RU2205671C1 - Fire-extinguishing aerosol generator - Google Patents

Abstract

FIELD: fire-fighting equipment. SUBSTANCE: aerosol generator has pyrotechnic blasting cartridges axially located inside casing through construction gypsum layer, cooling unit of ablation material granules, igniter mounted in said unit, communicated with combustion chamber and electrically connected to remote control device, convex closure with distributing radial discharge openings, and perforated receiver positioned between cooling unit and discharge openings in closure. Aluminum membrane is fixed on casing open end. Igniter is disposed in central fire spreading tube of cooling unit and connected to remote control device through closed commutator. Radial discharge openings are closed with bandage of aluminum foil. Said generator provides generation of fire-extinguishing aerosol sprayed into volume to be protected from fire in sea and river vessels. EFFECT: enhanced reliability in operation, prolonged storage life under increased atmospheric humidity conditions, and wider operational capabilities. 1 dwg

Description

 The invention relates to the field of fire extinguishing, and in particular to devices generating gas-aerosol combustion inhibitors when using the pyrotechnic composition of burning checkers, jet-emitted into a protected volume.

 The level of this technical field characterizes the device for volumetric aerosol fire extinguishing according to patent RU 2164808 C2, A 62 C 13/22, 2001, which contains an initiation unit (igniter), a piece of pyrotechnic composition, installed through a layer of building gypsum and a metal case closed with a lid with outlets, heat exchanger and receiver.

 This device is equipped with an additional annular reversal channel, which is formed by an external perforated metal shell of the heat exchanger, reinforced coaxially to the checker in the casing through a layer of gypsum, which provides high functional reliability during efficient cooling of the gas-aerosol extinguishing mixture inside the device due to convective heat transfer and mass transfer and expands technological capabilities of its use as a manual extinguishing agent Ożarów.

The disadvantages of the described generating device include:
- increased dimensions, which are due to the coaxial structural layout of the functional elements;
- the ballast mass of gypsum on the bottom of the hull, necessary for its thermal protection from direct flows of hot combustion products of the pyrotechnic composition of the checkers, which accumulate and reverse, heading to the ring heat exchanger, to the outlet openings;
- autonomous manual start of the igniter, which excludes the control of the initiation of the generation of aerosol of combustion inhibitors that suppress the fire in a protected volume, from the central alarm control panel.

 These shortcomings were eliminated in the extinguishing gas-aerosol mixture generator described in patent RU 2136338 C1, A 62 C 13/22, 1999, which was selected as the closest analogue in terms of the number of matching essential features and the achieved technical result of the main action.

 The known generator comprises a pyrotechnic checker placed axially in the housing through a layer of building gypsum, a cooling unit made of granules of ablative material, in which an igniter is connected, connected electrically to the combustion chamber, electrically connected to the remote control device, and a convex cover with distributed radial outlet openings, between the block cooling and outlet openings of the lid in the housing formed a perforated receiver.

 The known generator is characterized by high efficiency of fire extinguishing with respect to a larger mass of aerosol-generating checkers placed in smaller dimensions of the device of increased structural rigidity, and heat resistance of the carrier layer of the body.

 The metal case additionally serves as a heat accumulator for effective evaporation of water associated with gypsum from the functional layer, which in the form of steam is actively mixed with the generated gas-aerosol combustion products of the drafts, thereby lowering their temperature and increasing the inhibitory effect of the quenching mixture.

 The distribution in the lid of the radial outlet openings provides a dynamic, evenly distributed volume of the extinguishing mixture.

 To ensure optimal conditions for the ignition of the bomb, the igniter is placed in focus relative to its end and is fixed at the central fire transfer sleeve, the channel of which forms a compact directional force of the flame, guaranteed to ignite the pyrotechnic composition over the entire combustion surface of the aerosol-forming charge.

 The remote control of igniter initiation makes it possible to increase the fire extinguishing efficiency of large-volume premises with the simultaneous operation of parallel-connected generators distributed in flammable areas.

 However, the disadvantage of the known generator is the unsatisfactory functional reliability during operation under storage at high atmospheric humidity, in particular on ships (river and sea) due to the insensitivity to the standard heat pulse of the igniter of the damp pyrotechnic composition of the checker.

 Atmospheric moisture penetrates into the generator through the outlet openings of the lid and is fed into the combustion chamber through the capillaries of the bulk ablation material of the cooling unit, where it is condensed and absorbed by the lyophilic pyrotechnic composition of the checkerboard.

 As practice has shown, a readily combustible polymer film material for packing a checker, the surface of which remains accessible for the igniter fire pulse, is permeable to atmospheric moisture, that is, there is an antagonistic contradiction between the moisture insulation that is open for reliable ignition of the combustion surface of the checker.

 When protecting one volume with several generators for effective fire extinguishing, their simultaneous start from the central control panel of the ship’s control cabin is necessary, with the igniter launch line being blocked from unauthorized operation, which is not provided for in the known design.

 The problem to which the present invention is directed, is to increase the functional reliability and expand the technological capabilities of the operation of the extinguishing aerosol generator on water vessels.

 The required technical result is achieved by the fact that the fire extinguishing aerosol generator, containing a pyrotechnic checker placed axially in the body through the layer of building gypsum, a cooling unit made of granules of ablative material, in which the igniter connected to the remote control device is fixed, and a convex a cover with distributed outlet radial openings, and a perforated res formed in the housing above the cooling unit Ver, and according to the invention in that the receiver is above the perforations is covered with aluminum membrane situated over the igniter, and geometrically closed on the housing along the contour of the lid, the outlet openings of which are closed shroud made of aluminum foil, wherein the igniter is connected with a remote control unit through the closed switch.

 Installation under the cover with outlet openings, above the perforations of the receiver, an aluminum membrane geometrically closed along the contour between the mating open end face of the case and the cover, and a bandage on the radial outlet openings of the cover made of aluminum foil ensure the tightness of the internal volume of the generator, and most importantly, the pyrotechnic checker under prolonged conditions service storage at high atmospheric humidity.

 The choice of membrane material and bandage is determined by the fact that aluminum and its alloys, having a natural oxide protective film on the surface and with a minimum structural thickness of their plates, are moisture-proof, providing the main indicators of purpose during service storage of generators, in particular, in terms of sensitivity to a triggering pulse .

 In addition, the aluminum membrane and bandage are technologically advanced in ductility for backlash-free assembly in the connections of the generator elements, acting as a seal between the bonded cover and the body.

 The aluminum foil of the membrane burns out almost instantly when interacting with the gaseous products of combustion of the pyrotechnic composition, increasing the overall energy of the extinguishing mixture generated at the same time, which stabilizes the transient processes of the onset of burning the checkers in a closed volume of the extinguisher body.

 The closed switch of the remote start control device prevents accidental ignition of the generator igniter.

 The connection of the remote control device with the igniter via a closed switch prevents the unauthorized start of the latter and extends the technological capabilities of fire fighting during the joint operation of several generators from a common start pulse, as well as when they are autonomous or sequential, depending on the nature, volume and location of the fires in the protected room, the mode of which is established by the operational team from the control cabin of the vessel.

 Therefore, each essential feature is necessary, and their combination in a stable relationship is sufficient to achieve a novelty of quality that is not inherent in the characteristics of disunity, that is, not the sum of the effects is obtained, but the sum effect.

 Distinctive features provided the fire extinguishing aerosol generator with an increase in functional reliability during prolonged storage in high humidity conditions and enhanced operational capabilities with centralized launch control from the control cabin of the ship, which increases the fire safety of the protected objects and the mobility of suppressing the emerging fire sources with targeted and dosed actions.

 The invention is illustrated in the drawing, which schematically depicts the proposed generator extinguishing aerosol.

 The following is a practical example of the implementation of the generator, which does not limit the scope of the rights of the formula, but merely illustrates the implementation of the invention.

The overall dimensions of the generator to protect the enclosed volume of 21 m ³ are 167 mm in diameter and 180 mm in height, with an aerosol-forming mass of 1.6 kg. The effective time of the generator is 40 + 6 s.

 In a cylindrical body 1, made with a double shell, the gap between which is a layer 2 of fast-setting and hardening in the air binder material, which forms a monolithic bearing block, and more specifically, is filled with building gypsum - potassium sulfate.

 In the bottom of the housing 1, a pyrotechnic checker 3 is strengthened, containing components in a stoichiometric ratio, wt.%: Oxidizing agent - potassium nitrate 70, combustible binder - iditol 11 and coolant - dicyandiamide 19.

 Through a structural gap - a combustion chamber 4, a gas-permeable cooling unit 5 is mounted in the housing 1, the annular volume of which is filled with bulk granulate 6 of ablative material - sodium bicarbonate, basic granular magnesium carbonate, with a diameter of 8 mm.

 A central fire transfer tube 7 is installed along the longitudinal axis of the cooling unit 5, in the upper part of which an igniter 8 is mounted, electrically connected to a switch 9 placed in a closed cabinet 10 and connected to a remote control device (not shown conditionally in the drawing), in particular, on a remote control control cabin of the vessel.

 Above the cooling unit 5 in the housing 1, a receiver 11 is formed, which, through perforations 12 of its inner shell, communicates with the functional layer 2 of gypsum.

 Between the open end of the housing 1 and the convex cover 13 is placed an aluminum membrane 14 (a plate 0.1-0.5 mm thick of aluminum alloy), trapped along the contour in the geometric circuit of the power assembly of the elements. The membrane 14 is placed above the igniter 8 and overlaps the receiver 11 above the perforations 12, thereby isolating the internal volume of the generator from the atmosphere.

 Through the lid 13 are distributed through radial outlet openings 15, in official circulation closed outside with a bandage 16 of aluminum foil glued to the lid 13, further blocking access to the inside of the generator.

 The proposed generator operates as a fire extinguisher as follows.

 Generators should be installed in the lower part of the protected room to ensure the fastest and most uniform filling of the volume with a fire extinguishing aerosol.

 When using several generators to protect one volume, it is necessary to ensure their simultaneous operation from a common start pulse from a remote control device.

 When extinguishing fires, it is necessary to turn off ventilation in the protected room when the generators start up in order to reduce aerosol discharge through open openings (doors, hatches, windows, vents).

 When the fire automatics system is activated from exceeding the threshold of the permissible air temperature in the protected enclosed space, an alarm signal is transmitted to the central control panel of the vessel, according to which the responsible duty officer switches the switch 9 to initiate the igniter 8.

 The igniter 8 in General service circulation can be triggered by a fire alarm directly or manually independently, which expands the scope of its application.

 The heat pulse from the igniter 8 with a force of flame concentrated in the fire tube 7 ignites the pyrotechnic composition of the checker 3. Aerosol combustion inhibitors formed in the form of gaseous compounds and ultrafine condensed particles with a developed energy surface, which are formed during the combustion of the checkers 3, accumulate in the combustion chamber 4 and increase the pressure under the action which through the capillary pores between the granules 6 of the ablative material of the cooling unit 5 enter the receiver 11.

 In this case, the inner metal shell of the housing 1 is heated and convective heat evaporates the water associated with potassium sulfate of the gypsum layer 2, which through the perforation 12 in the form of steam is supplied by transverse jets to the receiver 11, where, actively mixing, cools the aerosol.

 In the receiver 11 there is an accumulation of gaseous products of combustion of the checkers 3, their cooling with stirring with water vapor, equalization of pressure pulsations and, as a result, rupture of the membrane 14.

 Aluminum membrane 14 is a high-energy additive during its ignition and combustion to increase the pressure in the receiver 11 after the exposure time from the moment of accumulation of the gas-aerosol mixture in it. Additional energy from the burning of aluminum membrane 14 contributes to a more intense burning out of the pyrotechnic composition of the pieces 3 in the initial period of operation of the generator, which stabilizes the transition gas-dynamic processes in it.

 Next, the generated extinguishing mixture fills the volume under the lid 13, causing an increase in pressure and subsequent breakthrough of the bandage foil 16 that covers the outlet openings 15. The extinguishing mixture by jet radial high-speed flows through the outlet openings 15 flows into the protected volume, dynamically filling it.

When a gas-aerosol mixture is introduced into the fire zone, the chain mechanism of the formation of active radicals breaks off due to their recombination, as well as due to their retention on the aerosol surface, each particle of which acts as a condenser of energy released during the recombination of active radicals, which ensures suppression of the fire when the required concentration of 75-100 g / m ³ of combustion inhibitors.

Gypsum interlayer 2, having poor thermal conductivity, protects the housing 1 from heating, the temperature of which during operation does not rise above 45 ^o C.

 Due to the fact that the checker 3 has end combustion, the thickness of the gypsum layer 2 on the bottom of the housing 1 is minimal, due to the structural rigidity of the generator as a whole.

 Tests of the prototypes of the proposed generator at the VNIIPO MVD training ground in the mode of localization and extinguishing fires in closed volumes of solid and liquid combustible substances, as well as electrical equipment under voltage up to 40 kV, confirmed compliance with the requirements of the international standard YSD / CD21 / SC2 and 146E for classes A, B, C and E "Fire Fighting. Portable Fire Extinguishers. Operation and Design".

The generator showed stable operation at an ambient temperature of 60 ^o C and 98% relative humidity at 25 ^o C, which is guaranteed for 5 years of service storage.

 The new generator is characterized by increased structural strength and functional reliability, is compact and has a wider area of use.

In the structure of the ship’s fire extinguishing system, the proposed generator operates satisfactorily under regulatory mechanical stresses, which meets the requirements of the Russian Maritime Register of Shipping:
- side rolling up to 22.5 ^o ,
- keel pitch up to 10 ^o vertically,
- trim up to 30 ^o ,
- strokes with an acceleration of 5g and a frequency of 40-80 beats per minute,
- vibration in the frequency range from 2 to 100 Hz.

 Generators in the factory packaging can be transported by all types of vehicles without distance limitations, satisfying climatic conditions in accordance with GOST 15150-69 and mechanical loads in accordance with GOST 23216-87.

 According to a comparative analysis with identified analogues of the prior art, from which the proposed technical solution does not explicitly follow for a fire safety specialist, the generator according to the invention is not known, and taking into account the possibility of industrial reproduction, it can be concluded that the patentability criteria are met.

Claims (1)

 A fire extinguishing aerosol generator, comprising a pyrotechnic checker placed axially in the body through a layer of building gypsum, a cooling unit and granules of ablative material, in which a igniter connected to the remote control device is fixed to the central fire transfer tube, a convex lid with distributed radial outlet openings and formed in the case above the cooling unit, a perforated receiver, characterized in that the receiver is higher than the perforations ryt aluminum membrane situated over the igniter, and geometrically closed on the housing along the contour of the lid, the outlet openings of which are closed shroud made of aluminum foil, wherein the igniter is connected with a remote control unit through the closed switch.