RU2396096C1 - Device for extinguishing of fire in container for storage and transportation and accessory for assembly of this device - Google Patents

Abstract

FIELD: means of protection.

SUBSTANCE: device for extinguishing comprises module with stop-start device (SSD) mounted in railway or marine container for storage and transportation, and module is filled with gaseous fire-extinguishing substance (GFES) connected to pipeline for supply of gaseous fire-extinguishing substance. Control signal pipeline, where at least one hole is provided, filled with fusible alloy, is connected to module SSD as installed in upper part of container. Module SSD comprises body, inlet hole of which is connected to cavity of module, front chamber of body contains outlet hole, valve is arranged between front and back chambers to close inlet hole in closed position of SSD, and connection element joined to control signal pipeline and installed in upper part of body. SSD body includes channels, which connect back chamber to connection element, and valve comprises hole that connects inlet channel to back chamber in closed position of SSD. To connect control signal pipeline with SSD in process of pipeline assembly in container, there is an accessory including front and back flanges installed on front and back parts of SSD body accordingly and tightened with pins, at the same time pin is installed in front flange and is screwed into valve, where stop ledge is formed for interaction with front flange, where hole is provided for discharge of GFES pressure in case of emergency actuation of SSD.

EFFECT: improved reliability of device operation, simplified assembly and trouble-free assembly of device in container.

13 cl, 6 dwg

Description

The invention relates to the field of fire fighting and can be used in railway or sea containers for long-distance transportation of goods.

Various design fire extinguishing devices are known.

The closest in technical essence is a device for extinguishing a fire in containers, containing the main and standby modules with a locking and starting device (ZPU), filled with a fire extinguishing agent, connected to a pipeline for supplying a fire extinguishing substance, and the ZPU of each module is connected to a signal element that operates when the occurrence of fire (RU 19266 U1, А62С 35/10, 2001).

A disadvantage of the known device is its complexity and low reliability when used in containers for long-distance transportation of goods.

The objective of the invention is to increase the reliability of the device.

The task is achieved due to the fact that in the device for extinguishing a fire in a container containing a main module with a cylinder filled with gas fire extinguishing agent (GOTV), and a locking and starting device (ZPU) mounted on the cylinder, connected to the pipeline for supplying GOTV, to a signal pipeline is installed in the container, in which at least one hole is made, filled with a substance that collapses with increasing temperature, the signal pipeline is connected to the switchgear of one of the modules, and the switchgear of each module it holds the casing, the inlet pipe of which is connected to the cavity of the module balloon, an outlet pipe is made in the front chamber of the casing, a valve is located between the front and rear cameras, in the closed position, the control valve covers the inlet pipe, the rear chamber located behind the valve, and the control connection is installed in the upper part of the casing an element associated with the signal pipeline, in the housing of the ZPU channels are made that connect the rear chamber to the connecting element, and a hole is made in the valve connecting the inlet pipe ok with the rear chamber in the closed position of the ZPU, while the diameter of the hole in the valve and the diameter of the signal pipe are selected taking into account that the hydraulic resistance of the aforementioned hole is greater than the hydraulic resistance of the control signal pipe.

In particular, the cross-sectional area of the hole in the valve connecting the input channel of the ZPU to the rear chamber in the closed position of the valve can be several times smaller than the cross-sectional area of the control signal pipe.

The device may contain a second module with a cylinder filled with GOTV, and mounted on a cylinder of an air conditioner, a pipeline for supplying GOTV to the container and a control signal pipeline that are made and connected similarly to the corresponding first module and pipelines, while the first and second pipelines for supplying GOTV to the container is interconnected, and check valves are additionally installed on them to prevent the triggering of the second module when the first module is triggered and vice versa - in the event of emergency operation the second module.

To connect the control signal pipe and the control valve, the valve can be equipped with means for fastening the valve relative to the case of the closed switch in the closed position.

It is advisable to place the said means for fastening the valve relative to the housing of the ZPU in the closed position at the end of the valve facing the outlet pipe of the corresponding ZPU.

The means for mounting the valve in the closed position, it is advisable to perform in the form of holes with internal thread.

The device is equipped with a first stopcock located between each control signal pipe and the switchgear and designed to fill the said pipeline when it is connected to the switchgear.

The device is equipped with a second stopcock designed to connect the rear chamber of each ZPU with the environment during manual start-up.

It is advisable to use a low-melting alloy as a substance filling a hole in each control signal pipeline and collapsing with increasing temperature.

For ease of installation of the device, as well as for the safety of connecting the signal pipeline to the switchgear of the module used (to prevent accidental opening of the switchgear and the release of the GOTV), a device is proposed that contains a removable support for mounting on the housing of the switchgear and a connecting element designed to connect the removable support to the tool for fastening the valve in the closed position, while in the removable support a central hole is made for the passage of the connecting element.

The device can be made in the form of a removable support, designed for mounting on the housing of the switchgear, and a connecting element designed to connect the removable support with means for mounting the valve in the closed position, while the removable support has a central hole for passage of the connecting element.

In this case, it is advisable to make a locking protrusion on the connecting element, which is intended to abut the removable support from the outlet pipe in the event of an emergency operation of the ZPU.

Technologically feasible, if the connecting element is made in the form of a threaded rod.

It is advisable to make the removable support in the form of front and rear flanges interconnected, designed to be placed respectively on the front and rear parts of the housing of the ZPU, with the central hole intended for the passage of the connecting element made on the front flange.

In the front flange, it is advisable to make a passage to relieve the pressure of the GOTV in the event of an emergency operation of the ZPU.

The essence of the utility model is illustrated by drawings, in which:

figure 1 presents a top view of the container with the modules installed on it,

figure 2 - section aa in figure 1,

figure 3 is a view of B in figure 2,

figure 4 - signal pipeline

figure 5 - ZPU mounted on the module, and a device for its installation;

figure 6 is a top view of the ZPU module and auxiliary cranes.

Modules with GOTV - the main 2 and standby 3 - are mounted on the end wall of the container 1. There is also a pipeline 5 for the release of GOTV, which runs along the container along each wall. On the pipeline, nozzles 6 for GOTV spraying and check valves 7 are installed, which serve to prevent the possible operation of one of the modules when the other is triggered.

In the center of the ceiling of the container 1, a signal pipe 4 is installed, which is a control element for the switchgear, which goes to the end wall of the container 1 and is attached to the main module 2. The signal pipe 4 is made of a copper tube in which at least one hole is filled a substance that collapses with increasing temperature (for example, fusible alloy). The signal pipeline 4 is connected to the switchgear of one of the modules.

In the upper part of the ZPU, a connecting element is installed, made in the form of a removable fitting 8, which is mounted in the housing 9 of the ZPU with a union nut 24. On the nozzle 8, with the help of a union nut 25, an intermediate pipe 29 is attached, which is closed by a ball during transportation to the installation site and during installation the crane 26, while the input of the intermediate pipe 29 is connected to the rear chamber 13 of the ZPU channel 10 in the housing 9 of the ZPU.

A radial hole 12 with a diameter of 0.5 mm was drilled in the valve 11, connecting the module 2 with the rear chamber 13 through a recess in the valve 11 for the spring 14 and designed to equalize the pressures at both ends of the valve 11 (i.e., in the module 2 and the rear chamber 13 ZPU). The hole diameter was chosen to be minimal based on the following functional and technological considerations: so that when the signal pipeline (and the GOTV exits) in the event of fire, the GOTV from the module does not have time to fill the rear chamber 13 of the control module of the corresponding module, thereby equalizing the pressure on both sides of the valve 11 and prevent the valve 11 from retreating back (to the rear chamber 13 of the CCA) 11, while opening the outlet pipe 21 of the CCA, to which the pipe 5 for the release of the GOTV is connected, and to exit the GOTV module.

Installation and filling of the signal pipeline 4 GOTV is carried out using a device containing front 15 and rear 16 flanges that are installed on the front and rear parts of the housing 9 (from the outlet 21 of the ZPU and the rear chamber 13, respectively) and pulled together by pins 17, while a threaded element (stud) 18 is installed in the front flange, which is screwed into the threaded hole 22 made for this purpose in the valve 11. In the section of the stud 18 located on the inside of the front flange 15 (between the housing 9 of the ZPU and the surface of this flange 15) facing it has a locking protrusion 19 designed to interact with the said surface of the flange 15 when the stud 18 (or its threaded connection with the valve 11 breaks) in the event of an unauthorized emergency operation of the ZPU. When mounting the signal pipeline 4, the valve 11 is fixed in the closed position by the pin 18 (pressed against the housing of the ZPU) through the interaction of the flange 15 with the nut 23, which holds the valve 11 in the closed position and prevents the GOTV from the module 2 to the pipeline 5. In the front flange 15 is made hole 20 for the GOTV exit from the cavity under the front flange 15 during emergency operation of the ZPU.

After installing the device and fastening the signal pipe 4 using the union nut 30 to the tee 28 open the valve 26 (Fig.6). READY from the rear chamber 13 through the channel 10, fitting 8, an open valve 26 and a tee 28 enters the signal pipe 4 and fills it. At the same time, through the hole 12, the GOTF from module 2 enters the rear chamber 13 and equalizes the pressure in it and in the signal pipe 4. The handle is removed from the valve 26 to prevent accidental closure.

After filling in the signal pipeline 4, the device must be removed, thereby releasing the valve 11, which remains under the action of the spring 14 in the condition that the pressures acting on it from different sides are equal in the closed position, and connect the pipe 5 for the release of the GOTV to the outlet pipe 21 of the control valve.

In case of fire with increasing temperature, the substance filling the hole (s) in the signal pipe 4 (for example, fusible alloy) is destroyed. From the last and, accordingly, from the rear chamber 13 of the ZPU, GOTV exits. The pressure balance from different sides of the valve 11 (from the rear chamber 13 and the outlet pipe 21) is violated. The pressure from the module 2 (from the side of the outlet pipe 21) takes the valve 11 back and thereby opens the outlet pipe 21 of the ZPU for the GOTV to exit into the pipeline 5 and supply it to the container 1 to extinguish the fire.

If you need to start the module manually opens the valve 27 (Fig.6), connected, like the valve 26, with the tee 28 using the intermediate pipe 31, while through it the pressure GOTV is released both from the signal pipe 4 and from the rear chamber 13 of the switchgear , after which the valve 11 moves back and also opens the outlet pipe 21 of the ZPU to exit the GOTV into the pipeline 5 and supply it to the container 1 to extinguish the fire.

In the event of a device tripping and emptying of the main module 2, the backup module 3 is connected, for which it is necessary to disconnect the signal pipe 4 from the tee 28 of the main module 2 and connect it to the tee 28 of the backup module 3, as described above, by mounting the aforementioned device on the casing 9 of the backup module 3.

The invention improves the reliability of extinguishing a fire in a container, simplifies installation of the device and provides trouble-free installation of the latter.

Claims (13)

1. A device for extinguishing a fire in a container for storage and transportation, containing a module with a cylinder filled with gas fire extinguishing agent (GOTV), and with a locking and starting device (ZPU) mounted on the cylinder, as well as pipelines designed to connect to the ZPU: pipeline for supplying GOTV to the container and the control signal pipeline, in which at least one hole is made, filled with a substance that collapses with increasing temperature, and in the housing of the ZPU are made: an input channel connected to the cavity a cylinder, an outlet pipe connected to a pipe for supplying GOTV to the container, and a rear camera connected to a means for connecting a control signal pipe mounted on the ZPU case, while a valve spring-loaded towards the ZPU outlet pipe is located between the outlet pipe and the rear camera in the ZPU case in which a hole is made connecting in the closed position of the valve the input channel of the ZPU with the rear chamber, and the hydraulic resistance of the aforementioned hole is greater than the hydraulic resistance tance pipeline control signal. 2. The device according to claim 1, in which the cross-sectional area of the hole in the valve connecting in the closed position of the valve inlet channel ZPU with the rear chamber is less than the cross-sectional area of the control signal pipe. 3. The device according to claim 1, in which the valve ZPU module is equipped with means for mounting the valve relative to the housing ZPU in the closed position. 4. The device according to claim 3, in which the means for mounting the valve relative to the housing of the ZPU in the closed position is located at the end of the valve facing the outlet of the ZPU. 5. The device according to claim 4, in which the means for fastening the valve in the closed position is made in the form of a hole with an internal thread. 6. The device according to claim 1, which is equipped with a first shut-off valve located between the control signal pipe and ZPU. 7. The device according to claim 1, which is equipped with a second stopcock designed to connect the rear chamber of the ZPU with the environment during manual start-up. 8. The device according to claim 1, in which a fusible alloy is used as the substance filling the hole in the control signal pipe and collapsing with increasing temperature. 9. A device for mounting a device according to any one of claims 1 to 8, comprising a removable support for mounting on the housing of the switchgear and a connecting element for connecting the removable support to the means for mounting the valve in the closed position, while in the removable support Central hole for passage of the connecting element. 10. The device according to claim 9, in which a locking protrusion is formed on the connecting element, designed to abut the removable support from the outlet pipe in the event of an emergency operation of the switchgear. 11. The device according to claim 9 or 10, in which the connecting element is made in the form of a threaded rod. 12. The device according to claim 9, in which the removable support is made in the form of interconnected front and rear flanges, designed to be placed respectively on the front and rear parts of the housing of the ZPU, while the Central hole for passage of the connecting element is made on the front flange . 13. The device according to item 12, in which a passage is made in the front flange for depressurizing the GOTV in the event of an emergency operation of the ZPU.

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