RU2213599C1 - Locking-trigger device - Google Patents

Abstract

FIELD: fire engineering equipment, particularly outlet devices for fire-fighting systems carrying out independent spraying of fire-extinguishing substance, which is stored under pressure into vessel. SUBSTANCE: device comprises body communicating with vessel for pressurized fire- extinguishing substance by outlet channel. Spraying apparatus outlet orifice is formed on device body side wall. Outlet orifice is sealed by piston loaded by working fluid of shutoff chamber which communicates through drainage channel with trigger mechanism frangible membrane. Piston is collapsible. Piston outer bushing is loosely installed on body cylindrical chamber step. Outer bushing end has undercut and longitudinal blind groove in which locking finger is arranged. Locking finger is fixed to central stepped plunger having axial through channel with throttle formed into support, which is arranged axially to contact sealant mounted into locking chamber closure. EFFECT: increased functional reliability of independent locking-trigger device, possibility of rapid response automatic spraying of fire-extinguishing fluid from high- pressure vessel to fire seat after fire initiation.

Description

 The invention relates to fire fighting equipment, and in particular to an output device installed on fire extinguishing systems with an autonomous sprinkler of a fluid fire extinguisher stored in a container under pressure.

 The prior art in this area is characterized by a locking device for remote opening of the end part of the fire fighting pipe according to the patent RU 2131281 C1, A 62 C 37/08, 1999, which contains a cylindrical body with outlet windows commuting in operation with a nozzle sprinkler hermetically closed by a piston, and a lock seal in the form of a drain channel membrane above a fluid working fluid (liquid combustion inhibitor) in the shut-off chamber.

 The membrane holds the piston from displacement relative to the housing during storage, and the gas generator opens the outlet windows for supplying a fire extinguisher to the fire.

 The disadvantage of the described highly efficient device is the complexity of the design of remote control of the aerosol gas generator, an auxiliary fire extinguishing agent formed during the combustion of its pyrotechnic composition, which acts as a trigger mechanism, destroying the membrane that overlaps the shut-off chamber with a fluid working fluid filling the volume between the piston and the membrane, for its discharge under the action of a piston moved by pressure of the fire extinguisher.

 A remote control installed at a safe distance is connected to the gas generator igniter with an additional electric wire, which must be reserved for reliable operation, which further complicates the design.

 The noted drawbacks are eliminated in the simple device selected as the closest analogue according to the patent RU 2031675, A 62 C, 37/00, 1995, which contains a pressurized fluid extinguisher connected to the capacity (pipeline) through the inlet channel of the housing, the side surface of which there is a window that is outlet to the sprayer, hermetically closed by a piston loaded with a fluid working fluid of a shut-off chamber communicating through a drain channel with a fragile membrane of the trigger mechanism.

 However, the disadvantages of the known device are as follows. A limited area of use, since it does not seem possible to use it for fire extinguishing systems with autonomous fire extinguisher tanks without special mechanisms that create an overpressure pulse in the exhaust channel.

 Another disadvantage is the use of an additional fluid working fluid, which must be pre-placed and held in the shut-off chamber by forcibly loading the piston until the fire-prevention pipeline is connected, which complicates its preparation and maintenance.

 In addition, an elastic ring cuff breaks from the piston by a pressure pulse in the inlet channel to start the device into operation and the overpressure of the flowing extinguisher to supply the fire extinguisher, which is carried away by the flow to the nozzle sprinkler, where it closes its cross-section, reducing or completely stopping the release of combustion inhibitors to the fire source.

 During official storage, due to possible leaks of the measured working fluid of the insulated shut-off chamber, the leak-tightness of the outlet windows is impaired, which uncontrollably takes the device out of the mobile protection of the fire hazardous volume.

 The problem to which the present invention is directed, is to increase the functional reliability of the locking and starting device while simplifying its design and commissioning.

 The required technical result is achieved by the fact that in the known locking and starting device containing connected inlet channel with the capacity of a fluid fire extinguisher, which is under pressure, a housing, on the side surface of which there is a window for the outlet to the sprayer, hermetically closed by a piston loaded with a fluid working medium of the locking chamber, communicating through a drain channel with a fragile membrane of the trigger mechanism, according to the invention, the piston is made telescopic, freely mounted on a ledge cylindrical second outer sleeve body cavity which has an undercut filar and a longitudinal hollow groove, wherein the locking pin is placed, mounted on a central stepped plunger provided with an axial through channel with a throttle bore in abutment, the axial contact seal, mounted in the end stop chamber.

 Distinctive features provided an increase in the functional reliability of a stand-alone device while increasing uptime.

 Performing a telescopic piston ensures that the exhaust window does not shut by its sleeve until the seal cuff is forcefully and geometrically closed in the inlet undercut of the sleeve end face with relative longitudinal movement of the central plunger displacing the working fluid body from the closure chamber communicating with the atmosphere, and the locking pin freely moves into the longitudinal groove of the sleeve.

 The telescopic piston serves as an additional step in the introduction of the device, which increases the accuracy and reliability of the sequential action of its structural functional elements.

 The force closure of the rubber ring cuff in the undercutting of the end face of the sleeve by the elastic forces of its material and friction after the deceleration time provides the piston with constructive solidity to move the outer sleeve by the central plunger and open the outlet window through which the fire extinguisher is supplied to the sprayer.

 The geometric closure of the annular cuff between the plunger and the piston sleeve prevents the possibility of mechanical breakdown, thereby eliminating unauthorized ejection of the cuff through the outlet port to the nozzle sprayer.

 Equipping the plunger with an axial through channel ensures automatic filling of the shut-off chamber with a fluid fire extinguisher, where it performs an additional function - a working fluid of a given volume for holding the piston in a tight shut-off position by the outlet bushing due to the difference in the area of the ends of the stepped plunger; since this creates a hydrodynamic clamp of the piston to the ledge of the housing.

 The locking finger holds the sleeve behind the blind longitudinal groove from reactionary reverse movement upon impact of the plunger stop in the contact seal of the closure chamber cover.

 The emphasis has a significantly smaller cross-section than the plunger end face, which provides a significant increase in the clamping force and, therefore, prevents the loss of the fire extinguisher through the drain channel.

 The throttle of the axial channel of the plunger from the side of the locking chamber serves to create local hydraulic resistance when the fluid extinguisher is blocked from the tank through the inlet channel.

 The elastic seal of the locking chamber is a damper for absorbing the energy of piston movement after the fragile membrane is destroyed by the trigger mechanism and a compensator for the vibrations that are harmful for isolating the working volume of the device.

 The direct connection of the fragile membrane of the drain channel of the shut-off chamber with an autonomous triggering mechanism increases the functional reliability and efficiency of the precise actuation of the shut-off device for remote opening of the end part of the fire-fighting pipe or tank with a pressurized fluid fire extinguisher.

 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, a new super-effect as the effect of the sum, and not the sum of the effects.

The essence of the present invention is illustrated by the drawing, which has only illustrative purpose, without limiting the legal scope of the formula, which shows:
figure 1 is a longitudinal section of a device;
figure 2 is the same in the working position.

 The proposed device comprises a housing 1 with an outlet window 2 on the side surface to the nozzle sprinkler of a fluid fire extinguisher (not shown conventionally). The cylindrical cavity of the housing 1 has a ledge 3, formed by a locking chamber 4 of a larger diameter and an inlet channel 5 that commutes with an autonomous capacity, in particular, through a tight threaded connection of the housing 1 with its neck.

 Inside the housing 1 there is a telescopic piston consisting of relative longitudinal displacements of the outer sleeve 6 and the central step plunger 7, which is sealed by means of rubber ring cuffs 8 and 9 in the locking chamber 4 and in the inlet channel 5, respectively.

 The outer sleeve 6 is mounted on the smaller diameter of the stepped plunger 7 and rests on the ledge 3 of the central cavity of the housing 1, hermetically closing its outlet window 2. At the lower end (according to the drawing) of the sleeve 6, an undercut 10 is made, and on the side there is a blind longitudinal groove 11, where located on the plunger 7, the locking pin 12.

 In the central plunger 7, a through axial channel 13 is made with a throttling hole 14 in the stop 15, protruding above the large end face of the plunger 7 located in the locking chamber 4.

 The housing 1 is closed by a cover 16, inside of which an axial stop 15 of the plunger 7 is mounted an elastic contact seal 17. In the cover 16 there is a drain channel 18 for switching the locking chamber 4 with a brittle membrane 19 closed by an opening 20 of the starting mechanism — automatic of any design or manual.

 A filling nozzle 21 is mounted in the housing 1, which communicates through the inlet channel 5 with the storage capacity of the fluid fire extinguisher under pressure, which, through the channel 13 of the plunger 7 with the throttling hole 14 in the stop 15, performs the shut-off chamber 4 and performs the functions of its fluid working fluid. In this case, due to the difference in the area of the ends, the stepped plunger 7 is in its lowest position, relying on the sleeve 6, which stands on the ledge 3 of the housing 1, blocking the exhaust window 2. The tightness of the isolation of the exhaust window 2 from the inlet channel 5 and the shut-off chamber 4 with a fire extinguisher under pressure is provided by cuffs 9 and 8, respectively.

 In the initial position (Fig. 1), the drain channel 18 is blocked by a membrane 19, an automatic start mechanism is installed in the landing hole 20, the cover 16 is screwed onto the housing 1 and seamlessly covers the open end of the shut-off chamber 4, and the housing 1 is screwed into a storage tank filled with a fluid fire extinguisher.

 Then, pressure is created through the nozzle 21 in the capacity of the fire extinguisher, the inlet channel 5 and the locking chamber 4, while the fluid fire extinguisher through the channel 13 of the plunger 7, the throttling hole 14 of the stop 15 enters the chamber 4 and due to the difference in the area of the ends of the stepped plunger 7, i.e. as a result of the load from the side of the chamber 4, presses it against the sleeve 6, which is located on the ledge 3, which overlaps the outlet window 2.

 The locking and starting device is ready for stand-alone operation.

 In the event of a fire in a protected fire hazardous area where the device according to the invention is installed, the trigger fuse is triggered when the set temperature is exceeded, the hollow needle of which destroys the membrane 19, communicating the closure chamber 4 with the atmosphere. When this is under pressure, a fluid extinguisher - the working fluid from the chamber 4 is thrown out through the channel 18.

 At the same time, the excess pressure of the extinguisher in the channel 5, the plunger 7 moves up, and its locking finger 12 along the groove 11 of the stationary sleeve 6, located on stage 3.

 Next, the rubber ring cuff 9 out of interaction with the surface of the channel 5 of the housing 1, expanding elastically, fills the input end undercut 10 of the sleeve 6, jamming it. This provides a force and geometric closure of the structural elements of the piston: the plunger 7 and the sleeve 6, which move further together, opening the exhaust window 2, where a fluid fire extinguisher rushes from the tank to the sprayer, which feeds combustion inhibitors in a finely divided form to the fire source, where the fire is suppressed for due to interruption of the chain of oxidative exothermic reactions.

 In the extreme upper position of the piston 7-6 (Fig. 2), the stop 15 is pressed with force into the elastic contact seal 17 of the end face of the cover 16, which elastically damps the energy of vibrations of the moving masses of the piston elements, and the freely installed sleeve 6 is kept from reverse reaction movement down to the exhaust window 2 with a blind groove 11 on the locking pin 12 of the plunger 7 and tightly overlaps the throttling hole 14 of the axial channel 13 communicating with the fluid extinguisher in channel 5, preventing its irrational loss through channel 18. Dro Sel 14 of the axial channel 13 of the plunger 7 from the side of the locking chamber 4 with a sharp upward movement of the piston after the brittle membrane 19 is destroyed, exerting a damping hydrodynamic resistance, reduces the flow of a fire extinguisher into the locking chamber 4 to the contact seal of the stop 15 of the piston 7 of the piston with an elastic seal 17. Fire extinguisher pressure in the inlet channel 5 additionally presses the plunger 7 and, therefore, the stop 15 to the seal 17.

 Thus, the startup and sequential actions of the actuators of the proposed device are carried out reliably and efficiently.

 A comparative analysis of the proposed device with identified analogues of the prior art, from which the invention does not explicitly follow for specialists in fire fighting equipment and automation, showed that it is not known, and given the possibility of its industrial serial production, we can conclude that the criteria for patentability are met.

Claims (1)

 A locking and starting device, comprising a pressurized extinguisher connected to the inlet channel and having a housing on the side surface of which there is an outlet to the spray gun, hermetically sealed by a piston loaded by the fluid working medium of the locking chamber communicating through the drain channel with the fragile membrane of the starting mechanism characterized in that the piston consists of relative longitudinal movements of the outer sleeve and the central stepped plunger mounted with the possibility of Ohm, the outer piston sleeve is freely mounted on the ledge of the cylindrical cavity of the housing and has an inlet undercut and a longitudinal blind groove in the end, where a locking pin is mounted, mounted on a central step plunger equipped with an axial through channel with a throttling hole in the stop, an axial contact seal mounted inside the cover locking chamber.

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