JPH09239061A - Fire extinguishing system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To surely extinguish various fires and to eliminate the fear of generating a fire again and a human risk by starting a first fire extinguishing means so as to discharge a powder and gas system extinguishing agent according to a fire detection signal from a fire sensing means and then starting a second fire extinguishing means so as to discharge a water and form system extinguishing agent. SOLUTION: When a fire is generated in a radiating area, air heated by the fire rises to a ceiling and a fire sensor 31a senses it and transmits the fire detection signal to a control panel 33. The control panel 33 sends a starting signal to a starting valve 44, supplies the gas system extinguishing agent to an opening type head 62a, and discharges it to the radiating region. Then gas pressure within the gas system extinguishing agent is gradually reduced and the gas pressure on the side of a down stream is reduced to gradually open a check valve 20 to supply water to a shared transporting pipe 55. Then water pressure within a water supply pipe 4 and a pump control panel 37 starts a pomp for extinguishing to supply the water system extinguishing absorbing up from a extinguishing agent storing tank 1 to an open type head 62a to discharge a radiating region.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a fire extinguishing system, and more particularly to a fire extinguishing system using a plurality of types of extinguishing agents.

[0002]

2. Description of the Related Art Generally, as a condition for a fire,
It is said that there are four conditions: (1) the presence of an ignited substance, (2) the temperature reaches the ignition point, (3) the presence of oxygen, and (4) the catalytic action that causes flame propagation. ing. And if all four of these conditions are not met, no fire will occur. Therefore, extinguishing means removing at least one of the above four conditions.

A conventional fire extinguishing system aims to remove at least one of the above four conditions, and water / foam fire extinguishing systems, powder / gas fire extinguishing systems and the like are known.

As a typical water-based fire extinguishing system,
A sprinkler fire extinguisher is included. This sprinkler fire extinguisher uses water as a fire extinguisher, and a plurality of sprinkler heads are installed on a pipe attached to a ceiling or the like. This sprinkler head has a fusible part (deflector) which is melted by heat, and when a fire occurs and the temperature rises, the fusible part is melted or destroyed. When the fusible portion is dissolved, water that is constantly pressurized in the pipe is discharged from the sprinkler head. When the pressurized water in the pipe is discharged from the sprinkler head,
The pressure in the pipe drops, and this pressure drop is detected by the pressure switch installed in the starting pressure air tank attached to the fire extinguishing pump. The pressure switch that has detected the pressure drop sends a pressure drop signal to the pump control panel, and the pump control board that has received the pressure drop signal sends a pump start signal to the fire extinguishing pump. When the pump activation signal is received, the fire extinguishing pump is activated, the water in the water tank is pressurized and supplied into the pipe, and water is discharged from the sprinkler head to extinguish the fire.

A water-based fire extinguishing system represented by a sprinkler fire extinguisher uses water as an extinguishing agent,
The purpose is to lower the temperature by radiating water. That is, the purpose is to prevent (2) the temperature from reaching the ignition point of the above-mentioned four fire occurrence conditions. As described above, since the water-based fire extinguishing system uses water as an extinguishing agent, it is said to be a fire extinguishing system that is less likely to refire.

A typical structure of a foam fire extinguishing system is to provide a pressure reducing open type simultaneous opening valve on a ceiling or the like, and a sprinkler head (sensing head) is connected to a sensing pipe branched from the simultaneous opening valve. . Further, in place of the sprinkler head, a manual start valve may be provided in the sensing pipe. Then, when a fire occurs, the sprinkler head or the manual start valve operates, and this operation reduces the pressure in the sensing pipe. Due to the pressure drop in the sensing pipe, the simultaneous release valve operates and the foam extinguishing agent flows into the secondary pipe. When the foam extinguishing agent flows into the secondary side pipe, the foam extinguishing agent is released from the foam head and the pressure inside the pipe drops, and this pressure drop is installed in the starting pressure air tank attached to the fire extinguishing pump. It is detected by the pressure switch. The pressure switch that has detected the pressure drop sends a pressure drop signal to the pump control panel, and the pump control board that has received the pressure drop signal sends a pump start signal to the fire-extinguishing pump. Upon receipt of the pump start signal, the fire-extinguishing pump operates to pressurize the inside of the pipe, the foam extinguishing agent and air are mixed, and foam is discharged from the foam head to extinguish the fire.

As described above, the foam fire extinguishing system uses foam as a fire extinguishing agent, and mainly extinguishes the fire by utilizing the choking action of the foam film. That is, the main purpose is to remove (3) the presence of oxygen from the above four conditions for fire occurrence. The foam fire extinguishing system is said to be effective for gasoline fires in parking lots and the like.

The gas-based fire extinguishing system uses gas (halon, CO _2, etc.) as an extinguishing agent,
Usually, it is used in a partially sealed space. The gas-based fire extinguishing system extinguishes the space by discharging gas or the like to fill the space and reduce the oxygen concentration in the space. That is, the above-mentioned 4
The purpose is to eliminate (3) the presence of oxygen in one of the two fire occurrence conditions. This gas fire extinguishing system is said to be suitable for fires in computer rooms, underground parking lots, electric rooms, and the like.

Further, the powder-based fire extinguishing system uses powder as an extinguishing agent, and is used in a space which is sealed to some extent, like the gas-based fire extinguishing system. This powder-based fire extinguishing system mainly extinguishes the fire by the suffocation action of the powder. That is, the main purpose is to remove (3) the presence of oxygen from the above four conditions for fire occurrence. This powder fire extinguishing system is said to be suitable for a fire in a computer room, an underground parking lot, an electric room, etc., like the gas fire extinguishing system.

[0010]

However, the above-described conventional fire extinguishing system has a problem that the effect thereof may be remarkably different depending on the type of fire or may have a bad influence on the human body. In other words, the conventional water / foam fire extinguishing system, even if the fire extinguishing system operates normally, when the momentum of the flame (fire) such as a fire of petroleum products expands rapidly, the temperature of the water or bubbles is the ignition point. There is a possibility that the fire cannot be extinguished in the end because it cannot be lowered below. In addition, since the conventional powder / gas fire extinguishing system extinguishes the fire by reducing the oxygen concentration, a large amount of powder or gas is required when the volume of the space where the oxygen concentration is to be reduced is large. Become. If such a large amount of powder or gas is released into the space, the person in the space is endangered. Moreover, even if the conventional powder / gas fire extinguishing system succeeds in extinguishing the fire, there is a possibility of reigniting.

Therefore, an object of the present invention is to solve the above-mentioned problems, to provide a fire extinguishing system capable of surely extinguishing various kinds of fires without fear of re-ignition and human danger. It is in.

[0012]

A fire extinguishing system according to the first aspect of the present invention is a first extinguishing agent for extinguishing powder or gas.
Extinguishing means, second extinguishing means for releasing water / foam-based extinguishing agent, fire detecting means for transmitting a fire detecting signal when a fire is detected, and the first detecting means according to the fire detecting signal from the fire detecting means. No. 1 fire extinguishing means is activated, and second fire extinguishing means is activated after the water / foam-based fire extinguishing agent is discharged from the first fire extinguishing means. .

In the fire extinguishing system according to the second aspect of the present invention, the first activating means, after receiving the fire detection signal,
It is characterized in that the first extinguishing means is activated after a lapse of a predetermined time.

In the fire extinguishing system according to the third aspect of the present invention, the first fire extinguishing means includes a first transportation line for transporting a powder / gas-based extinguishing agent, and a first check valve provided in the first transportation line. The second extinguishing means joins the first transportation line and transports the water / foam-based extinguishing agent, and a second check valve provided in the second transportation line. And the fire extinguishing system further includes a common transportation line having an inlet end connected to a confluence of the first transportation line and the second transportation line.

In a fire extinguishing system according to a fourth aspect of the present invention, the fire sensing means is arranged in each of a plurality of radiant areas forming a fire extinguishing target area, and a plurality of branch lines are formed downstream of the common transportation line. Then, the plurality of branch lines are distributed to the plurality of radiating areas, a selection valve is provided in each of the plurality of branch lines, and when a fire detection signal is received, the fire detection signal is transmitted. It is characterized in that a valve starting means is provided for identifying the radiation area in which the means is arranged and opening the selection valve of the branch line distributed to the identified radiation area.

[0016]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of a fire extinguishing system according to the present invention will be described below with reference to the drawings. FIG.
[Fig. 1] is a schematic system diagram of a fire extinguishing system according to the present embodiment, and in Fig. 1, reference numeral 1 is a fire extinguishing agent storage tank in which a fire extinguishing agent is stored. Here, water is used as the extinguishant in the extinguishant storage tank 1.

The inlet end of the suction pipe 2 is immersed in the fire extinguisher in the fire extinguisher storage tank 1, and the outlet end of the suction pipe 2 is connected to the fire extinguishing pump 3. The fire extinguishing pump 3 is connected to an inlet end of a water supply pipe 4 that transports water sucked from the extinguishant storage tank 1. A sluice valve 5 is provided in the middle of the water supply pipe 4, and the sluice valve 5 is always open. A check valve 6 is provided upstream of the sluice valve 5 (on the side of the fire extinguishing pump 3), and the check valve 6 prevents backflow of the extinguishant from the downstream side to the upstream side. The water supply pipe 4 between the check valve 6 and the fire extinguishing pump 3 is connected to a priming tank 8 via a branch pipe 7. Further, the starting pressure air tank 1 is connected to the water supply pipe 4 on the downstream side of the sluice valve 5 via a branch pipe 9.
0 is connected, and a normally open gate valve 11 is provided in the middle of the branch pipe 9. Further, the starting pressure air tank 10 is provided with a pump starting pressure switch 12 for detecting the pressure in the tank.

A valve device 13 is provided at the outlet end of the water supply pipe 4, and the valve device 13 has a normally open gate valve 14 as shown in FIG. An alarm valve 15 for detecting running water is provided on the downstream side of 14. Further, the alarm valve 15 is provided with an alarm pressure switch 19 for transmitting a running water signal. Further, a pressure release type simultaneous open valve 16 is provided on the downstream side of the alarm valve 15, and the simultaneous open valve 16 is connected to a simultaneous open valve starting pipe 17 branched from the water supply pipe 4. ing. Piping for starting this simultaneous release valve 1
In the middle of 7, a solenoid valve 18 for energizing and opening the simultaneous open valve
Is provided.

A water transportation pipe 5 is provided on the outlet side of the simultaneous opening valve 16.
4, the check valve 20 and the normally open gate valve 21 are provided in series in the water transport pipe 54. A test pipe 22 is branched and connected to a water transportation pipe 54 between the check valve 20 and the simultaneous open valve 16, and the test valve 23 is provided in the middle of the test pipe 22.
Is provided.

The outlet end of the gas transport pipe 53 is connected to the outlet end of the water transport pipe 54.
Is connected to the outlet side of the check valve 29. An outlet end of the gas supply pipe 28 is connected to the inlet side of the check valve 29, and the inlet end of the gas supply pipe 28 is connected to the collecting pipe 2
7 is connected to the outlet end. A gas flow detection pressure switch 30 is provided in the middle of the gas supply pipe 28.
One end of a plurality of connecting pipes 26, 26 ... 26 is branched and connected to the collecting pipe 27.
The other end of 6 ... 26 has a plurality of gas type start valves 25, 25 ... 25.
Connected to each. 25 are attached to the respective discharge ports of a plurality of gas-based fire extinguishant cylinders 24, 24 ... 24 filled with a gas-based fire extinguishant, and are connected to each other by a connecting pipe 47. It is connected to the.

Further, the gas transport pipe 53 and the water transport pipe 54
An inlet end of a common transportation pipe 55 that is commonly used for transportation of both water and gas is connected to the confluence portion of and. The common transportation pipe 55 has a plurality of discharge pipes 56a, 56a.
b and 56c are branched and connected. In the middle of these discharge pipes 56a, 56b and 56c, there are normally selected selection valves 52a, 52b and 52c and normally open sluice valves 60a and 60b. , 60c are respectively provided in series.

Select valves 52a, 52b, 52c and gate valve 6
0a, 60b, 60c discharge pipes 56a, 56
Branch pipes 58a, 58b, 58 are provided in the middle of b, 56c.
c are respectively branched and connected, and the test valves 59a and 59 are connected to the branch pipes 58a, 58b and 58c.
b, 59c and district display pressure switches 41a, 41
b and 41c are provided.

The branch pipe 6 is provided in the discharge pipes 56a, 56b, 56c on the downstream side of the gate valves 60a, 60b, 60c.
1a, 61b, 61c are respectively branched and connected, and open type heads 62a, 62b, 62c are provided at the outlet ends of these branch pipes 61a, 61b, 61c, respectively.

Further, gas-based fire extinguishing agent cylinders 24, 24 ... 2
4, gas-type start valves 25, 25 ...
25 is connected to a start valve 44 attached to the discharge port of a start cylinder 45 via a fire extinguisher cylinder start pipe 46.

The selection valves 52a, 52b and 52c are
It is connected to the starting valves 49a, 49b, 49c attached to the discharge ports of the selecting valve starting cylinders 50a, 50b, 50c via the selecting valve starting pipes 51a, 51b, 51c.

Furthermore, the fire extinguishing system according to the present embodiment has a plurality of fire detectors 31 provided in the fire extinguishing target area.
a, 31b, 31c, and these fire detectors 31 are connected to a control panel 33 via a signal line 32. Here, as the fire detector 31, for example, a heat detector attached near the ceiling is used. In addition, the control panel 3
3 has a timer (not shown) built therein. An alarm speaker 34 and a plurality of district emission indicator lights 35a, 35b, 35c are connected to the signal line 32. Further, FIG. 3 is a plan view showing a schematic system of the fire extinguishing system according to the present embodiment, and as can be seen from this figure, each of the fire detectors 31a, 31b, 31c, 31d corresponds to each of the fire extinguishing target areas D. It is arranged in each of the radiation areas d1, d2, d3, d4.

To the control panel 33, the solenoid valve 18 for activating the simultaneous open valve and the alarm pressure switch 19 are connected via a signal line 36, and the activation valve 44 is connected via a signal line 43. Signal lines 48a, 48
The start valves 49a, 49b and 49c are connected via b and 48c, and the gas flow detecting pressure switch 30 is connected via a signal line 64.

Further, a signal line 38 is provided on the control panel 33.
A pump control panel 37 is connected via the, and the pump control panel 37 is connected to the pump starting pressure switch 12 via a signal line 63.

A manual start board 39 is connected to the control board 33 through a signal line 40. The manual start board 39 is provided with a pressure for displaying each area through each of the signal lines 42a, 42b and 42c. It is connected to the switches 41a, 41b, 41c.

Next, the operation of the fire extinguishing system according to this embodiment will be described. In normal times, pressurized water is filled inside the water supply pipe 4 from the check valve 6 to the simultaneous opening valve 16 shown in FIG. The pressure of the pressurized water is also applied to the branch pipe 9 branched from the discharge pipe 4 and the starting pressure air tank 10 connected to one end thereof. In addition, a solenoid valve for energizing and opening the simultaneous open valve 1
The pressurized water pressure is also applied to the inside of the simultaneous opening valve starting pipe 17 on the upstream side of 8. On the other hand, the water transport pipe 54, the gas supply pipe 28, the gas transport pipe 53, the common transport pipe 55, the discharge pipes 56a, 56b and 56c, and the branch pipes 61a, 61b and 61c are empty pipes at normal times. Further, the fire extinguishing pump 3 is normally stopped.

Next, a case where a fire occurs will be described. Here, it is assumed that the point of fire occurrence is within the radiation area d1 shown in FIG. When a fire occurs in the radiation area d1, the hot air generated by this fire rises to the ceiling. The hot air reaching the ceiling is detected by the fire detector 31a provided in the radiation area d1, and the fire detector 31a which detects the hot air emits a fire detection signal. The fire detection signal transmitted from the fire detector 31a is the signal line 3
It is transmitted to the control panel 33 via 2. The control panel 33 which has received this fire detection signal transmits a first alarm signal, and this first alarm signal is sent to the alarm speaker 34 via the signal line 32. The alarm speaker 34 that has received the first alarm signal emits an alarm, for example, by voice, such as "A fire. Please evacuate to the outside promptly."

Further, the control panel 33 which has received the fire detection signal
Measures the elapsed time after a fire with a timer,
When a predetermined time for evacuation elapses, a start signal is transmitted. This start signal is sent to the start valve 49a via the signal line 48a, and the start valve 49a is received by receiving the start signal.
a opens. When the starting valve 49a is opened, the gas in the selection valve starting cylinder 50a is sent to the selection valve 52a via the selection valve starting pipe 51a, and the selection valve 52a is opened by the gas pressure thereof. Note that the selection valves 52b and 52c remain closed.

Further, the control panel 33 which has received the fire detection signal
Sends an activation signal to the activation valve 44 via the signal line 43, and upon receipt of this activation signal, the activation valve 44 opens. When the starting valve 44 is opened, the gas in the starting cylinder 45 is sent to each gas type starting valve 25, 25 ... 25 via the fire extinguishing agent cylinder starting pipe 46 and the connecting pipe 47, and the gas pressure thereof causes each gas type starting valve. 25, 25 ... 25 opens. 25 are opened, the gas-based fire extinguishing agent pressurized and filled in the gas-based fire extinguishant cylinders 24, 24, ... 24 passes through the respective connecting pipes 26, 26 ,. Sent to the collecting pipe 27. The gas-based fire extinguishing agent sent to the collecting pipe 27 reaches the respective selection valves 52a, 52b, 52c via the gas supply pipe 28, the gas transportation pipe 53, the common transportation pipe 55 and the respective discharge pipes 56a, 56b, 56c. .

On the other hand, the gas flow detecting pressure switch 30 attached to the gas supply pipe 28 detects the gas pressure in the gas supply pipe 28 and transmits a gas-based extinguishant discharge signal.
This gas-based fire extinguishing agent release signal is sent to the control panel 33 via the signal line 64, and the control panel 33 which has received the gas-based fire extinguishing agent release signal issues a second alarm signal. The second alarm signal is sent to the alarm speaker 34 via the signal line 32, and the alarm speaker 34 receiving the second alarm signal reports that the gas-based fire extinguishing agent has been released.

When the gas-based fire extinguishing agent is supplied to each of the selection valves 52a, 52b and 52c, the selection valve 52a is opened, so that the gas-based fire extinguishing is applied to the open type head 62a through the discharge pipe 56a and the branch pipe 61a. The agent is supplied, and the gas-based fire extinguishing agent is discharged from the open head 62a to the radiation area d1. On the other hand, since the selection valves 52b and 52c are closed, the gas-based fire extinguishing agent is not released to the radiation areas other than the radiation area d1.

The pressurized gas-based fire extinguisher is also supplied into the branch pipe 58a which is branched and connected to the discharge pipe 56a, and the district display pressure switch 41a is connected to the branch pipe 58a.
It detects the gas pressure inside and sends out a discharge signal in the area. This area emission signal is sent to the manual activation board 39 and the control board 33 via the signal line 42 and the signal line 40a, and the control board 33 which has received the area emission signal emits a lighting signal. This lighting signal is transmitted through the signal line 32 to the district emission indicator light 35.
Area emission indicator light 3 sent to a and receiving a lighting signal
5a lights up.

As described above, when a fire occurs, the gas-based fire extinguishing agent is first released. However, this gas-type fire extinguishing agent is not intended mainly for extinguishing the fire, but it is intended to weaken the fire power in the fire. It is intended. Therefore, the release amount of the gas-based fire extinguishing agent can be set to an amount that does not cause human damage such as suffocation, and the release range of the gas-based fire extinguishing agent is not the entire extinguishing target area D, It can be limited to the radiation area d1 where the fire occurred.

Further, the control panel 33 transmits a start signal to the solenoid valve 18 for starting the simultaneous opening valve via the signal line 36. Here, the transmission timing of the activation signal may be transmitted at the same time as the activation signal is transmitted to the activation valve 49a, or a gas built-in fire extinguishing may be performed by using a timer built in the control panel 33. It is also possible to transmit at any time after the release of the agent until the end of the release. Upon receiving the start signal, the solenoid valve 18 for activating the simultaneous release valve is opened, and the pressurized water causes the simultaneous opening valve activating pipe 1 to operate.
It is supplied to the simultaneous opening valve 15 via 7. Then, the simultaneous open valve 15 is opened by the pressure of the pressurized water, and the pressurized water in the water supply pipe 4 is supplied to the check valve 20. Here, since the pressure of the gas-based fire extinguisher is applied on the downstream side of the check valve 20, if the pressure of the gas-based fire extinguisher is higher than the pressure of the water on the upstream side of the check valve 20, the reverse pressure is applied. At the stop valve 20, the flow of water is shut off.

When the gas-based fire extinguishing agent is continuously discharged, the gas pressure in the gas-type fire extinguishing agent cylinders 24, 24 ... 24 gradually decreases, and therefore, the water transport pipe downstream of the check valve 20. The gas pressure in 54 gradually decreases, and the check valve 20 gradually opens as the gas pressure decreases. When the check valve 20 is opened, water is supplied to the common transportation pipe 55. Then, the water pressure in the water supply pipe 4 decreases, and the water pressure in the branch pipe 9 connected to the water supply pipe 4 also decreases. The pressure in the starting pressure air tank 10 also decreases due to the decrease in the water pressure in the branch pipe 9, and when the pressure reaches a predetermined value or less, the pump starting pressure switch 12 sends a pressure decrease signal.
This pressure drop signal is sent to the pump control board 37 via the signal line 63, and the pump control board 37 which has received the pressure drop signal sends a pump start signal to start the fire extinguishing pump 3.

When the fire extinguishing pump 3 is started, the water sucked up from the fire extinguishing agent storage tank 1 through the suction pipe 2 passes through the water supply pipe 4 and is opened simultaneously.
6 and further, water transportation pipe 54, common transportation pipe 5
5, water is supplied to the open type head 62a through the discharge pipe 56a and the branch pipe 61a. Then, water is discharged from the open type head 62a to the radiation area d1.
Since the check valve 29 is provided between the gas transport pipe 53 and the gas supply pipe 28, water does not flow into the gas supply pipe 28 side.

On the other hand, the alarm pressure switch 19 of the alarm valve 15 detects running water and transmits a running water signal, and this running water signal is sent to the control panel 33 via the signal line 36. The control panel 33 which has received the water flow signal transmits a third alarm signal, and this third alarm signal is sent to the alarm speaker 34 via the signal line 32. The alarm speaker 34, which has received the third alarm signal, reports that water has been discharged.

As described above, according to the present embodiment, when a fire occurs, the gas-based fire extinguishing agent is first discharged to weaken the fire, and then the water-based fire extinguishing agent is released. Not only can you make sure to successfully extinguish a fire by making the most of the characteristics of each extinguishing agent with different properties,
By limiting the release amount of the gas-based fire extinguishing agent, human injury can be avoided, and further, the water-based fire extinguishing agent can surely prevent re-ignition.

Further, according to this embodiment, pipes common to both the gas-based fire extinguisher and the water-based fire extinguisher, that is, the common transportation pipe 55, the discharge pipes 56a, 56b and 56c, the branch pipes 61a, 61b and 61c. Since the open type heads 62a, 62b and 62c are also shared,
Despite the use of different types of fire extinguishing agents, the overall system configuration can be simplified.

In the above embodiment, the gas-based fire extinguisher and the water-based fire extinguisher are used, but a powder-based fire extinguisher may be used instead of the gas-based fire extinguisher, or a foam-based fire extinguisher may be used instead of the water-based fire extinguisher. The extinguishing agent can be freely used and can be appropriately selected according to the type of the extinguishing target.

[0045]

As described above, according to the present invention, when a fire occurs, the powder / gas-based fire extinguishing agent is first discharged,
After that, it is possible to extinguish the fire by releasing the water / foam type fire extinguishing agent, it is possible to surely extinguish various fires, and it is possible to provide a fire extinguishing system without fear of re-ignition.

[Brief description of drawings]

FIG. 1 is a system diagram showing an outline of an embodiment of a fire extinguishing system according to the present invention.

FIG. 2 is a system diagram showing the valve device of the same embodiment.

FIG. 3 is a plan view showing a part of the same embodiment.

[Explanation of symbols]

1 Fire Extinguisher Storage Tank 2 Suction Pipe 3 Fire Pump 4 Water Supply Pipe 5, 11, 14, 21, 60a, 60b, 60c, 60
d Gate valve 6, 20, 29 Check valve 7, 9, 61a, 61b, 61c, 61d Branch pipe 10 Pressure air tank for starting 12 Pump pressure switch for starting 13 Valve device 15 Alarm valve 16 Simultaneous opening valve 17 Simultaneous opening valve Piping for start-up 18 Solenoid valve for simultaneous opening valve 24 Gas-based fire extinguisher cylinder 25 Gas-type start-up valve 26 Connection pipe 27 Collecting pipe 28 Gas supply pipe 33 Control panel 37 Pump control panel 44 Start-up valve 45 Start-up cylinder 46 Fire-extinguishing cylinder start-up Pipe 47 Connection pipe 52a, 52b, 52c, 52d Selection valve 53 Gas transportation pipe 54 Water transportation pipe 55 Common transportation pipe 56a, 56b, 56c, 56d Discharge pipe 62a, 62b, 62c, 62d Open head D Fire extinguishing area d1, d2, d3, d4 radiation area

Claims (4)

[Claims] 1. A first fire extinguishing means for releasing a powder / gas fire extinguisher, a second fire extinguishing means for releasing a water / foam fire extinguisher, and a fire detecting means for transmitting a fire detection signal when a fire is detected. A first starting means for starting the first extinguishing means in response to a fire detection signal from the fire detecting means; and a second extinguishing means after releasing the water / foam-based extinguishing agent from the first extinguishing means. A fire extinguishing system comprising: a second starting means for starting. 2. The fire extinguishing system according to claim 1, wherein the first activating means activates the first extinguishing means after a lapse of a predetermined time after receiving the fire detection signal. 3. The first extinguishing means has a first transportation line for transporting a powder / gas-based fire extinguishing agent, and a first check valve provided in the first transportation line, and the second extinguishing system. The means includes a second transportation line that joins the first transportation line and transports the water / foam-based fire extinguishing agent, and a second check valve provided in the second transportation line, and the fire extinguishing system includes: The fire extinguishing system according to claim 1 or 2, further comprising a shared transportation line having an inlet end connected to a confluence of the first transportation line and the second transportation line. 4. The fire detection means is provided in each of a plurality of radiation areas forming a fire extinguishing target area, a plurality of branch lines are formed on a downstream side of the shared transportation line, and the plurality of branch lines are connected to each other. Distributing to a plurality of radiating areas, arranging a selection valve in each of the plurality of branch lines, and when a fire detection signal is received, the radiating area in which the fire detection means that has emitted the fire detection signal is arranged. 4. The fire extinguishing system according to claim 3, further comprising a valve activating means for opening the selection valve of the branch line that is specified and is distributed to the specified radiation area.