RU2323756C1 - Fire extinguishing aerosol generator - Google Patents

Abstract

FIELD: mechanics.

SUBSTANCE: invention can be used in closed or semi closed spaces. To increase reliability of performance generator comprises case with a cylinder shaped coat and with solid and perforated bottoms, charge with aerosol forming composition, cooling unit fixed at one side with the perforated bottom, and from the side of the charge -with a perforated partition. Linear bushing with a perforated side surface is situated within the inside surface of the solid bottom along the axis of the case. Charge is of multi blocks and consists of one central and least two peripheral cylinder shaped blocks, at that the central cylinder block is located along the axis of the case allowing it to be supported at one end with a linear bushing, and at the other end with the perforated partition; peripheral cylinder blocks are situated lengthwise with an axial set off against the central block along the circumference between the central block and the cylinder coat of the case; inducer with a trigger is assembled inside the linear bushing.

EFFECT: increase of efficiency of large scale fire fighting.

3 cl, 2 dwg

Description

The invention relates to fire fighting equipment, and more particularly to volumetric extinguishing devices generating gas aerosol combustion inhibitors, and can be used to extinguish fires in closed or semi-enclosed spaces, mainly in production and storage rooms, engine and luggage compartments of vehicles, and power supply facilities.

A known fire extinguishing aerosol generator, comprising a housing with a combustion chamber, a solid fuel aerosol forming charge and a heat sink, the housing is made in the form of two cylinders of different diameters, one end of each cylinder is open and the other is provided with a bottom, the cylinders are coaxially mounted one inside the other so that the inner the cylinder with its open end faces the bottom of the outer cylinder and an annular gap is formed between the side walls of the cylinders, and a solid fuel aerosol-forming charge is installed in the inner orindre near its bottom by means of a perforated support with uprights, and the heat sink is placed in the annular gap between the side walls of the cylinders, see US Pat. RU, cl. A62C 37/00, No. 2091104, published 1997.09.27. The specified known generator does not solve the problem of thermal protection of the bottom of the outer cylinder, which is directly affected by force from a burning channel charge.

A flameless extinguishing aerosol generator is known, comprising a cylindrical body with outlet openings, an igniter, a charge from an aerosol forming composition, a cooling element and a labyrinth cooling unit, while a metal glass is installed in the body, which forms a labyrinth gap with the cylindrical part of the body, a charge and a cooling are located inside the glass an element separated by a combustion chamber for combustion products, see US Pat. RU, cl. A62C 13/22, No. 2208463, published 2003.07.20. The igniter is located directly in the charge channel, which under certain conditions can cause the destruction of the charge at the moment of ignition operation and abnormal functioning of the generator as a whole.

A fire extinguishing aerosol generator is known, comprising 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 a igniter connected to the remote control device, a convex lid with distributed radial outlet openings, is fixed to the central fire transfer tube, and a perforated receiver formed in the housing above the cooling unit, characterized in that the receiver is higher than rforatsy overlapped 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 cm. Pat. RU, cl. А62С 3/02, No. 2205671, published 2003.06.10. The generator has increased functional reliability and advanced technological capabilities when operating in conditions of high atmospheric humidity. In the generator, the central fire-transfer tube with the igniter fixed in it is to some extent likened to a gun barrel, from which frontal firing is carried out “at point blank range” at a pyrotechnic checker. Such a fire exposure scheme provides reliable ignition of the checker, but does not guarantee its integrity.

A known generator of a fire extinguishing aerosol for volumetric fire extinguishing, comprising a housing, a solid fuel aerosol forming element in the form of two charges, an initiator and a heat-absorbing element placed in a half-shell with a perforated bottom and fixed in it with a perforated partition, charges are made in the form of cylindrical single-channel checkers of the same composition, the bottom of the half-shell opposite the channel of the slow-burning charge is coated with a heat-shielding coating, the heat-absorbing element is made in the form of granules, filled in half-shell, while the volume of the half-shell is divided along the length of at least two sections by metal grids, see US Pat. RU, cl. A62C 13/22, No. 2078599, published 1997.05.10. Due to equipping the generator with an additional charge, it provides reliable and effective fire extinguishing in case of leakage of the protected volume or its depressurization during extinguishing. This well-known design decision was made as a prototype, as the closest analogue in technical essence and achieved result.

The disadvantage of the prototype is the free location of the initiator in the form of an electric fuse, which reduces the reliability of its operation and ignition of charges. At the moment the initiator is triggered, it, not having time to completely burn out, moves due to the lack of attachment and under the influence of the general gas flow to the region of the generator farthest from the charge. The result of such an organization of the ignition process may be a forced increase in the mass of the initiator. In addition, as already noted, the initiator located directly in the charge channel poses a threat to its integrity at the time of ignition. Another important disadvantage of the prototype is the presence in its design of various charges, each of which performs a specific function. If any of the charges is destroyed at the moment of ignition or during its combustion, the probability of abnormal operation of the generator as a whole increases. These disadvantages of the prototype worsen its consumer properties and do not allow use for the purposes of the present invention.

The present invention is aimed at achieving a technical result, which is expressed in increasing the reliability of ignition and the functioning of the solid fuel charge of the aerosol-forming composition while reducing the mass of the initiator and its launch means. The generator retains all the positive properties of the prototype as much as possible, the most important of which are the use of the same type of solid fuel for the manufacture of charges and the ability to remotely control the initiation process.

Ultimately, the specified technical result increases the reliability of operation of the fire extinguishing aerosol generator as a whole and ensures the achievement of high fire extinguishing efficiency.

The indicated positive result is achieved in that the extinguishing aerosol generator, comprising a body with a cylindrical shell, a continuous bottom and a perforated bottom, an aerosol forming charge placed between the solid bottom and the support ring fixed to the housing, a cooling unit fixed on one side with a perforated bottom, and with side of the charge with a perforated baffle, and the initiator with a trigger, differs from the prototype in that it is equipped with a cylindrical sleeve with a perforated side surface a bone located on the inner surface of a continuous bottom along the axis of the hull. In this case, the charge is multi-plate, consisting of one central and at least two peripheral cylindrical blocks, the central cylindrical block being located along the axis of the housing with the possibility of supporting one end on the cylindrical sleeve and the other on the perforated partition. The peripheral cylindrical blocks are located longitudinally with axial displacement relative to the central circumference between the central block and the cylindrical shell of the housing. The initiator with the trigger is mounted inside the cylindrical sleeve.

Optimal from the point of view of achieving this positive effect is a generator equipped with at least one separator for the formation of a guaranteed gap between the lateral surfaces of the peripheral cylindrical checkers, which has a beam structure in cross section and is mounted on a central cylindrical checker. In principle, it is possible to equip the generator with two or more separators of the same type.

In all versions of the generator, it is preferable to make a threaded hole in its front bottom for mounting the initiator launch means and fill the inner cavity of the cylindrical sleeve between the solid bottom and the initiator with a heat-resistant sealant.

In the generator, as a fire extinguishing aerosol, the products of the combustion of charges from specially composed self-burning high-molecular compounds such as ballistic, pyrotechnic or mixed powders are used. Such charges, with certain physical and mechanical characteristics, require special conditions during transportation, storage, ignition and operation to prevent their destruction, especially under intense alternating loads and large temperature fluctuations. Since the probability of destruction of the charge cannot be completely ruled out, it seems appropriate to provide for a reduction in the negative consequences associated with this phenomenon. The most likely from the point of view of the destruction of the charge is the moment of its ignition, when the loads acting on it acquire maximum values.

The presence of a cylindrical sleeve, a perforated side surface located on the inner surface of a continuous bottom, allows you to place an ignition system in it, consisting of an initiator and a trigger, which minimizes their impact on the charge. In addition, igniter gases, making a difficult path before touching the surface of the checker, lose a significant part of their kinetic energy. The tangent nature of such contact in conjunction with the unidirectional movement of igniter gases and charge combustion products creates optimal conditions for ignition and to prevent erosive combustion. The central cylindrical checker during transportation and storage is subject to the greatest loads. The applied scheme makes it possible to significantly relieve the central checker at the moment of ignition due to axial displacement and thereby removing from the danger zone.

The execution of the charge is multi-checker, with one central and several peripheral checkers, allows to increase the reliability of the generator. In the event of the destruction of one of the checkers of a multi-draft charge, the deviation of the ballistic characteristics from the calculated ones will not be as significant as in the destruction of a single checker. In addition, the multi-cup design allows, without complicating the form of the all-round burning charge, to realize a high-speed generator (up to several milliseconds) when using slow-burning solid fuels. The most optimal design is with one central and six peripheral checkers of the same type, which corresponds to the maximum charge packing density, however, a different number of peripheral checkers is possible, depending on the design of the generator. The number of peripheral checkers cannot be less than two, because otherwise the solution to the problem of ignition of the charge in the selected circuit is substantially complicated.

All the main elements of the generator are reliably fixed in the hull and spaced from each other, which eliminates the possibility of their unwanted contact, friction, destruction or spontaneous operation during operation, especially if the generator is mounted on a moving object, for example, in the motor compartment of a car, ship or aircraft. The launcher is securely fixed in the threaded hole of a continuous bottom, fixed with a heat-resistant sealant and together with the initiator is separated from the charge by a cylindrical sleeve. The checkers are fixedly fixed at the ends, and, in addition, are separated from each other by one or more separators, the beam structure of which follows the shape of the peripheral checkers and sets the gap between them.

The technical solution is illustrated by drawings.

Figure 1 shows a General view of a fire extinguishing aerosol generator; figure 2 is a cross section aa generator.

The casing of the extinguishing aerosol generator consists of a cylindrical shell 1, a continuous (front) bottom 2 and a perforated bottom 3. A multi-cup charge of the aerosol forming composition consisting of one central cylindrical checker 4 and several peripheral cylindrical checkers 5 is placed in the casing. depicts a seven-cup charge with six peripheral cylindrical checkers 5, corresponding to a rational scheme with a high packing density. Checkers 4 and 5 have the same geometric dimensions, are made from the same composition by mixed technology and are processed by free casting or injection molding. A cooling unit 6 and an initiator 7 with a launcher 8 are also housed in the housing. Along the axis of the housing, a cylindrical sleeve 9 is installed on the inner surface of the solid bottom 2 by means of a threaded portion and has a perforated lateral surface 10 through the holes 10. A layer of heat-protective coating 11 is applied to the inner surface of the continuous bottom 2 and the end surface of the cylindrical sleeve 9, which prevents overheating of the outer surface of the continuous bottom 2. The heat-resistant coating 11 is made of heat-resistant rubber and at the same time provides additional longitudinal fixation of the checkers 4 and 5 of the additional charge in the housing due to preload. A support ring 12 and a perforated partition 13 are installed on the inner surface of the cylindrical shell 1. The central charge checker 4 is located along the axis of the housing with the possibility of supporting one end on the end surface of the cylindrical sleeve 9, and the other on the perforated partition 13. All peripheral checkers 5 are axially displaced relative to the central pieces 4 and are located on a circle 14 around it. In addition, all peripheral checkers 5 are located in the annular gap between the central checker 4 and the inner surface of the cylindrical shell 1 with the possibility of support with one end on the inner surface of the solid bottom 2, and the other on the support ring 12. On the central checker 4 is a coaxial separator 15, which has a six-beam structure in cross section and spans the side surfaces of the peripheral checkers 5 from each other. In FIG. a generator with one separator is shown 15. The initiator 7 is, for example, a sample of granular powder in an easily destroyed case and can be fixed in some way inside the cylindrical sleeve 9. The trigger means 8 is, for example, a squib that is mounted in a threaded hole 16, which is made in a continuous day 2. To increase the reliability of fastening of the launcher 8 and tightness, the inner cavity of the cylindrical sleeve 9 between the continuous bottom 2 and the initiator 7 is filled with heat-resistant sealant 17, for example epoxy compound. To prevent unauthorized operation and to prevent damage to the ignition unit, the continuous bottom 2 is provided with a cover 18. The cooling unit 6 can be made in the form of filling a mechanical mixture of crystalline hydrates of metal salts and / or ultrafine inhibitor powders, limited on both sides by metal or plastic mesh inserts 19 and fixed on the one hand, with a perforated bottom 3, and on the charge side, with a perforated partition 13.

The fire extinguishing aerosol generator operates as follows.

The generator can be installed stationary in the place of the most probable (undesirable) occurrence of a fire or used as a moving fire extinguisher. In any case, the electrical contacts (in Fig. They are depicted in the form of segments of an electric wire) launch means 8 must be connected to the source circuit of the electric pulse. When the generator is functioning as part of an autonomous fire extinguishing system, the latter contains means for automatic detection and start-up. After the occurrence and detection of the fire, the control pulse is supplied to the trigger 8, which, when triggered, creates a short-term stream of flame directed at the initiator 7, igniting the latter. The initiator 7 is also a rather short-term, but powerful source of high-temperature gases, which first fill the internal volume of the cylindrical sleeve 9 and only then through the through holes 10 act on the multi-cup charge of the aerosol-forming composition. The presence of heat-resistant sealant 17 not only prevents the spontaneous unscrewing of the trigger 8 during transportation of the generator, but also increases its tightness during operation. The cylindrical sleeve 9, therefore, plays the role of a prechamber, which senses the response pressure of the trigger 8 of the initiator 7 and generates only directed jets of high-temperature “crumpled” gas, preventing the destruction of the charge. The presence of heat-resistant sealant 17 not only prevents spontaneous unscrewing of the trigger 8 during transportation of the generator, but also ensures its tightness during operation. Due to the presence of the separator 15, the ignition gases are guaranteed to be directed into the gap between the peripheral cylindrical checkers 5, flowing around them tangentially. Such a scheme of ignition of the charge is quite reliable and simple, since it provides a minimum spread of parameters and is provided by affordable means. Ignition and combustion of the peripheral cylindrical checkers 5 and the central cylindrical checker 4 occurs almost simultaneously under conditions of the longitudinal expiration of the combustion products. Each piece is an independent gas source, so that a compact central flame bundle is not formed at the entrance to the cooling unit 6, as with a single piece. The high-temperature products of combustion of a multicast charge of an aerosol-forming composition with a uniform front over the entire cross-sectional area of the cylindrical shell 1 passing through the perforated partition 13, and the metal or plastic mesh inserts 19 interact with the solid-phase filler of the cooling unit 6. As a result of this thermo-gas-dynamic interaction of high-temperature aerosol-containing gas-containing products of combustion cooler cleavage occurs crystallized water, decomposition of a mechanical mixture of crystalline hydrates of metal salts and ultrafine powders of hydrocarbon flame inhibitors. In this case, there is an effective reduction to the required temperature of the extinguishing gas-aerosol mixture from 2000K to 390 ... 430K and its saturation with hydrocarbon flame inhibitors. The gas-aerosol extinguishing mixture formed in the generator through the perforated bottom 3 enters directly into the fire zone. The configuration of the perforated bottom 3 and its geometric dimensions provide stable burning of the charge and the required flow characteristics.

Thus, all the signs of a fire extinguishing aerosol generator that are distinctive from the prototype are aimed at obtaining a positive result, namely, increasing the reliability of operation and achieving high extinguishing efficiency. The generator, characterized by the described set of essential features, is new, industrially applicable and corresponds to the inventive step.

Claims (3)

1. A fire extinguishing aerosol generator, comprising a body with a cylindrical shell, a continuous bottom and a perforated bottom, an aerosol forming charge placed between a solid bottom and a support ring fixed to the housing, a cooling unit fixed on one side with a perforated bottom, and on the charge side of the aerosol forming composition, perforated partition, and the initiator with a means of launch, characterized in that it is equipped with a cylindrical sleeve with a perforated side surface located on the inner the surface of the solid bottom along the axis of the housing, while the charge of the aerosol forming composition is multi-shell, consisting of one central and at least two peripheral cylindrical blocks, the central cylindrical block being located along the axis of the body with the possibility of supporting one end on a cylindrical sleeve, and the other on the perforated septum, the peripheral cylindrical blocks are located longitudinally with axial displacement relative to the central circumference between the central block and the cylindrical shell housing, the initiator with the means of launch is mounted inside the cylindrical sleeve. 2. The generator according to claim 1, characterized in that it is provided with at least one separator for the formation of a guaranteed gap between the lateral surfaces of the peripheral cylindrical checkers, which has a beam structure in cross section and is mounted on a central cylindrical checker. 3. The generator according to claim 1 or 2, characterized in that in the front bottom there is a threaded hole for mounting the initiator launch means, and the inner cavity of the cylindrical sleeve between the solid bottom and the initiator is filled with heat-resistant sealant.

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