RU2253494C1 - Fire-extinguishing aerosol generator - Google Patents

Abstract

FIELD: fire-fighting equipment, particularly aerosol generation devices.

SUBSTANCE: aerosol generator creating gas-aerosol fire inhibiting substance during combustion of cartridges with pyrotechnic compositions and delivering the substance into closed space to be protected comprises body composed of two plate-like containers facing each other. Containers are connected by screwed pins and hold pyrotechnic cartridges contained inside gypsum cement layers. Container rims define disc-like outlet nozzle in which foam plastic packing is arranged. Foam plastic packing end is enclosed with sealant. Ignition initiator formed as resistor covered with adhesive ignition composition electrically linked with trigger is placed in gap between pyrotechnic cartridges in axial symmetry thereto. Plate-like containers serve as end caps. Cylindrical case with diameter equal to container rim diameter is installed between containers and form two disc-like nozzles. Additional pyrotechnic cartridge is placed in the cylindrical case and has gauging bushes for end cap fastening pins inserting. Bushes are formed along coaxial gypsum cement layer periphery. Ignition initiators are installed in gaps between three pyrotechnic cartridges and linked in parallel with common trigger.

EFFECT: increased intensity of fire-extinguishing substance delivery, possibility of pyrotechnical charge mass regulation, extended capabilities of closed space protection, increased structural rigidity and operational reliability.

1 dwg

Description

The invention relates to fire fighting equipment, and more particularly, to devices for extinguishing fires by means of checkers of gas-aerosol combustion inhibitors generated during the combustion of a pyrotechnic composition, arranged to be sent to a protected enclosed volume.

The prior art in this area is characterized by a fire extinguishing device described in patent RU 2164809, A 62 C 19/00, 2001, which contains a housing composed of two counter-mounted dish-shaped containers with a gap between their flanges forming a slot nozzle, and pyrotechnic checkers generating gas-aerosol mixture during combustion, fixed in both containers of the body through a heat-protective layer of gypsum, so that the free end of the block is located below the flange to form the receiver, as well as the initiation unit ignition coaxial to the slot nozzle, where the sealing foam layer is placed.

The execution of the body from two counter-mounted dish-shaped containers forms an adjustable gap between the flanges, which forms a slotted exit nozzle for the generated aerosol, adaptable to different pyrotechnic compositions of the checkerboard.

The charge of the checker burns from two end surfaces in each part of the body, which significantly increases the dynamics of the supply of the generated extinguishing mixture to the protected volume.

The disadvantage of this generator is the relatively long start-up time due to the one-sided external housing, through the nozzle slot, the ignition of the pyrotechnic checkers located below the flanges of the housing and the axis of the ignition torch.

The presence of the receiver, necessary for organizing the dynamic flow of the quenching mixture, reduces the mass of the checkers and reduces the protected volume.

The thermal insecurity of the flanges of the body (slot nozzle) limits the operating time and volume of the generated aerosol, since the body quickly burns out, which interferes with the fire extinguishing function, and the generator itself can serve as a source of secondary ignition.

In addition, the known generator is conditionally tight, since the porous material of the foam pad in the slotted nozzle is gas and moisture permeable, which reduces functional reliability and creates an explosion hazard when used in rooms with a combustible suspension of dust and volatile air.

The noted drawbacks are eliminated in the extinguishing aerosol generator according to the patent for PM 34383, A 62 C 3/00, 2003, which contains a housing composed of two supporting pyrotechnic blocks fixed in heat-protective layers of gypsum, counter-mounted dish-shaped containers with a gap between the flanges filled with gypsum, which form the output disk nozzle, and the ignition initiation unit, made in the form of a resistor filled with an adhesive igniter, mounted axially symmetrically between the pyrotechnic nical swords, mounted flush with the ends of the heat-shielding layers.

The adhesive igniter is made of a mixture of epoxy resin and potassium nitrate in a mass ratio of 2: 3.

In the gap between the pyrotechnic blocks generating the aerosol mixture, a foam pad is placed, covered on the outside with a silicone sealant.

This generator, chosen as the closest analogue, is characterized by high fire extinguishing efficiency with an increase in the specific volume of the extinguishing aerosol generated and a maximum decrease in the temperature of the gas-aerosol mixture at the outlet of the device, the functional reliability of which is increased due to the waterproofing of the disk nozzle and the volume of the generator as a whole, which ensured its explosion safety .

The implementation of the initiation unit in the form of a resistor filled with an adhesive igniter composition allowed to place it directly between the pyrotechnic blocks in the center, minimizing the gap, which reduces the time of guaranteed start-up of the generator, which is sealed.

Ignition of both pieces occurs from the center simultaneously, dynamically and without interference, almost instantly.

Filling the flanging of the tank’s containers with building gypsum formed a disk nozzle, the area of the outlet significantly exceeding the critical section area at its inlet, which allows the quenching flow to expand with increasing flow rate, that is, the disk nozzle acts as a receiver between charges according to the prototype, so it became possible to mount the checkers flush with flanges of the case.

At the same time, the mass of pyrotechnic checkers and the volume of the generated aerosol for fire protection of a larger room increased.

An additional effect of the lining of the flanging of the body with gypsum is that automatically throughout the entire length of the disk nozzle, the extinguishing gas-aerosol mixture is actively cooled by contact-evaporated water, and the flanging of the body practically does not heat up.

The fastening of the resistor of the initiation unit to the charge of the checker with an adhesive composition, which at startup creates an amplifying ignition pulse, is technologically and structurally simple.

The performance of the adhesive igniter composition from a mixture of epoxy resin (fuel) and potassium nitrate (oxidizing agent) and their optimum mass ratio are determined by their functional purpose from the conditions of manufacturability and safety, which is calculated according to the mathematical model of the design of the experiment.

The foam pad in the disk nozzle covered at the end with a sealing compound reliably isolates the pyrotechnic block from atmospheric moisture and prevents the penetration of combustible suspended matter from the protected volume into the gap. Silicone sealant is a hydrophobic electrical insulating adhesive, manufactured industrially.

However, the disadvantage of the known extinguishing aerosol generator is the structural and hydrodynamic restrictions of the extinguishing mixture flow for increasing the efficiency of fire fighting. So, to increase the flow rate of aerosols, it is necessary to increase the pressure in the generator, which results in an increase in the strength of the body due to a decrease in the mass of the generating pyrotechnic checker.

A simple increase in the mass of the checkers is impossible due to the limitation of the operating time of the aerosol generator (burning the pyrotechnic composition of the checkers) of no more than 200 s according to the requirement of NPB 60-97.

The problem to which the present invention is directed, is to increase the intensity of the supply of extinguishing aerosol to the fire, while increasing the functional reliability of the generator.

The required technical result is achieved by the fact that in the known fire extinguishing aerosol generator, the body of which is composed of two dish-shaped containers counterclockwise bolted with bolt bolts, carrying pyrotechnic checkers installed in gypsum interlayers and forming a disc outlet nozzle in the flanges, where the foam pad is placed, at the end, closed with a sealant, and in the gap between the pyrotechnic blocks the ignition initiation unit, made in the form of a filled in, is axisymmetrically fixed with a flame-ignition composition of a resistor electrically connected to a starting device according to the invention, a cylindrical body with a diameter of their flanges, which carries an additional pyrotechnic checker, is mounted on the periphery of the coaxial layer of building gypsum which is fixed between the disk-shaped containers that act as end caps, forming two disk nozzles bushings for mounting studs of the end caps, and ignition initiation units installed in the gaps between the three pyro technical checkers, in parallel connected with a common starting device.

Distinctive features ensured an increase in fire extinguishing efficiency due to the improvement of the known design of the generator, preserving its essential characteristics, according to the scheme of two-side end combustion of pyrotechnic checkers with the extinguishing gas-aerosol mixture supplied through two disk nozzles.

Moreover, the invention allows you to adjust the required mass of pyrotechnic pieces, changing the height of the additional Central cylindrical insert of the housing.

The placement of measured longitudinal sleeves under the mounting studs of the end caps inside the coaxial heat-shielding shell made of gypsum of an additional cylindrical housing provided an increase in the structural rigidity of the generator, which allows the higher pressure of the generated gaseous products of combustion of the checkers to be intensively fed into the protected volume.

The installation of two ignition units between the three checkers ensures the combustion of the pyrotechnic charge checkers simultaneously on four end surfaces, thereby increasing the gas supply and the dynamics of the extinguishing mixture flows from the generator.

The parallel connection of the ignition initiation units with a common starting device increases the functional reliability of the generator as a whole due to the duplication of the starting pulse of burning the drafts from the opposite sides of the charge.

Regulation of the total mass of the checkers by simply replacing the central cylindrical part of the generator, which is excellent in height, expands the technological possibilities of use for fire protection of different volumes.

Therefore, each essential sign is necessary, and their combination in a stable relationship allows us to solve the problem posed in the invention to achieve the novelty of quality, that is, not the sum of the effects of the signs, but the effect of the sum is obtained.

A comparative analysis of the proposed technical solution with the identified analogues of the prior art, from which the invention does not explicitly follow for a fireman, showed that it is not known, and taking into account the possibility of industrial serial production of fire extinguishing aerosol generators, it can be concluded that the patentability criteria are met.

The invention is illustrated in the drawing, which schematically shows the proposed generator.

The generator housing structurally consists of three parts: a central cylinder 1 and counter-mounted identical end caps 2 and 3 of a dish-shaped form, each of which contains a pyrotechnic checker 5, 4 and 6, respectively.

Lids 2 and 3 have a flange 7 filled with building gypsum, forming a layer 8, in which checkers 5 and 6 are flush mounted.

The checker 4 is rigidly mounted in an annular cylindrical shell 9 made of gypsum with an outer diameter equal to the diameter of the flanges 7 of the covers 2 and 3. On the periphery of the shell 9, mounting sleeves 10 are fastened under the mounting threaded rods 11 for basing the covers 2, 3 on them with through holes for flanges 7.

In the interlayers 8 of the flanges 7 coaxially with their mounting holes, holes are made for accommodating the measuring sleeves 10, which, when assembling the generator, abut against the flanges 7 of the covers 2 and 3. At the same time, with the help of nuts 12, evenly screwed onto the threaded rods 11, the covers 2 and 3 are tightly attracted to the stop in the measuring sleeves 10, as a result of which, between the ends of the checkers 5-4 and 4-6 in pairs, as well as between the conjugated ends of the interlayers 8 in the flanges 7 of the covers 2, 3 and both ends of the shell 9 of the cylinder 1, gaps 13 are formed, filled with a foam pad 14.

The gaps 13 between the ends of the gypsum shell 9 and the gypsum interlayers 8 in the flanges 7 of the covers 2, 3 in the generator function as disk nozzles with heat-protective lining.

Foam pads 14 at the ends (at the exit of the disk nozzles 13) are coated with silicone sealant 15, which insulates the volume of the generator.

In the gaps 13 axisymmetric pyrotechnic checkers 5, 4, 6 are installed sites 16 initiation of ignition, which the wires 17 are connected to the terminals 18 of the common starting device.

The initiation units 16 are made in the form of a resistor with a resistance of 5-15 Ohms, which is attached to the end of one of the checkers 4-6 in the gaps 13 pairs by means of an adhesive igniter composition that polymerizes after pouring.

The adhesive igniter composition, in particular, is made of a mixture of epoxy resin (with hardener) and potassium nitrate in a mass ratio of 2: 3.

The generator operates as follows. When the fire control system is activated from exceeding the specified threshold of the permissible air temperature in the protected enclosed space, a triggering pulse with a current strength of 1-2 A and a duration of 0.5-1.0 s is fed through terminals 18 and wiring 17 in parallel to both initiation nodes 16 in radial clearances 13. At the same time, their low-power resistors burn out, momentarily releasing heat, which ignites the coating composition of the nodes 16. The amplified heat pulse from combustion of the igniting adhesive composition of these coatings ignites pyrotechnically checkers compositions 5, 4, 6, and almost instantly burns liner 14, releasing clearances 13 and output them to disc nozzle.

All three checkers 5, 4, and 6 stably burn from the free ends, while checker 4 burns from both ends, which increases the dynamics of the generation of the extinguishing aerosol that comprehensively flows out of the generator through two disk lined nozzles 13, while actively cooling. Bound and connected by lyophilic gypsum, interlayers 8 and shells 9 water are evaporated by hot aerosol flows, mixing turbulently with gaseous products of combustion of pyrotechnic checkers 4-6, diluting and cooling them.

The high-speed flow of the quenching mixture at the outlet of the disk nozzles 13 is subjected to turbulization by the ejected air from the protected enclosed volume. In this case, the gas-aerosol stream is mixed with air and, expanding radially in motion along the disk nozzle, is inhibited, which together provides active cooling of the generated combustion inhibitors: up to 100 degrees C at a distance of 100 mm from the generator.

Once in the fire and filling the volume of the room, the gas-aerosol mixture suppresses the fire.

Making the generator airtight for 10 years of storage ensures the explosion safety of use, because the design prevents filling the working gap with technological suspensions from the guarded premises (flour, wood dust), flammable volatile substances (alcohol, acetone), etc., which are from a thermal start pulse detonate, destroying the design of the generator.

Claims (1)

A fire extinguishing aerosol generator, the casing of which is composed of two dish-shaped containers counter-bolted by bolt pins, carrying pyrotechnic checkers installed in interlayers of building gypsum, forming a disc outlet nozzle in the flanges, where a foam pad is placed, closed at the end with a sealant, and in the gap between the pyrotechnic the ignition initiating assembly is axisymmetrically fixed with checkers, made in the form of a resistor filled with an adhesive igniter, electrically connected first with a starting device, characterized in that between the plate-shaped containers that perform the functions of the end caps, a cylindrical body with a diameter of their flanges is installed with the formation of two disk nozzles, carrying an additional pyrotechnic block, on the periphery of the coaxial layer of gypsum which is fixed to the measuring bushings for mounting studs end caps, and ignition initiation units installed in the gaps between the three pyrotechnic blocks, are in parallel connected with a common starting device vom.