RU2046612C1 - Fire-fighting device and gas producer starting unit - Google Patents

Abstract

FIELD: fire-fighting aids. SUBSTANCE: nozzle is made as a piston installed in its casing, furnished with a rod closing the nozzle outlet on the side of the extinguishant by-pass chamber, and with an anvil-on the opposite side that is engageable with a blade secured inside the nozzle casing; destructible member is installed between the blade and anvil. A striker is installed in the gas producer inside the casing; a bush is positioned between the spring and casing cover, its end face on the side of the cover is engageable with a washer overlapping its central opening and made of easily fusible material, for example, Wood's alloy; to unfix the striker, a sleeve is fitted onto the casing that is rigidly coupled with the bush and furnished with grooves on the internal surface for the member that fixes the striker. EFFECT: enhanced reliability. 3 cl, 3 dwg

Description

 The invention relates to fire fighting equipment, namely, fire extinguishers, the use of which is possible in manual and automatic modes for extinguishing fires, especially in cases excluding the use of liquids.

 An automatic fire extinguisher is known (Japanese Patent No. 54-18875, class A 62 C 35/12, 1979), comprising a pyroquencher located in the body of the fire extinguisher, a piston for displacing the extinguisher from the body, and a rod with a piercer for breaking the membrane covering nozzles .

 The disadvantage of this fire extinguisher is the increased danger of its use in connection with the possibility of going beyond the dimensions of the piston body with the rod when the fire extinguisher is triggered. This may result in mechanical damage to the equipment or personal injury.

 Also known is a launching unit for starting a gas generator of a fire extinguisher, mainly a powder one, containing a cylindrical body, a cover with an opening, a spring-loaded striker placed in the housing and a pull-sear passed through the specified opening in the cover (German patent N 23004664, class F 42 C 7/00, 1976).

 The disadvantage of the described starting unit for starting the gas generator of the fire extinguisher is the inconvenience of operation and low reliability, caused by the prolonged re-cocking of the unit to its original position and engaging it with a possible misfire.

 The closest to the proposed device for extinguishing a fire in technical essence, as well as coinciding in the totality of features and selected in connection with this as a prototype is an automatic fire extinguisher (ed. St. USSR N 1053838, class A 62 C 35/00, 1982) , consisting of a pyro-exciter located in the housing, a piston for displacing the extinguishing agent from the housing and a rod with a punch to destroy the membrane covering the nozzles. In the body of the fire extinguisher there is a stop for the rod placed in front of the membrane, while the piston is mounted on the rod with the possibility of movement along the longitudinal axis of the body. The design of the described fire extinguisher provides increased safety during operation compared to analogues.

 However, the practical operation has revealed a number of disadvantages of this fire extinguisher. The main one is the underestimated reliability associated with the presence of rubbing surfaces during the operation of the fire extinguisher, interacting during its storage directly with the fire extinguishing composition. Indeed, the extinguishing agent is in direct contact with the inner surface of the housing, along which the piston extends when the device is triggered, and also with the outer surface of the rod, along which the piston also moves. During storage of the powder extinguishing composition in the body of the fire extinguisher, clumping occurs in it, which does not facilitate the movement of the piston at a constant speed, since it has to overcome the compacted areas of the fire extinguisher. At these moments, the piston skews and, as a result, finely dispersed powder enters the zone of increased clearance between the piston and the housing, which leads to biting of the piston. As a result, an unstable flow rate of the extinguishing agent, a possible breakthrough of gases from the over-piston volume into the body, and underproduction of the powder are obtained. In addition, the described fire extinguisher has an underestimated safety of use.

 When it is launched, fragments of the destroyed membrane break out from the nozzle with a fire extinguishing composition, which can lead to injury to personnel involved in the elimination of the fire.

 The closest to the proposed start-up unit of the gas generator of the fire extinguisher in technical essence, as well as in the combination of features and chosen in connection with this prototype, is the trigger mechanism for the gas-generating device of powder fire extinguishers (ed. St. USSR N 776622, class A 62 C 37 / 26, 1978), comprising a cylindrical body, a cover with a central hole, a spring-loaded striker and a spring located in the body, and also a traction whispered through the central hole in the cover for cocking and releasing the blow Nika. The latter has a central hole of variable cross section, and the sear sear is made in the form of a collet, the ends of the petals of which have conical protrusions and are passed through the central hole in the hammer, while the lateral surfaces of the petals of the collet also have conical protrusions.

 Along with the positive properties of the well-known launching unit, confirmed by the operation, namely: providing a quick re-cocking of the mechanism to the initial one and activating it during misfire, shortcomings were also discovered. The operational capabilities of the unit are underestimated, since the possibility of automatic start is excluded, which is especially important when used in small in volume, separated from one another premises, for example, in archives, libraries, compartments of ships, submarines.

 The purpose of the proposed device for extinguishing a fire is to increase the operational characteristics of the device by increasing the reliability of the organization of the gas-powder supply of the extinguishing agent into the fire zone and eliminating the mechanical movement of the extinguisher parts during the displacement of the extinguishing powder. In addition, the goal is to increase the safety of use by eliminating foreign objects, for example, fragments of the destroyed membrane of the nozzle, from ejecting a fire extinguishing powder.

 The purpose of the proposed start-up unit of the gas generator is to expand operational capabilities by ensuring the automatic start of the gas generator from the heat signal of the ignition source.

 The specified goal in the proposed device for extinguishing a fire is achieved by the fact that in a known fire extinguisher containing a cylinder with a fire extinguishing composition and a gas generator with a starting device, as well as nozzles with a sprayer and an element closing the outlet, the gas generator is equipped with an aerator, nozzles are installed on the nozzle of the gas-powder extinguishing composition and made in the form of a piston nozzle installed inside the housing, provided with a rod on the side of the bypass chamber of the extinguishing agent, which closes the nozzle exit, and from opolozhnoy anvil interacting with the knife, fixed inside the casing nozzle, wherein between the knife and the anvil placed erodible element.

 The specified goal in the proposed start-up unit of the gas generator is achieved by the fact that in the known start-up unit comprising a cylindrical body, a cover with a central hole, a spring and a spring-loaded striker placed in the body, the latter is fixed relative to the body by a latch installed in the hole of the body wall and interacting with the transverse groove of the striker , a sleeve is installed between the spring and the housing cover, which interacts with the end from the side of the cover with a washer overlapping its central hole, made minutes of fusible material, and the housing cup is worn, is rigidly associated with the hub pin extending through a longitudinal slot in the housing wall, wherein the inner surface of the locking grooves under the hammer retainer. As the fusible material of the washer, the WUDA alloy is used.

 Providing the gas generator with an aerator ensures the formation of a gas-powder supply of the extinguishing agent into the zone of the fire source, and the nozzle is made in the form of a rod installed inside the rod body, blocking the nozzle exit and provided with an anvil interacting with the knife fixed inside the nozzle case, and also the installation between the knife and the anvil destructible element allows to exclude the emission in the jet of the extinguishing composition of foreign objects, since the destructible element is structurally derived from Lost bypass extinguishing agent and fragments of it remain in the body cavity of the nozzle after triggering the fire extinguisher.

 The specified technical result allows to increase the safety of use and to expand the operational characteristics of the device for extinguishing a fire.

 Fastening relative to the drummer body by means of a retainer, placing a sleeve between the spring and the housing cover abutting with its free end into a washer made of WOODA alloy and blocking the central hole of the lid, as well as installing a glass rigidly connected to the sleeve of the sleeve and provided with grooves for the fixing drummer on the inner surface, the latch allows the launching unit to be triggered in automatic mode, in case of loss of strength from the heat signal of the ignition source of the washer made of Wood's alloy. This is ensured by the translational movement under the influence of the spring of the sleeve in the direction of the housing cover and the possibility of the fixation of the hammer by drowning the locking element in the groove of the glass. It is also possible to manually start the launch unit by moving the cup associated with the rod in the opposite direction with automatic start. In this case, the release of the hammer is similar, but another groove is used on the inner surface of the glass. The technical result, which consists in ensuring automatic start of the gas generator from the heat signal of the ignition source, expands the operational characteristics of the starting unit of the gas generator.

 In FIG. 1 shows the proposed device for extinguishing a fire, General view; figure 2 nozzles, a longitudinal section; figure 3 starting node of the gas generator, a longitudinal section.

 The fire extinguishing device consists of a cylinder 1 with a fire extinguishing composition, for example, Pirant powder (multi-purpose composition for extinguishing gaseous substances and materials, as well as solids and liquids), a gas generator 2 and a start-up unit 3, as well as nozzles 4 with a spray gun 5. For the formation of the gas-powder mixture, the gas generator 2 is equipped with an aerator 6 with openings 7 for supplying gas. The nozzle 4 is connected by a flexible hose to the nozzle 8 for supplying the gas-powder composition from the cylinder 1. The nozzle 4 contains a housing 9 with a piston 10 installed inside it and provided with a rod 12 from the outlet 11 of the housing 9. On the opposite side, the piston 10 is equipped with an anvil 13 interacting with the knife 14 mounted on the cover 15 of the body 9 of the nozzle 4. Between the anvil 13 and the knife 14 is installed destructible element 16, made, for example, from the safety wire with a diameter of 0.8 mm The diameter of the rod 12 is made smaller than the diameter of the piston 10. The piston 10 is fixed relative to the housing 9 by a transport pin 17.

 The start-up unit 3 of the gas generator 2 comprises a cylindrical body 18, a cover 19 with a central hole C, and a spring 20 and a spring-loaded hammer 21 located inside the body 18. The hammer 21 is fixed relative to the body 18, for example, by a ball 22 installed in the hole of the wall of the body 18 and interacting with the transverse a groove 23 made on the surface of the striker 21. Between the spring 20 and the cover 19 of the housing 18, a sleeve 24 is mounted abutting its free end against the washer 25, overlapping the central hole C of the cover 19. The washer 25 is made of non-fusible material, for example WOODA alloy. A cup 26 is put on the body 18, which is rigidly connected by a pin 27 to the sleeve 24. The pin 27 passes through a longitudinal groove in the wall of the body 18, which allows the glass 26 to move along the body 18. Two grooves for the ball 22 are made on the inner surface of the lower part of the glass 26 In the initial state, when the launch unit is cocked, the ball 22 is located between the said grooves. The glass 26 and the drummer 21 are fixed relative to the housing 18 with a check 28.

 A device for extinguishing a fire works as follows.

 To restore the fire extinguishing device to its original state, it is necessary to remove the safety transportation checks 17 and 28 of the nozzle and the launch unit. When using the device in automatic mode, nozzles 4 must be fixed by directing the spray gun 5 towards a possible fire source.

 In the same way, it is necessary to orient the washer 25 from the WUDA alloy of the launch unit 3.

 When a fire occurs, its heat signal melts the washer 25 and releases the sleeve 24, which, under the influence of the spring 20, moves to the lid 19 and carries the cup 26 along with it. When passing the lower groove made on the inner surface of the cup 26, the ball 22 last moves into it, releases the spring-loaded striker 21. Under the influence of the spring 20, the striker 21 initiates the igniter of the gas generator 2. When gases exit through the openings 7 of the aerator 6 in the housing 1, a powder mixture is formed, which flows through the pipe 8 into the mix the nozzle chamber 4. Under the influence of the increasing pressure of the gas-powder jet, the piston 10 moves towards the cover 15, cutting off the fixing element 16 located between the anvil 13 and the knife 14. The rod 12 thus releases the outlet 11 of the nozzle 4 and the gas-powder mixture through the spray gun 5 enters the fire.

 Manual start of the device is also possible. To do this, it is necessary to move the cup 26 of the launch unit 3 in the direction from the cover 19 to align the ball 22 with the groove located on the inner surface of the cup 26 closer to its central zone. After being released by the ball 22 of the striker 21, the device operates in the sequence described above.

The proposed invention allows to obtain the following positive effect in their industrial application:
expand the operational capabilities of the device by extinguishing with a gas-powder composition;
to increase the safety of its use by eliminating foreign objects (fragments of the sealing membrane) in the jet of fire extinguishing powder;
to increase the reliability of use by eliminating the mechanical interaction of the parts of the device during the displacement of extinguishing powder;
expand the operational capabilities of the device by ensuring the automatic start of the device from the heat signal of the ignition source.

Claims (3)

 1. A device for extinguishing a fire containing a cylinder with a fire extinguishing composition and a gas generator with a start-up unit, nozzles with a sprayer and a nozzle closing the outlet, characterized in that the gas generator is equipped with an aerator, the nozzle is installed on the supply pipe of the gas-powder fire extinguishing composition and consists of a piston installed inside the body equipped with a rod on the side of the bypass chamber of the extinguishing agent, covering the nozzle exit, and with the opposite striker interacting with a knife fixed inside us order, wherein between the knife and the striker element mounted erodible.  2. The start-up unit of the gas generator, comprising a cylindrical body, a cover with a central hole, a spring placed in the body and a spring-loaded striker, characterized in that the striker is fixed relative to the body by a latch installed in the hole of the body wall and interacting with the transverse groove of the striker, between the spring and the body cover a sleeve is installed that interacts with the end from the side of the lid with a washer made of fusible material covering its central hole, and a glass is put on the body, of a tight associated with the hub pin extending through a longitudinal slot in the wall of the housing, wherein the inner surface of the nozzle grooves for retaining the firing pin latch.  3. The node according to claim 2, characterized in that the alloy WOODA is used as the fusible material of the washer.

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