RU2164808C2 - Device for space aerosol fire extinguishing - Google Patents

Abstract

FIELD: fire-extinguishing equipment, particularly, devices generating gas-aerosol fire inhibitors formed in burning of pyrotechnical composition and purposefully directed to protected space. SUBSTANCE: device has initiating unit, block of pyrotechnical composition installed with clearance in metal body provided with holes for communication with case circular channel closed with cover with discharge holes, heat exchanger and receiver. Novelty consists in that heat exchanger is made in the form of perforated shell external relative to body and fastened coaxially to pyrotechnical composition block in case through layer of gypsum plaster which is also filled into clearance between pyrotechnical composition block and body and combined with receiver, and communication holes on its side surface. Claimed device is more universal in use as it may be used additionally for manual fire extinguishing. EFFECT: higher functional reliability of device and efficiency of generating of fire inhibitors and increased efficiency of cooling of products of gas-aerosol fire-extinguishing mixture inside device. 2 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 in a guided manner in a protected volume. Generators are designed for use in both autonomous and automatic fire extinguishing systems, and can be used for stationary installation and for manual fire extinguishing.

 The prior art characterizes a device for volumetric fire extinguishing, selected by the number of matching features and technical essence as the closest analogue, which is described in RF patent N 2096055, A 62 C 13/22, publ. 11/20/97 in bull. N 32. This device contains an initiation unit, a piece of pyrotechnic composition, installed with a gap in a metal case, equipped with communication holes for communication with a reversible annular channel of the casing, closed with a cover with outlet holes, a slotted heat exchanger and a receiver.

A change in the flow direction of the combustion products of the pyrotechnic checker by 180 ^° in the reversible annular channel ensures their additional cooling, and the main heat is removed in a spiral slit heat exchanger from a material with a melting point above the temperature of the combustion products.

 Placing a spiral heat exchanger between the checker and the receiver ensured flameless smoke formation without sparks and efficient dispersion of the flow of combustion products for the unhindered passage of combustion inhibitors, without slagging.

 However, the disadvantages of the known device are as follows.

 The low performance of the extinguishing gas-aerosol mixture due to the relatively small mass of the checkers, since the longitudinal structural diagram of the relative positioning of the functional elements determines the large linear dimensions of the device and, therefore, unsatisfactory mechanical strength. At the same time, it is irrational to equip the device with a small ratio of the mass of the checkers to the mass of the generator as a whole, i.e. low filling ratio (efficiency).

 The cooling of the products of combustion of the pyrotechnic checker is not sufficient 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 gas-aerosol stream of the annular reversal channel, again heating its products again.

 The use of the known device is limited only to stationary due to the high temperature of the casing, heated by direct interaction with the hot products of the current stream, and there may be cases of burns through which the quenching mixture flows radially.

 In addition, the presence in the pyrotechnic composition of the checker up to 7 wt.% Cooler (potassium or sodium bicarbonate, or ammonium oxolate) reduces the fire extinguishing efficiency of the device and destabilizes the combustion process.

 The problem to which the present invention is directed is to increase the functional reliability and efficiency of the main action of the aerosol generator.

 The required technical result is achieved in that in the known device for volumetric aerosol fire extinguishing, containing an initiation unit, a pyrotechnic composition checker installed with a gap in a metal case equipped with communication openings for communication with a reversible annular channel of the casing, closed with a lid with outlet openings, a heat exchanger and a combined with a receiver casing, the heat exchanger includes a perforated shell external to the metal casing, reinforced coaxially with shke pyrotechnic composition in the casing through the plaster layer, which is also filled into a gap between the saber pyrotechnic composition and the metal shell, and communication holes formed in the side surface of the metallic housing.

 The proposed technical solution has a design unity and is a stable combination of form and function, i.e. essential features and their new relationship, which ensure the achievement of the novelty of quality, namely the technical effect that is not inherent in the signs of their disunity.

 Relative signs provided an increase in the fire extinguishing ability of the device, a larger volume of the protected room, because the mass of the pyrotechnic checker generating the gas-aerosol mixture increased by a factor of the same overall generator.

 The cooling of the combustion products of the checker is carried out better than in the prototype, since the heat exchange takes place actively with the absorption of its part to evaporate the bound and accumulated gypsum water, which is jet mixed in the form of steam with the quenching stream along the entire length across the annular reversal channel, reducing the temperature and diluting the mixture Being an additional environmentally friendly combustion inhibitor. Moreover, the same effect also occurs from the side of the body, which, in addition to supporting functions, additionally performs the functions of a heat exchanger.

 The combination of the casing with the axial receiver simplifies the design, provides uniform end burning of the checkers and almost constant flow of the extinguishing mixture during the operation of the generator.

 The coaxial installation of the heat exchanger relative to the checker ensures the compactness of the device and increase its mechanical strength.

Placing a layer of building gypsum between the casing and the perforated shell of the heat exchanger provides thermal insulation to the casing from the inside, which does not heat above 40 ^o C, which allows you to hold it with your hands, therefore, purposefully extinguish the fire.

 The use of two gypsum layers on both sides of the annular outlet channel as an active cooler allowed the pyrotechnic composition of the checker to be more productive, excluding the cooler from its composition, which increases the combustion stability of the smoke-forming composition and the fire fighting efficiency.

 The patent search and comparative analysis with the nearest analogue revealed the conclusion that the proposed technical solution meets the patentability criteria, because it is not known from the available sources of information of the prior art, which obviously does not follow for a firefighter, and may be industrially reproduced in series according to the developed technical documentation.

The invention is illustrated in the drawing, which shows
in FIG. 1 - schematically the proposed device;
in FIG. 2 is a plan view of FIG. 1.

Pyrotechnic checker 1, containing components in a stoichiometric ratio, wt.%: Oxidizing agent - potassium nitrate (70), combustible binder - iditol (11) and aerosol of the forming agent - dicyandiamide (19), is placed inside a perforated cylindrical body 2, to which is attached by a layer 3 of gypsum. Coaxially to the checker 1 in the housing 2, a receiver 4 is made, which communicates with the reversible annular channel 5, designed to rotate the gas-aerosol combustion products of the checker 1 by 180 ^o .

 On the outside, the reversible annular channel 5 is bounded by a perforated shell 6 of material with a melting temperature exceeding the temperature of the combustion products, which acts as a heat exchanger.

 The shell 6 is connected with the outer casing 7 by means of a layer 8 of gypsum, filling the gap between them. The casing 7 from the end is closed by a cover 9, equipped with outlet openings 10 distributed around the perimeter.

 From the side of the receiver 4 at the end of the checker 1 in the casing 7, the initiation unit 11 is strengthened.

 The device operates as follows. The heat pulse from the initiation unit 11, which is triggered by a pulse from the fire alarm system, when the temperature threshold is exceeded, or manually burn the checker 1. When burning the pyrotechnic composition of the checker 1, a gas-aerosol mixture is formed, which includes both gaseous compounds and highly dispersed condensed particles, which, as a result large specific surface areas are effective combustion inhibitors.

In the volume of the receiver 4, the combustion products of the composition of the checker 1 accumulate, mix with pressure equalization and expire through the perforations into the reversible annular channel 5, where their flow in the form of a gas-aerosol mixture is rotated 180 ^° to the outlet openings 10 of the cover 9.

 Hot products of the gas-aerosol mixture heat the metal shell 6 and the housing 2, losing heat while also evaporating water from the structure and pores of the gypsum layers 3 and 8.

 The heated shells 6 and 2 radiate convectively heat toward the less heated interlayers 3, 8 into the gypsum, where water is evaporated through the perforations of the shells 2, 6 in the form of transverse distributed jets into the reversible annular channel 5. This endothermic process actively reduces the temperature of gas aerosol products flow throughout the annular channel 5, and water vapor in the form of a two-way sprayer mixes the mixture, diluting the gas-aerosol products of combustion of the checkers 1 and cooling them.

Gypsum is a material with poor thermal conductivity, therefore, heat is practically not transferred to the casing 7 and during the operation of the device for 1.5 minutes its temperature does not rise above 40 ^o C, which allows you to use the generator manually, purposefully control the extinguishing flow.

Gas-aerosol products transported by overpressure through the reversible annular channel 5 are jet-discharged through the outlet openings 10 distributed in the cover 9 into the protected volume, where they are additionally mixed with each other and the "sprayed" ambient air, which additionally cools the generated products and forms a fire extinguishing stream. The temperature at a distance of 0.5 m from the cover 9 of the device does not exceed 100 ^o C.

 When a gas-aerosol mixture is introduced into the combustion zone, the chain mechanism of reproduction of active radicals breaks off, as a result of which the fire is suppressed.

 The proposed design of a device that generates a gas-aerosol mixture is compact, efficient and versatile, reliable in operation with guaranteed functioning of structural elements.

 The high efficiency of reducing the temperature of the extinguishing mixture inside the device ensures fire safety and the integrity of the protected premises, appliances, equipment.

 Excellent thermal insulation of the outer casing of the device allows you to use it to extinguish a fire manually, where possible and appropriate. The device is intended for installation in industrial, office and residential premises, energy facilities, on vehicles.

 Bench and full-scale comparative tests on the basis of the All-Russian Research Institute of Software of prototypes according to the invention and well-known analogues have shown great efficiency and fire extinguishing speed with the proposed devices.

Claims (1)

 A device for volumetric aerosol fire extinguishing, comprising an initiation unit, a pyrotechnic checker mounted with a gap in a metal case, equipped with communication communication holes with a reversible annular channel of the casing, closed with a cover with outlet openings, a heat exchanger and a receiver combined with the casing, characterized in that the heat exchanger includes an external relative to the metal casing perforated shell, reinforced coaxially to the piece of the pyrotechnic composition in the casing through a layer of gypsum, which is also poured into the gap between the piece of the pyrotechnic composition and the metal case, and communication holes are made on the side surface of the metal case.

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