JP6710119B2 - Tunnel emergency equipment - Google Patents

Description

TECHNICAL FIELD The present invention relates to a tunnel emergency facility that guides evacuation by using a speaker provided in a fire hydrant facility that allows a hose storage unit to be raised to take out a hose.

Conventionally, fire hydrant equipment has been provided as an emergency equipment for tunnels installed in tunnels such as highways and motorways.The fire hydrant equipment is equipped with a hydrant door that can be opened freely. A fire extinguisher storage unit equipped with an openable fire extinguisher door stores, for example, two fire extinguishers.

Such fire hydrant equipment is installed, for example, at intervals of 50 meters along the side wall facing the observer passage provided in the tunnel. The guardian passage is provided as a side wall passage about 1 m higher than the road surface, and it is possible to safely inspect various equipment including fire hydrant installed in the tunnel without obstructing the passage of vehicles in the tunnel. I am trying.

When a vehicle accident involving a fire occurs, users such as the driver of the accident vehicle open the fire hydrant door of the fire hydrant equipment, pull out the hose with a nozzle, and operate the fire hydrant valve opening/closing lever to operate the fire hydrant pump equipment. Fire extinguishing work can be performed by activating and discharging water.

In addition, in order to protect the human body and vehicles from a fire accident that occurs in the tunnel, a fire detector for monitoring the fire is installed and connected to the signal line drawn from the disaster prevention reception board.

The fire detector has monitoring areas in both the left and right directions, and for example, 25 m intervals or 50 m so that the monitoring areas of adjacent fire detectors overlap each other along the longitudinal direction of the tunnel. It is arranged continuously at intervals.

Furthermore, guidance equipment is installed with a guidance display plate indicating the direction and distance of the tunnel exit and the evacuation contact entrance.

JP, 2008-055024, A JP, 2009-285126, A JP-A-6-325271

However, in such a conventional fire hydrant installed in the tunnel, the fire hydrant equipment was installed along the side wall of the tunnel facing the aisle passage, so when a fire occurs due to a vehicle accident, the user can move from the road surface It is necessary to reach out to the fire hydrant equipment installed on the side wall of the tunnel beyond the aisle, open the fire hydrant door, and pull out the hose to carry out the fire extinguishing work, as the fire hydrant equipment is installed at a high position away from the road surface. However, some people may have to reach the guardian's aisle and operate it without being able to reach it.In addition, some guardian's aisles have handrails that make it difficult to handle fire extinguishing work. There were cases.

In order to solve this problem, the applicant of the present application has proposed an elevating fire hydrant facility that can be easily and easily handled from the road side and the guardian passage side. The elevating fire hydrant equipment has a hose storage unit that houses a hose with a nozzle and is arranged in the observer's passage so that it can be moved up and down freely by an elevating mechanism.When a vehicle accident involving a fire occurs in a tunnel, a predetermined switch When the operation is performed, the hose storage is raised and held at the exposed position on the surveillance personnel passage by the operation of the lifting mechanism, and the hose storage portion exposed on the surveillance personnel passage is not required to open the fire hydrant door. You can easily and easily pull out the hose with nozzle to extinguish the fire.

A speaker is installed in the lifting fire hydrant equipment, and when the hose storage part is lifted by the lifting mechanism to be exposed in the passage of the surveillance staff, an alarm sound is output from the speaker to call attention to those around them. I am trying to let you.

On the other hand, the conventional guidance equipment installed in the tunnel only installed a guidance display plate and fixedly displayed the direction and distance number of the exit and the evacuation contact pit, and a fire broke out in the tunnel. In this case, for example, if the visibility inside the tunnel becomes poor due to soot produced by a fire, it may be difficult to visually recognize the guidance display plate, and it may be difficult to promptly and appropriately perform evacuation guidance.

INDUSTRIAL APPLICABILITY The present invention makes it possible to promptly and safely perform evacuation behavior by accurately transmitting information such as the direction and distance of an evacuation site in a tunnel by using a voice alarm function of a speaker provided in a lifting fire hydrant facility. The purpose is to provide emergency equipment for the tunnel.

(Tunnel emergency equipment)
The present invention provides a tunnel emergency equipment,
A speaker having a plurality placed in the tunnel,
In the event of a fire in the tunnel,
From the speaker located near the fire occurrence place in the tunnel, output an evacuation guidance message indicating the distance or distance and direction to the evacuation place located in the direction away from the fire occurrence place,
An evacuation guidance control unit that outputs an evacuation guidance message indicating the distance or the distance and direction to the evacuation site located at the shortest distance from the speaker arranged at a place far from the fire occurrence place in the tunnel,
With
It is characterized by

(Plane wave speaker)
The speaker is a directional speaker arranged with a directivity direction set in a direction intersecting the longitudinal direction of the tunnel ,
It is a plane wave speaker that outputs acoustic vibration as a plane wave.

(Array speaker)
The speaker is a directional speaker arranged with a directivity direction set in a direction intersecting the longitudinal direction of the tunnel ,
It is an array speaker configured by arranging sound sources in a straight line in the horizontal direction.

(Basic effect)
The present invention relates to a tunnel emergency facility, in which a plurality of loudspeakers arranged in a tunnel and a speaker placed near a fire place in the tunnel when a fire occurs in the tunnel The evacuation guidance message indicating the distance or the distance and direction to the evacuation site located in the direction away from is output to the evacuation site located in the shortest distance from the speaker located far from the fire occurrence place in the tunnel. The evacuation guidance control unit that outputs the evacuation guidance message indicating the distance or the distance and the direction is provided, so that a vehicle accident involving a fire occurs in the tunnel, and the vehicle passes through the observer passage that is the longitudinal direction of the tunnel. When you evacuate, you can hear the evacuation guidance message that guides you to the evacuation site, such as the evacuation contact, from the speaker, and know the distance or the distance and direction from the current position to the evacuation site. Even if the evacuation site can be confirmed, calm evacuation behavior is possible. Even if there is a smoke layer in the tunnel and visibility is poor, the evacuation guidance message can be heard so that appropriate evacuation action can be performed. Preventing evacuation behavior toward a place and promptly evacuating by guiding to the shortest distance evacuation place when you are away from the fire place.

(Effect of plane wave speaker)
Further, since the speaker is a directional speaker arranged with a directivity set in a direction intersecting with the longitudinal direction of the tunnel and is a plane wave speaker that outputs acoustic vibration as a plane wave, the sound of the evacuation guidance message is It does not diffuse like spherical waves from the speaker, propagates in a limited range in the direction crossing the observer passage that is the longitudinal direction of the tunnel, and can clearly hear the evacuation guidance message when passing in front of the plane wave speaker. Even if the directional speakers are arranged in the fire hydrant equipment installed at a predetermined interval, the evacuation guidance messages having different contents can be clearly heard without interfering with each other. Further, since the sound waves go straight without being diffused, the evacuation guidance message can be clearly heard without being affected by the surrounding noise without increasing the volume.

(Effect of array speaker)
Further, since the speaker is a directional speaker arranged with a directivity direction set in a direction intersecting the longitudinal direction of the tunnel , and the speaker is an array speaker configured by arranging the sound sources in a straight line in the horizontal direction, the sound of the evacuation guidance message is generated. Is propagated like a fan in the vertical direction, and the person at the same position as the array speaker in the longitudinal direction of the tunnel can hear the sound of the evacuation guidance message regardless of the position in the lateral direction. You can clearly hear the distance to. In addition, the horizontal propagation of the array speaker over the horizontal width becomes poor, so even if the array speakers are installed in the fire hydrant equipment installed at a predetermined interval, evacuation guidance messages with different contents do not interfere with each other. You can hear clearly.

Explanatory drawing showing tunnel emergency equipment including fire hydrant equipment installed in the shield tunnel Explanatory drawing showing the outline of emergency equipment for tunnels equipped with fire hydrant equipment that performs monitoring control with a disaster prevention reception board Explanatory diagram showing fire hydrant equipment from the road side Explanatory drawing showing the internal structure of the fire hydrant equipment in a section viewed from the road surface side Explanatory drawing showing the internal structure of the hose storage part in the fire hydrant equipment in a cross section of the supervisor passage Explanatory drawing showing an embodiment of a water discharge control mechanism and a lift control mechanism provided in a control mechanism storage section installed in a management passage Explanatory view showing a state in which the hose storage section is raised by the elevating mechanism to be exposed on the observer passage in a cross section viewed from the road surface side Block diagram showing the functional configuration of the disaster prevention reception board and fire hydrant control device in Figure 2. Explanatory drawing showing the state of evacuation guidance with a directional speaker provided for each fire hydrant equipment on the tunnel plane Explanatory drawing showing an array speaker used as a directional speaker

[Outline of fire hydrant equipment in tunnel]
FIG. 1 is an explanatory diagram showing a tunnel emergency equipment including a fire hydrant equipment installed in a tunnel of an automobile road. As shown in FIG. 1, the tunnel 10 constructed by the shield construction method is covered with a cylindrical tunnel wall surface 12 and is partitioned by a floor slab 18 to provide a road 15. In this example, Road 15 has two lanes in one direction.

An observer passage 14 is provided along the tunnel wall surface 12 on the left side of the road 15 partitioned by the floor slab 18, and the inner space below the observer passage 14 is used as a duct 22 and a conduit or the like is laid. ..

The lower side of the floor slab 18 on which the road 15 is formed is divided into a plurality of sections in the lateral direction of the tunnel. For example, the section located below the observer passage 14 is used as a management passage 20. The management passage 20 is used as an emergency evacuation passage when a fire occurs in the tunnel. A water supply main pipe 23 is laid in the management passage 20.

The fire hydrant equipment 16 is installed every 50 meters in the longitudinal direction of the tunnel 10, and the fire hydrant equipment 16 is separately installed in the hose storage 44 and the control mechanism storage 45. A fire extinguisher box 17 accommodating a fire extinguisher is provided adjacent to the fire hydrant facility 16.

The hose accommodating portion 44 is arranged in a fire hydrant embedding portion having a mounting opening on the road surface of the surveillance staff passage 14. The control mechanism accommodating portion 45 is arranged in the management passage 20 below the hose accommodating portion 44, the branch pipe branched from the water supply main pipe 23 is drawn in, and water supply for extinguishing fire is supplied to the hose accommodating portion 44. The piping is up.

The hose storage unit 44 of the fire hydrant equipment 16 stores a hose with a nozzle and is supported by a lifting mechanism in the surveillance staff passage 14. When a predetermined raising operation is performed, the lifting mechanism moves the hose storage unit 44 to an exposed position on the surveillance staff passage 14. The hose accommodating portion 44 is raised to be exposed, and the fire extinguishing work can be performed by pulling out the hose with a nozzle.

A directional speaker 24 and a direction display device 25 are installed on the tunnel wall surface 12 of the surveillance staff passage 14 in which the hose storage section 44 of the fire hydrant equipment 16 is installed. The directional speaker 24 outputs a warning sound or a warning message when raising the hose storage portion 44 of the fire hydrant equipment 16 to the exposed position on the surveillance staff passage 14 to call attention to the surroundings.

Further, the directional speaker 24 guides a predetermined evacuation to guide the evacuation site such as the evacuation contact opening in the tunnel 10 when the user evacuates through the surveillance staff passage 14 due to a vehicle accident involving a fire. Output the message by voice.

Interlocking with the voice output of the evacuation guidance message from the directional speaker 24, the direction display device 25 displays a direction such as an arrow indicating either the tunnel up direction or the tunnel down direction, which is the evacuation direction.

Further, inside the tunnel 10, fire detectors 27 are installed along the wall surface in the longitudinal direction of the tunnel at intervals of, for example, 25 meters or 50 meters. The fire detector 27 has two sets of fire detection units, and thus has a monitoring area in both the up and down directions of the tunnel longitudinal direction, and is adjacent to the fire detectors along the tunnel longitudinal direction. The monitoring areas are continuously arranged so as to mutually complement each other, and radiation from a flame caused by a fire in the monitoring area, for example, infrared rays is observed to detect the fire.

[Overview of tunnel disaster prevention equipment]
FIG. 2 is an explanatory view showing an outline of tunnel emergency equipment for monitoring and controlling by the disaster prevention reception board.

As shown in FIG. 2, the fire hydrant equipment 16 in which the hose storage portion 44 and the control mechanism storage portion 45 are separately arranged is installed inside the tunnel 10 in the longitudinal direction of the tunnel at intervals of 50 meters. A fire hydrant control device 140 is provided for the hose storage 44, the control mechanism storage 45, the directional speaker 24, and the direction display device 25 provided in the fire hydrant facility 16.

As the other tunnel equipment emergency, within tunnel 10, in addition to fire hydrant equipment 16, fire detectors are provided at predetermined intervals to detect the flames of a fire, a manual call device or emergency telephone for a fire report A water spray for spraying fire-extinguishing water from a water spray head is provided to protect the tunnel body and the inside of the duct from a fire, but the illustration is omitted.

On the other hand, a disaster prevention receiver board 100 is installed in a monitoring center or the like, and a transmission path 102 is drawn from the disaster prevention receiver board 100 to the tunnel 10, and the fire hydrant control device 140 of the fire hydrant equipment 16 installed in the tunnel 10 and A fire detector (not shown) is connected. An optical fiber transmission line such as FTTH or a coaxial transmission line is used as the transmission line 102, and digital transmission using, for example, an IP packet is performed.

Further, for the disaster prevention receiver board 100, a fire extinguishing pump equipment 104, a duct cooling pump equipment 106, a ventilation equipment 108, an alarm display board equipment 110, a radio rebroadcasting equipment 112, a television monitoring equipment 114, a lighting equipment 116 and an IG. Slave station equipment 118 and the like are provided, except that the IG slave station equipment 118 is connected by a data transmission line, and the other facilities are individually connected to the disaster prevention receiver 100 by P-type signal lines.

Here, the ventilation facility 108 is a facility that gives energy to the air in the tunnel by the high blowing wind speed by the operation of the jet fan installed on the ceiling side in the tunnel, and causes a ventilation flow in the longitudinal direction of the tunnel.

The alarm display board equipment 110 is equipment for informing a user in the tunnel of an abnormality in the tunnel by displaying it on an electronic display board. The radio rebroadcast facility 112 is a facility for allowing a driver or the like to receive information from a road administrator in a tunnel. The TV monitoring facility 114 is a facility for confirming the scale and position of a fire, grasping the situation in the tunnel when operating the water spray facility and guiding evacuation.

The lighting equipment 116 is equipment that drives and manages the lighting equipment in the tunnel. Further, the IG slave station equipment 118 is a communication equipment that connects the disaster prevention reception board 100 and a remote supervisory control equipment 120, which is an upper equipment provided outside, via a network 122.

[Installation structure of fire hydrant equipment]
3 is an explanatory view showing the fire hydrant equipment from the road side, FIG. 4 is an explanatory view showing the internal structure of the fire hydrant equipment in a cross section as seen from the road surface side, and FIG. 5 is an observer of the internal structure of the hose storage part of the fire hydrant equipment. It is explanatory drawing shown in the cross section of a passage.

(External structure of fire hydrant equipment)
As shown in FIG. 3, the fire hydrant equipment 16 is installed on the hose storage side in the internal space below the floor of the surveillance staff passage 14 provided with the handrail 40, and is the location where the fire hydrant equipment 16 is installed. A fire hydrant door 26 and a notification device panel 28 are installed above the front wall 14a of the passage 14 facing the road.

The fire hydrant door 26 is mounted so as to be openable and closable downward around a lower hinge 26a, and the handle 27 can be unlocked and opened by pulling the handle 27 toward you. Inside the fire hydrant door 26, as shown by a dotted line, a water tap 90 having a hose connection port and a pump start switch 92 are provided. Therefore, when a vehicle accident involving a fire occurs, the fire brigade opens the fire hydrant door 26, connects the fire hose to the water hydrant 90, and operates the pump activation switch 92 to activate the fire extinguishing pump to enable fire extinguishing activities. I have to.

The notification device panel 28 is provided with a red indicator light 30, a transmitter 32, and a response lamp 34. The red indicator light 30 is constantly turned on so that the installation location of the fire hydrant equipment 16 can be seen from a distance. In the event of a fire, if you push the transmitter 32 and turn on the push button switch, a fire alert signal will be sent to the disaster prevention reception panel of the monitoring center and a fire alarm will be issued, and in response, a response signal will be sent from the disaster prevention reception panel to respond. The lamp 34 is turned on.

Further, the notification device panel 28 is provided with a raising switch 36a and a lowering switch 36b for raising and lowering the hose storage portion of the fire hydrant equipment 16 arranged in the surveillance staff passage 14.

Further, the handrail 40 is not provided in the portion of the surveillance staff passage 14 in which the fire hydrant equipment 16 is installed, and it interferes with the operation of the hose storage portion that rises and is exposed from the inside on the road surface of the surveillance staff passage 14. I try not to.

The panel portion of the notification device panel 28 on which the ascending switch 36a and the descending switch 36b are arranged can be operated from both the road 15 side and the surveillance staff passage 14, and therefore is oblique to the shoulder portion of the surveillance staff passage 14. You may arrange so that it may be located in.

(Flat speaker and direction indicator)
As shown in FIG. 3, for example, three directional speakers 24 are arranged on the tunnel wall surface 12 at the position where the fire hydrant equipment 16 of the surveillance staff passage 14 is installed. A display device 25 is arranged. The directional speaker 24 may be one.

The directional speaker 24 is a plane wave speaker that outputs acoustic vibration as a plane wave, and is known as a flat panel speaker having a speaker body with a thickness of about 10 mm. A plane wave speaker, for example, has a plurality of voice coils arranged behind a flat diaphragm and is driven by an acoustic signal to move the diaphragm in parallel, generating plane wave vibrations and producing sound with high directivity forward. Propagate.

A person who evacuates by arranging the directional speaker 24 using such a plane wave speaker in a direction crossing the surveillance staff passage 14 used as an evacuation route with the directional direction thereof oriented and outputting an evacuation guidance message by voice. When the person crosses in front of the directional speaker 24, the content of the message can be clearly heard.

Further, the sounds from the directional speakers 24 installed in the adjacent fire hydrant equipment 16 that are 50 meters apart are not heard by each other because of their high directivities, and from the directional speaker 24 at the passing position. Only the message of can be heard clearly.

Further, due to the high directivity of the directional speaker 24, even if the noise is high due to the evacuation action, the message content can be clearly heard without being affected by the noise.

Voice output of the evacuation guidance message from the directional speaker 24 is performed by a voice signal from the fire hydrant control device 140 of FIG.

The direction display device 25 is provided with an up-direction display unit 25R and a down-direction display unit 25L capable of displaying arrows when the right direction is the tunnel up direction and the left direction is the tunnel down direction, as shown in FIG. In response to the control signal from the fire hydrant controller 140, the arrow of the up direction display unit 25R or the down direction display unit 25L is turned on, blinked, or blinked by, for example, backlight illumination to display the evacuation direction. Note that the direction display device 25 is not limited to this, as long as it is a display indicating the evacuation direction, and a display form of an appropriate direction can be used.

(Structure of fire hydrant equipment installed in the internal space)
As shown in FIGS. 4 and 5, a rectangular fire hydrant raising/lowering opening 42 is opened on the road surface corresponding to the installation location of the fire hydrant equipment 16 in the surveillance staff passage 14, and is provided above the opening edge of the fire hydrant raising/lowering opening 42. Has a step portion 42a.

The hose storage section 44 of the fire hydrant equipment 16 is arranged so as to be able to move up and down from the lower side of the fire hydrant elevating port 42. The hose accommodating portion 44 includes a box-shaped housing 48 having front and rear openings, and four frame pipes 52 are arranged at the front and rear openings of the housing 48 to form a hose outlet 55. ing.

Inside the hose storage portion 44, a hose 54 having a nozzle 56 attached to the tip is stored in an inwardly wound state, and the nozzle 56 attached to the tip of the hose is arranged at the center of the internally wound hose 54. The nozzle 56 can be taken out from both the front surface and the back surface.

Further, in the hose storage 44, a water discharge switch 38a and a water discharge stop switch 38b for opening and closing a remote fire hydrant valve using an electric valve provided in the control mechanism storage 45 arranged in the management passage 20. Is provided.

The hose storage section 44 is supported by a lifting mechanism 46 so as to be lifted and lowered. In the lifting mechanism 46, hydraulic actuators 60 are erected upright at four locations facing the corners of the rectangular bottom of the hose housing 44, and the hydraulic actuators 60 are pistons connected to a piston slidably provided in the cylinder cylinder. The rod is taken out upward, and the tip of the piston rod is fixed to the bottom of the hose storage portion 44.

A control mechanism storage portion 45 is disposed in the management passage 20 below the internal space in which the lifting mechanism 46 is disposed, and the control mechanism storage portion 45 is supplied with fire extinguishing water to the hose 54 of the hose storage portion 44. A water discharge control mechanism for discharging water and a lift control mechanism for driving the lift mechanism 46 up and down are provided.

A branch pipe 23a branched from the water supply main 23 is connected to the control mechanism housing portion 45 to introduce the fire extinguishing water supplied from the fire extinguishing pump equipment to the water supply main 23. Further, the branch pipe 23a is branched to the upper part and is connected to the water tap 90 shown in FIG.

A pipe from the water discharge control mechanism built in the control mechanism housing portion 45 is connected to a flexible joint 63 serving as a hose connection port of the hose housing portion 44 via a connecting hose 62. The connecting hose 62 has a hose length with a margin necessary for connection when the hose storage unit 44 is pushed up from the fire hydrant elevating port 42 of the surveillance staff passage 14 and held at the exposed position by the elevating mechanism 46. As a result, even if the hose storage portion 44 moves up and down with respect to the fixed side pipe, the hose storage portion 44 can move without the connecting hose 62 coming off. The movement of the connecting hose 62 caused by the lifting operation is absorbed by the movement of the flexible joint 63.

Further, a pipe for supplying and draining fire extinguishing water is connected to the hydraulic actuator 60 of the lifting mechanism 46 from the lifting control mechanism built in the control mechanism housing portion 45.

Here, the number of hydraulic actuators 60 provided in the elevating mechanism 46 can be set to an appropriate number as needed, and for example, a hydraulic actuator having a predetermined caliber having a pushing force corresponding to the weight of the hose storage portion 44 is located at the center. One hydraulic actuator 60 may be arranged, or similarly, three hydraulic actuators 60 having a total pushing force corresponding to the weight of the hose storage portion 44 may be arranged in a triangular shape.

Further, the hose storage section 44 and the control mechanism storage section 45 are connected to each other by using the connection hose 62 in the observer passage and the piping on the management passage 20 side. The spaces may be directly connected by a connecting hose. Also in this case, one or both of the connecting hoses are connected to the hose housing 44 side and the control mechanism housing 45 by a flexible joint.

Further, as shown in FIG. 5, the directional speaker 24 and the direction display device 25 installed on the tunnel wall surface 12 facing the surveillance staff passage 14 have a height that does not exceed the height of the person evacuating through the surveillance staff passage 14. In addition, the direction of the direction is set slightly obliquely downward in accordance with the curve of the tunnel wall surface 12, the person evacuating the observer passage 14 and the road along the front wall 14a of the observer passage 14 A person who evacuates 15 can also clearly hear the evacuation guidance message output from the directional speaker 24.

(Water discharge control mechanism)
FIG. 6 is an explanatory diagram showing an embodiment of a water discharge control mechanism and a lifting control mechanism provided in a control mechanism housing portion installed in the management passage.

As shown in FIG. 6, in the water discharge control mechanism 64, a remote fire hydrant valve 70 using an electric valve is connected by drawing in the branch pipe 23a from the water supply main, and a manual fire hydrant valve 72 is connected in parallel with the remote fire hydrant valve 70. Has been done. A pressure adjusting valve 74 is connected to the remote fire hydrant valve 70, and the secondary side of the pressure adjusting valve 74 is connected to the hose housing 44 via a connecting hose 62, as shown in FIG. Further, an automatic drain valve 76 is connected to the secondary side of the pressure adjusting valve 74.

The remote fire hydrant valve 70 is controlled to open by operating the water discharge switch 38a provided in the hose storage portion 44 shown in FIG. 4, and fire extinguishing water is supplied to the hose storage portion 44 side. Further, when the water discharge stop switch 38b provided in the hose storage portion 44 shown in FIG. 4 is operated during the water discharge work, the water discharge stop switch 38b is controlled to be closed, and the supply of fire extinguishing water to the hose storage portion 44 is stopped.

The remote fire hydrant valve 70 may not be an electric valve, but a fire hydrant valve opening/closing lever may be provided in the hose housing 44 and connected by a link wire, and the fire hydrant valve may be opened/closed by remote operation by operating the fire hydrant valve opening/closing lever. ..

(Elevation control mechanism)
As shown in FIG. 6, the elevating control mechanism 66 is connected to a remote control valve 78 that uses a motor-operated valve by drawing in the branch pipe 23a from the water supply main pipe, and is connected to a remote control valve 78 in parallel with a manual control valve 80. Has been done. The secondary side of the remote control valve 78 is connected via a pipe to the hydraulic actuator 60 shown in FIG. 4 via an automatic pressure regulating valve 81, a check valve 82 and an orifice 83. A drain valve 84 is connected to the primary side of the orifice 83.

The automatic pressure adjusting valve 81 can adjust the set pressure by adjusting the spring load, and by changing the set pressure, the rising speed of the hose housing portion 44 by the hydraulic actuator 60 can be adjusted.

In the normal monitoring state, the remote control valve 78, the manual control valve 80, and the drain valve 84 are closed, and since the water for extinguishing fire is not supplied to the hydraulic actuator 60 of FIG. 4, the piston of the hydraulic actuator 60 has the lowest point in the figure. , The hose storage 44 is stored in the internal space of the surveillance staff passage 14, and the fire hydrant elevating port 42 is closed by the road plate 50 of the hose storage 44.

When a vehicle accident involving a fire in a tunnel occurs, the remote control valve 78 is opened by operating the raising switch 36a of the notification device panel 28 shown in FIG. 2, and the hydraulic actuator 60 is extinguished through the orifice 83. Water is supplied, the piston in the cylinder is pushed up, and the hose storage section 44 is raised via the piston rod.

In this case, the amount of fire-extinguishing water squeezed by the orifice 83 is supplied to the hydraulic actuator 60, so that the hose accommodating portion 44 is pushed up at a slow predetermined speed determined by the adjustment pressure of the automatic pressure regulating valve 81 and the orifice 83. Is exposed on the surveillance staff passage 14 and is stopped and held at a position where a full stroke is achieved.

When the exposed hose storage portion 44 is stored on the observer passage 14, the remote control valve 78 is closed by operating the lowering switch 36b of the hose storage portion 44 shown in FIG. The supply of fire extinguishing water to 60 is stopped. In this state, when an attendant enters the management passage 20 and opens the drain valve 84 of the control mechanism storage portion 45, the fire extinguishing water is drained from the hydraulic actuator 60, and the lifting mechanism 46 receiving the weight of the hose storage portion 44. The hydraulic actuator 60 descends at a slow and predetermined speed determined by the orifice 83, and the hose housing portion 44 is housed in the fire hydrant elevating port 42.

The drain valve 84 is a remote drain valve using an electric valve, the remote control valve 78 is controlled to be closed by operating the lowering switch 36b, and then the remote drain valve is controlled to be opened to store the hose by the elevating mechanism 46. Alternatively, the portion 44 may be lowered to be stored in the fire hydrant raising/lowering port 42.

[Operation of fire hydrant equipment]
FIG. 7 is an explanatory view showing a state in which the hose accommodating portion is raised by the elevating mechanism to be exposed on the surveillance staff passage in a cross section viewed from the road side.

(Normal monitoring)
During normal monitoring when a vehicle is passing through the road of the tunnel 10 shown in FIG. 1, as shown in FIGS. 4 and 5, the hose storage section 44 of the fire hydrant equipment 16 is provided with a fire extinguishing water from the lifting control mechanism 66. Is stopped, the hydraulic actuator 60 of the elevating mechanism 46 positions the piston at the lowest point, whereby the elevating mechanism 46 accommodates the hose accommodating portion 44 in the internal space of the surveillance staff passage 14, The road surface plate 50 on the upper surface of the body 48 is pressed against and supported by the step portion 42a of the fire hydrant raising/lowering opening 42, and even if the fire hydrant equipment 16 is installed in the observer passage 14, the passage of people passing through the observer passage 14 Does not hinder or pose a risk.

(When a fire occurs)
On the other hand, when a vehicle accident involving a fire occurs in the tunnel 10, the user goes to the fire hydrant equipment 16 near the place where the fire occurred and pushes the transmitter 32 of the notification device panel 28 shown in FIG. The fire alarm signal is transmitted to the disaster prevention reception panel 100, the confirmation response signal is received from the disaster prevention reception panel 100, and the response lamp 34 is turned on to confirm the completion of the notification to the monitoring center side.

Then, in order to perform the fire extinguishing work, the raising switch 36a provided on the notification device panel 28 is pressed to turn it on. When the rising switch 36a is turned on, an open control signal is sent to the remote control valve 78 of the lift control mechanism 66, and the remote control valve 78 is controlled to open, so that fire extinguishing water from the branch pipe 23a is discharged from the remote control valve 78. Water is sent to the hydraulic actuator 60 of the lifting mechanism 46 through the orifice 83 and the fire extinguishing water supplied into the cylinder raises the piston, and pushes up the hose storage portion 44 supported through the piston rod.

Therefore, the road surface plate 50 that closes the fire hydrant elevating port 42 of the surveillance staff passage 14 is lifted, the hose storage portion 44 that has been housed inside slowly emerges from the road surface, rises to the exposed position shown in FIG. 7, and stops. , Hold this exposed position.

When the hose storage portion 44 is held above the observer passage 14 in an exposed state in this way, the user can easily and easily remove the nozzle 56 from the road side through the front opening of the housing 48. 54 can be pulled out.

Subsequently, when the user presses the water discharge switch 38a provided in the exposed hose storage section 44 to turn it on, an open control signal is output to the remote fire hydrant valve 70 of the water discharge control mechanism 64, and the remote fire hydrant valve 70 opens, Fire extinguishing water of a specified pressure adjusted by the pressure adjusting valve 74 is supplied to the hose 54 via the connecting hose 62, and water can be extinguished from the nozzle 56 to perform the fire extinguishing activity.

On the other hand, when the user performs the fire extinguishing work from the side of the surveillance staff passage 14, the nozzle 56 can be easily removed by removing the nozzle 56 from the rear opening of the housing 48 in the hose storage portion 44 exposed and held on the surveillance staff passage 14. The hose 54 can be easily pulled out to perform fire extinguishing work.

When the fire is extinguished and the fire extinguishing work is completed, when the water discharge stop switch 38b provided in the hose housing 44 is pressed to turn it on, a close control signal is output to the remote fire hydrant valve 70 of the water discharge control mechanism 64, and the remote fire hydrant is connected. The valve 70 is closed and the water discharge from the nozzle 56 can be stopped.

Further, in the recovery work after the fire extinguishing work is completed, after draining the hose 54, the hose 54 is housed in the hose housing part 44 exposed and held on the surveillance staff passage 14 in an inward winding state. .. Then, by turning on the lowering switch 36b provided on the reporting device panel 28, a closing control signal is sent to the remote control valve 78 of the lifting control mechanism 66 to close it.

In this state, when the staff member enters the management passage 20 and opens the drain valve 84 of the lift control mechanism 66 provided in the control mechanism housing portion 45, the water for extinguishing fire is drained from the water pressure actuator 60 and the weight of the hose housing portion 44 is reduced. Upon receipt, the elevating mechanism 46 descends, the road plate 50 descends to a position where it abuts on the stepped portion 42a of the fire hydrant elevating port 42, and stops, so that the hose accommodating portion 44 is accommodated in the internal space of the surveillance staff passage 14. ..

The drainage valve 84 is a remote drainage valve using a motor-operated valve, and the remote control valve 78 is closed by the ON operation of the lowering switch 36b, and then the remote drainage valve is opened to enter the management passage 20. The hose storage section 44 may be lowered to the stored state by remote control without operating the drain valve 84.

If the hose storage unit 44 is not exposed on the surveillance staff passage 14 even if the lift switch 36a is operated due to a failure of the lifting mechanism 46, the fire hydrant door 26 is opened to take out the nozzle 56 and pull out the hose 54. It is possible to ensure high fail-safety.

[Evacuation guidance control using fire hydrant equipment]
(Disaster prevention reception board)
FIG. 8 is a block diagram showing a functional configuration of the disaster prevention receiver panel and the fire hydrant control device of FIG. As shown in FIG. 8, the disaster prevention reception board 100 includes a board control unit 124, and the board control unit 124 is a function realized by executing a program, for example, and has hardware such as a CPU, a memory, and various input/output ports. A computer circuit equipped with is used.

A transmission unit 126 is provided for the panel control unit 124, the fire hydrant control device 140 of the fire hydrant equipment 16 installed at intervals of 50 meters in the tunnel 10 is connected to the transmission path 102 drawn from the transmission unit 126, and Fire detectors installed at predetermined intervals in the tunnel 10 are connected.

The panel control unit 124 communicates with an alarm unit 128 including a speaker, an alarm display lamp, a display unit 130 including a liquid crystal display, a printer, etc., an operation unit 132 including various switches, and external monitoring equipment. A modem 134 for connecting the IG slave station equipment 118 is provided, and further, the fire extinguishing pump equipment 104, the cooling pump equipment 106, the ventilation equipment 108, the alarm display board equipment 110, the radio rebroadcast equipment 112, the television monitoring equipment shown in FIG. An IO unit 136 to which the 114 and the lighting equipment 116 are connected is provided.

The board control unit 124 repeatedly sends a calling signal including a polling command instructing the transmission unit 126 to sequentially specify the addresses of the fire detectors installed in the tunnel, and the fire detectors match their own addresses. When the call signal is received, it returns a response signal including its own status information such as fire detection. Further, the board control unit 124 of the disaster prevention receiver board 100 causes the alarm unit 128 to output a fire alarm and the IO unit 136 when a fire is detected by receiving a response signal (fire signal) including fire information from the fire detector. Control to instruct interlocking with other equipment via the.

In addition, when the panel control unit 124 receives a response signal (fire signal) including fire information from the fire detector and outputs a fire alarm, the panel control unit 124 is located within a predetermined danger range, for example, within 100 meters with respect to the fire occurrence place. For the fire hydrant equipment 16, an evacuation guidance control signal in which the direction away from the fire occurrence location is set as the evacuation direction is transmitted, and for the other fire hydrant equipment 16, the evacuation direction toward the closer evacuation location is set. The control for transmitting the evacuation guidance control signal is performed.

In addition, since the air flow in the tunnel 10 is generated in the upward direction of the tunnel by the ventilation equipment, the board control unit 124 may set the evacuation direction in consideration of the air flow direction in the tunnel.

The evacuation direction for the fire occurrence location may be set on the fire hydrant equipment 16 side by transmitting an evacuation guidance control signal that sets the fire occurrence location from the disaster prevention reception panel 100 to the fire hydrant equipment 16 side.

(Fire hydrant controller)
As shown in FIG. 8, the fire hydrant equipment 16 is provided with a fire hydrant controller 140. The fire hydrant control device 140 includes a fire hydrant control unit 142 and a transmission unit 144. The transmission unit 144 transmits/receives IP packets to/from the disaster prevention reception board 100 via the transmission path 102. Therefore, a unique IP address is set in the transmission unit 144.

The fire hydrant control unit 142 has a function realized by executing a program, for example, and uses a computer circuit having a CPU, a memory, various input/output ports, and the like as hardware.

For hydrant controller 142, directional speaker 24, a direction display unit 25, notification unit panel unit 146 provided on the hose storage unit 44, the water discharge switch 38 a, the water discharge stop switch 38 b are connected. The reporting device panel unit 146 includes the red indicator light 30, the transmitter 32, the response lamp 34, the raising switch 36a and the lowering switch 36b shown in FIG. A remote fire hydrant valve 70 and a remote control valve 78 provided in the control mechanism housing 45 are connected to the fire hydrant controller 142.

When the fire hydrant control unit 142 receives a signal from the operation of the transmitter 32 provided in the notification device panel unit 146, the fire hydrant control unit 142 instructs the transmission unit 144 to control the disaster prevention receiver 100 to transmit a fire notification signal.

Further, since the disaster prevention receiver board 100 that has received the fire notification signal from the fire hydrant equipment 16 outputs a fire alarm and sends a response confirmation signal, the fire hydrant control unit 142 sends the confirmation response signal from the disaster prevention receiver board 100. Upon reception, control is performed to turn on the response lamp 34 provided in the reporting device panel unit 46.

Further, when the fire hydrant control unit 142 receives an operation signal of the raising switch 36a provided in the notification device panel unit 146, the fire hydrant control unit 142 controls the remote control valve 78 to open to raise the hose accommodating portion 44 by the elevating mechanism 46 to monitor the person. The control for exposing the light on the passage 14 is performed.

Further, when the operation signal of the water discharge switch 38a is input, the fire hydrant control unit 142 performs control to open the remote fire hydrant valve 70 to discharge fire water from the hose with a nozzle.

In addition, when the operation signal of the water discharge stop switch 38b is input, the fire hydrant control unit 142 performs control to close the remote fire hydrant valve 70 to stop water discharge from the hose with a nozzle.

(Evacuation guidance control by directional speaker)
The fire hydrant control unit 142 is provided with the function of the evacuation guidance control unit 148. When the evacuation guidance control unit 148 receives the evacuation guidance control signal transmitted when the fire alarm is output from the disaster prevention reception panel 100, the evacuation guidance control unit 148 reads the voice data of the evacuation guidance message stored in the memory in advance and outputs the voice data. After the signal is converted into a signal, the signal is amplified and supplied to the directional speaker 24, and the evacuation guidance message is output as voice.

Here, the voice data of the evacuation guidance message output from the directional speaker 24 by the evacuation guidance control unit 148 is stored in advance in the memory as voice data indicating the distance to the evacuation gate.

The voice data indicating the distance to the evacuation exit stored in the memory is, for example, “250 meters to the evacuation exit”. Since there are tunnel evacuation directions (exit direction) and tunnel evacuation directions (entrance direction) in the tunnel, voice data saying "300 meters to the evacuation exit" for the tunnel up direction and "evacuation for the tunnel evacuation direction" The voice data saying "200 meters to the mouth" is stored, and the evacuation guidance control unit 148 selects the voice data corresponding to the evacuation direction set in the evacuation guidance control signal from the disaster prevention reception board 100 and selects the directional speaker 24. The evacuation guidance message is output by voice.

On the other hand, as another embodiment of the present invention, when the direction display device 25 is not installed, the voice data of the evacuation guidance message output from the directional speaker 24 by the evacuation guidance control unit 148 is the distance to the evacuation gate. The voice data indicating the direction is stored in advance in the memory. The voice data indicating the distance and the direction to the evacuation gate stored in the memory is, for example, "Please evacuate in the tunnel up direction. The evacuation gate is 300 meters."

In addition, since the evacuation direction in the tunnel includes a tunnel up direction and a tunnel down direction, the voice data that says "Please evacuate in the tunnel up direction. It is 3000 meters to the evacuation exit." With regard to the tunnel evacuation direction, voice data such as “Please evacuate in the tunnel evacuation direction. It is 200 meters to the evacuation exit.” is stored, and the evacuation guidance control unit 148 is set to the evacuation guidance control signal from the disaster prevention receiver 100. The voice data corresponding to the evacuation direction is selected, and the evacuation guidance message is output as voice from the directional speaker 24.

(Evacuation guidance control by direction display device)
When the evacuation guidance control unit 148 receives an evacuation guidance control signal transmitted when a fire alarm is output from the disaster prevention reception panel 100, the evacuation guidance control unit 148 determines the direction based on the evacuation direction set in the received evacuation guidance control signal. The display device 25 is controlled to display the tunnel up direction or the tunnel down direction.

(Rise alarm sound of hose compartment)
When the fire hydrant control unit 142 inputs the operation signal of the raising switch 36a provided in the reporting device panel unit 146 to raise the hose storage unit 44 by the elevating mechanism 46, the directional speaker 24 outputs a predetermined alarm sound or an alarm. It controls the output of messages and calls attention to those around you.

When the fire hydrant control unit 142 inputs the operation signal of the lowering switch 36b provided in the notification device panel unit 146 and lowers the hose storage unit 44 by the elevating mechanism 46, the directional speaker 24 outputs a predetermined alarm sound. Alternatively, a control for outputting an alarm message may be performed to call attention to people in the vicinity.

(Evacuation guidance due to fire in tunnel)
FIG. 9 is an explanatory diagram showing a state of evacuation guidance on a tunnel plane by a directional speaker provided for each fire hydrant facility.

As shown in FIG. 9, in the tunnel 10, for example, fire hydrant equipment 16-1,... 16-10, 16-11, 16-12,... Is installed along the observer passage 14 from the tunnel entrance 10a. Corresponding to this, directional speakers 24-1,... 24-10, 24-11, 24-12,. If it is not necessary to distinguish between the fire hydrant equipment 16-1, 16-10, 16-11, 16-12 and the directional speakers 24-1, 24-10, 24-11, 24-12, the fire hydrant equipment 16 And the directional speaker 24.

Now, assuming that a vehicle accident involving a fire has occurred in the tunnel on the right side of the fire hydrant equipment 16-12, and if the fire hydrant equipment 16-1 to 16-12 are out of the danger range for the fire occurrence location, the fire hydrant equipment From 16-1 to 16-12, the disaster prevention reception board 100 transmits an evacuation guidance control signal in which the direction of the evacuation port 150 or the tunnel entrance 10a, which is the closer evacuation site, is set as the evacuation direction.

For this reason, the directional speaker 24-1 provided in the fire hydrant equipment 16-1 outputs an evacuation guidance message saying "The exit is 25 meters." and the direction display device 25-1 indicates the tunnel entrance 10a. The down direction is displayed as the evacuation direction.

In addition, the directional speaker 24-10 provided in the fire hydrant equipment 16-10 outputs an evacuation guidance message saying "It is 75 meters to the evacuation exit.", and the direction display device 25-10 displays the evacuation exit 150. The tunnel up direction shown is displayed as the evacuation direction.

Further, since the directional speaker 24-11 provided in the fire hydrant equipment 16-11 guides to the evacuation exit 150, an evacuation guidance message saying "It is 25 meters to the evacuation exit." is output by voice and the direction display device 25-. 11 displays the tunnel ascending direction indicating the evacuation exit 150 in the evacuation direction.

Furthermore, since the directional speaker 24-12 provided in the fire hydrant equipment 16-12 guides to the evacuation exit 150, an evacuation guidance message saying "It is 25 meters to the evacuation exit." is output by voice and the direction display device 25-. Reference numeral 12 indicates the tunnel down direction indicating the evacuation exit 150 in the evacuation direction.

For this reason, when a vehicle accident involving a fire occurs in the tunnel and the person evacuates through the observer passage 14, when passing in front of the fire hydrant equipment 16 installed at predetermined intervals, the directional speaker 24 causes the evacuation exit. The distance from the current position to a safe evacuation site such as an evacuation exit or tunnel exit by listening to the evacuation guidance message that guides you to the evacuation site such as a tunnel exit or the like, and checking the display of the evacuation direction by the direction display device 25. Even if the situation is confusing due to a fire, it is possible to confirm the evacuation site, which enables calm evacuation behavior, and even when there is a smoke layer in the tunnel and visibility is poor. , Appropriate evacuation behavior is possible because the evacuation guidance message can be heard.

[Array speaker]
10A and 10B are explanatory views showing an array speaker used as a directional speaker. FIG. 10A shows the front surface and FIG. 10B shows the side surface.

As shown in FIG. 3, the array speaker shown in FIG. 10 may be used as the directional speaker 24 installed on the tunnel wall surface 12 in which the fire hydrant equipment 16 of the surveillance staff passage 14 is installed.

As shown in FIG. 10, the array speaker 150 used in the present embodiment has three speakers 152 arranged side by side in the horizontal direction.

The sound of the evacuation guidance message output from the speaker 152 of the array speaker 150 is amplified in the vertical direction by the interference of the sound wave surface of the speaker 152, propagates in a fan shape as shown by the dotted line, and is transmitted to the array speaker 150. People in the same position in the longitudinal direction of the tunnel can hear the sound of the evacuation guidance message regardless of the position in the lateral direction (direction crossing the tunnel) and can clearly hear the distance to the evacuation site in the longitudinal direction. be able to.

Further, since the sound is attenuated in the horizontal direction due to the interference of the sound wave surface of the speaker 152 of the array speaker 150, and the propagation over the horizontal width becomes poor as shown by the dotted line, the array speaker 150 is installed in the fire hydrant equipment installed at a predetermined interval. Even if they are located, you can clearly hear evacuation guidance messages with different contents without interfering with each other.

[Modification of the present invention]
(Evacuation guidance using only directional speakers)
In the above embodiment, a directional speaker and a direction display device are installed for each fire hydrant facility, but the invention is not limited to this. For example, only a directional speaker is installed for each fire hydrant facility, and the distance to the evacuation site The evacuation guidance message indicating the direction may be output by voice.

(Arrangement of directional speaker and direction display device)
In the above-described embodiment, the directional speaker and the direction display device are arranged on the tunnel wall surface of the surveillance staff passage in which the fire hydrant equipment is installed, but the present invention is not limited to this. You may install in a position.

(Fire hydrant compartment)
Although the above fire hydrant equipment supports the hose storage portion so as to be able to move up and down by the elevating mechanism, the invention is not limited to this. For example, if a fire extinguisher storage unit is installed in the hose storage unit to store the fire extinguisher and the fire extinguisher is used, the elevating mechanism causes the fire extinguisher storage unit to be integrated with the hose storage unit and exposed on the observer passage. You may make it raise to a position.

For this reason, when a fire is detected by the fire detector or when the transmitter is operated, the fire extinguisher storage part stored in the observer passage rises together with the hose storage part by the elevating mechanism and rises above the road surface of the observer passage. The fire can be taken out easily and easily from the fire extinguisher storage part exposed on the passage of the observer without exposing and exposing the fire extinguisher door.

(Lifting mechanism)
Although the above-described embodiment exemplifies the elevating mechanism that elevates and lowers the hose storage portion by the hydraulic cylinder, the present invention is not limited to this. For example, another mechanism such as a pantograph type lifting mechanism or a screw shaft type lifting mechanism may be used. Alternatively, a hydraulic lifting mechanism may be used.
(Fire hydrant equipment)
The configurations and arrangements of the hoses of the fire hydrant equipment and valves such as the fire hydrant valve, the configuration and arrangement of the notification device, and other configurations described in the above embodiments are arbitrary, and appropriate configurations may be adopted.

(Other)
Further, the present invention includes appropriate modifications that do not impair the object and advantages thereof, and is not limited by the numerical values shown in the above embodiments.

10: Tunnel 12: Tunnel wall surface 14: Observer passage 15: Road 16: Fire hydrant equipment 18: Floor slab 20: Management passage 22: Duct 23: Water main 23a: Branch pipe 24: Directional speaker 25: Direction display device 25R: Upward direction display unit 25L: Downward direction display unit 26: Fire hydrant door 28: Notification device panel 36a: Up switch 36b: Down switch 38a: Water discharge switch 38b: Water discharge stop switch 42: Fire hydrant lift 44: Hose storage unit 45: Control mechanism housing 46: Lift mechanism 48: Housing 50: Road plate 54: Hose 55: Hose outlet 56: Nozzle 60: Water pressure actuator 62: Connection hose 63: Flexible joint 64: Water discharge control mechanism 66: Lift control mechanism 70 : Remote fire hydrant valve 78: Remote control valve 80: Manual control valve 81: Automatic pressure regulating valve 82: Check valve 83: Orifice 84: Drain valve 100: Disaster prevention reception panel 102: Transmission path 124: Panel control unit 126, 144: Transmission Unit 140: Fire hydrant control device 142: Fire hydrant control unit 148: Evacuation guidance control unit 150: Array speaker

Claims (3)

A speaker having a plurality placed in the tunnel,
In the event of a fire in the tunnel,
From the speaker arranged in a place near the fire occurrence place in the tunnel, to output an evacuation guidance message indicating the distance or the distance and direction to the evacuation place located in a direction away from the fire occurrence place,
An evacuation guidance control unit that outputs an evacuation guidance message indicating the distance or the distance and direction to the evacuation site located at the shortest distance from the speaker arranged at a place far from the fire occurrence place in the tunnel,
With
An emergency facility for tunnels.
In the tunnel emergency equipment according to claim 1,
The speaker is a directional speaker arranged with a directivity direction set in a direction intersecting a longitudinal direction of the tunnel ,
It is a plane wave speaker that outputs acoustic vibration as a plane wave .
An emergency facility for tunnels.
In the tunnel emergency equipment according to claim 1,
The speaker is a directional speaker arranged with a directivity direction set in a direction intersecting a longitudinal direction of the tunnel ,
An array speaker configured by arranging sound sources in a straight line in the horizontal direction ,
An emergency facility for tunnels.

Images