RU25691U1 - LOCKING AND STARTING DEVICE - Google Patents

Description

LOCKING AND STARTING DEVICE. The polar model relates to fire fighting equipment, and more specifically, to an output device installed on fire extinguishing systems with a self-contained sprinkler, O1 non-extinguishing substance flows, stored in a pressure iodine tank. The prior art in this area is characterized by a major device for remote opening of the end part 1 of the anti-fire pipe according to patent RU 2031675, A 62C 37/00, 1995 i. containing a fluid which is connected by means of an inlet channel to a fire-extinguishing substance, which is iodine-pressure, a housing, on the lateral surface of which there is a window for the spray outlet that is sealed by a piston, a fluid working fluid of the air chamber communicating through the drain channel with a fragile trigger mechanism membrane. The disadvantages of this device are as follows. The inability to use substances in fire extinguishing systems with autonomous O1-extinguishing containers without special mechanisms that create an impulse of excess pressure in the exhaust channel. The need to use an additionally fluid working fluid, which is preliminarily placed in the shut-off chamber and forcedly firing the piston, eio live before connecting the fire-fighting pipe, makes the operation and maintenance of the device tighter. Unsatisfactory functional reliability, firstly, due to the overlap of the conjiOBOio sprinkler through passage :: with an elastic cuff that is torn off and the piston by a starting impulse of the supply pressure of a substance that doesn’t reduce or even completely cease emission of rhenium inhibitors in A 62C 37/08 I fire, and secondly, the possible leakage of the measured volume of the body cavity during storage in the closure chamber violates the tightness of the outlet windows, which causes the device to lose its readiness for work and Protect the fire risk object. The noted disadvantages are eliminated in the starting-up device described in the application for utility model 2002106641, А62С 37/08, publ. with a priority of March 25, 02, containing a housing connected to the inlet channel with a container of fluid O1 extinguishing substance under pressure, on the side surface of which above the ledge there is an outlet window for the sprinkler, hermetically sealed by a step piston with an axial channel equipped with a positioning mechanism for working position, and a locking chamber with a lid carrying a pyrotechnic trigger mechanism, including a coaxial punch and a fragile membrane installed in the drainage channel. A feature of the device is the execution of a piston as a telescopic one, the free iJTyjiKa KOTOpoio freely installed on the ledge of the cylindrical cavity of the body has a irode 1-} ear groove for placing a stopper finger, locked onto a central stepped plunger equipped with an axial through channel with a throttling hole in the throttle hole axial contact seal mounted inside the cover of the shut-off chamber, which collectively perform the functions of positioning the working position of the piston when the storage capacity of the commutator It is connected with the outlet window of the housing. - The outer sleeve of the staghorn larison has an undercut in the highlander, where it is located, and the sealant is rigidly fixed, however; The disadvantage of the 1 aaior-iiycKOBOi-o device, chosen by 110 the number of matching irianaki as the closest analogue, is the structural complexity of the telescopic SKio pistons and the technological adjustment of the interaction sequence of eio structural elements for accessing storage and functioning modes 5, taking into account the additional 1-o cToiiopHOio mechanism positioning the working position of the movable piston elements. In addition to Toio, the relative time taken to fire the fire extinguishing device due to the delay is unsatisfactory due to the delay. oval displacement of the paGo4eio body from the volumetric locking chamber through the throttling drain channel of the trigger mechanism. Another disadvantage of the known design is the instability and vibrations of the process of the flashing element of the device upon start-up and high dynamic loads during fatigue. The reliability of isolating the storage capacity of O1 non-extinguished substance from the atmosphere when positioning the operating position of the device depends on the elasticity of the absorbing 1O1 hydraulic shock of the seal of the stopper of the pressure-reducing piston, which decreases in time, which can cause reactive vibrations of the structural elements of the telescopic piston in the dynamics of the channel overlap eioceBio. As a result, the release of O1 non-extinguishing substance slows down due to partially the overlapping output. windows, which is irrationally consumed through the drainage channel. The task, the solution of which is the basis of this utility model, is to increase the functional reliability of the shut-off and start device by simplifying the eio design, accelerating cocking and increasing the effectiveness of fire extinguishing. A well-known aaiiopHO-iiycKOBOM device, comprising a housing removed by a Niusk channel with a fluid O1 container that is immaterial, pressurized, on the oversized surface of which there is a window to the spreader over the spreader, sealed by a step piston having an axial channel and provided with an axial channel The positioning process includes working iologen, and an air chamber with a drainage channel, closed by a lid carrying a trigger mechanism, interacting with a fragile membrane, according to the invention, the mechanism stepwise 1o of the piston, 11 by means of a spring 1eometrically closed 1o on the ledge of the housing, made in the form of a non-return ball-valve of the eiO oceBoio channel, and an openly brittle membrane; while the drainage channel of the locking chamber is equipped with a shutter. The installation of a brittle membrane in the axial channel stepwise pistons, loaded with a spring, allows you to use the outlet window as a refueling fluid extinguishing agent with pressure, as well as to exclude the fluid working fluid removed at startup in the shut-off chamber, which simplifies the design and increases the mobility of the cocking device. The geometrical closure of the stepwise piston on the ledge of the housing by means of a spring installed in the shut-off chamber ensures a tight seal and the original window in the service position of the device and, first, damping of the hydraulic piston shock when the shut-off chamber communicates with the storage capacity about the substance that is absent after the membrane is destroyed from the starting mechanism. Placing in the axial channel of the piston, blocked by a brittle membrane, a ball-type non-return valve, ensures a quick charging of the device by eliminating the intermediate volume of the working body in the shut-off chamber and the throttling drain channel, and it also automatically fixes the i-dynamic L piston displacement with step of the casing, a permanent working aazor is formed for the exit of the flowing learning O1 non-extinguishing substance into the window of the casing to the working carrier. At an atom, an additional technical result is achieved by increasing the mobility of suppressing the ochium oranium in the protected volume by reducing the time and completeness of the ejection of the coolant through the message gap of the storage tank eio with the exit window of the device casing, fixed by means of a predetermined rod positioning mechanism. The shutter of the drainage channel of the locking chamber ensures the safety of the functioning of the device, through which an excess of 1az is discharged under abnormal pressure pulses, preventing false triggering and loss of the costly O1 non-extinguishing substance. From the working pressure of the fluid extinguisher about the substance in the shut-off chamber, when the device is cocked, the shutter is activated by drainage on channel 5, isolating it from the atmosphere. In this case, the positioning mechanism fixes the position of the piston, which remains unchanged in operation, when the inlet and outlet channels of the housing are communicated until the discharge of O1 non-extinguishing substance is complete. Therefore, 5 each essential sign is necessary, and their combination in a stable relationship is sufficient to achieve the novelty of quality that is not inherent in signs of disunity. A comparative analysis of the proposed design of the locking KKOBOio device with the identified prior art analogues does not explicitly follow the invention from KOTopoio for a specialist in the fire industry, it is not known, and taking into account the possibility of commercially available production, it can be concluded that the criteria for patentability are met. L 1de is schematically depicted: - Fig. 1 is a longitudinal section of a device and a device; - on fi1.2 - the same 5 and in the working position. The zaorn-iusky device is designed to complete fire extinguishing modules by spraying the iodine present in pressure in a cylinder of a fire-extinguishing substance: compressed or liquefied gas, water and pressure. The housing 1 has an inlet channel 2-, which is switched on the storage tank, which is flowing of O1 non-extinguishing substance, and the outlet to the sprinkler (not shown conventionally) is ok: but 3. In the housing 1, a step piston 4 is installed, which is spring 5 mounted in the shut-off chamber 6, pressed against the ledge 7 from the BiiycKHOio side of channel 2. The piston 4 has a through axial channel 8, which is closed by a ball 9, which functions as a backward valve. rupkaya membrane 10, insulating them in the service storage. The chamber 6 is closed by a lid 11, in which a hollow knife 12 of the triggering mechanism 13, in particular a pyrotechnic | -azo1 generator with electric and manual initiation, is mounted coaxially with the membrane 10 with the possibility of longitudinal movement. In the drainage channel 14 of the cover 11 of the locking chamber b, a shutter 15 is installed, made in the form of ball valves. In the initial position of the device (fi1.1), mounted on a cylinder high about pressure, the piston 4 is in its highest position and pressed against the ledge 7 of the housing 1, 1 hermetically closing the outlet window 2.

i TI storage iodine pressure, while the piston 4 is wrung out from the ledge 7, forming a technological AAAOR. After charging the container O1 with a non-extinguishing substance under the action of the spring 5, the piston 4 returns to its original position, blocking the BHiiycKHoe window 2. In the position of service storage of the O1 non-extinguishing substance in the container under pressure, the piston 4 is hermetically pressed to the step 7, and the ball 9, being in the volume of the Booro channel 8 of the piston 4 closed by the membrane 10, without load, closes the message with the O1 non-extinguishing substance storage tank under its own weight under pressure. I-OTOBO locking and starting device for autonomous work. In the event of a fire occurrence in the protected fire hazardous volume from exceeding the set temperature level, the fire alarm system activates, the control pulse of which initiates the operation of the pyrotechnic 1О i-azo generator 13. The pressure pulse of the gaseous medium entering the cover 11 from the pyrotechnic mechanism 13 for 1 start, knife 12 moves down and destroys the brittle membrane 10 by commuting the low-pressure volume of the shut-off chamber 6 above the piston 4 with a fluid O1 non-extinguishing substance stored in excess capacity pressure. O1-extinguishing substance, freeing the axial channel 8 of the piston 4 from the ball 9 (fi1.2), fills the working chamber 6, displacing air through the drainage channel 14. At the atom, due to the difference in the areas of the opposite ends of the piston 4, exceeding the pressure force from above, dynamically compressing the spring 5, the piston 4 smoothly moves down and moves away from the ledge 7 of the housing 1, thereby providing free access of the extinguishing agent to the device’s sprinkler. t Nala 8, iaolirovanie the locking chamber 6, which stops the movement of the piston 4 Down, positioning the working position. In the resulting working gap 16 (fi1.2) between the step 7 and the lower end of the piston 4, the flowing O1-extinguishing substance through the outlet window 3 enters the sprinkler 5 which delivers an inhibitory material on the eyes of the fire, suppressing the fire. As the O1 non-extinguishing substance is consumed, the pressure in the storage tank decreases and therefore the pressure of the ball 9 against the hole of the channel 8 is increased. This ensures that the working gap 16 remains unchanged during the whole cycle of the device’s operation and, as a result, the time of ejection of the extinguishing mixture and the fire fighting efficiency are reduced. In this way, the start-up and sequential actions of the executive mechanisms of the proposed HOio device are carried out automatically, reliably and rationally. The device provides for manual start of the gas generator 13 by the operator. The pressure B of the storage tank of O1 non-extinguishing substance and, therefore, in the locking-starting device is selected, in particular, for freons of 40-60 kAc / sq.cm, for carbon dioxide of the order of 150 KI-C / KB. cm and 200-300 kgf / sq.cm the length of apiOHa and 1az composition Iner1en. At the same time, the simple and reliable design of the device is assembled and disassembled by hand, which is re-charged for extinguishing agent. The proposed locking-starting device is characterized by a low inertia of starting and a high degree of leakproofness normally closed1o on the ledge of the piston body sensitive1o the element of the piston by the pressure of the extinguishing agent in the cylinder, which increases the reliability of the service storage of the device and eio's readiness for automatic operation.

Claims (1)

A locking-starting device comprising a housing connected by an inlet channel to a container of a fluid extinguishing agent under pressure, on the side surface of which there is an outlet to the sprayer above the ledge, hermetically closed by a step piston having an axial channel and equipped with a working position positioning mechanism, and a locking a chamber with a drainage channel, closed by a lid carrying a trigger mechanism, interacting with a fragile membrane, characterized in that the positioning mechanism is stupa the piston through a spring geometrically closed on the ledge of the housing is made in the form of a check ball valve of its axial channel, blocked by a fragile membrane, while the drainage channel of the locking chamber is equipped with a shutter.