JP3315062B2 - Starting system for gas fire extinguishing equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention discharges a fire extinguishing agent stored in a gaseous state in a fire extinguishing agent storage container into a fire extinguishing target compartment, and maintains the concentration of the fire extinguishing agent in the fire extinguishing target compartment equal to or higher than the fire extinguishing concentration. The present invention relates to a starting device for a gas-based fire extinguishing system, which extinguishes a fire.

[0002]

2. Description of the Related Art Conventionally, a fire extinguisher has been used as a gas fire extinguishing system in which a fire extinguishing agent is discharged into a fire extinguishing section and the fire extinguishing agent is extinguished by maintaining the concentration of the fire extinguishing agent in the fire extinguishing section higher than the flame-extinguishing concentration. Those using an inert gas such as carbon dioxide or halon gas have been put to practical use.

When an inert gas such as carbon dioxide or halon gas is used as a fire extinguishing agent, these extinguishants are liquefied under pressure and filled in a fire extinguisher storage container composed of a high-pressure gas container, and then the fire extinguishing equipment is used. In the event of a fire, use appropriate electrical or pneumatic means to open the container valve of the fire extinguisher storage container to remove carbon dioxide and halon gas from the fire extinguisher storage container. Through the jet head, and discharges the jet head into the fire extinguishing target compartment. At this time, the inert gas such as carbon dioxide and halon gas is sent in a liquid state to the ejection head, and is vaporized at the moment when the gas is released from the ejection head into the fire extinguishing section, and becomes a gaseous state. To suppress the fire.

A fire extinguishing system using an inert gas such as carbon dioxide or halon gas can rapidly suppress the fire, hardly contaminates the fire extinguishing agent in the fire extinguishing agent, and impairs electrical insulation. Advantages include that there is no fire extinguishing agent, a strong fire-extinguishing effect can be exerted even on fire-extinguishing objects with complicated structures due to penetration of fire extinguishing agents through the gap, and that the fire extinguishing agent has a constant fire extinguishing ability over a long period without aging. It is widely used not only for petroleum-related facilities and electric facilities, but also for general facilities.

However, in recent years, a problem relating to destruction of the ozone layer has been raised on a worldwide scale, and production of fire extinguishing agents containing halogenated hydrocarbon components such as halon gas was discontinued in January 1994. It is virtually unusable. Thus, excluding special fire extinguishing equipment that uses expensive rare gas such as argon, it can be said that the extinguishing agent currently used in fire extinguishing equipment is only carbon dioxide.

[0006] On the other hand, fire extinguishing equipment using carbon dioxide as a fire extinguishing agent is also known to have the following problems. (1) The design concentration of carbon dioxide in the fire extinguishing target compartment at the time of fire extinguishing is about 35%. At this concentration, if there is a person in the fire extinguishing target compartment, the toxicity of carbon dioxide (narcotic ) May cause a situation involving human life. (2) In the event of a fire, carbon dioxide is sent to the injection head in a liquid state, and when it is released from the injection head into the fire extinguishing target compartment, it evaporates to a gaseous state. Saturated vapor pressure of the indoor air decreases due to deprivation of heat of vaporization, moisture in the air condenses, and static electricity is generated. As a result, the interior of the room is in a fog condition, which may hinder the evacuation and rescue of people and fire extinguishing work, and may cause insulation failure or breakdown of electronic devices due to condensation and static electricity, which may cause a serious secondary disaster. is there. (3) Since carbon dioxide has a much higher density than air, the carbon dioxide released into the fire extinguishing compartment stays in the lower part of the fire extinguishing compartment and the fire extinguishing effect is reduced. It is easy to dissipate outside through the lower opening. (4) As the issue of global warming is raised on a global scale, the use of carbon dioxide may be restricted in the future, as with halon gas.

[0007]

In order to solve many of the problems of the above-mentioned conventional fire extinguishing equipment, the applicant of the present invention firstly added a perfluoroalkane which did not destroy the ozone layer to nitrogen gas or nitrogen gas. (Perfluorobutane (C
₄ F ₁₀ )), hydrogenofluoroalkane (trifluoromethane (CHF ₃ ), heptafluoropropane (C ₃ HF ₇ ) or pentafluoroethane (C ₂ HF ₅ ))
Alternatively, at least one of hydrogenofluorohalogenoalkane (iodotrifluoromethane (CF ₃ I)) (hereinafter, these are collectively referred to as “fluorine compound”).
A fire extinguishing system using a mixed gas (hereinafter, simply referred to as "mixed gas") in which the types are mixed at a ratio of 10% by volume or less has been proposed.

However, it has been found that the use of a nitrogen gas or a mixed gas as a fire extinguishing agent also has the following problems. (1) Since nitrogen gas and mixed gas are stored in gaseous state under pressure, fire extinguishing with the same volume compared to carbon dioxide and halon gas, which are stored in pressurized and liquefied state. The number of fire extinguisher storage containers required for extinguishing the target compartment is several times larger, and a large installation space for the fire extinguisher storage containers is required. (2) In order to reduce the number of fire extinguisher storage containers to be installed,
It is necessary to increase the filling pressure of the extinguishing agent to be charged in the extinguishing agent storage container, but if the filling pressure of the extinguishing agent is increased, the selection valve,
High gas pressure of the fire extinguisher will also be applied to the secondary equipment of the fire extinguishing equipment such as the main piping, branch pipes, injection heads, etc.,
It is necessary to raise the pressure resistance grade of these secondary devices,
There has been a problem that the construction cost of the equipment has risen remarkably and that it cannot be applied to existing equipment.

In order to cope with this problem, the applicant of the present application has previously proposed a problem with a fire extinguishing system using a fire extinguishing agent that is stored in a gaseous state in a fire extinguishing agent storage container such as a nitrogen gas or a mixed gas. And proposed a pressure-reducing device for fire-extinguishing equipment using a pressure-suppressing valve that can increase the filling pressure of a fire-extinguishing agent without increasing the pressure-resistant grade of the secondary-side equipment of the fire-extinguishing equipment (Japanese Patent Application No. Hei 7-138631). JP-A-8-2994
No. 92), Japanese Patent Application No. 8-161137, Japanese Patent Application No. 9-11
No. 3493).

In the pressure reducing device for a fire extinguisher using the pressure suppression valve, the gas pressure of the fire extinguishing agent on the discharge side of the pressure suppression valve can be regulated by the gas pressure of the constant pressure gas source, and the fire extinguishing agent storage container is filled with the fire extinguishing agent. Even when the pressure is high, it is possible to prevent a high gas pressure of the fire extinguishing agent from being applied to the secondary device of the fire extinguishing equipment, thereby achieving the above-mentioned intended purpose.

FIG. 5 shows an example of a gas fire extinguishing system to which the pressure reducing device for a fire extinguishing system is applied. This example is 3
This shows a gas fire extinguishing system having two fire extinguishing sections 6-1, 6-2, and 6-3. This gas-based fire extinguishing equipment uses, for example, nitrogen gas as a gas fire extinguishing agent, and pressurizes this gas to fill a high-pressure gas container (35).
It is used as a fire extinguisher storage container by storing in a fire extinguishing system at 180 kgf / cm ² ) at 180 ° C. The gas fire extinguishing system of this example has a large number of fire extinguishing agent storage containers 1-1,.
., 1-1, 1-2, 1-3, each extinguishing agent storage container is a container comprising a pressure control valve in which the gas pressure of the extinguishing agent on the discharge side is regulated by the gas pressure of a constant pressure gas source. The connecting pipe 3 is connected via the valve 2, and further the connecting pipe 3 is connected to the collecting pipe 4, and the collecting pipe 4 is connected to each fire extinguishing section 6-1, 6-2.
It is connected to the main pipes 5-1 to 5-2 extending to 6-3. Further, by attaching a pressure gauge to each extinguishing agent storage container, the gas pressure of the extinguishing agent in the extinguishing agent storage container can be controlled. Main piping 5-1
Selection valves 9-1, 9-2, and 9-3 are provided in 5-2 and 5-3, and the fire extinguishing agent is selectively sent to fire extinguishing target sections 6-1 and 6-2 and 6-3. Be able to do it.

By the way, usually, each fire extinguishing target section 6-1,
Since 6-2 and 6-3 have different volumes, the amount of fire extinguisher required to extinguish the fire also differs. For this reason, the diameter of the main pipes 5-1, 5-2, 5-3 is set to each fire extinguishing target section 6
-1, 6-2, 6-3
In case of fire, fire extinguishing target sections 6-1 and 6-
The gas fire extinguishing system is configured such that the number of fire extinguisher storage containers corresponding to 2, 6-3 is opened.

Here, the number of fire extinguishing agent storage containers 1 to be opened is determined by the number of fire extinguishing target compartments 6-1 and the number of fire extinguishing target compartments 6-2.
Is set to two and the fire extinguishing target section 6-3 is set to one. In the figure, 11-1, 11-2, 11-3
Are starting gas containers, 12-1, 12-2, and 12-3.
Is a solenoid valve for opening the starting gas container. Also, 10
-1, 10-2, 10-3 are selection valves 9-1, 9-2,
9-3, a container valve 17a of a constant pressure gas container 17 filled with nitrogen gas (110 kgf / cm ^{2 at} 35 ° C.) as a constant pressure gas source and constant pressure gas lines 13-1, 13-2, 13-3
A non-return valve 16-1, 16-2, 16-3 is provided at an appropriate position in the starting gas pipeline for controlling the opening of the piston valves 15-1, 15-2, 15-3 disposed at the appropriate positions. To be installed. By attaching a pressure gauge to the constant-pressure gas container 17, the gas pressure of the fire extinguishing agent in the constant-pressure gas container can be controlled. The constant pressure gas lines 13-1, 13-2, and 13-3 have piston valves 15-.
1, 15-2, 15-3 are arranged, and non-return valves 14-1, 14-2, 14-3, 14-
A, 14-B are provided. The numbers 1, 2, and 3 at the end of these members respectively correspond to the numbers 1, 2, and 3 at the end of the fire extinguishing target section.

Next, the operation of the gas fire extinguishing system in the event of a fire will be described. Now, assuming that a fire has occurred in the fire extinguishing target section 6-1, the fire finder discovers the fire extinguishing target section 6.
When the push button corresponding to -1 is operated (in the case of manual operation),
An electric signal is sent to the starting gas container opening electromagnetic valve 12-1, and the electromagnetic valve 12-1 is operated to start the starting gas container 11-.
1 is released. The starting gas released by opening the starting gas container 11-1 opens the selection valve 9-1 and the constant pressure gas container 1 via the non-return valve 16-1.
7 is opened and the piston valve 15 is opened.
Release -1. As a result, the constant-pressure gas in the constant-pressure gas container 17 flows through the piston valve 15-1 to the constant-pressure gas line 13-.
1 through the non-return valve 14-A and the non-return valve 14-B to open all the fire extinguishing agent storage containers. At this time, since the starting gas cannot pass through the non-return valve 16-2 and the non-return valve 16-3, the selection valve 9-2 and the selection valve 9-3, and the piston valve 15-2 and the piston valve 15 -3 is not released. By the way, since the pressure control valve for regulating the gas pressure P0 of the fire extinguishing agent on the discharge side to a reference gas pressure defined by the gas pressure P1 of the constant-pressure gas source is used for the container valve 2, the fire extinguishing agent storage that has been opened is used. Standard gas pressure from container (110Kgf / c
m ² ) Extinguishing media regulated below are the container valve 2, the connecting pipe 3,
It is discharged into the fire extinguishing target section 6-1 through the collecting pipe 4, the selection valve 9-1, and the main pipe 5-1.

Further, if a fire occurs in the fire extinguishing target section 6-2, when a fire discoverer operates a push button (in the case of manual operation) corresponding to the fire extinguishing target section 6-2, an electric signal is generated for activation. It is sent to the gas container opening electromagnetic valve 12-2, and the electromagnetic valve 12-2 operates to open the starting gas container 11-2. The starting gas released by opening the starting gas container 11-2 opens the selection valve 9-2 and opens the container valve 17a of the constant pressure gas container 17 via the non-return valve 16-2. At the same time, the piston valve 15-2 is opened. Thereby, the constant pressure gas in the constant pressure gas container 17 is
Only two fire extinguisher storage containers, namely, fire extinguisher storage containers 1-2 and 1-3 are passed through the piston valve 15-2, through the constant-pressure gas line 13-2, and through the non-return valve 14-B. Open. At this time, since the constant pressure gas cannot pass through the non-return valve 14-A, the other extinguishing agent storage containers, that is,
The fire extinguisher storage containers 1-1, ..., 1-1 are not opened. The starting gas is the non-return valve 16-1 and the non-return valve 1
Since it cannot pass through 6-3, the selection valve 9-1 and the selection valve 9-3, and the piston valve 15-1 and the piston valve 15-3 are not opened. By the way, in the container valve 2,
Since the pressure control valve for regulating the gas pressure P0 of the extinguishing agent on the discharge side to a reference gas pressure defined by the gas pressure P1 of the constant pressure gas source is used, the reference gas pressure (110 Kgf / cm ² ) The fire extinguishing agent regulated below is the container valve 2, the connecting pipe 3, the collecting pipe 4, the selection valve 9-2, and the main pipe 5.
-2, and is discharged into the fire extinguishing target section 6-2.

If a fire occurs in the fire extinguishing section 6-3, when a fire discoverer operates a push button (in the case of manual operation) corresponding to the fire extinguishing section 6-3, an electric signal is generated for activation. It is sent to the gas valve opening electromagnetic valve 12-3, and the electromagnetic valve 12-3 operates to open the starting gas container 11-3. The starting gas released by opening the starting gas container 11-3 opens the selection valve 9-3 and opens the container valve 17a of the constant pressure gas container 17 via the non-return valve 16-3. At the same time, the piston valve 15-3 is opened. Thereby, the constant pressure gas in the constant pressure gas container 17 is
Only one fire extinguisher storage container, that is, the fire extinguisher storage container 1-3 is opened through the piston valve 15-3 and the constant pressure gas line 13-3. At this time, since the constant pressure gas cannot pass through the non-return valve 14-B, the other extinguishing agent storage containers, that is, the extinguishing agent storage containers 1-1,.
-1 and 1-2 are not released. Further, since the starting gas cannot pass through the non-return valve 16-1 and the non-return valve 16-2, the selection valve 9-1 and the selection valve 9-2, and the piston valve 15-1 and the piston valve 15- 2 is not released.
By the way, the container valve 2 has a gas pressure P0 of the fire extinguishing agent on the discharge side.
Is controlled to be equal to or lower than the reference gas pressure defined by the gas pressure P1 of the constant-pressure gas source, so that the fire extinguishing is restricted to the reference gas pressure (110 Kgf / cm ² ) or less from the opened extinguishing agent storage container. The agent is discharged into the fire extinguishing target section 6-3 through the container valve 2, the connecting pipe 3, the collecting pipe 4, the selection valve 9-3, and the main pipe 5-3.

As described above, the above-mentioned gas fire extinguishing system uses the gas pressure P0 of the fire extinguishing agent on the discharge side from the fire extinguishing agent storage container by the gas pressure P1 of the constant pressure gas source to obtain a reference gas pressure, for example,
In a state where the temperature is regulated to 110 kgf / cm ² or less, the fire can be selectively discharged to a plurality of fire extinguishing target sections 6-1, 6-2, and 6-3. It has many advantages such as the ability to increase the pressure of extinguishing agent without increasing the pressure resistance grade of the side equipment.

However, in this gas fire extinguishing system,
The starting gas line 10 and the starting gas container 11 for starting the equipment and the constant pressure gas line 13 and the constant pressure gas container 17 for regulating the gas pressure P0 of the extinguishing agent on the discharge side from the extinguishing agent storage container are provided. Therefore, the piping structure of the pipeline becomes extremely complicated, it is difficult to construct the equipment, and especially when the number of fire extinguishing sections is large,
Accordingly, a large number of gas containers are required, and therefore, there has been a problem that the construction cost of the equipment increases.
In addition, the piping structure of the pipeline is extremely complicated,
Since many gas containers are used, it is difficult to maintain and manage the equipment, for example, to change the piping structure of the pipeline and to control the gas pressure of the gas container, and there is a problem that the maintenance and management of the equipment requires cost.

According to the present invention, a fire extinguishing agent stored in a gaseous state in a fire extinguishing agent storage container, which has been proposed by the present applicant, is discharged into a fire extinguishing target compartment, and the concentration of the fire extinguishing agent in the fire extinguishing target compartment is reduced. Suppression valve that regulates the gas pressure of the extinguishing agent on the discharge side by the gas pressure of the constant-pressure gas source in the container valve of the extinguishing agent storage container of the gas fire extinguishing equipment, which extinguishes the fire by maintaining the concentration at or above the extinguishing concentration. In view of the above-mentioned problems of the gas fire extinguishing equipment in which the equipment is disposed, the piping structure of the pipeline is simplified, and the number of gas containers required for starting the equipment is reduced. Construction and maintenance
It is an object of the present invention to provide a starting device for a gas fire extinguishing system that can be easily managed.

[0020]

To achieve the above object, a starting apparatus for a gas fire extinguishing system according to the present invention discharges a fire extinguishing agent stored in a gaseous state in a fire extinguishing agent storage container into a fire extinguishing target compartment. Then, the gas pressure of the extinguishing agent on the discharge side is supplied to the gas valve of the extinguishing agent storage container of the gas fire extinguishing system, which is designed to extinguish the fire by maintaining the concentration of the extinguishing agent in the fire extinguishing target compartment at or above the quenching concentration. In a starting device of a gas fire extinguishing system, in which a control valve arranged to be regulated by a gas pressure of a source is provided, a constant-pressure gas line from the constant-pressure gas source is branched corresponding to a fire extinguishing target section. The constant pressure gas pipes connected to the container valve and the selection valve disposed on the main pipe via electromagnetic valves, respectively, and the number of fire extinguisher storage containers to be opened and released by the constant pressure gas supplied from the constant pressure gas source. Gas pressure of the extinguishing agent on the side Win with, characterized in that to work selectively open the selected valve.

The starting device of the gas fire extinguishing system branches a constant-pressure gas line from a constant-pressure gas source corresponding to a fire extinguishing target section, and separates the branched constant-pressure gas lines via electromagnetic valves.
Connected to a container valve and a selection valve disposed on the main pipe, the constant pressure gas supplied from the constant pressure gas source regulates the number of fire extinguishing agent storage containers to be opened and the gas pressure of the fire extinguishing agent on the discharge side, and the selection valve. Is selectively opened, so that the piping structure of the pipeline can be significantly simplified, and the functions of the start-up gas container and the constant-pressure gas container are shared by the constant-pressure gas source. The number of gas containers required for starting or the like can be reduced.

In this case, an electromagnetic valve can be used as the container valve of the constant pressure gas source.

Thus, the container valve of the constant-pressure gas source constituted by the solenoid valve and the solenoid valve provided in the constant-pressure gas line can be controlled in relation to each other, and the start of the gas fire extinguishing system can be ensured. It can be performed in a stable state.

Further, an electromagnetic valve having a manual operation mechanism can be used. Here, the “electromagnetic valve” means both an electromagnetic valve disposed in a constant-pressure gas pipeline and an electromagnetic valve used as a container valve of a constant-pressure gas source.

Thus, the power supply (including the emergency power supply)
Even if the electromagnetic valve cannot be electrically operated due to, for example, shut off, the electromagnetic valve can be manually operated to start the gas fire extinguishing equipment.

[0026]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a starting apparatus for a gas fire extinguishing system according to an embodiment of the present invention.

FIG. 1 shows an embodiment of a gas fire extinguishing system to which a starting device for a gas fire extinguishing system according to the present invention is applied. The present embodiment shows a gas fire extinguishing system having three fire extinguishing target sections 6-1, 6-2, and 6-3. In this gas fire extinguishing system, for example, nitrogen gas is used as a gas fire extinguishing agent, and it is stored in the fire extinguishing system in a state where it is pressurized and filled in a high-pressure gas container (at 180 kgf / cm ^{2 at} 35 ° C.). To use as a fire extinguishing agent storage container. The gas fire extinguishing system according to the present embodiment has a large number of fire extinguishing agent storage containers 1-.
, 1-1, 1-2, 1-3, and each fire extinguishing agent storage container has a gas pressure of the fire extinguishing agent on the discharge side controlled by the gas pressure of a constant pressure gas source. A connecting pipe 3 is connected via a container valve 2 (a detailed structure will be described later) composed of a valve,
Further, the connecting pipe 3 is connected to the collecting pipe 4, and the collecting pipe 4 is connected to the main pipes 5-1 to 5-2 extending to the fire extinguishing target sections 6-1, 6-2 and 6-3. Connecting. Further, by attaching a pressure gauge to each extinguishing agent storage container, the gas pressure of the extinguishing agent in the extinguishing agent storage container can be controlled. Select valves 9-1, 9-2, 9-3 are provided in the main pipes 5-1, 5-2, 5-3, and the fire extinguishing target section 6 is provided.
-1, 6-2, 6-3 so that the fire extinguishing agent can be selectively sent.

By the way, usually, each fire extinguishing target section 6-1,
Since 6-2 and 6-3 have different volumes, the amount of fire extinguisher required to extinguish the fire also differs. For this reason, the diameter of the main pipes 5-1, 5-2, 5-3 is set to each fire extinguishing target section 6
-1, 6-2, 6-3
In case of fire, fire extinguishing target sections 6-1 and 6-
The gas fire extinguishing system is configured such that the number of fire extinguisher storage containers corresponding to 2, 6-3 is opened.

Here, the number of fire extinguishing agent storage containers 1 to be opened, the number of fire extinguishing target compartments 6-1 and the number of fire extinguishing target compartments 6-2 are all determined.
Is set to two and the fire extinguishing target section 6-3 is set to one. In the figure, reference numeral 17 denotes a constant-pressure gas container filled with nitrogen gas (110 kgf / cm ^{2 at} 35 ° C.) as a constant-pressure gas source sharing the functions of a starting gas container and a constant-pressure gas container in the conventional gas fire extinguishing system. Reference numeral 12 is a container valve of a constant-pressure gas container formed of an electromagnetic valve. By attaching a pressure gauge to the constant-pressure gas container 17, the gas pressure of the fire extinguishing agent in the constant-pressure gas container can be controlled. The constant-pressure gas pipe 13 having one end connected to the constant-pressure gas container 17 is provided with fire extinguishing target sections 6-1, 6-2, and 6-6.
-3, a constant pressure gas line 13-
1, 13-2 and 13-3 are connected to the solenoid valves 18-1 and 18-1, respectively.
8-2 and 18-3, a selection valve 9- disposed on the container valve 2 composed of a pressure control valve and the main piping 5-1, 5-2, 5-3.
1, 9-2, 9-3, the number of fire extinguishing agent storage containers to be opened and the gas pressure of the extinguishing agent on the discharge side are regulated by a constant pressure gas supplied from a constant pressure gas container 17, and a selection valve 9 is provided. -1, 9-2 and 9-3 are selectively opened. Constant pressure gas lines 13-1, 13-2, 13-3
In the appropriate position, the non-return valves 14-1, 14-2, 1
4-3, 14-A, 14-B and relief valve 19-1,
19-2 and 19-3 are provided. The relief valves 19-1, 19-2, 19-3 are connected to the constant-pressure gas line 1
When a slight pressure is applied to 3-1, 13-2, and 13-3, the pressure is released and the constant-pressure gas lines 13-1, 13-2, and 13-are opened.
3 is configured to exhaust the gas inside, while closing when a pressure equal to or higher than a certain pressure is applied in a short time,
The container valve of the constant pressure gas container 17 composed of an electromagnetic valve or the electromagnetic valve 18
-1, 18-2, 18-3 prevent a rise in gas pressure in the constant-pressure gas pipelines 13-1, 13-2, 13-3 when there is a slight leak, etc. Of the container valve 2 and the selection valves 9-1, 9-2, 9-3. In addition, the last number 1,
2, 3 correspond to the numerals 1, 2, 3 at the end of the fire extinguishing target section, respectively.

In this case, the gas pressure P2 of the gas fire extinguishing agent on the discharge side of the container valve 2 shown in FIG. 2 is controlled by the gas pressure P1 of the constant pressure gas source in the container valve 2 of the fire extinguishing agent storage container. Use a valve. The pressure control valve includes a flow path valve 22 having three guide members 22 a provided in the flow path 21 for the fire extinguishing agent,
A spring 23 for urging the flow path valve 22 in a direction to close the fire extinguisher flow path 21 and a nitrogen gas filling as a constant pressure gas source (35)
A gas supply port 24 from a constant-pressure gas container 17 at 110 ° C. and a pressure of 110 kgf / cm ² ) is disposed in a cylinder 25 having one end connected to the gas supply port 24 and the other end connected to the discharge side of the fire extinguisher flow path 21. , A control rod 27 formed at an end of the piston 26 for operating the flow valve 22 in a direction to open the flow path 21 of the fire extinguishing agent, and biasing the piston 26 in a direction opposite to the flow valve 22. And a spring 28 to be used.

Next, the operation of the pressure control valve will be described. By supplying a gas having a gas pressure P1 (110 kgf / cm ² ) from a constant pressure gas container 17 as a constant pressure gas source to a gas supply port 24, the piston 26 is moved against the urging force of a spring 28, and Operation rod 27 formed at the end
To operate the flow path valve 22 against the urging force of the spring 23,
The fire extinguisher channel 21 is opened. When the flow path 21 for the extinguishing agent is opened, the extinguishing agent flows into the flow path 21 from the extinguishing agent storage container 1 and the gas pressure P2 of the extinguishing agent in the extinguishing agent storage container 1
(180 kgf / cm ^{2 at} 35 ° C.) acts on the other end of the piston 26, and the piston 26 moves in a direction in which the operation of the flow path valve 22 by the operating rod 27 is released.
The flow path valve 22 also receives the urging force of the spring 23 and receives the fire extinguishing agent flow path 2.
1 moves in the direction of closing. However, one end of the piston 26 has a gas pressure P1 (1
10 kgf / cm ² ), the flow path valve 22 does not completely close the flow path 21 of the fire extinguishing agent, and according to the following equations (1) and (2), the flow path valve 22 and the piston 26
Instantaneously equilibrates, and the outlet side gas pressure P0 becomes, for example, about 84 kgf / cm ² when the gas pressure P ² of the fire extinguishing agent in the fire extinguishing agent storage container 1 is 180 kgf / cm ² , and the gas pressure P ² becomes 1
In the case of 10 kgf / cm ² , it is about 110 kgf / cm ² , a predetermined value lower than the gas pressure P 1 (110 kgf / cm ² ) regulated by the gas pressure P 1 (110 kgf / cm ² ) of the constant pressure gas container 17. The pressure is reduced.

A ² · P ² + B ² · P 0 = A ² · P 0 + B ² · P 1 (1) P 0 = (B ² · P 1 -A ² · P ² ) / (B ² -A ² ) (2) Here, A is the diameter of the valve seat 23 of the flow path valve 22, and B is the diameter of the piston 26. For example, if the diameter A of the valve seat 23 is 1
When a pressure control valve having a diameter of 3.5 mm and a diameter B of the piston 26 of 26 mm is used, the gas pressure P0 of the fire extinguishing agent on the discharge side of the flow path 21 is used.
Is the gas pressure P1 of the constant-pressure gas container 17 (110 kgf / cm ² )
It is kept at 110 Kgf / cm ² which is slightly lower.

As the pressure control valve used for the container valve 2 of the fire extinguishing agent storage container, in addition to the above, various pressure control valves proposed by the applicant of the present invention (for example, Japanese Patent Application No. 7-13863).
No. 1 (Japanese Patent Application Laid-Open No. 8-299492), Japanese Patent Application No. 8-161.
137 and Japanese Patent Application No. 9-113493).

The constant pressure gas lines 13-1, 13-2,
Solenoid valves 18-1, 18-2, 18- provided in 13-3
3 and a container valve 1 of a constant pressure gas container 17 as a constant pressure gas source
For example, as shown in FIG. 3 or FIG. 4, in addition to the function electrically operated by the solenoid 18a, the solenoid valve 18 (1) provided with the manual operation mechanism 18b
2) can be used. Of these, the solenoid valve 18 (12) shown in FIG. 3 is activated by energizing the solenoid 18a when operating electrically, and pulling the lever of the manual operation mechanism 18b when operating manually. This allows the piston 18c to retract and opens the valve 18d. On the other hand, the solenoid valve 18 (12) shown in FIG.
The blade body 18e is electrically operated by exciting a solenoid, or manually operated by pulling a lever of a manual operation mechanism 18b.
Is advanced to open the sealing plate 18f, but the structure is not limited to these, and any solenoid valve can be used. In addition, as in the present embodiment, by using an electromagnetic valve having a manual operation mechanism in addition to the function of electrically operating, the power supply (including the emergency power supply) is shut off for a reason such as that. Also, even when the electromagnetic valve cannot be electrically operated, the gas-based fire extinguishing system can be started by manually operating the electromagnetic valve. In the case where the solenoid valve is manually operated to start the gas fire extinguishing equipment, the solenoid valve used for the container valve 12 of the constant-pressure gas container 17 as a constant-pressure gas source is opened, although not particularly limited. Later, the constant pressure gas line 13-
Solenoid valves 18-1, 1 disposed in 1, 13-2, 13-3
It is mechanically preferable to open any one of 8-2 and 18-3.

Next, the operation of the gas fire extinguishing system in the event of a fire will be described. Now, assuming that a fire has occurred in the fire extinguishing target section 6-1, the fire finder discovers the fire extinguishing target section 6.
When the push button corresponding to -1 is operated (in the case of manual operation),
An electric signal is sent to the container valve 12 of the constant-pressure gas container 17, and the container valve 12 operates to open the constant-pressure gas container 17. The constant-pressure gas released by opening the constant-pressure gas container 17 is supplied to the constant-pressure gas line 13 which is opened immediately before and after this.
-1, the selector valve 9-1 is opened via the solenoid valve 18-1 and the non-return valve 14-A and the non-return valve 14-B.
And all the fire extinguishing agent storage containers are opened. At this time, since the constant pressure gas cannot pass through the non-return valve 14-2 and the non-return valve 14-3, the selection valve 9-2 and the selection valve 9-3 are not opened. By the way, since the pressure control valve for regulating the gas pressure P0 of the fire extinguishing agent on the discharge side to a reference gas pressure defined by the gas pressure P1 of the constant-pressure gas source is used for the container valve 2, the fire extinguishing agent storage that has been opened is used. A fire extinguishing agent regulated from the container to a reference gas pressure (110 kgf / cm ² ) or less is supplied to the container valve 2, the connecting pipe 3, the collecting pipe 4, the selection valve 9-1 and the main pipe 5
1 and is discharged into the fire extinguishing target section 6-1.

If a fire occurs in the fire extinguishing target section 6-2, if a fire discoverer operates a push button (in the case of manual operation) corresponding to the fire extinguishing target section 6-2, the electric signal is changed to a constant pressure gas. It is sent to the container valve 12 of the container 17 and the container valve 12
Operates to open the constant-pressure gas container 17. The constant-pressure gas released by opening the constant-pressure gas container 17 is:
The selection valve 9-2 is opened via the solenoid valve 18-2 arranged in the constant pressure gas line 13-2 which is opened before and after this, and the fire extinguishing agent passes through the non-return valve 14-B. Only two storage containers, that is, the fire extinguishing agent storage containers 1-2 and 1-3 are opened. At this time, since the constant pressure gas cannot pass through the non-return valve 14-A, the other fire extinguishing agent storage containers, that is, the fire extinguishing agent storage containers 1-1, ..., 1-1 are not opened. In addition, since the constant pressure gas cannot pass through the non-return valve 14-1 and the non-return valve 14-3, the selection valve 9-1
And the selection valve 9-3 is not opened. By the way, container valve 2
Uses a pressure-suppressing valve that regulates the gas pressure P0 of the extinguishing agent on the discharge side to a reference gas pressure defined by the gas pressure P1 of the constant-pressure gas source. (110 kgf / cm ² ) The fire extinguishing agent regulated to be less than or equal to the fire extinguishing target section 6-2 through the container valve 2, the connecting pipe 3, the collecting pipe 4, the selection valve 9-2, and the main pipe 5-2. Released.

If a fire occurs in the fire extinguishing target section 6-3, when a fire discoverer operates a push button (in the case of manual operation) corresponding to the fire extinguishing target section 6-3, an electric signal is output as a constant pressure gas. It is sent to the container valve 12 of the container 17 and the container valve 12
Operates to open the constant-pressure gas container 17. The constant-pressure gas released by opening the constant-pressure gas container 17 is:
The selection valve 9-3 is opened via the solenoid valve 18-3 arranged in the constant pressure gas line 13-3 which is opened before and after this, and only one fire extinguisher storage container, that is, fire extinguishing is performed. The agent storage container 1-3 is opened. At this time, the constant pressure gas is
Since it cannot pass through the non-return valve 14-B, other fire extinguishing agent storage containers, that is, fire extinguishing agent storage containers 1-1,.
・, 1-1 and 1-2 are not released. Further, since the constant pressure gas cannot pass through the non-return valve 14-1 and the non-return valve 14-2, the selection valve 9-1 and the selection valve 9-2 are not opened. By the way, since the pressure control valve for regulating the gas pressure P0 of the fire extinguishing agent on the discharge side to a reference gas pressure defined by the gas pressure P1 of the constant-pressure gas source is used for the container valve 2, the fire extinguishing agent storage that has been opened is used. Standard gas pressure from container (110Kgf / c
m ² ) Extinguishing media regulated below are the container valve 2, the connecting pipe 3,
It is discharged into the fire extinguishing target section 6-3 through the collecting pipe 4, the selection valve 9-3, and the main pipe 5-3.

In the above, the case where the number of fire extinguisher compartments is three has been described as an example. However, the number of fire extinguisher compartments, the number of fire extinguisher storage containers, and the number of fire extinguisher storage containers that are opened are the same as those of the present embodiment. The present invention is not limited to this, and can be set arbitrarily as needed.

According to the gas fire extinguishing equipment to which the starting device of the gas fire extinguishing equipment of the above embodiment is applied, the minimum pressure of the container valve 2 of the fire extinguishing agent storage container is replaced by the constant pressure gas container 17 as a constant pressure gas source. A gas source with a lower pressure than the working gas pressure (for example,
The minimum working gas pressure of the container valve 2 of the fire extinguishing agent storage container is 40 kgf
/ Cm ² , a gas source having a gas pressure of 10 kgf / cm ² )
By using, the operation confirmation test of the activation device can be easily performed.

[0040]

According to the starting apparatus of the gas fire extinguishing system of the present invention, the constant-pressure gas line from the constant-pressure gas source is branched corresponding to the fire extinguishing target section, and the branched constant-pressure gas lines are each connected to the solenoid valve. Connected to a container valve and a selection valve disposed in the main pipe, and regulates the number of fire extinguishing agent storage containers to be opened and the gas pressure of the extinguishing agent on the discharge side by a constant pressure gas supplied from a constant pressure gas source. By selectively opening the selection valve, the piping structure of the pipeline can be significantly simplified, and the functions of the starting gas container and the constant pressure gas container can be shared by the constant pressure gas source. In addition, the number of gas containers required for starting the equipment can be reduced. This makes it possible to easily perform maintenance and management of facilities such as construction of facilities such as pipeline piping, change of piping structure of pipelines, and management of gas pressure of a gas container, and reduce costs required for the maintenance. be able to.

Further, by using an electromagnetic valve for the container valve of the constant-pressure gas source, the container valve of the constant-pressure gas source constituted by the electromagnetic valve and the electromagnetic valve provided in the constant-pressure gas line are controlled in association with each other. Therefore, the gas fire extinguishing system can be started reliably and in a stable state.

Further, by using an electromagnetic valve having a manual operation mechanism as the electromagnetic valve, it is possible to electrically operate the electromagnetic valve because the power supply (including the emergency power supply) is shut off. Even when it is not possible, the solenoid valve can be manually operated to start the gas fire extinguishing equipment.

[Brief description of the drawings]

FIG. 1 is a conceptual diagram showing an embodiment of a gas fire extinguishing system to which a starting device for a gas fire extinguishing system according to the present invention is applied.

FIG. 2 shows an example of a pressure control valve, (a) is an overall view thereof,
(B) is a top view of a flow-path valve, (c) is the same longitudinal cross-sectional view.

FIG. 3 is an explanatory diagram showing an example of a solenoid valve.

FIG. 4 is an explanatory view showing an example of a solenoid valve.

FIG. 5 is a conceptual diagram showing an example of a gas fire extinguishing system to which a starting device for a conventional gas fire extinguishing system is applied.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 fire extinguishing agent storage container 2 container valve (suppression valve) 21 extinguishing agent flow path 22 flow path valve 23 spring 24 gas supply port 25 cylinder 26 piston 27 operating rod 28 spring 5 main pipe 6 fire extinguishing target section 9 selection valve 13 constant pressure gas Pipe 17 Constant-pressure gas container (constant-pressure gas source) 18 Solenoid valve P0 Outlet-side gas pressure P1 Gas pressure of constant-pressure gas source P2 Gas pressure of extinguishing agent in extinguishing agent storage container

Claims (3)

(57) [Claims] A fire extinguishing agent stored in a gaseous state in a fire extinguishing agent storage container is discharged into a fire extinguishing target compartment, and the fire extinguishing agent is extinguished by maintaining the concentration of the fire extinguishing agent in the fire extinguishing target compartment equal to or higher than the flame-extinguishing concentration. A gas fire extinguishing system, in which a gas valve of a fire extinguisher storage container of a gas fire extinguishing system is provided with a control valve that regulates the gas pressure of the fire extinguishing agent on the discharge side by the gas pressure of a constant pressure gas source. In the starting device, the constant-pressure gas line from the constant-pressure gas source is branched corresponding to the fire extinguishing target section, and each of the branched constant-pressure gas lines via the electromagnetic valve.
The constant pressure gas supplied from the constant pressure gas source is connected to the container valve and the selection valve disposed on the main pipe, and regulates the number of fire extinguishing agent storage containers to be opened and the gas pressure of the extinguishing agent on the discharge side while selecting and selecting. A starting device for gas fire extinguishing equipment, characterized in that a valve is selectively opened. 2. The starting apparatus for gas fire extinguishing equipment according to claim 1, wherein an electromagnetic valve is used as a container valve of the constant pressure gas source. 3. The starting device for gas fire extinguishing equipment according to claim 1, wherein an electromagnetic valve having a manual operation mechanism is used as the electromagnetic valve.