JP3353213B2 - Container fire extinguisher - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fire extinguishing system for a container for storing individual loads when loading a load on an aircraft or a cargo ship, for example.

[0002]

2. Description of the Related Art For example, the cargo compartment of an aircraft is usually provided at the lower part of the cabin, and when loading cargo in this cargo compartment, a large amount of luggage is stored in a container and the container is placed in a predetermined position in the cargo compartment. There is a case where the load is placed at a position, and a case where the load is placed as it is on a loading platform called a pallet and covered with a net to hold the load.

[0003] A fire detector and a gas fire extinguisher are usually installed in the cargo hold. When a fire occurs and the fire detector detects this, an alarm is issued to notify the crew and a fire extinguishing system is provided. Fire extinguishing agents are released from the fire. When the luggage on the pallet is burning, it is possible to detect a fire with the fire detector and extinguish the fire with a fire extinguishing agent as described above. However, if the luggage in the container is burning, it is impossible to detect or extinguish the fire.

As a technique for detecting and extinguishing a fire in a container, there is a device disclosed in Japanese Utility Model Laid-Open No. 57-137188. According to this invention, an automatic and / or manual fire extinguishing device with a fire detecting function is provided on the inner wall of a container door to detect and extinguish a fire in the container.

[0005]

Since the container is transported by being transported into and out of the cargo compartment, the fire extinguisher provided in the container is necessarily a single facility. In other words, fire detectors in the cargo compartment send a fire signal via signal lines to notify crew members, but since containers can always be moved, signal lines are connected to the fire extinguisher inside the container. Cannot be provided. For this reason, in the fire extinguisher described above, even if a fire occurs in the container and the fire is extinguished, the crew does not notice it at all. For this reason, an unexpected accident may occur when the crew opens the container door during a fire or fire extinguishing. Also, if containers are mounted close to each other, even if a fire occurs, the crew will burn and extinguish without notice, so the heat of the fire will propagate to the adjacent container and cause the internal cargo to May have adverse effects.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems. When a fire occurs in a container, the fire is detected and automatically extinguished, and a fire occurs on a display panel provided in a cockpit, for example. It is an object of the present invention to obtain a container fire extinguishing device that notifies the user that the fire is being extinguished and, if necessary, the place where the fire occurred.

[0007]

[Means for Solving the Problems]

(1) A fire extinguisher for a container according to the present invention includes a pressure vessel in which a fire extinguisher is sealed and a valve provided at a fire extinguisher outlet is opened when a fire occurs, and a pressure vessel through a valve through a pipe line. A fire extinguisher discharging means connected thereto and a displacement generating means operated by discharging the fire extinguishing agent are provided in the container, and an electric signal generating means for outputting an electric signal by the operation of the displacement generating means; and And a fire notification means for receiving the electric signal of the above and notifying the occurrence of a fire or the like is provided outside the container.

(2) In the fire extinguishing apparatus for a container described above, the valve of the pressure vessel is provided by a differential pressure valve provided at the extinguishing agent outlet, an open sealing plate of the differential pressure valve, and a rupture claw spring made of a shape memory alloy. It is what constituted.

(3) A fire extinguisher for a container according to the present invention is provided with a pressure vessel in which a fire extinguishing agent is sealed and an electric actuated valve provided at a fire extinguishing agent outlet, and a pipe line via the electric actuated valve. Fire extinguishing agent discharging means connected to the pressure vessel, a control panel for receiving a fire signal from a fire detector mounted in the container and transmitting an opening signal to an electrically operated valve, and a displacement operated by discharging the fire extinguishing agent An electric signal generating means for providing an electric signal by operating the displacement generating means, and a fire notifying means for receiving an electric signal from the electric signal generating means and notifying the occurrence of a fire, etc. Are provided outside the container.

(4) Further, in the fire extinguisher for containers described in (1) and (3) above, the fire extinguishing agent is constantly urged downward and projects from the container by the pressure of the fire extinguishing agent discharged from the pressure vessel due to the occurrence of fire. It comprises a displacement generating means having a rod, and an electric signal generating means provided outside the container facing the rod and having a pressure sensor for outputting an electric signal by contact of the rod.

[0011]

[Action]

(1) When a fire occurs in the container, the valve of the pressure vessel is opened due to an increase in the temperature in the container, and the fire extinguishing agent in the pressure vessel is released from the extinguishing agent discharge means to extinguish the fire. On the other hand, the displacement generating means is activated by the release of the fire extinguishing agent to generate an electric signal from an electric signal generating means provided outside the container, and this electric signal is sent to, for example, a display panel provided in a cockpit, thereby causing a fire. Inform the crew that the fire is being extinguished and, if necessary, the location of the fire.

(2) Further, when a fire occurs and the temperature inside the container rises, the spring of the differential pressure valve made of a shape memory alloy detects this and operates to break the open sealing plate to open the inside of the pressure vessel. Automatically releases fire extinguisher.

(3) When a fire occurs in the container, the fire detector detects the fire and sends a fire signal to the control panel, and the control panel outputs an open command to the electric valve of the pressure vessel based on the fire signal. Then, open the electrically operated valve and release the extinguishing agent. Hereinafter, the fire is extinguished by the same operation as in the above (1), and the occurrence of the fire is reported on the display panel.

(4) When a fire occurs in the container and the extinguishing gas in the pressure vessel is released, the rod rises against the spring due to the pressure, and the tip projects from the container and contacts the pressure sensor. I do. Thereby, the pressure sensor outputs an electric signal, and the signal is transmitted to the display panel. When the extinguishing agent has been completely discharged and the fire has been extinguished, the rod is returned to its original position by the spring, so that the electric signal from the pressure sensor becomes zero, and the display on the display panel disappears, indicating that the fire has been extinguished.

[0015]

【Example】

First Embodiment FIG. 1 is a schematic view of a first embodiment of a container fire extinguishing apparatus according to the present invention. In the figure, 1 is an aircraft body, 2 is a cabin, 3 is a floor of the cabin 2, and 4 is a cargo compartment provided below the cabin 2. In the following description, the floor 3 of the passenger compartment 2 may be referred to as the ceiling of the cargo compartment 4. Reference numeral 5 denotes a container that stores luggage and is mounted at a predetermined position in the cargo compartment 4. Reference numeral 6 denotes a pressure vessel (cylinder) installed on the inner wall of the container 5 and filled with a fire extinguishing agent such as CO ₂ gas, and an opening device 7 is attached to the opening thereof. It is connected to a fire extinguisher discharge nozzle 8 as a fire extinguisher discharging means provided on the top plate of the container 5.

Reference numeral 10 denotes a signal transmission device as a displacement generating means attached to the top plate of the container 5 and is connected to a branch pipe 11 branched from the pipe 9. 20 is the ceiling 3 of the cargo hold 4
A thin mat-shaped pressure sensor 21 serving as an electric signal generating means mounted on the display panel 21 is a display panel serving as a fire alarm means installed in a cockpit, for example, and is connected to the pressure sensor 20 by a signal line 22.

FIG. 2 shows an opening device 7 mounted on the pressure vessel 6.
It is sectional drawing which shows Example of (a). 30 is a channel 31 in the center
A cross-shaped valve box having a cross section, 32 is a connection port of the pipe 9,
At the center thereof, a flow path 33 is provided orthogonal to the flow path 31, and a cylinder 35 communicating with the flow paths 31, 33 is provided on the opposite side of the flow path 33.

Reference numeral 36 denotes a piston slidably accommodated in a cylinder 35. A packing 37 is attached to a tip portion, and a bottomed hole 38 is provided at a rear portion. Reference numeral 40 denotes a cap nut screwed around the outer periphery of the cylinder 35 of the valve box 30.
A plurality of gas discharge holes 43 are provided which are open to the screw hole 42 and the flow path 41 which are connected to the first hole and which are orthogonal to the screw hole 42. The cap nut 40 is screwed to the valve box 30 via a gasket 44 and an open sealing plate 45, compresses a spring 39 interposed between the bottom of the bottomed hole 38 and the gasket 44, and causes the piston 36 to flow through the piston 36. It is in pressure contact with a seat 34 provided at the entrance of 33. The pressure P _{2 of the} spring 39 is selected such that P ₁ > P ₂ with respect to the pressure P ₁ of the extinguishing agent in the compression vessel 6.

Reference numeral 46 denotes a guide member having a guide hole 47 at the center and screwed into the screw hole 42 of the cap nut 40. Reference numeral 50 denotes a spring chamber attached to the guide member 46. The spring chamber 50 is hollow at the distal end side, has a tearing claw 52, and has a tearing shaft 51 projecting into the guide hole 47 of the guide member 46. Reference numeral 53 denotes a through hole communicating with the hollow portion. A movable spring seat 54 is formed of a heat insulating material and is fixed to the end of the breaking shaft 51. A fixed spring seat 55 also serves as an outside air intake.
Between them, a spring 56 made of a shape memory alloy that expands at a high temperature when compressed at normal temperature is interposed. Reference numeral 57 denotes a plurality of outside air intake ports provided on the peripheral wall of the spring chamber 50. The spring chamber 50 may be composed of a plurality of columns and a top plate, and a wire mesh may be provided around the columns. Reference numeral 58 denotes a safety device nut having a safety sealing plate 59.

Next, the operation of the opening device 7 configured as described above will be described. In the opening device 7, the valve box 30 is screwed to the fire extinguishing agent outlet of the pressure vessel 6. Then, as shown in FIG. 2, a spring 5 made of a shape memory alloy is normally used.
6 is in a compressed state, and the tearing claw 52 of the tearing shaft 51 connected thereto is located in the guide hole 47 of the guide member 46.

On the other hand, the fire extinguishing agent (CO ₂ gas) in the pressure vessel 6 flows from the flow path 31 to the cylinder 35 as indicated by the arrow.
Hole 3 through a slight gap between
Penetrate into the 8, preventing the piston 36 and the pressure P ₂ of the spring 39 by the pressure P ₁ of the fire extinguishing agent, was pressed with a force of P ₁ + P _2, from fire extinguishing agent to close the flow path 33 flows out are doing.

Now, when a fire occurs in the container 5 and the temperature inside the container 5 rises, the temperature inside the spring chamber 50 also rises due to the outside air entering from the outside air intake 57 and the spring chamber 5
When the temperature inside 0 reaches a certain temperature (for example, 72 ° C.) or more, FIG.
As shown in FIG. 7, a spring 56 made of a shape memory alloy detects this and expands, and the piercing shaft 51 connected thereto is advanced, and the piercing claw 52 causes the opening sealing plate 45 and the gasket 4 to move.
6 and protrudes into the bottomed hole 38 of the piston 36.

As a result, the CO ₂ gas in the piston 36 flows from the hollow portion provided at the tip of the sealing shaft 51 through the through hole 53.
Through the gas discharge hole 43 to the outside.
The CO ₂ gas pressure in 8 becomes almost zero. As described above, since the pressure P ₁ of the fire extinguishing agent and the pressure P _{2 of the} spring 39 have a relationship of P ₁ > P ₂ , the piston 36 retreats due to the pressure of the CO ₂ gas from the pressure vessel 6, and Open. As a result, the fire extinguishing agent (CO ₂ gas) in the pressure vessel 6
The fire extinguisher discharge nozzle 8 is discharged into the container 5 through the pipes 9 and 13 to extinguish the fire. When the extinguishing agent is exhausted, the piston 36 is pushed by the spring 39 and returns to the original state.

FIG. 4 is a sectional view of an embodiment of the signal transmission device 10. In the figure, reference numeral 3 denotes the floor of the passenger compartment 2 (therefore, the ceiling of the cargo compartment 4). A top plate 60 of the container 5 has an opening 61 at a position facing the pressure sensor 20 provided on the ceiling 3 when the container 5 is mounted at a predetermined position in the cargo hold 4.
Is provided.

Reference numeral 62 denotes a piston chamber having a hole 63 in the top plate, and a piston 6 having a piston rod 65 therein.
4 is housed so that the upper end thereof protrudes from the hole 63 so as to be slidable up and down. A spring 66 is interposed between the piston 64 and the top plate of the piston chamber 62 to constantly lower the piston 64. ing. Reference numeral 67 denotes a substantially Y-shaped sealing screw screwed into the lower opening of the piston chamber 62.
2 as well as a stopper for the piston 64.

The signal transmission device as described above is a container 5
The hole 63 is aligned from the inside of the container 5 with the opening 61 provided in the top plate of the container 5 and is fixed to the top plate 60 of the container 5 by an angle 68 or the like, and the branch pipe 11 is connected to the sealing screw 67 thereof. . At this time, the distal end of the piston rod 65 is located in the opening 61 of the container 5 immediately below the pressure sensor 20, and the end surface thereof is located on the top plate 60 of the container 5.
Located approximately flush with or slightly below the outer surface of the. Therefore, when the container 5 is moved, the piston rod 65 is not damaged.

When a fire occurs in the container 5, the opening device 7 of the pressure vessel 6 is opened, CO ₂ gas is released from the fire extinguishing agent discharge nozzle 8 through the pipe 9, and C ₂ gas is discharged into the container 5.
Extinguish with fire by filling with O ₂ gas. On the other hand, the pressure of the fire extinguishing agent is applied from the branch pipe 11 to the piston chamber 62 of the signal transmission device 10. As a result, as shown in FIG.
Is pushed up against the spring 66 by the gas pressure, and the tip of the piston rod 65 presses the pressure sensor 20. The output signal of the pressure sensor 20 generated thereby is transmitted to the display panel 21 to notify the occurrence of a fire by blinking a lamp or a buzzer, and to specify a fire occurrence location as necessary.

Referring again to FIG. 1, the container 5 in which the above-mentioned fire extinguisher is installed is loaded with cargo and carried into the cargo compartment 4, where it is fixed at a predetermined position. At this time, the piston rod 65 of the signal transmission device 10 is located immediately below the pressure sensor 20. However, if the area of the pressure sensor 20 is increased, there is no problem even if the fixing position of the container 5 is slightly shifted.

When a fire occurs in the container 5, the opening device 7 is actuated by the above-described operation to send a fire extinguishing agent to the fire extinguishing agent discharge nozzle 8 to extinguish the fire and to transmit the signal.
By operating 0, a signal is sent from the pressure sensor 20 to the display panel 21 to notify that a fire has occurred and the fire is being extinguished by flashing a lamp, a buzzer, or the like, and displaying the location as necessary.

Accordingly, the crew does not approach the fire extinguishing container 5 carelessly and the adjacent container can be moved according to the situation, so that the damage can be minimized. When the extinguishing agent is exhausted, the signal transmission device 10 causes the piston 64 to be pushed back by the spring 66 and the piston rod 65 to be separated from the pressure sensor 20, so that the signal from the pressure sensor 20 to the display panel 21 disappears, The blinking of the lamp and the buzzer disappear, indicating that the fire extinguishing has been completed.

Embodiment 2 FIG. 6 is a schematic view of a second embodiment of the present invention. The same parts as those in the first embodiment are denoted by the same reference numerals, and description thereof will be omitted. In the figure, reference numeral 23 denotes a self-control panel having a built-in power supply 24 and mounted on the inner wall of the container 5, and reference numeral 25 denotes a fire detector mounted inside the top plate 60 of the container 5, and its fire signal is self-controlled by a signal line 26. It is sent to the panel 23.
Reference numeral 7a denotes an opening device for the pressure vessel 6. In this embodiment, an electromagnetic valve is used.
The control signal is sent to the opening device 7a based on the fire signal from the controller, and the solenoid valve is opened to maintain the state. If the self-control panel 23 and the like are provided with a hole in a part of the container and the signal line 22 from the display panel 21 disposed in the cargo compartment 4 or the like is made detachable through the hole with a connector or the like, the power supply is controlled. 24 can be omitted.

In this embodiment constructed as described above, when a fire occurs in the container 5, the fire detector 25
Detects this and sends a fire signal to the self-control panel 23,
The self-control panel 23 receives this and sends a control signal to the opening device 7a to open the solenoid valve. As a result, the fire extinguishing agent in the pressure vessel 6 is sent to the fire extinguishing agent discharge nozzle 8 through the pipe 9 and discharges the fire extinguishing agent to fill the container 5 with CO ₂ gas and extinguish the fire. On the other hand, the pressure of the fire extinguishing agent is
0, and sends an output signal from the pressure sensor 20 to the display panel 21 to notify the crew that a fire has occurred and the fire is being extinguished by flashing a lamp, operating a buzzer, and the like. Displays the location of the occurrence.

During this time, even if the fire signal from the fire detector 25 disappears due to a decrease in the temperature and smoke density in the container 5 due to the fire extinguishing agent, the opening device 7a keeps the open state and the fire extinguishing agent discharge nozzle 8 Continue releasing fire extinguisher from. When the fire extinguishing agent has been exhausted, the signal transmission device 10 returns to its original state, and the display on the display panel 21 and the buzzer disappear, indicating that the fire has ended.

Although the first and second embodiments of the present invention have been described above, the present invention is not limited to these embodiments. For example, the following embodiments can be adopted. (1) In each of the above embodiments, the piston rod of the signal transmission device operated by the occurrence of a fire is brought into contact with the pressure sensor provided on the ceiling of the cargo compartment to generate an electric signal, which is transmitted to the display panel to cause a fire. However, for example, a reed switch is provided on the ceiling of the cargo compartment instead of the pressure sensor, and a permanent magnet is provided at the tip of the piston rod of the signal transmission device to open and close the reed switch. Alternatively, an electric signal may be generated using an action such as capacitance or electromagnetic induction.

Also, instead of operating the signal transmission device using the gas pressure of the fire extinguishing agent, the piston rod is raised using a spring made of a shape memory alloy, or the self-control panel of the second embodiment is used. The solenoid may be controlled by the output to make the plunger protrude. Further, the above-described pressure sensor, reed switch, and the like may be provided not only on the ceiling of the cargo compartment but also on the side wall of the cargo compartment. In short, it comprises a displacement generating means provided in the container and operated by the occurrence of a fire, and an electric signal generating means provided outside the container so as to face the displacement generating means and output an electric signal by the displacement generating means. I just need.

(2) Further, a case has been described in which, as a means for opening the pressure vessel, a device for operating a tearing claw by a spring made of a shape memory alloy or a solenoid valve is used. Other means may be used, such as providing a vessel, exploding the explosive based on the fire signal, and activating the breaching claw by the gas pressure.

[0037]

As described above in detail, the present invention provides a displacement generating means which automatically discharges a fire extinguishing agent when a fire occurs in a container and extinguishes the fire, and which is operated by the discharge pressure of the fire extinguishing agent. Thereby, an electric signal is outputted from an electric signal generating means provided outside, and this electric signal is transmitted to, for example, a display panel provided in a cockpit, and a crew member is in a fire in a container and is extinguishing a fire, In addition, since the fire occurrence location is notified as needed, the crew does not approach the fire extinguishing container carelessly or open the door, and therefore does not cause an unexpected accident. Further, since the adjacent container can be moved as needed, there is no adverse effect on the load inside.

Since a rupture plate spring made of a shape memory alloy is used for the differential pressure valve of the pressure vessel, when a fire occurs in the container, the spring detects the fire and automatically opens the valve, thereby providing a simple structure. Fire extinguishing agent can be released automatically to extinguish the fire.

When a fire occurs in the container, the fire detector detects the fire and controls an electrically operated valve provided at the extinguishing agent outlet of the pressure vessel to automatically discharge the extinguishing agent. Since the fire is extinguished and the occurrence of the fire is displayed on the display panel by the displacement generating means and the electric signal generating means, the above-described effects can be obtained.

Further, a displacement generating means provided inside the container and provided with a rod protruding from the container by the pressure of the fire extinguishing agent released from the pressure vessel when a fire occurs due to being constantly urged downward, Since the occurrence of fire and the like are notified by the display panel provided in the cockpit or the like, by the electric signal generating means including a pressure sensor that is provided opposite to the displacement generating means and outputs an electric signal when the rod comes into contact with the rod, The mat-shaped pressure sensor that constitutes the electric signal generating means can be mounted in a very narrow place between the ceiling of the cargo compartment and the top plate of the container. Is operated, the electric signal of the pressure sensor can be transmitted reliably to the display panel. Further, when the fire extinguishes after the release of the fire extinguishing agent, the rod is automatically returned by the spring and the output signal of the pressure sensor becomes zero, so that the fire extinguishing of the fire can be accurately notified by the display panel.

[Brief description of the drawings]

FIG. 1 is a schematic diagram of a first embodiment of the present invention.

FIG. 2 is a sectional view of an embodiment of the opening device of FIG. 1;

FIG. 3 is an operation explanatory view of the embodiment of the opening device of FIG. 2;

FIG. 4 is a sectional view of an embodiment of the signal transmission device of FIG. 1;

FIG. 5 is an operation explanatory view of the signal transmission device of FIG. 4;

FIG. 6 is a schematic diagram of a second embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Airframe 3 Cargo compartment ceiling 4 Cargo compartment 5 Container 6 Pressure vessel 7 Opening device 8 Fire extinguishing agent discharge nozzle 9 Pipe line 10 Signal transmission device 11 Branch pipe 20 Pressure sensor 21 Display panel 22, 26 Signal line 23 Self-control board 25 Fire Detector 50 Spring chamber 51 Breaking shaft 52 Breaking claw 56 Shape memory alloy spring 62 Piston chamber 65 Rod 66 Spring

──────────────────────────────────────────────────続 き Continuation of the front page (56) References Japanese Utility Model Sho 57-137189 (JP, U) Japanese Utility Model Sho 57-137188 (JP, U) Japanese Utility Model Sho 51-50599 (JP, U) (58) Field (Int. Cl. ⁷ , DB name) A62C 35/10 A62C 37/00

Claims (4)

(57) [Claims] A fire extinguisher that detects a fire that has occurred in a container and extinguishes the fire. A fire extinguisher is enclosed in the container, and when a fire occurs, a valve provided at the fire extinguisher outlet is opened. A pressure vessel provided in the container, a fire extinguisher discharge means provided in the container and connected to the pressure vessel via the valve via the valve, a displacement generating means provided in the container and operated by discharging the fire extinguisher, An electric signal generating means provided outside the container and outputting an electric signal by operation of the displacement generating means; and an electric signal provided outside the container and receiving an electric signal from the electric signal generating means to notify of a fire or the like. A fire extinguisher for a container, comprising fire alarm means. 2. A valve of the pressure vessel, a differential pressure valve provided at a fire extinguisher outlet of the pressure vessel, an open sealing plate of the differential pressure valve,
2. A tear-opening claw spring made of a shape memory alloy.
A fire extinguisher for the container described. 3. A fire extinguisher which detects a fire that has occurred in a container and extinguishes the fire, comprising: a pressure vessel provided in the container, in which a fire extinguisher is sealed, and an electric actuated valve is provided at a fire extinguisher outlet. Fire extinguishing agent release means provided in the container and connected to the pressure vessel via the electrically operated valve by a conduit, and receiving a fire signal from a fire detector provided in the container and attached to the container A control panel for transmitting an opening signal to the electric actuated valve; a displacement generating means provided in the container and operated by discharging the fire extinguishing agent; and an electric signal output by operation of the displacement generating means provided outside the container. A container comprising: an electric signal generating unit; and a fire notification unit provided outside the container and receiving an electric signal from the electric signal generating unit and notifying the occurrence of a fire or the like. Fire extinguisher. 4. The displacement generating means comprises a rod which is constantly urged downward and projects from the container by the pressure of the fire extinguishing agent discharged from the pressure vessel due to the occurrence of a fire, and the electric signal generating means comprises: 4. The container fire extinguisher according to claim 1, further comprising a pressure sensor provided outside the container so as to face the rod and outputting an electric signal when the rod comes into contact with the rod.