RU2108824C1 - Aerosol generator - Google Patents

Abstract

FIELD: volume aerosol fire extinguishing. SUBSTANCE: aerosol generator has heat-shielding body with blasting cartridges. Body is closed with cover carrying igniter and provided with ablation interlayer and outlet nozzle. Generated aerosol includes gaseous products and highly dispersed particles - burning inhibitors diluted with incombustible vapor-gas products of endothermic decomposition of ablation interlayer, all of which suppress fire seat in closed volume. A distinguishing feature of the invention is compact coaxial design arrangement of generator members that ensures successive step cooling of gas-aerosol flow inside body receiver, cooling unit cylinder and sleeve receiver which is installed inside nozzle with guaranteed clearance and embraces the body. Ablation interlayer is located in sleeve. Blasting charge is made in the form of blasting cartridges located equidistant round cooling unit. Ratio of receiver volumes are quantitatively optimized to provide for effective lowering of temperature of generated gas-aerosol mixture. EFFECT: higher efficiency. 2 cl, 3 dwg

Description

 The invention relates to the field of fire extinguishing, and in particular to devices whose action is based on the use of highly dispersed solid particles as aerosol combustion inhibitors, an aerosol generated during combustion of a pyrotechnic mixture and released into a protected volume.

 For volume aerosol fire extinguishing, generators are used that contain a pyrotechnic checker placed in a thermally protected case with an ignition tool and an outlet, which are described in the patent literature (ed. St. N 1269787, class A 62 C 13/22, 1986. application N 94003573 class .A 62 C 31/00 01. 02. 94; German patents N 2250643, 04.25.74, Great Britain N 2020971, 11.22.79. And N 2028127, CL A 62 C 35/08 1990; international application PCT / RU 92 / 00071, 10/15/92. N WO 92/17244, CL A 62 D 1/00, A 62 C 5/02). When burning the pyrotechnic composition of the checker, a gas-aerosol mixture is released, which includes both gaseous compounds and highly dispersed solid particles - effective combustion inhibitors that suppress the fire. The fire extinguishing mixture obtained by burning a pyrotechnic composition mainly contains salts of oxides of alkali and alkaline earth metals, neutral gases and is environmentally friendly.

The disadvantage of these designs is that the generated gas-aerosol mixture has a high temperature (above 1000 ^o C), which creates problems in the practical use of the generator.

 The generated aerosol effectively suppresses the fire in the protected volume, but with the direct influence of the high-temperature gas-aerosol stream on the material object it can cause its fusion, burns, warping and serve as a source of secondary ignition.

 More perfect is the device according to the patent of the Russian Federation N 2008045 C. A 62 C 3/00, 02.28.94., Which further comprises an ablation-coated cooling unit made in the form of an air-ejection nozzle or a container with a liquid in communication with the generator body. The cooling unit, which includes a cylinder installed with a gap above the outlet nozzle and lined with an ablative coating, is a jet pump that injects ambient air through the gap to actively mix inside the cylinder, which significantly reduces the temperature of the generated aerosol. At the same time, gaseous products of thermal decomposition of the ablation coating, being additional combustion inhibitors, dilute the aerosol and lower the temperature of the gas-aerosol stream ejected into the protected volume.

 A generator based on this invention of the COT-1 brand has received industrial use and application as a security fire-fighting device for volume aerosol fire extinguishing.

However, the disadvantages of the known generator include the complexity of its design, with the supply of aqueous solutions of combustion inhibitors, and increased dimensions in length, making it difficult to place the generator in the limited volumes of the instrument and engine compartments, and most importantly, the temperature of the gas-aerosol mixture is relatively high and leaves about 300 ^o C and at the outlet of the cooling unit up to 500 ... 600 ^o C, which is above the ignition temperature of organic compounds, however limits the field of use of the device complicates t hnologiyu services and applications. In addition, the gas-aerosol flow cooling mechanism is effective only with forced water supply or air ejection from a burning room. In the first case, there are problems of metered injection, atomization and reliability of automation, in the second - the inefficiency of lowering the temperature of the working mixture of the generator in the cooling unit during ejection of heated air directly from the ignition source in small enclosed volumes of control cabinets, engine compartments, and the like, of protected volumes.

 The problem to which the invention is directed is to eliminate the noted drawbacks by lowering the temperature of the generated gas-aerosol stream of combustion inhibitors at the outlet of the device and, therefore, increasing its functional reliability, expanding technological capabilities.

 The required technical result is achieved by the fact that in the known aerosol generator containing a housing, ignition means, a pyrotechnic charge, an output nozzle, an ablation layer and a cylinder of a cooling unit, according to the invention, a receiver is made between the pyrotechnic charge and the cylinder, and the body is flange-mounted on the side of the glass, in which the ablation layer is placed, rigidly connected with the cover and covering the body with a guaranteed annular gap, and the receiver volume inside the body is 1.2-1.6 times higher flushes the volume between the housing and the receiver cup, while the pyrotechnic charge is formed as a uniformly distributed along the periphery of the cylinder block cooling drafts.

 The proposed new relationships, the form of execution, and the structural elements made it possible to create a compact generator circuit with increased structural strength with more efficient cooling of the extinguishing mixture without air injection, which ensured functional reliability and expanded technological capabilities of use.

 Distinctive features provide a decrease in the temperature of the gas-aerosol extinguishing stream due to efficient mixing of the combustion products of the checker in the receiver of the housing and the cylinder of the cooling unit, as well as subsequent dilution by neutral gases of the endothermic decomposition of the material of the ablation layer in the receiver of the glass.

The relative position of the constructive system: checker - cylinder - cup - nozzle creates a labyrinth gas channel with increased hydraulic resistance to redistribute and equalize the temperature of the mixture, mix the aerosol with the vapor-gas stream and, ultimately, reduce the temperature of the working mixture. In this case, multi-stage cooling is carried out:
the generated aerosol is accumulated in the housing receiver, the pressure of the mixture is smoothed out when it is unevenly supplied from the regressively burning charge checkers;
in the cylinder of the cooling block, aerosol combustion products of the checkers are mixed and a jet stream is formed, its temperature is leveled;
in the glass receiver the aerosol is actively cooled by the endothermic decomposition products of the ablation layer, the aerosol is diluted with gaseous products.

 A relatively cold fire extinguishing mixture does not damage material objects in protected volumes when directly hit on them, which makes it possible to complete the engine compartments of vehicles and power cabinets and control aerosol volumetric fire extinguishing devices, that is, to expand the scope of use of the proposed generator.

 The annular gap of the outlet nozzle forms a cylindrical gas-aerosol stream, inside of which the air of the protected volume is ejected, actively mixed and sharply cooled, which reduces the fire fighting time.

 The ratio of the volume of the receivers of the body and the glass is accordingly optimized in the range (1.2-1.6): 1 from the condition of functional reliability and effective cooling of the generated gas-aerosol mixture.

 With a volume ratio of less than 1.2, a large hydraulic resistance arises in the labyrinth channels of the generator, which leads to a decrease in the consumption of the gas-aerosol mixture, an increase in pressure inside the generator above a safe normalized 2 atm, which can lead to structural destruction and malfunction.

 With a volume ratio of more than 1.6, the rate of the gas-aerosol stream ejected from the nozzle decreases and its cooling efficiency decreases, because the air of the protected volume is practically not ejected (not sucked) into the generated stream, as a result, the spread of combustion inhibitors in the volume of the room is slowed down and, therefore, suppression the center of fire.

Each essential feature of the invention is known per se and does not differ in novelty, but their combination and interconnection are stable and create a novelty of quality that is not inherent in the parts of their disunity. In FIG. 1 shows a generator, a section along AA in FIG. 2; in FIG. 2 - generator, top view; in FIG. 3 is a view B in FIG. 2;
The proposed generator is a supporting structure of concentrically mounted cylinders rigidly bonded to each other. Inside the thermally protected case 1, which is mounted on the lid 2 carrying the igniter 3, a cylinder 4 of the cooling unit 5 is fixed in the center, around which pyrotechnic compositions based on alkali metal perchlorates and / or nitrate are equally distributed on the periphery of the test piece 6 (in the amount of seven for the brand generator " GABAR-P2.0 "total weight 2.0 kg), glued to the bottom of the housing 1. Flange stops 7, the housing 1 is mounted on the end of the glass 8, which is rigidly connected by means of screw rods 9 (Fig. 3).

 At the bottom of the glass 8, an ablative layer 10 is placed, mainly from sodium bicarbonate (drinking soda). The lid 2 partially covers the glass 8 and with a guaranteed gap covers it, forming the outlet ring hole 11 - the nozzle of the generator. The volume of the housing 1 between the checkers 6 and the cylinder 4 of the cooling unit 5 forms an active receiver 12.

 The volume between the housing 1 and the glass 8 acts as a damping receiver 13, where the chemical reaction of the decomposition of the interlayer 10 and the entrainment of gaseous masses takes place. The volume ratio of the receivers 12 and 13 of the described brand of the generator is chosen equal to 1.3: 1.

 The generator operates as follows.

 Igniter 3 starts automatically (from the fire alarm system), manually or autonomously, triggering when the threshold of the permissible air temperature of the protected enclosed volumes is exceeded.

The heat pulse of the igniter 3 ignites the checkers 6, during combustion of which a gas-aerosol mixture is formed, which includes both gaseous compounds and highly dispersed condensed particles, which, due to high surface energy, are effective combustion inhibitors. In the receiver 12, the actively generated aerosol accumulates, and pressure fluctuations from unevenly burning checkers 6 are equalized. In the cylinder 4, the gas-aerosol mixture is mixed and cooled. Next, a hot stream blows through the interlayer 10 in the glass 8 of the receiver 13, the material of which easily decomposes upon absorption of heat to form non-combustible gaseous products, water vapor and carbon dioxide by the following chemical reaction:
2NaHCO ₃ = Na ₂ CO ₃ + H ₂ O + CO ₂
These gaseous products dilute the aerosol and reduce the total temperature of the mixture, which is fed through the labyrinth channel to the outlet nozzle 11 and is jetted under pressure into the protected volume, where it is actively mixed with the air stream ejected inside.

When a gas-aerosol mixture is introduced into the combustion zone, the chain mechanism of reproduction of active radicals breaks off, as a result, the fire is suppressed. The high dispersion of the active particles determines the high fire extinguishing ability of the aerosol formed in the device, protecting the volume of 20 m ³ at a fire extinguishing concentration of up to 75-100 g / m ³ .

The temperature of the extinguishing mixture, as shown by tests, at the outlet of the generator 200 ^o C, and at a distance of 0.7 m from the generator is 40-50 ^o C, which is fundamentally different from analogues. The generated aerosol is a dielectric, does not contain toxic substances in dangerous concentrations.

 According to the claimed invention, an experimental batch of "GABAR" brand aerosol, high-speed, active-reactive aerosol generators was developed, manufactured and tested.

The tests were carried out at the VNIIPO MVD training ground in the volume fire extinguishing mode in accordance with the requirements of the international standard YSD / CD21 / SC2 N 146 E for classes A, B, C, E "Fire fighting. Portable fire extinguishers. Operation and design."
According to the results of certification tests, the proposed design of the generator is recognized as meeting the requirements for volumetric fire extinguishing devices and is recommended for industrial production with the goal of equipping warehouse and industrial premises, small retail outlets, garages, archives, storage facilities, etc.

 The proposed aerosol high-speed active-reactive generator (GABAR) is characterized by low cost due to the absence of pressure vessels, control and shutoff valves in the composition of vessels and pipelines, which significantly reduces the cost, simplifies installation and operation.

 The generator of the proposed design is intended for volumetric aerosol extinguishing of fires of solid and liquid combustible substances, as well as electrical equipment, including under voltage, without air injection.

The device is operable at an ambient temperature of ± 60 ^o C and relative humidity up to 100%.

 The aerosol mixture does not have a harmful effect on clothing and the human body, does not cause damage to property. A decrease in the concentration of oxygen in the air does not occur. Aerosol particles are easily removed by wiping, vacuuming or rinsing with water.

 The fire extinguishing time, according to the comprehensive tests carried out, is almost always less than the time of pyrotechnic charge combustion.

 Compared with the prototype, the temperature of the fire extinguisher mixture emitted by the fire extinguisher in the protected room is reduced.

Claims (2)

 1. An aerosol generator comprising a housing, an ignition means, a pyrotechnic charge, an output nozzle, an ablation layer and a cylinder of a cooling unit, characterized in that a receiver is made between the charge and the cylinder of the cooling unit, and the housing closed with a cover in which the ignition means is installed has a flange the side surface rests on a glass in which the ablation layer is placed, and the glass is rigidly connected to the cover and covers the body with a guaranteed annular gap, and the receiver volume inside the body is 1.2 - 1.6 times exceeds the volume of the receiver between the case and the glass.  2. The generator according to claim 1, characterized in that the pyrotechnic charge is made in the form of checkers equally distributed along the periphery of the cylinder of the cooling block.

Images