initiation unit, a charge of the aerosol forming composition, installed with a gap filled with a binder, in a perforated metal case in the form of a glass so that at the open end of the glass in the free space a receiver is connected through communication holes with a reversible annular channel between the perforated metal casing and the perforated metal shell mounted with a gap filled with a binder, in a cylindrical metal casing, closed by a metal cover, under which there is a chamber having outlet openings, in which a reversible annular channel is open, according to the invention, the initiation unit is implemented in the form of electric and thermochemical launch initiators mounted on the charge surface of an aerosol-forming composition with the sides of the receiver, the outlet openings are located on a cylindrical metal casing near its metal cover and / or on the metal a batch, and the ratio of the combustion surface area of the charge of the aerosol forming composition to the total area of the outlet openings is in the range of 10-100, in addition, mixtures of inorganic crystalline hydrates are used as a binder.

 The essence of the invention lies in the fact that the implementation of the device as described above allows for high quality aerosol flow, using the effect of the transfer of thermal energy into kinetic to reduce the temperature of the aerosol stream. In addition, the design of the proposed device expands the possibilities of placing it indoors.

 Comparison of the proposed device with the prototype allows us to claim compliance with the criterion of "novelty", and the absence of distinctive features in the analogs indicates compliance with the criterion of "inventive step".

 Preliminary tests confirm the possibility of wide industrial use.

 The drawing shows the design of the proposed device.

 The device contains a charge 1 of an aerosol-forming composition installed with a gap in a perforated metal case 2 having the shape of a glass, so that at the open end of the glass in the free space a receiver 3 is formed, connected through communication holes 4 with a reversible annular channel 5 between the perforated metal case 2 and a perforated metal shell 6, which is installed with a gap in the cylindrical metal casing 7. The casing 7 is closed by a metal cover 8, under which is located chamber 9 having an outlet 10, which is open reversible annular channel 5.

 In addition, the device contains an initiation unit, which is implemented in the form of electric and thermochemical start initiators 11 and 12, respectively, mounted on the surface of the charge 1 of the aerosol forming composition from the side of the receiver 3.

 Outlets 10 are located on a cylindrical metal casing 7 near its metal cover and / or on a metal cover 8.

 A design feature is that the ratio of the combustion surface area of the charge 1 of the aerosol forming composition to the total area of the exhaust openings 10 lies in the range 10-100.

 As a thermochemical start initiator 12, for example, a PM-TP type thermosensitive cord (TU 40-RF-0001-94) can be used, and a Type C resistor 2.23.0.062 as an electrical start initiator.

 The device operates as follows.

 When an electrical impulse of the given parameters is supplied, the electric initiator 11 of the start is heated to a temperature higher than the ignition temperature of the charge 1 of the AOC, and ignites it.

 In this case, the formation of chemical compounds that are not inherent in the generated aerosol does not occur.

 The gaseous products of combustion of the charge 1 AOS fill the receiver 3 and through the communication holes 4 enter the annular channel 5, flowing around the surface of the perforated metal shell 6 and the perforated metal body 2.

 As it moves through the receiver 3 and the annular channel 5, the combustion products give part of their heat to metal surfaces, which, acting as a radiator, transfer it to a binder, which is an inorganic crystalline hydrate containing a significant amount of physically bound water.

 Warming up, the binder releases physically bound water, which evaporates, turning into superheated steam entering through the perforation into the volume of the receiver 3 and the annular channel 5.

 The processes of heating the mass of the binder, the release of physically bound water, its evaporation and overheating of the formed vapor lead to an intensive decrease in the temperature of the products of combustion of the charge 1 AOS. As you move along the annular channel 5 to the outlet openings 10, the gaseous products of combustion are enriched with superheated water vapor, cool, partially condense, and crystallize.

 The diameter and number of exhaust openings 10 is chosen so that the total cross-sectional area with a certain coefficient corresponds to the area of the end surface of the charge 1 AOS.

 The ratio of the surface area of the combustion of the charge 1 AOS to the total area of the outlet openings 10 is determined experimentally, directly related to the dependence of the burning rate of the charge 1 AOS on pressure and lies in the range 10-100.

 The correct choice of the ratio of the total cross-sectional area of the exhaust openings 10 and the combustion area of the charge 1 of the AOS allows, while maintaining a stable operating mode of the generator and relatively low internal pressure, to increase the rate of flow of the aerosol stream, converting part of the thermal energy into kinetic, thereby further reducing its temperature.

 As a result, the aerosol stream leaving the outlet 10 of the generator has a relatively low temperature with high fire extinguishing ability.

 The placement of the exhaust openings 10 both on the flat surface of the lid 8 and on the cylindrical surface of the casing 7 in various combinations makes it possible to optimally organize the flow of aerosol into the protected room, accelerating the filling of the volume and simplifying the placement of the device on the enclosing and supporting elements of buildings and structures.

 In addition, radially diverging aerosol stream jets do not have a shielding effect on each other, which leads to a more intensive decrease in the temperature of the aerosol stream due to the injected room air.

 The thermochemical start initiator 12 is designed to provide a normal mode of operation of the device if, during a fire, for some reason, the generator was not started from the electric initiator 11 of the start and was overheated.

 The cord from which the thermochemical initiator 12 of the launch is made ignites at a temperature less than a charge of 1 AOS. In addition, charge 1 of the AOS is located in the central part of the generator and is protected from direct heat, while the free end of the cord is removed and fixed in the most quickly heated place of the device.

 Under the influence of the heat of fire, the cord lights up first and ignites the end surface of the AOS charge 1, ensuring uniform end combustion in the normal mode, which prevents possible destruction of the generator when the charge 1 is ignited at other points on its surface.

 Thus, the set of essential features of the proposed device allows to achieve the technical result.

Claims (2)

 1. A device for volumetric aerosol fire extinguishing, containing the initiation unit, the charge of the aerosol forming composition, installed with a gap filled with a binder, in a perforated metal case in the form of a glass so that at the open end of the glass in the free space a receiver is connected through communication holes with a reversible annular channel between the perforated metal body and the perforated metal shell mounted with a gap filled with binders substance, in a cylindrical metal casing, closed by a metal cover, under which there is a chamber having outlet openings, in which a reversible annular channel is open, characterized in that the initiation unit is implemented as electric and thermochemical launch initiators mounted on the side of the charge of the aerosol-forming composition the receiver, the outlet is located on a cylindrical metal casing near its metal cover and / or on the metal cover, and the ratio the surface area of the combustion of the charge of the aerosol forming composition to the total area of the outlet openings is in the range of 10-100.  2. The device according to claim 1, characterized in that mixtures of inorganic crystalline hydrates are used as the binder.