RU2461402C1 - Fire fighting module - Google Patents

Abstract

FIELD: fire protection.

SUBSTANCE: invention relates to a fire technique, namely, to stationary extinguishing modules using, as an extinguishing agent, liquefied gases under positive pressure of their own vapor or gas-propellant, or a liquid (water, water with additives) under positive pressure of gas-propellant. The fire fighting module includes two-neck balloon working under pressure. In each bottle neck shut-off and starter device is installed, including a housing with inlet and outlet openings with the valve located between them to release the extinguishing agent, and opened mechanically. Inlet opening of one of the shut-off and starter devices is connected to the liquid phase of the extinguishing agent, and an outlet opening - with a device of its release, while the outlet opening of the other shut-off and starter device is connected to the gas phase of the two-neck balloon.

EFFECT: simplified design, reduced consumption of materials, improvement of processability.

6 cl, 4 dwg

Description

The invention relates to fire fighting equipment, and in particular to stationary fire extinguishing modules using liquefied gases, which are under excessive pressure of their own vapor or propellant, or liquids (water, water with additives), which are under excess pressure of the propellant, as a fire extinguishing agent.

In the general case, a fire extinguishing module is a cylinder operating under pressure, with a shut-off and starting device for releasing a fire extinguishing agent installed on it (for example, see GOST R 53281-2009 “Automatic gas fire extinguishing installations. Modules and batteries. General technical requirements. Test methods "). The locking and starting device, as a rule, includes an inlet connected (usually by means of a siphon tube) to the liquid phase of the extinguishing agent, an outlet for discharging the extinguishing agent from the cylinder, and also located in the housing of the locking and starting device between the inlet and device for opening the supply channel of the extinguishing agent (valve or membrane type), which for the release of the extinguishing agent is opened using a trigger device (made, for example, AZE solenoid or cutter) which is triggered by the start pulse.

In addition, the modules must be equipped with devices for monitoring operating parameters. So, for example, a module using a compressed propellant to pressurize the module must be equipped with a propellant pressure control device (for example, a pressure gauge or pressure indicator), and the design of the connection unit of the pressure control device must be able to be removed for periodic inspection without discharge module. A module with liquefied gas under pressure of its own vapor (for example, carbon dioxide) must be equipped with a device for controlling the mass of the extinguishing agent or its level in the cylinder, and also have a safety device (for example, a bursting disc or valve) that provides pressure relief in case of excess pressure in the cylinder.

The known gas fire extinguishing module type MGP "ATAKA" manufactured by LLC "Technos-M +", the layout of which is given on the website http://www.technos-m.ru/upload/files/pasport_mgp_hl_azot.pdf (On page 27 shows the layout the module in a vertical version, and on page 28 there is a variant of the layout of the module in a horizontal version, which differs from the vertical version by the presence of a curved siphon tube). It can be seen from the figures that the structural scheme of the module is implemented in such a way that all the components necessary for the module to function are installed in one housing of the locking and starting device installed in the neck of the cylinder. As a result, the design of the locking and starting device of this fire extinguishing module is difficult to manufacture, expensive, metal-consuming, making, in turn, the fire extinguishing module itself expensive.

Known fire extinguishing module with a finely divided liquid [Description of the invention to the patent of the Russian Federation No. 2293582 dated 02.03.2005, IPC A62C 35/00, publ. 02.20.2007], which contains a container with a fire extinguishing liquid, which is a cylinder with two necks, equipped with a locking and starting device, a siphon tube located in the cavity of the container, the inlet end of which is connected to the mixing chamber, a pressure gauge and a safety valve. The mixing chamber is located between the collector and the locking-starting device, is equipped with a check valve and is connected through the collector to the upper neck of the tank on which the tap is located, while the collector is equipped with a gas plug outlet valve, and the lower neck equipped with a tap is made in the tank. In addition, the lower neck of the tank is equipped with a device for controlling the level of extinguishing agent.

In the module under consideration, the extinguishing agent discharge device consists of separate devices connected in series - a safety valve, a pressure gauge equipped with a tap, a tap for checking the locking and starting device, the locking and starting device itself, which can be made in the form of an electromagnetic valve, etc. a large number of connected parts with an appropriate number of sealed joints between them significantly reduces manufacturability, increases material consumption and rudoemkost module manufacturing, increases the cost of the module itself and its services.

The problem solved by the invention and the technical result achieved are to expand the range of manufactured fire extinguishing modules, simplify their design, reduce material consumption, increase manufacturability and, as a result, reduce the cost of modules.

To solve the problem and achieve the claimed technical result in the fire extinguishing module, which includes a two-necked cylinder, working under pressure, in each neck of which a locking and starting device is installed, which includes a housing with inlet and outlet openings with a valve located between them for releasing fire extinguishing material, which is opened mechanically , the inlet of one of the locking-starting devices is connected to the liquid phase of the extinguishing agent, and the outlet is connected to the device of its release, when ohm inlet of another shut-off trigger device is connected with the gas phase dvuhgorlovogo cylinder.

Besides:

- the outlet of the locking-starting device connected to the gas phase of the two-necked cylinder is configured to install a device in it for monitoring the operating parameters of the module;

- the outlet of the locking-starting device connected to the gas phase of the two-necked cylinder is configured to charge the module with the device for monitoring its operating parameters removed;

- the valve of the locking and starting device, the inlet of which is connected to the gas phase of the two-necked cylinder, is configured to shut off the gas phase exit of the extinguishing agent or propellant to periodically check the operating parameter monitoring device when it is disconnected without discharging the module;

- at least one of the locking and starting devices installed in the two-necked cylinder is equipped with a safety device that operates when the pressure in the cylinder is higher than the permissible;

- the valve opening mechanism of the locking-starting device, connected by the inlet to the liquid phase of the extinguishing agent, is equipped with a starting device triggered by a starting pulse.

The invention is illustrated by drawings, where:

- figure 1 shows an embodiment of the module in horizontal (ceiling, wall and floor) performance.

- figure 2 shows a fragment of a cross section of the housing of a typical locking and starting device from the connecting thread;

- figure 3 shows a variant of implementation of the module in a vertical (floor or wall) design with the outlet of the locking and starting device for the release of extinguishing agent, located in the upper neck.

- figure 4 is an embodiment of a module in a vertical (floor or wall) design with an outlet of a locking and starting device for releasing a fire extinguishing agent located in the lower neck.

The fire extinguishing module includes a two-necked cylinder 1 operating under pressure, in the mouths 2 and 3 of which typical locking and starting devices 4 and 5 are installed (see, for example: http://www.chinaeastfire.com/products2.asp, http: // www.yunfengfire.com/product.htm), each of which includes a housing 6 (7) with an inlet 8 (9) and an outlet 10 (11) openings with a valve 12 (13) located between them to release the extinguishing agent, which is opened mechanically by pressing the rod 14 (15), the inlet 8 of the locking and starting device 4 is connected to the liquid phase of the extinguishing agent, for example, a siphon tube th (pipe) 16, and the outlet 10 with the device 17 of its release, while the inlet 9 of the locking and starting device 5 is connected to the gas phase of the two-necked cylinder 1, for example, a siphon tube (pipe) 18.

The outlet 9 of the locking and starting device 5 connected to the gas phase of the two-necked cylinder 1 is configured to install a device 19 therein for monitoring the operating parameters of the module, which can be used as a pressure gauge 20, pressure sensor, device for controlling the level of extinguishing agent, etc. d. (conditionally not shown).

The outlet 11 of the locking and starting device 5, connected to the gas phase of the two-necked (2 and 3) cylinder 1, is configured to charge the module when the device 19 for monitoring its operating parameters is removed.

The valve of the locking and starting device 5, the inlet 9 of which is connected to the gas phase of the two-necked cylinder 1, is configured to shut off the gas phase exit of the extinguishing agent or propellant to periodically check the operating parameter control device 19 when it is disconnected without discharging the module.

At least one of the locking and starting devices 4 or 5 installed in the two-necked cylinder 1 is equipped with a safety device 21, for example, a bursting disc, which is activated when the pressure in the cylinder 1 is higher than the permissible value.

The opening mechanism of the valve 12 of the locking-starting device 4, connected by the inlet 8 to the liquid phase of the extinguishing agent, is equipped with a starting device 22, which provides a pressure on the rod 14 when the starting device 22 is triggered by a starting pulse.

We analyze the essential features of the invention.

The specificity of the fire extinguishing module, in contrast to the fire extinguisher, is that the module, as a rule, should be equipped with outlet openings 10 and 11 connected to both the liquid phase of the extinguishing agent, for example, the opening 10 for discharging the extinguishing agent, and the gas phase of the cylinder 1, for example, an opening 11 for mounting a device 19 for monitoring the operating parameters of the module (in particular, a pressure gauge 20), and it must be possible to remove it without discharging the module. Fulfillment of these requirements in one housing 6 or 7 of the locking and starting device 4 or 5, respectively, leads to its complication, high material consumption, low technological effectiveness and high price.

The use of two typical mass-produced, inexpensive locking and starting devices 4 (5) for fire extinguishers, the inlet 8 of one (pos. 4) of which is connected to the liquid phase of the cylinder 1 of the module, and the outlet 10 is connected to the device 17 of its release, and the inlet 9 of the other (item 5) is connected to the gas phase of the cylinder 1 of the module, it can significantly simplify the design of the module, make it simple, technological and inexpensive.

The outlet 11 of the locking and starting device 5 connected to the gas phase of the cylinder 1 is configured to install devices 19 therein for monitoring the operating parameters of the fire extinguishing module, since for their most reliable control, for example, the pressure of the propellant, the device 19 for monitoring in particular, the pressure gauge 20 must communicate with the gas phase of the cylinder 1, while communication with the liquid phase can disable the pressure gauge 20.

The use of a typical locking and starting device 5 with an inlet 9 connected to the gas phase of the cylinder 1 and with an outlet 11 equipped with a valve 13 makes it possible to charge the module when the device operating parameter monitoring device 19 is removed using the standard valve 13 of the locking and starting device 5, which simplifies and reduces the cost of manufacturing the module.

At the same time, the valve 13 makes it possible to block the exit of the gas phase of the extinguishing agent or propellant with a disconnected device 19 for monitoring the operating parameters of the module for periodic verification without discharging the module, which makes it possible to simplify and cheapen the manufacture of the module.

The presence, for example, in a standard locking and starting device 4 or 5 for carbon dioxide fire extinguishers of a standard safety bursting disc (see pos. 21), which is triggered when the pressure in the cylinder 1 is higher than the permissible value, also makes it possible to simplify and reduce the cost of manufacturing the module.

Fire extinguishing modules must be equipped with a starter 22, triggered by a trigger pulse. In this case, to release the extinguishing agent, the locking-starting device 4, connected by the inlet 8 to the liquid phase of the cylinder 1, is equipped with a starting device 22, which, having triggered from the starting pulse, will release the extinguishing agent by pressing the valve stem 14. This simplifies the design device 17 release extinguishing agent and cheapens the module as a whole.

The invention is implemented as follows.

Example 1. An embodiment of the module in horizontal (ceiling, wall and floor) performance.

The fire extinguishing module made according to the invention includes a horizontally oriented two-necked (2 and 3) cylinder 1 with two locking and starting devices 4 and 5, where the inlet 8 of the locking and starting device 4 is connected to the liquid phase of the extinguishing agent using a siphon tube 16, and the outlet 10 - with the device 22 of its release. The inlet 9 of the locking-starting device 5 is connected to the gas phase of a two-necked (2 and 3) cylinder 1 using its own siphon tube 18.

The operating parameters of the module, for example, the pressure of the propellant, is controlled through the outlet 11 of the locking and starting device 5, connected to the gas phase of the cylinder 1 using the corresponding device 19, for example a pressure gauge 20. The module is charged through the same hole 11 with the device 19 removed control of its operating parameters. The ability to block the exit of the gas phase of the extinguishing agent or propellant is relevant when periodically checking the device 19 for monitoring operating parameters when it is disconnected without discharging the module.

If the pressure in the cylinder 1 is higher than the permissible limit, the standard safety device 21 will work, for example, the membrane will break on one of the locking and starting devices 4 or 5.

The opening mechanism of the valve 12 of the locking-starting device 4 is equipped with a starting device 22, triggered by a starting pulse, for example from a squib 23.

In the case of the implementation of the fire extinguishing module in the ceiling version, the device operating parameter monitoring device 19, for example a pressure gauge 20, and the exhaust device 17 are oriented downward, a siphon tube 16 for connecting the inlet 8 of the locking and starting device 4 with the liquid phase of the extinguishing agent is oriented into the liquid phase, and a siphon tube 18 for connecting the inlet 9 of the locking and starting device 5 with the gas phase of a two-necked (2 and 3) cylinder 1 into its gas phase. The module is attached to the ceiling and make the appropriate wiring of the pipeline (not shown conditionally) to the exhaust device 17.

In the case of the implementation of the fire extinguishing module in the wall version, device 19; 20, the pressure control and the exhaust device 17 are oriented not downward, but in the direction from the wall, for example, perpendicular to it, while the orientation of the siphon tubes 16 and 18 remains the same as in the ceiling version. The module is attached to the wall and make the appropriate piping to the exhaust device 17.

In the case of the implementation of the fire extinguishing module in the floor-mounted design, the pressure control device 19 and the exhaust device 17 are oriented, for example, vertically upward, the orientation of the siphon tubes 16 and 18 remains the same as in the ceiling version. The module is attached to the floor and make the appropriate piping to the exhaust device 17.

When the module is in the standby state, the necessary operating parameter (for example, propellant pressure) in the cylinder 1 of the module can be monitored using a pressure monitoring device 19, for example a pressure gauge 20, by opening the valve 13 of the locking and starting device 5 connected to the gas phase of the cylinder 1 using, for example, a manual mechanism 24. If the gas pressure in the gas phase of the two-necked (2 and 3) cylinder 1 of the module is exceeded above the permissible value, the installed standard 6 or 7 locking and starting devices 4 or 5 will work the protective device 21, for example a bursting disc.

The fire extinguishing module operates as follows.

When a start pulse is applied to the igniter 23, a start-up device 22 is activated, which opens the valve 12 of the shut-off-start device 4 connected to the liquid phase of the extinguishing agent, as a result of which, under the influence of the pressure of the propellant or under the pressure of its own vapor, the liquid extinguishing substance flows through a siphon tube 16 through the locking-starting device 4 to the exhaust device 17, and then through the exhaust pipe to the protected room.

After tripping, the module can be recharged and used again.

Example 2. An embodiment of a module in a vertical (floor or wall) design with an outlet 10 of a locking and starting device 4 for releasing a fire extinguishing agent located in a throat 3 oriented upward.

This fire extinguishing module includes a vertically oriented two-necked (2 and 3) cylinder 1 with a locking and starting device 4 located in the neck 2, the inlet 8 of which is connected by a siphon tube 16 to the liquid phase of the extinguishing agent, and the outlet 10 to the exhaust device 17, and with a locking and starting device 5 located in the neck 3, the inlet 9 of which is connected by a siphon tube 18 with the gas phase of the cylinder 1, and the outlet 11 with a device 19 for monitoring the operating parameters of the module, for example, man 20 meter.

In this case, the inlet 8 of the locking and starting device 4 is connected to the liquid phase of the cylinder 1 of the module using a long siphon tube 16 made straight and ending at the bottom of the cylinder 1, and the inlet 9 of the locking and starting device 5 is connected to the gas phase of the cylinder 1 module using the same long siphon tube 18, also made straight, but ending at the upper bottom of the cylinder 1.

In the case of the implementation of the fire extinguishing module in the floor-mounted design, it is installed on the floor of the room, and in the case of the implementation of the module in the wall-mounted version, it is attached to the wall and the piping is connected to the exhaust device 17.

The rest of the module is similar to the module described in Example 1, including the principle of its operation.

Example 3. An embodiment of a module in a vertical (floor or wall) design with an outlet 8 of a locking and starting device 5 for releasing a fire extinguishing agent, located in the neck 3, oriented downward.

This fire extinguishing module includes a vertically oriented two-necked cylinder 1 with a locking and starting device 4 located in the lower neck 2 with an outlet 8 for discharging the extinguishing agent, and with a locking and starting device 5 located in the upper neck 3 with an outlet 11 connected to the device 19 for monitoring the operating parameters of the module, for example, a pressure gauge 20.

In this case, the inlet 8 of the locking and starting device 4 is directly connected to the liquid phase of the cylinder 1 of the module without a siphon tube or using a short pipe (see pos. 16), and, in the same way, the inlet 9 of the locking and starting device 5 is directly connected to the gas phase of cylinder 1 of the module.

The rest of the module is similar to the modules described in Examples 1 and 2.

As a result of use, the design of the fire extinguishing module is significantly simplified, its material consumption is reduced, manufacturability is increased, and the cost is reduced. As a result, the construction of fire extinguishing systems for a variety of objects is simplified through the use of a set of the required number of compact and cheap modules.

Claims (6)

1. Fire extinguishing module, including a two-necked cylinder, operating under pressure, in each neck of which a locking and starting device is installed, comprising a housing with inlet and outlet openings with a valve located between them for releasing a fire extinguishing agent, which opens mechanically, characterized in that the inlet of one of locking and starting devices connected to the liquid phase of the extinguishing agent, and the outlet to the device of its release, while the inlet of another locking and starting device with We are united with the gas phase dvuhgorlovogo cylinder. 2. The module according to claim 1, characterized in that the outlet of the locking-starting device connected to the gas phase of the two-necked cylinder is configured to install a device in it for monitoring the operating parameters of the module. 3. The module according to claim 1, characterized in that the outlet of the locking-starting device connected to the gas phase of the two-necked cylinder is configured to charge the module with the device for monitoring its operating parameters removed. 4. The module according to claim 1, characterized in that the valve of the locking-starting device, the inlet of which is connected to the gas phase of the two-necked cylinder, is configured to shut off the gas phase exit of the extinguishing agent or propellant to periodically check the device for monitoring operating parameters when it disconnecting without discharging the module. 5. The module according to claim 1, characterized in that at least one of the locking and starting devices installed in the two-necked cylinder is equipped with a safety device that operates when the pressure in the cylinder is higher than the permissible value. 6. The module according to claim 1, characterized in that the mechanism for opening the valve of the locking-starting device, connected by the inlet to the liquid phase of the extinguishing agent, is equipped with a starting device that is triggered by a starting pulse.

Images