SU716557A1 - Locking and starting device for stationary fire-fighting equipment - Google Patents

Description

The invention relates to locking and starting devices installed on cylinders in batteries of stationary automatic fire extinguishing installations, as well as on single transport cylinders with gases, gases and liquids under pressure ⁵ , and more particularly, to locking starting devices of stationary automatic fire extinguishing installations in which the extinguishing agent is in pressurized containers.

Known locking and starting device for stationary fire extinguishing installations, in the housing of which there is a piston with a piercing needle, under the pointed end of which is located a membrane that covers the outlet. Reduction of the needle ¹⁵ is performed by a manual or remote lever-mechanical spo _g sobom [1].

A significant drawback of such a device is the lack of reliability? P due to the lack of a backup drive.

The closest in technical essence of the known devices is a locking and starting device for stationary fire extinguishing installations, comprising a housing with inlet and outlet openings and with pistons located in it, mounted on a hollow needle, a pyro cartridge, a charge and a manual start chamber with an additional needle and membrane [2].

When manually starting this device, the hollow needle punctures the membrane located under it only after creating a certain pressure (reaching, as shown by tests, 18 kgf / cm ² ) in the collector and above the pistons. Significant time is required to fill the volume of the collector and the connecting pipelines with working gas from the starting cylinder to this pressure through a relatively narrow and long hole, i.e. the fire extinguishing installation has an increased inertia.

The purpose of the invention is to increase the reliability and speed of the device.

This is achieved by the fact that the housing is detachable, and an annular groove is made along the plane of the connector, connected to the cavity of the manual start chamber and to the piston space.

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The drawing shows a longitudinal cut of the proposed device. The cantilever case consists of two parts: the upper 1 and the lower 2. On the upper part of the body on the hollow needle 3 there is a main 'piston 4 having an over-piston space 5, and an additional Piston 6, between which a small space 7 is formed. This space is a channel 8 communicates with the chamber 9 of the pyro cartridge 10 and the channel 11 - with an annular groove 12, which is connected by a channel 13 to the cavity of the manual start chamber 14. The upper part of the housing by a threaded fitting 15 is connected to the exhaust manifold. .

The lower pointed end of the hollow, the needle 3 is located in the hollow threaded plug 16, which is screwed into the * lower part of the body and presses the membrane 18 to the saddle 17. On the one hand, the manual start device is mounted on the lower part of the body - consisting of screwed in. The body of the fitting 19, the needle 20 and the membrane 21. On the other hand, in the lower part of the casing, ^ - lu'sa a device is provided for charging the cylinder with a fire extinguishing composition, consisting of a threaded fitting 22, a ball check valve 23 and a plug 24 .

Threaded fitting 25, the lower part of the housing with a siphon tube 26 is screwed into the cylinder. \

The operation of the locking and starting device occurs in the following order.

1. Start from a pyro cartridge.

In the event of a fire, the electrical signal from the fire detector, installed ___ in the room protected from the fire, is supplied in the form of electrical voltage to the contacts of the pyro cartridge 10 (this signal can also be supplied manually by pressing a button). As a result, the pyropatron charge explodes, and the explosion products in the chamber 9 create (excess pressure, which propagates through the channel 8 into the inter-piston space. 7. The piston 6 moves downward under the pressure of the explosion products and entrains the hollow needle 3. This is' The fused end of needle 3 pierces membrane 18.

• \ The extinguishing agent contained in the cylinder under excessive ........ pressure through the 'siphon tube 26, the inner cavity of the seat 17, the hollow needle 3 and the hole in the upper part 1 of the body enters the collector and then into the protected extinguishing fire. . ''

2. Manual start ..

In the event of a failure of the pyro-cartridge charge or in case of its uselessness, the device can

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SS can be manually enabled. To do this, press the needle head 20 or lightly hit it. In this case, the pointed end of this needle will pierce the membrane 21. The pressure from the cylinder will propagate into the chamber 14, the needle 20 will return to its original position under the action of the spring and pressure, and from the chamber 14 through the channel 13, the annular groove 12 and the channels 11 and 8 into the inter-piston space 7. Further operation of the parts of the device occurs as described for starting from the squib charge.

3. Start from neighboring cylinders, united by a common collector.

In the event of a pyro cartridge charge failure and manual start-up, the device can automatically turn on, if at least one of the cylinders united by a common collector has tripped and excessive pressure has created in the collector. In this case, the pressure is created both in the hollow needle 3 and in the yaw-root space 7. Under the influence of this pressure, the upper Piston 4 moves down, entraining the hollow needle 3, which punctures the membrane 18 and releases the extinguishing agent.

Thus, due to the shut-off-trigger housing of the · · device detachable with the creation of an annular groove in the plane of the groove of the channels with the manual start chamber and with the piston space, the time was reduced and the reliability of operation during manual start was increased due to the small volume of the piston space.

Claims (2)

... „i. WV -. V Ha drawing shows a longitudinal section of the proposed device. The device housing consists of two parts: the upper 1 and the lower 2. At the upper part of the housing on the hollow needle 3, there is a main piston 4 having a piston space 5, and an additional piston B, between which a small space 7 is formed. This space is communicated by channel 8 with the chamber 9 of the pyrogtatron charge 10 and the channel 11, an annular groove 12, which is channel 13 with the cavity of the manual start chamber 14. The upper part of the housing is connected with a threaded nipple 15 to an outlet pin. The lower pointed end of the hollow needle 3 is located in the hollow threaded plug 16, which is still IT lower part of the body and presses the diaphragm 18 to the saddle 17. On the one hand, the lower part of the body is equipped with a manual start DL device, consisting of a fitting screwed into the body 19, a needle 20 and a membrane 21. On the other hand, in the lower part of the core; there is a device for charging a cylinder with a fire extinguishing composition, consisting of a threaded nipple 22, a ball check valve 23 and a stopper 24. A threaded nipple 25 lower part of core A siphon tube 26 is inserted into a cylinder.: - -:; :::.,:; The locking and starting device is operated in the following order. 1. Start from a squander charge. In the event of a new electric fire from the fire detector, which is located in the room protected from the fire, it is applied as an electrical voltage; this is applied to the contact charge carrier 10 (this signal may be given by pressing a button). As a result, the explosive charge explodes, and the products of the explosion in chamber 9 create an overpressure I, which propagates through channel 8 to the inter-target space. 7. The piston 6 under pressure of the products of the explosion moves the hollow needle 3 behind it. The PrGetol end of the needle 3 pierces the membrane 18. The reservoir under the Excess Pressure extinguishes the fire extinguishing composition via a siphon tube 26, BHytpeHHKKfio. A heat spreader in the upper part of the enclosure enters the collector and then into the protected space on the Tscheny e Scarra. .-..-.--. 2. Manual start ... In case of failure of the pyro cartridge charge or in case of its uselessness, the device MO716557 can be switched on manually. To do this, you need to click on the needle head, 20 or slightly hit it. In this case, the pointed end of this needle is located on the membrane 21. The pressure from the balloon spreads into the chamber 14, the needle 20 under the action of the spring and pressure returns to its original position, and from the chamber 14 through the channel 13, the annular groove 12 and the channels 11 and 8 interpiston space 7. Further work of parts of the device proceeds as described for starting from a pyrocardiogram. 3. Start from adjacent cylinders united by a common collector. In the event of failure of the squib charge and manual start-up, the device can automatically turn on if at least one of the cylinders united by a common manifold has worked and an overpressure has been created in the manifold. In this case, the pressure is created both in the hollow needle 3 and in the piston space 7. Under the action of this pressure, the upper piston 4 moves down, pulling the hollow needle 3, which pierces the membrane 18 and releases the extinguishing agent. Thus, by making the casing of the locking-pulling device disconnected with an annular groove in the plane of the connector with channels for the manual start camera and with the interpiston space, the time was reduced and the reliability of operation during the manual start increased due to the small volume of the inter piston space. Claims A locking device for stationary fire extinguishing installations comprising a housing with INPUT and OUTPUT. Holes and with pistons located in it, mounted on a hollow needle, a squib charge and a manual start chamber with an additional needle and membrane, characterized that, in order to increase the reliability and speed of the device, the body is made detachable, and an annular groove is made along the plane of the connector, which is connected to the cavity of the start-up camera with the interstitial space. , - „,,.,.:; : .1 sources of information taken into account in the examination. 1. Patent of Germany No. 1028886, cl. 61 a 14/02. 1962. , 2. USSR author's certificate No. 569313, cl. -A 62 C 37/06, 1974 (prototype). .,.;. ,,.:.: .- l V,: l: /