JP2019188266A - Fire hydrant equipment in tunnel - Google Patents

Abstract

To pull out a hose with a nozzle from a road side or a watchman passage side simply and easily, and perform fire extinguishing work.SOLUTION: In fire hydrant equipment, an inspection door 28 using a checkered steel plate for closing the opening of a fire hydrant embedded part is removably installed on a passage of a watchman passage 14 along a tunnel wall surface. The inspection door 28 is provided with a fire hydrant door 30. When the fire hydrant door 30 is opened, a nozzle 50 supported by a rear surface of the door is exposed outside. The nozzle 50 can be taken out from a road 15 side or a watchman passage 14 side, and a hose 48 can be pulled out.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a fire hydrant facility in a tunnel that draws a hose with a nozzle from the road surface side of a supervisor passage and discharges water.

Conventionally, a fire hydrant device installed in a tunnel such as an expressway or an automobile exclusive road has a hose and a valve fitted with a nozzle at the tip in a fire hydrant storage part of a housing having a hydrant door that can be freely opened and closed. For example, two fire extinguishers are housed in a fire extinguisher housing section having a fire extinguisher door that can be freely opened and closed. Such a fire hydrant device is, for example, 50 along a wall surface facing a supervisor passage provided in a tunnel. Installed at meter intervals. The observer passage is provided as a wall passage that is about 1 meter higher than the road surface, and it is necessary to inspect various devices including fire hydrants installed safely in the tunnel without hindering vehicle traffic in the tunnel. It is possible.

  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 device, pull out the hose with a nozzle, and operate the fire hydrant valve opening / closing lever to operate the fire pump equipment Fire extinguishing work can be performed by starting and discharging water.

JP 2008-055024 A JP 2009-285126 A JP 2001-009053 A Japanese Utility Model Publication No. 04-050068 JP 2009-268719 A

  However, in such a conventional fire hydrant device installed in a tunnel, it was installed along the tunnel wall facing the observer passage. It is necessary to reach out to the fire hydrant device installed on the wall of the tunnel beyond the surveillance passage, open the fire hydrant door, pull out the hose to perform the fire extinguishing work, and the fire hydrant device is installed at a high position away from the road side. Therefore, some people may have to go up to the supervisor passage without being able to reach their hands and operate it.Some observer trails are equipped with handrails, which can interfere with fire fighting operations. It was difficult to handle.

  In order to solve this problem, a fire hydrant device may be installed along the wall of the surveillance staff facing the road in the tunnel. However, when a vehicle fire occurs, the vehicle stops before the fire hydrant door. If this is the case, the stopped vehicle may get in the way and the fire hydrant door cannot be opened to pull out the hose, or it may take time to operate the fire hydrant device.

  An object of this invention is to provide the fire hydrant installation in a tunnel which can draw out the hose with a nozzle simply and easily from the road side and the supervisor passage side, and can perform a fire extinguishing operation.

(Fire hydrant equipment in tunnel 1)
The present invention provides a fire hydrant facility in a tunnel,
A fire hydrant embedding part provided in an observer passage in a tunnel having a road;
A hose storage part installed in the fire hydrant embedding part and containing a hose with a nozzle;
A fire hydrant door provided on the road surface side of the supervisor passage of the fire hydrant embedded part,
A reporting device provided on the side of the wall of the observer passage facing the road of the fire hydrant embedded part,
With
The fire hydrant door can be opened from both the road side and the supervisor passage side by the user.

(Fire hydrant facility 2 in the tunnel)
The present invention provides a fire hydrant facility in a tunnel,
A fire hydrant embedding part provided in an observer passage in a tunnel having a road;
A hose storage part installed in the fire hydrant embedding part and containing a hose with a nozzle;
A fire hydrant door provided on the road surface side of the supervisor passage of the fire hydrant embedded part,
A notification device provided on the side of the wall of the monitoring staff passage facing the road of the fire hydrant embedded portion;
With
It is characterized in that a hose with a nozzle can be pulled out from both the road side and the supervisor passage side by the user with the fire hydrant door open.

(Notification device)
The reporting device includes an indicator lamp that displays the location of the fire hydrant equipment, a transmitter that transmits a transmission signal to the fire receiver in the event of a fire, and a response signal from the receiver to the transmission signal transmitted from the transmitter to the fire receiver A response lamp that is lit based on

(Traffic passage passage)
The fire hydrant equipment in the tunnel will be able to pass through the guards passage with the hydrant door closed.

(Fire hydrant door opening structure)
The fire hydrant door opens upwards with respect to the road surface of the supervisor passage.

(Integration of fire extinguisher storage)
A fire extinguisher storage part installed in a fire hydrant embedding part and containing a fire extinguisher in the housing;
A fire extinguisher door provided on the road surface side of the surveillance passage,
With
With the fire extinguisher door open, the user can take out the fire extinguisher from both the road side and the supervisor passage side.

  In addition, the fire extinguisher door opens upward with respect to the road surface of the supervisor passage.

(Disposition of water discharge control mechanism)
A predetermined water discharge control mechanism for supplying fire-fighting water to a hose with a nozzle is stored under the floor slab of the tunnel.

(Fire hydrant valve of the water discharge control mechanism)
The water discharge control mechanism includes a fire hydrant valve that supplies fire-fighting water to a hose with a nozzle by an opening operation and stops the supply of fire-fighting water by a closing operation.

(Box opening part of the guard passage)
The fire hydrant embedding part is a box opening part that is formed so as to penetrate from the road surface of the supervisor passage to the front wall through the road shoulder.

(Basic effect)
The present invention relates to a fire hydrant facility in a tunnel, a fire hydrant embedded portion having an attachment port opened on a passage of a supervisor passage provided along a tunnel wall surface, a fire hydrant embedded portion, and a nozzle provided in the housing A hose storage part that houses the hose, an inspection door that covers the opening of the fire hydrant embedding part, is detachable, and has a door opening at a predetermined position facing the hose storage part, and a door opening of the inspection door. On the other hand, a fire hydrant door is provided that can be opened and closed, and in which the hose with a nozzle stored in the hose storage part can be pulled out. By opening the fire hydrant door disposed on the road surface from the road side or the supervisor passage, the fire can be extinguished easily and easily by pulling out the hose with the nozzle from the road side or the supervisor passage.

  In addition, when inspecting the fire hydrant equipment, the hose housing part can be exposed by removing the inspection door covering the fire hydrant embedding part with the outlet opening on the road surface of the supervisor passage. Since the inspection can be performed from the side of the supervisor passage, it is not necessary to regulate traffic in the tunnel when performing the inspection, and the inspection work can be performed easily and easily.

  In addition, when the hose is rewound into the hose storage part after the fire fighting operation is finished, the hose storage part is removed by removing the inspection door covering the fire hydrant embedding part that opens the outlet on the road surface of the supervisor passage. By exposing the hose, it is possible to easily and easily rewind the hose.

(Effects of striped steel plate)
In addition, since the inspection door is a striped steel plate with anti-slip processing on the surface, the inspection door that is normally used as a part of the guard passage is used for inspection and evacuation. It is possible to safely pass through the observer passage without sliding the foot.

(Effects of door structure)
In addition, the fire hydrant door can be opened and closed vertically with respect to the door opening of the inspection door, and the nozzle is detachably supported on the back side of the fire hydrant door. When opened upward, the water discharge nozzle supported on the back side of the door is exposed to the outside, and the hose can be pulled out simply and easily.

  The fire hydrant door may be a door small enough to support the nozzle on the back surface, and can be easily opened and closed even if it is arranged on the road surface of the supervisor passage.

(Effects of sliding door structure)
In addition, the fire hydrant door is slidably opened and closed with respect to the door opening of the inspection door, and the nozzle is detachably supported in the hose storage part facing the door opening. It does not jump out on the supervisor passage, and even if the fire hydrant door is opened, passage of the supervisor passage is not hindered.

  Also, the door opening of the fire hydrant slide door may be small enough to take out the nozzles supported inside, and the fire hydrant slide door may be a small door corresponding to this, and placed on the road surface of the supervisor passage. Even in such a case, the opening / closing operation can be easily performed by sliding.

(Effect of rotating hose housing)
In addition, the hose storage unit rotatably connects the hose bucket in which the hose is stored inwardly, the rotation support mechanism that rotatably supports the hose bucket, and the base side of the hose stored in the hose bucket to the water supply pipe. Therefore, when the nozzle is taken out and the hose is pulled out, the hose bucket rotates and the hose is sent out as the hose is pulled out, so that the hose can be pulled out with a light force.

In addition, even when the fire extinguishing operation is finished and the hose is rewound into the hose bucket, the hose bucket rotates with respect to the hose feed, so that the hose can be easily and easily wound. Is possible.

(Effect of hose outlet)
Further, the hose storage portion is provided with a hose outlet formed by a pipe frame having a circular or polygonal opening shape corresponding to the door opening of the road surface plate, for example, the hose outlet is in a home base shape. Because it was made, the hose pulled out from the door opening that was opened on the road surface of the supervisor passage by opening the fire hydrant door can be pulled out smoothly in contact with the pipe frame that forms the hose outlet, and the hose by frictional contact It is possible to reduce wear and tear.

(Effects of arrangement of water discharge control mechanism)
In addition, a water discharge control mechanism that controls the supply of fire-fighting water to the hose with a nozzle is installed in the management passage located under the floor slab. It is no longer necessary to provide equipment, making it possible to easily perform facility construction and inspection.

(Effect of integration of fire extinguisher storage)
Also, there is a fire extinguisher storage part installed in the fire hydrant embedding part and containing a fire extinguisher in the housing, and a fire extinguisher door provided at a door opening formed at a predetermined position facing the fire extinguisher storage part of the inspection door. Because the fire extinguisher was installed, the fire extinguisher doorway was opened on the road surface of the observer passage by opening the fire extinguisher door in the event of a vehicle accident involving a fire in the tunnel. A fire extinguisher can be easily and easily removed from the passage.

  Moreover, when all the electric pipes etc. are arrange | positioned in the management channel | path, there will be no duct below a supervisor channel | path and it will be filled with concrete. In this case, the hose storage part is stored in a box opening formed through the part extending from the road surface of the supervisor passage to the front wall through the shoulder, so the hose storage part is stored in the supervisor passage. It is easy to make a space to do this, and the hose storage part can be built in from the front road side, so construction is easy.

Explanatory drawing showing fire hydrant equipment installed in the tunnel Explanatory drawing showing the fire hydrant equipment installed in the supervisor passage Explanatory drawing showing the state of opening the fire hydrant door Explanatory drawing showing the fire hydrant equipment installed in the guard passage Explanatory drawing showing the state where the inspection door is removed and the hose housing is exposed Explanatory drawing showing the structure of the hose storage part embedded in the surveillance staff passage Explanatory drawing which showed the structure of the hose bucket provided rotatably in the hose storage part Explanatory drawing which showed the internal structure of the fire hydrant equipment where the hose storage part and the valve storage part were arranged separately as seen from the road surface side Explanatory drawing showing fire hydrant equipment with divided inspection door using striped steel plate Explanatory drawing showing fire hydrant equipment with a fire hydrant door that opens and closes Explanatory drawing showing the structure of a fire hydrant door that opens and closes Explanatory drawing which showed the fire hydrant installation in which the fire extinguisher storage part and the water tap storage part were provided integrally with the hose storage part Explanatory drawing which showed the internal structure of the fire hydrant equipment by which the valve | bulb storage part was arrange | positioned separately with respect to the integrated hose storage part, the fire extinguisher storage part, and the faucet storage part, as seen from the road surface side. Explanatory drawing showing the box opening part formed in the supervisor passage

[Outline of fire extinguishing equipment in the tunnel]
FIG. 1 is an explanatory view showing a fire hydrant facility installed in a tunnel of an automobile exclusive road. As shown in FIG. 1, the inside of the tunnel 10 constructed by the shield method is covered with a cylindrical tunnel wall surface 12, and a road 15 is provided by being partitioned by a floor slab 18. In this example, The road 15 has two lanes in one direction.

  A supervisor passage 14 is provided along the tunnel wall 12 on the left side of the road 15, and a fire hydrant embedding portion having an opening is provided on the road surface of the supervisor passage 14, and a fire hydrant facility 16 is installed there. Has been. The fire hydrant equipment 16 is installed every 50 meters in the longitudinal direction of the tunnel.

  The fire hydrant facility 16 has a maintenance door provided with a fire hydrant door on the supervisor passage as a road surface plate. The fire hydrant door on the passage is opened from the side of the road 15 or the supervisor passage 14 and stored inside. It is possible to perform fire extinguishing work by pulling out a hose with a nozzle.

  The internal space below the supervisor passage 14 is used as a duct 22, and a conduit 23 and the like are laid behind the duct 22.

  The lower side of the floor slab 18 on which the road 15 is formed is divided into a plurality of sections in the tunnel lateral direction. For example, the section located under the supervisor passage 14 is used as a management passage 20, and The management passage 20 is used as an emergency evacuation passage when a fire occurs in the tunnel. A water supply main pipe 24 is laid in the management passage 20 and a branch pipe branched from the water supply main pipe 24 is drawn into the fire hydrant facility 16 to supply fire-fighting water.

[Outline of fire hydrant equipment]
FIG. 2 is an explanatory view showing a fire hydrant facility installed in a supervisor passage, FIG. 3 is an explanatory view showing a state in which a fire hydrant door is opened, and FIG. 4 is a plan view showing a fire hydrant facility installed in a supervisor passage. Explanatory drawing and FIG. 5 are explanatory drawings which showed the state which removed the inspection door and exposed the hose accommodating part.

  As shown in FIG. 2 and FIG. 4 (A), a fire hydrant embedding portion 26 is opened on the road surface at the position where the handrail 25 of the supervisor passage 14 is cut, and the inspection door 28 functioning as a road surface plate is removed there. Arranged freely.

  As the inspection door 28, a striped steel plate having a plurality of anti-slip protrusions formed on the surface is used. By using the striped steel plate for the inspection door 28, an inspector or a user who evacuates can check the door 28. Even if you walk on the road, you can pass safely without slipping. The inspection door 28 is provided with handles 34 at two locations on the front side, and the inspection door 28 can be removed by lifting the handle 34.

  A rectangular door opening 31 is formed in the vicinity of the center of the inspection door 28, and a fire hydrant door 30 that can be opened and closed up and down with the back side as a fulcrum is disposed therein, and is locked in a closed state by a handle 32.

  A fire hydrant nameplate 36 and a reporting device panel 38 are installed on the wall of the monitoring staff passage 14 facing the road 15 where the fire hydrant facility 16 is installed. The notification device panel 38 is provided with a red indicator lamp 40, a transmitter 42 and a response lamp 44. The red indicator lamp 40 is always lit so that the installation location of the fire hydrant facility 16 can be seen from a distance. In the event of a fire, when the push button switch is turned on by pressing the transmitter 42, a transmission signal is transmitted to the fire receiver in the monitoring room, a fire alarm is issued, and a response signal is sent from the fire receiver accordingly, and a response lamp 44 is lit.

  As shown in FIG. 3 and FIG. 4 (B), when a vehicle accident involving a fire occurs in the tunnel, the user goes to the fire hydrant facility 16 near the fire occurrence place and operates the handle 32 to unlock it. Open the hydrant door 30. The fire hydrant door 30 opens upward about the hinge 33. The opening operation of the fire hydrant door 30 can be performed from the road 15 side or from the supervisor passage 14 side.

  In addition, when a coil spring for biasing the door in the opening direction is attached to the hinge 33 side of the fire hydrant door 30, and the lock is released by operating the handle 32, the coil spring is opened by the force of the coil spring, or light force can be obtained by opening assistance. You may be able to open it.

  When the fire hydrant door 30 is opened, the nozzle 50 attached to the tip of the hose 48 detachably supported by the nozzle holder 52 on the back surface of the door is exposed to the outside from the door opening 31. Therefore, the user removes the nozzle 50 from the nozzle holder 52 on the back of the door and pulls out the hose 48 from the hose outlet 46.

  Subsequently, when the start push button 54 arranged in the door opening 31 of the opened fire hydrant door 30 is operated, opening control of the remote fire hydrant valve arranged on the management passage side is performed by turning on the switch, Fire extinguishing water from the main water supply pipe is supplied to the hose 48, and fire extinguishing work can be performed by discharging water from the nozzle 50.

  When the fire extinguishing work is finished, as shown in FIG. 5, the inspection door 28 that has closed the fire hydrant embedded portion 26 is removed to expose the hose storage portion 60, and the hose storage portion 60 can be rotated freely. A hose rewinding operation is performed in which the drained hose 48 is internally wound and stored in the cylindrical rod-shaped hose bucket 62 arranged. FIG. 5 shows the hose 48 removed from the hose storage 60.

  The opening of the hose storage 60 by removing the inspection door 28 is performed in the same manner when the fire hydrant facility 16 is inspected. Since all of this inspection work can be performed from the side of the supervisor passage 14, it is not necessary to regulate traffic for the vehicle traffic in the tunnel in the inspection of the fire hydrant facility 16, and the inspection work can be performed easily and safely.

  In addition, corner fitting pieces 29 are projected at four locations on the back side of the inspection door 28, and positioning guidance is possible when the inspection door 28 is attached to and detached from the fire hydrant embedding portion 26 opened in the supervisor passage 14. .

[Fire hydrant equipment structure]
(Hose housing structure)
6A and 6B are explanatory views showing the structure of the hose housing portion embedded in the monitoring staff passage, FIG. 6A showing a plane, and FIG. 6B showing a cross section viewed from the side. . FIG. 7 is an explanatory view showing the structure of a hose bucket that is rotatably provided in the hose storage portion.

  As shown in FIGS. 6 and 7, a hose storage portion 60 is disposed in the fire hydrant embedding portion 26 of the supervisor passage 14. The hose storage unit 60 includes a box-shaped casing 61 that opens upward, and a hose bucket 62 is rotatably provided inside the casing 61.

The hose bucket 62 uses a metal pipe as a frame material and is formed in a cylindrical bowl shape. For example, three ring frames 62a, 62b, and 62c are connected to each other vertically by a pipe pipe in the radial direction, and a plurality of lateral rollers 66 are rotatably arranged outside the center ring frame 62b. A rotation support mechanism is realized in which a plurality of lower rollers 68 are rotatably supported on the lower side of the ring frame 62c, and the hose bucket 62 is rotatably supported by the support of the lateral roller 66 and the lower roller 68.

  In addition, the rotation support mechanism of the hose bucket 62 is not limited to the rotation support mechanism by the horizontal roller 66 and the lower roller 68, and can be an appropriate rotation support mechanism.

  A hose 48 is housed in the hose bucket 62 in an internally wound state. The base side of the hose 48 is connected to a rotary joint 64 provided at the tip of a pipe erected from the bottom opening at the center of the housing. Further, the rotary joint 64 has a structure in which the hose 48 can be freely attached and detached by a predetermined one-touch operation as required.

  A hose outlet pipe frame 72 is arranged by two pipe frames 70 at the center of the opening that is the upper side of the hose bucket 62, and a hose outlet 46 is formed.

In the present embodiment, the hose outlet 46 is formed by using the hose outlet pipe frame 72 as a pentagonal home base shape corresponding to a home base used in baseball.
When the hose outlet 46 is made into a home base shape and the apex of the pentagon is arranged forward (road 15 side), when the nozzle 50 is removed and the hose 48 is pulled out through the hose outlet 46, the left and right directions are The hose 48 hits at two points at any of the three corners located in front of any hose pull-out direction, and the hose 48 is pulled out to stabilize the pull-out direction. By avoiding contact with the monitoring member passage constituted by the two points, the frictional resistance can be reduced by the contact by two points of the pipe frame to reduce the pulling force, and the wear of the hose 48 is suppressed.

In addition, as a home base shape, it is preferable from the degree of freedom of hose pulling out that the corners of three front portions are 90 degrees or more, but the scope of the invention is not limited to this.
Moreover, the shape of the hose outlet 46 may be an appropriate polygonal shape or a circular shape other than the home base shape.

(Equipment structure with separate valves)
FIG. 8 is an explanatory view showing the internal structure of the fire hydrant facility in which the hose storage portion and the valve storage portion are separately arranged as seen from the road surface side.

  As shown in FIG. 8, in this embodiment, the valves are separated from the fire hydrant equipment 16 disposed on the side of the supervisor passage 14, and the valves are stored in the management passage 20 located under the floor slab 18. Separate valves are provided in the device 76.

  A branch pipe 78 branched from the water supply main pipe 24 is connected to the valve storage device 76. Subsequently, as a water discharge control mechanism, a remote fire hydrant valve 80 using an electric valve, an automatic pressure regulating valve 82, an automatic drain valve 84. The maintenance device 86 is sequentially connected, and the pipe 74 taken out from the secondary side of the maintenance device 86 is raised in the internal space of the supervisor passage 14. A rotary joint 64 is provided at the tip of the pipe 74, and the hose bucket 62. The base side of the hose 48 accommodated in the rotary joint 64 is rotatably connected to the rotary joint 64.

  The signal line from the activation push button 54 provided in the hose housing 60 is connected to the remote fire hydrant valve 80 via the controller 75. When the activation push button 54 is pressed, the remote hydrant valve 80 is opened by switching on. At the same time, a pump start signal is sent to the pump equipment to start the fire extinguishing pump.

  Further, when the start push button 54 is pressed during water discharge, the remote fire hydrant valve 80 is closed by switching off, and at the same time, a pump stop signal is sent to the pump equipment to stop the fire pump.

  Instead of the start push button 54, an open push button and a close push button may be provided. In addition, a fire hydrant valve opening / closing lever may be provided in the hose housing 60, and the movement of the fire hydrant valve opening / closing lever may be transmitted to the fire hydrant valve via a wire to be opened and closed.

  Since the valves storage device 76 is arranged in the management passage 20 and the valves are arranged separately from the fire hydrant equipment 16 in this way, the fire hydrant equipment 16 installed on the supervisor passage 14 side can be reduced in size, and space can be reduced. It is no longer necessary to provide a water discharge control mechanism in the interior space of the supervisor passage 14 with restrictions on the equipment, making it possible to easily perform facility construction and inspection.

[Operation of fire hydrant equipment]
(Normal monitoring)
At the time of normal monitoring in which the vehicle is passing through the road of the tunnel 10 shown in FIG. 1, the fire hydrant door 30 of the fire hydrant facility 16 is closed as shown in FIG. It does not impede traffic or pose a danger.

(When a fire breaks out)
On the other hand, when a vehicle accident involving a fire occurs in the tunnel 10, the user goes to the fire hydrant facility 16 near the fire occurrence place and presses the transmitter 42 of the notification device panel 38 shown in FIG. And the completion of the report to the monitoring room side is confirmed by turning on the response lamp 44.

  Subsequently, in order to perform fire extinguishing work, the lock is released by putting a hand into the handle 32 of the fire hydrant door 30 and pulling it, and the fire hydrant door 30 is opened upward as shown in FIG. When the fire hydrant door 30 is thus opened, the nozzle 50 supported on the rear surface of the door is exposed from the door opening 31 to the user.

  As a result, when the user takes out the nozzle 50 from the road 15 side or the supervisor passage 14 and pulls out the hose 48 to start discharging water, the remote fire hydrant valve 80 is opened when the start push button 54 is pressed, and the hose 48 is opened. Fire extinguishing water is supplied, and fire extinguishing work can be performed by water discharge from the nozzle 50.

  In this case, the hose bucket 62 in the hose storage section 60 rotates as the hose 48 is pulled out, and the hose 48 is sent out by inertia rotation, so that the hose 48 can be pulled out with a light force.

  When the fire is extinguished and the fire extinguishing work is finished, the remote fire hydrant valve 80 is closed by pressing the start push button 54 again, and the water discharge from the nozzle 50 can be stopped.

  Further, in the recovery work after the extinguishing work is finished, as shown in FIG. 5, the inspection door 28 is removed to expose the hose storage portion 60. In this state, the hose 48 is drained, and then the hose 48 is drained. The hose 48 is housed in the bucket 62 in an internally wound state.

  In this case, the operation of unwinding the hose 48 can be completed easily and easily by feeding the hose 48 while rotating the hose bucket 62. Further, when the hose 48 is rewound, the base side of the hose 48 is removed from the rotary joint 64 so that the hose 48 is rewound while the hose bucket 62 is rotated without considering the twist of the hose 48. Can do.

(Inspection of fire hydrant equipment)
When the fire hydrant facility 16 is inspected, an attendant may perform an operation necessary for the inspection from the supervisor passage 14 side. That is, the inspection door 28 of the fire hydrant facility 16 to be inspected is removed to expose the hose storage portion 60 on the supervisor passage 14, and necessary inspection is performed in this state.

  Further, in the valve inspection work, an attendant enters the management passage 20 and inspects the valve storage device 76 installed there.

  By such inspection work of the fire hydrant facility 16 from the supervisor passage 14, it is not necessary to open the fire hydrant door on the road 15 side or to operate from the road side. It is not necessary to regulate traffic, and inspection work can be performed safely without traffic regulation.

[Fire hydrant equipment with separate inspection doors]
FIG. 9 is an explanatory view showing a fire hydrant facility in which an inspection door using a striped steel plate is divided. As shown in FIG. 9, in the present embodiment, the inspection door that closes the fire hydrant embedding portion 26 is divided into, for example, three inspection doors 28a, 28b, and 28c, and the fire hydrant door is divided into the central inspection door 28b. 30 is arranged.

  In this way, the inspection door that closes the opening of the fire hydrant embedded portion 26 is divided into three inspection doors 28a, 28b, and 28c, so that the weight of each one is lightened. What is necessary is just to remove the required place in the inspection doors 28a, 28b, and 28c, and workability | operativity can be improved.

[Embodiment of a fire hydrant door that opens and closes a slide]
FIG. 10 is an explanatory view showing a fire hydrant facility provided with a fire hydrant door that is slidably opened and closed. FIG. 10 (A) shows the door closed state, and FIG. 10 (B) shows the door open state. FIG. 11 is an explanatory view showing the structure of a fire hydrant door that is slidably opened and closed. FIG. 11 (A) shows the XX cross section of FIG. 11 (B), and FIG. 11 (B) shows the back of the door. .

  As shown in FIG. 10 (A), a fire hydrant slide door 90 is provided in the door opening 31 of the inspection door 28 using a striped steel plate so as to be opened and closed by a sliding operation. As shown in FIG. 11 (B), the slide opening / closing structure of the fire hydrant slide door 90 has a pair of guide rails 92 having opposite U-shaped cross sections arranged on both sides of the back surface of the door opening 31. By inserting both sides of the fire hydrant slide door 90 into 92, the fire hydrant slide door 90 is supported so as to be slidable in the front-rear direction.

  The other structure is the same as that of the embodiment provided with the fire hydrant door 30 that can be opened and closed vertically as shown in FIGS.

  When a vehicle accident involving a fire occurs in the tunnel 10, as shown in FIG. 10 (B), the user unlocks it by operating the handle 32 and opens the fire hydrant slide door 90 in the depth direction. Therefore, it does not jump out to the supervisor passage 14 side.

  The nozzle 50 supported by the nozzle holder 52 of the hose outlet pipe frame 72 that forms the hose outlet 46 is disposed in the door opening 31 where the fire hydrant slide door 90 is opened. The nozzle 50 can be taken out from the side or the supervisor passage 14 side and the hose 48 can be pulled out to perform a fire extinguishing operation.

The fire hydrant slide door 90 is also provided between the fire hydrant slide door 90 and the inspection door 28 with a coil spring that biases the fire hydrant slide door 90 in the opening direction when the fire hydrant slide door 90 is locked by the handle 32. When the lock is released by the operation, the slide may be opened by the force of the coil spring, or may be opened by a light force by the assist of the slide opening.

[Fire hydrant equipment with integrated fire extinguisher storage]
FIG. 12 is an explanatory view showing a fire hydrant facility provided with a fire extinguisher storage part and a water faucet storage part integrally with the hose storage part, and FIG. 13 shows an integrated hose storage part, fire extinguisher storage part and water faucet storage part. It is explanatory drawing shown in the cross section which looked at the internal structure of the fire hydrant installation by which the valve | bulb accommodation part was separately arrange | positioned with respect to the road surface side.

  As shown in FIG. 12, the fire hydrant facility 16 of the present embodiment is detachably attached to three inspection doors 28a, 28b, and 28c with respect to the road surface opening of the fire hydrant embedding portion 26 on the supervisor passage 14. Closed.

  The central inspection door 28b is provided with a fire hydrant door 30 that can be opened and closed, for example, and the left inspection door 28a is provided with a fire extinguisher door 94 that can be opened and closed, for example, and the right inspection door 28c. A water faucet door 96 is provided so as to be openable and closable up and down, for example.

  In addition to the fire hydrant name plate 36 and the notification device panel 38, a fire extinguisher name plate 95 and a water faucet name plate 97 are disposed on the wall surface of the supervisor passage 14 facing the road 15.

  As shown in FIG. 13, in the fire hydrant facility 16, the hose storage unit 60 is disposed at the center of the housing installed in the fire hydrant embedding unit 26 of the supervisor passage 14, and the fire extinguisher storage unit 98 is disposed on the left side thereof. On the right side, a faucet storage part 102 is arranged. Since the hose storage unit 60 is the same as that of the above-described embodiment, the same reference numerals are given and description thereof is omitted.

  Two fire extinguishers 100 are accommodated in the fire extinguisher storage unit 98, and the fire extinguisher door 94 is opened at the position of the fire extinguisher door 94a indicated by an imaginary line, and the fire extinguisher 100 is taken out to enable initial fire extinguishing. The fire extinguisher 100 can be taken out from the road 15 side or the supervisor passage 14 side.

  In the hydrant storage part 102, a hydrant 104 and a pump activation push button 106 used by the fire brigade are arranged. For the water tap 104, a branch pipe 78 from the water main pipe 24 provided in the management passage 20 is raised upward and connected to the water tap 104. A signal line from the pump activation push button 106 is connected to the fire extinguishing pump facility via the controller 75.

  The fire hydrant storage part 98 and the water hydrant storage part 102 may be arranged separately from the hose storage part 60.

[Box construction of the guard passage]
FIG. 14 is an explanatory view showing the box opening portion of the supervisor passage from the road side. In this embodiment, there is no duct in the lower part of the supervisor passage 14 and it is filled with concrete, and all the electric pipes and the like are arranged in the management passage.

  As shown in FIG. 14, such a supervisor passage 14 is formed in advance with a box opening portion 27 that penetrates a portion from the road surface of the supervisor passage 14 to the front wall through the road shoulder in a box shape. The hose storage portion 60 shown in FIGS. 2 to 13 can be installed and installed from the front side on the road 15 side with respect to the box opening portion 27, thereby facilitating construction work.

[Modification of the present invention]
In the above-described embodiment, the cylindrical basket-shaped hose bucket 62 is rotatably supported by the hose storage unit 60. However, the hose bucket is formed in another shape such as an elliptical cylinder basket, and the hose is stored. It may be fixedly arranged on the part. By making the hose bucket into an oval cylindrical hook, the length of one hose can be increased compared to a cylindrical hook-shaped hose bucket. If the hose length is the same, the depth of the hose bucket is reduced. Thus, the size can be reduced, and since the rotation support structure is not provided, the structure is simplified and the cost can be reduced.

  Further, in the above embodiment, the hose storage portion is disposed horizontally, but may be appropriately disposed, for example, obliquely disposed.

  In addition, the hose and the fire hydrant valve of the fire hydrant equipment shown in the above embodiment, the configuration and arrangement of the notification device, and other configurations are arbitrary, and an appropriate configuration may be adopted.

  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 14: Monitor passage 15: Road 16: Fire hydrant equipment 18: Floor slab 20: Management passage 22: Duct 23: Electric pipe 24: Water supply main 26: Fire hydrant embedding part 27: Box removal Parts 28, 28a, 28b, 28c: Inspection door 29: Corner fitting piece 30: Fire hydrant door 31: Door opening 32: Handle 33: Hinge 34: Handle 36: Fire hydrant nameplate 38: Notification device panel 40: Red indicator lamp 42: Transmitter 44: Response lamp 46: Hose outlet 48: Hose 50: Nozzle 52: Nozzle holder 54: Start push button 60: Hose storage portion 62: Hose bucket 62a, 62b, 62c: Ring frame 64: Rotary joint 66: Horizontal roller 68: Lower roller 70: Pipe frame 72: Hose outlet pipe frame 74: Piping 75: Controller 76: Valve storage device 7 : Branch pipe 80: Remote fire hydrant valve 82: Automatic pressure regulating valve 84: Automatic drain valve 86: Maintenance device 90: Fire hydrant slide door 92: Guide rail 94: Fire extinguisher door 95: Fire extinguisher name plate 96: Water faucet door 97: Water faucet Name plate 98: Fire extinguisher storage unit 100: Fire extinguisher 102: Water faucet storage unit 104: Water faucet 106: Pump activation push button

Claims (12)

A fire hydrant embedding part provided in an observer passage in a tunnel having a road;
A hose storage part installed in the fire hydrant embedding part and storing a hose with a nozzle;
A fire hydrant door provided on the road surface side of the supervisor passage of the fire hydrant embedding part;
A reporting device provided on the side of the wall of the observer passage facing the road of the fire hydrant embedded portion;
With
The fire hydrant facility in a tunnel is characterized in that the fire hydrant door can be opened by a user from both the road side and the supervisor passage side.
A fire hydrant embedding part provided in an observer passage in a tunnel having a road;
A hose storage part installed in the fire hydrant embedding part and storing a hose with a nozzle;
A fire hydrant door provided on the road surface side of the supervisor passage of the fire hydrant embedding part;
A reporting device provided on the side of the wall of the observer passage facing the road of the fire hydrant embedded portion;
With
A fire hydrant facility in a tunnel, wherein a user can pull out the hose with a nozzle from both the road side and the monitoring staff passage side when the fire hydrant door is open.
In the fire hydrant facility in a tunnel according to claim 1 or 2,
The fire hydrant equipment in a tunnel, wherein the notification device includes an indicator lamp that displays a location of the fire hydrant equipment.
In the fire hydrant facility in a tunnel according to any one of claims 1 to 3,
The fire hydrant facility in a tunnel, wherein the notification device includes a transmitter that transmits a transmission signal to a fire receiver by an operation at the time of a fire.
In the fire hydrant facility in a tunnel according to claim 4,
The fire hydrant facility in a tunnel, wherein the notification device includes a response lamp that is turned on based on a response signal from the receiver with respect to a transmission signal transmitted from the transmitter to the fire receiver.
In the fire hydrant installation in a tunnel in any one of Claims 1 thru | or 5,
A fire hydrant facility in a tunnel, wherein the fire hydrant door is allowed to pass through the passage when the fire hydrant door is closed.
In the fire hydrant installation in a tunnel in any one of Claims 1 thru | or 6,
The fire hydrant facility in a tunnel is characterized in that the fire hydrant door opens upward with respect to the road surface of the supervisor passage.
The fire hydrant facility in a tunnel according to any one of claims 1 to 7,
A fire extinguisher storage part installed in the fire hydrant embedding part and containing a fire extinguisher in a housing;
A fire extinguisher door provided on the road surface side of the supervisor passage,
With
A fire hydrant facility in a tunnel, wherein a user can take out the fire extinguisher from both the road side and the monitoring staff passage side when the fire extinguisher door is open.
In the fire hydrant facility in a tunnel according to claim 8,
The fire hydrant in a tunnel is characterized in that the fire extinguisher door opens upward with respect to the road surface of the supervisor passage.
In the fire hydrant installation in a tunnel in any one of Claims 1 thru | or 9,
A fire hydrant facility in a tunnel, wherein a predetermined water discharge control mechanism for supplying water for fire extinguishing to the hose with the nozzle is housed under the floor slab of the tunnel.
In the fire hydrant facility in a tunnel according to claim 10,
The fire hydrant equipment in a tunnel, wherein the water discharge control mechanism includes a fire hydrant valve that supplies the fire-fighting water to the hose with the nozzle by an opening operation and stops the supply of the fire-fighting water by a closing operation.
The fire hydrant facility in a tunnel according to any one of claims 1 to 11,
The fire hydrant equipment in a tunnel is characterized in that the fire hydrant embedding part is a box opening part that is formed to penetrate from a road surface of the monitoring person passage to a front wall through a road shoulder.

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