RU2159647C1 - Generator of fire-extinguishing aerosol - Google Patents

Abstract

FIELD: fire- fighting equipment. SUBSTANCE: generator body consists of two half- bodies located opposite to each other and secured to form annular gap between them. Located inside body is solid-propellant aerosol-forming charge and ignition unit. Installed at outlet of annular gap is device for catching high-temperature slag in outflow of fire-extinguishing aerosol from regenerator. Device presents separable case toroidal in shape and made of fireproof material. Case together with generator form airtight cavity accommodating branch pipes perpendicular to oncoming aerosol and passing through lower part of case. Upper holes of branch pipes are located above annular gap and lower holes lead aerosol from case cavity outside. Said features provide for prevention of slag throwing out during generator operation. EFFECT: higher efficiency. 2 cl, 2 dwg

Description

 The invention relates to fire fighting equipment, namely to aerosol means for volumetric fire extinguishing in industrial, domestic and other enclosed spaces.

 Known devices for aerosol volumetric fire extinguishing (fire extinguishing aerosol generators), including a solid fuel or pyrotechnic aerosol forming charge, an ignition (initiation) assembly and a housing with an output device in the form of an annular gap for aerosol outflow in radial directions in a plane perpendicular to the generator axis (for example, according to patents RF N 2087169, CL A 62 C 13/00 and N 2085236, CL A 62 C 19/00, 1997). Such devices provide a fairly quick and uniform filling of a protected volume with a fire extinguishing aerosol.

 As a prototype of the claimed device according to the patent of the Russian Federation N 2071194, class. A 62 C 31/00, 1996. This device includes a housing made of two parts (half-shells), an aerosol-forming charge, and an ignition unit. The aerosol during operation of the generator exits through an annular gap formed by semi-bodies bonded together. During the combustion of most aerosol extinguishing compositions used in aerosol volumetric fire extinguishing devices, incandescent slag is formed, which in the form of splashes can fly out of the annular gap together with the aerosol. The scope of such generators is limited. They cannot be installed above and near combustible and fusible materials. In emergency situations, for example, during unauthorized operation, these generators themselves can become a source of fire. At the same time, there is a high probability of damage to non-heat-resistant materials in the protected room.

 The objective of the invention is to eliminate the emission of slag during operation of the generator.

 The problem is solved due to the fact that in the well-known fire extinguishing aerosol generator, including a housing consisting of two oppositionally located half-bodies, fastened with the formation of an annular gap between them, an aerosol-forming charge and an ignition unit, there is an additional device, which is a detachable toroidal casing made of heat-resistant material located at the outlet of the annular gap, and together with the generator forming an airtight cavity inside which is perpendicular to the oncoming The nozzles passing through the lower part of the casing are installed in the aerosol flow, the upper holes of the nozzles being above the annular gap, and the lower holes leading the aerosol out of the cavity of the casing.

 In addition, together the nozzles in the upper detachable part of the casing may have openings located above the annular gap, and to form the direction of the outgoing aerosol above the casing there is an annular screen made of heat-resistant material.

 The design of the proposed fire extinguishing aerosol generator is shown in FIG. 1 and 2. The generator includes a housing 1, consisting of two opposed half-shells with flanges, fastened to each other using inserts 2 with the formation of an annular gap between the flanges, an aerosol forming charge 3, an electric igniter 4, or a heat igniter 5. For trapping slag during aerosol outflow from the outside generator at the exit of the annular gap installed device of heat-resistant material, consisting of a casing 6 and nozzles 7 (Fig. 1). The casing is in the form of a split torus and, together with the generator, forms an airtight cavity.

 The nozzles designed to exit the aerosol outward are mounted on the lower detachable part of the casing. The upper edge of the nozzles is located above the annular gap to prevent direct ingress of slag.

 In FIG. 2 instead of nozzles for aerosol exit, in the upper detachable part of the casing 5 there are openings 7 located above the annular gap. To form the direction of the exit aerosol above the casing is an annular screen 8 of heat-resistant material.

 The generator operates as follows. When an electric starting pulse is supplied to the generator from a fire detection system or a heat signal, an igniter 4 or 5, respectively, ignites an aerosol forming charge 3 with the formation of a fire extinguishing aerosol. The molten slag flowing down the combustion surface of the aerosol-forming charge is crushed by the oncoming aerosol stream and ejected in the form of droplets from the annular gap into the casing 6. The dimensions of the casing are chosen so that when an aerosol enters the casing, it will reduce its outflow rate to such a level that the aspiration effect the aerosol disappears, and the slag falls to the bottom of the casing. Through the outlet nozzles 7 (Fig. 1) or holes 7 in the casing 6 (Fig. 2), the aerosol is ejected outward.

 In natural tests for aerosol-forming compositions with an excess coefficient of oxidizing agent close to 1.0, it was possible to achieve a mode of operation with the absence of a flame zone and slag spray at the outlet of the device.

Claims (2)

 1. The generator of a fire extinguishing aerosol, comprising a housing consisting of two oppositionally located half-bodies, fastened with the formation of an annular gap between them, an aerosol-forming charge and an ignition unit, characterized in that the generator further comprises a detachable toroidal casing made of heat-resistant material located at the exit of the annular gap, and together with the generator forming a sealed cavity, inside of which perpendicular to the incoming flow of aerosol installed nozzles passing through the lower part of the casing, and the upper holes of the nozzles are above the annular gap, and the lower holes lead the aerosol from the cavity of the casing to the outside.  2. The fire extinguishing aerosol generator according to claim 1, characterized in that in the upper detachable part of the casing there are holes located above the annular gap, and to form the direction of the exit aerosol above the casing there is an annular screen of heat-resistant material.

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