JP6841639B2 - Tunnel emergency equipment - Google Patents

Description

The present invention relates to tunnel emergency equipment in which an equipment storage box containing equipment such as a fire hydrant and an automatic valve is installed in the tunnel.

Conventionally, emergency equipment has been installed in tunnels such as expressways and motorways to protect people and vehicles from fire accidents that occur in the tunnels.

Such emergency equipment includes a fire detector, a manual notification device, and an emergency telephone for fire monitoring and notification, a fire extinguishing plug device for extinguishing a fire and preventing the spread of fire, and a tunnel frame. In order to protect from fire, water spray equipment that sprinkles fire extinguishing water from the water spray head is installed, and the equipment of emergency equipment is connected to the transmission line from the disaster prevention receiver installed in the monitoring center for monitoring and control. ing.

For example, fire hydrant devices are installed at intervals of 50 meters along the side wall facing the observer passage provided in the tunnel, and hoses and valves with nozzles attached to the tips are placed in a housing equipped with an openable fire hydrant door. It is stored.

In the water spray equipment, an automatic valve device is installed on the side wall that is integrated with or near the fire hydrant device, and the water supply pipes raised from the automatic valve device are connected to multiple water spray heads located at the top of the tunnel. ing.

Japanese Unexamined Patent Publication No. 2014-833444 Japanese Unexamined Patent Publication No. 2009-285126

By the way, in the automatic valve device provided in the conventional water spraying equipment, the inspection door can be freely attached to and detached from the opening of the housing in order to inspect the automatic valve stored in the housing at the time of periodic inspection or the like. It is provided in. For the inspection door of the automatic valve, for example, a steel plate with a thickness of about several millimeters is used as the inspection door, the inspection door is hung from the upper part of the housing opening, the lower side of the inspection door is positioned by the rubber stopper, and the weight of the inspection door is used. It is kept in a closed state.

On the other hand, the fire hydrant device is provided with a fire hydrant door that opens downward on the lower side of the housing opening and an inspection door that opens upward on the upper side of the housing opening. open the access door and is capable of inspecting the housing of the device, access door such as to hold the closed state by weight as an automatic valve device is not needed.

However, in such a conventional fire hydrant device installed in a tunnel, since it is installed along the side wall of the tunnel facing the observer passage, the user can observe from the road surface when a fire occurs due to a vehicle accident. It is necessary to reach for the fire hydrant device installed on the side wall of the tunnel beyond the passage, open the fire hydrant door, pull out the hose to extinguish the fire, and the fire hydrant device is installed at a high position away from the road surface. Depending on the person, it may be necessary to go up to the observer passage and operate it, and some observer passages are provided with handrails, which interfere with fire extinguishing work and are difficult to handle. There was a case.

In order to solve this problem, the applicant of the present application proposes an elevating type fire hydrant facility that can be easily and easily handled from the road side and the observer passage side. In the elevating type fire hydrant equipment, the hose storage part where the hose with nozzle is stored is arranged so that it can be elevated and lowered in the observer passage by the elevating mechanism, and in the event of a vehicle accident involving fire in the tunnel, a predetermined switch When the operation is performed, the hose storage part is raised and held in the exposed position on the observer passage by the operation of the elevating mechanism, and the hose storage part exposed on the observer passage does not require the opening operation of the fire hydrant door. The hose with a nozzle can be pulled out easily and easily to extinguish the fire.

By the way, in the elevating type fire hydrant equipment, a fire hydrant storage box containing the hose storage part is installed on the observer passage side, and in order to inspect the elevating mechanism and the hose storage part stored in the fire hydrant storage box. It is conceivable to form an opening for inspection on the front surface of the storage box, and to provide the opening with an inspection door for holding the closed state by weight, for example, as in the conventional automatic valve device.

However, in such a conventional inspection door, in order to maintain the closed state by weight, the weight of the door becomes as heavy as 50 kg, for example, and it is difficult to remove the inspection door at the time of inspection and to install it after inspection. There was a risk of an accident if we were not careful enough.

An object of the present invention is to provide a tunnel emergency facility capable of easily and safely attaching and detaching an inspection door provided in an embedded equipment storage box.

(Tunnel emergency equipment)
The present invention relates to a tunnel emergency facility in which an equipment storage box containing equipment is embedded in a wall surface on the shoulder side of the tunnel road.
The equipment storage box is
A housing with an opening on the front and
An inspection door that is detachably fixed to the opening and
A bearing member that is provided at the lower inside of the inspection door and extends downward after being extended in the depth direction.
With
The upper end side of the bearing member is fixed to the back surface of the inspection door, and then the bearing member is bent diagonally downward in the depth direction and then bent downward, and the bent and extended lower end is closer to the lower end of the inspection door. It is characterized in that it is a plate member located below.

(Bearing members and bearing receiving members)
Bearing member is provided at a plurality of locations of the back lower side of the access door, the tip of the plate member, is disposed stationary member to hindrance deferred to the ground,
The stationary member is housed inside the housing when the inspection door is fixed to the opening.

( Equipment storage box )
The equipment storage box is a fire hydrant device in which the equipment of the fire hydrant is stored, or an automatic valve device in which the automatic valve of the water spray equipment is stored.

(Basic effect)
The present invention relates to a tunnel emergency facility in which an equipment storage box in which equipment is stored is embedded in a wall surface on the shoulder side of the tunnel road. It is equipped with an inspection door that is detachably fixed to the opening and a support member that is provided at the lower inside of the inspection door and extends downward after being extended in the depth direction. The upper end side of the support member is the inspection door. It is a plate member that is fixed to the back surface of the door, then bent diagonally downward in the depth direction, then bent downward, and the bent and extended lower end is located below the lower end of the inspection door. Therefore, when removing the inspection door, the screw fixing the inspection door must be removed first, but even if the screw is removed, the inspection door is provided with a support member on the back side, so the inspection door must be removed. Even if it is not supported by a hand, it does not fall out from the opening of the housing, and the inspection door can be easily and safely removed by lifting it outward with a handle or the like provided on the inspection door.

In addition, when the inspection door is attached to the housing opening after inspection, the support member provided at the lower inside of the inspection door can be inserted by inserting it inward from the housing opening. The inspection door is positioned in a position where it can be closed without being supported by, and in this state, the inspection door can be closed to the opening of the housing, and finally fixed to the closed state by screwing. Also makes it possible to do it easily and safely.

(Effects of bearing members and bearing members)
Further, the bearing member is provided at a plurality of locations of the back lower side of the access door, the tip of the plate member, is disposed a pipe-shaped stationary member hindrance deferred to the ground, the stationary member, inspection door openings When fixed to, it is stored inside the housing, so when the inspection door is removed from the opening and leaned against the nearby ground, the stationary member placed at the tip of the bearing member hits the ground, and the lower end of the bearing member touches the ground. Prevents damage by hitting.

Explanatory drawing showing tunnel emergency equipment including fire hydrant equipment installed in a shield tunnel Explanatory drawing showing the fire hydrant storage box for storing the hose from the front, the plane, and the side. Explanatory drawing showing the internal structure of the fire hydrant equipment of FIG. 2 in a cross section seen from the road side. Explanatory drawing showing the state where the hose storage part is raised by the elevating mechanism and exposed on the observer passage in the cross section seen from the road surface side. Explanatory drawing showing the mounting structure of the inspection door to the opening of the housing as viewed from the cross section and the inside of the door. Cross-sectional view showing the removed state of the inspection door Sectional view showing installation work of inspection door

[Overview of emergency tunnel equipment]
FIG. 1 is an explanatory diagram showing tunnel emergency equipment including a fire hydrant equipment installed in a tunnel of a motorway. 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, and in this example, the road 15 is provided. 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 internal space below the observer passage 14 is used as a duct 22 and conduits and the like are 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 under the observer passage 14 is used as the management passage 20 and also. The management passage 20 is used as an emergency evacuation passage in the event of a fire in the tunnel. A water supply main 24 is laid in the management passage 20.

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 fire hydrant storage box 30 in which the hose is stored and the control mechanism storage unit 45.

The fire hydrant storage box 30 is arranged in a fire hydrant embedding portion that is hollowed out in a box shape over the road surface of the observer passage 14 and the wall surface on the road 15 side. The control mechanism storage unit 45 is arranged in a management passage 20 below the fire hydrant storage box 30, and a branch pipe branched from the water supply main 24 is drawn in, and water supply for supplying fire extinguishing water to the fire hydrant storage box 30. The piping has been set up.

The fire hydrant storage box 30 of the fire hydrant equipment 16 is provided with a hose storage portion in which a hose with a nozzle is stored and an elevating mechanism thereof. The hose compartment is raised and exposed, enabling fire extinguishing work by pulling out a hose with a nozzle.

An inspection door is detachably attached to the front surface of the fire hydrant storage box 30 facing the road 15.

[Fire hydrant equipment]
FIG. 2 is an explanatory view showing a fire hydrant storage box for storing a hose from the front, a plane, and a side surface, FIG. 3 is an explanatory view showing the internal structure of the fire hydrant equipment of FIG. It is explanatory drawing which showed the state which the hose storage part was raised by the mechanism and was exposed on the observer passage in the cross section seen from the road surface side.

(Exterior structure of fire hydrant storage box)
As shown in FIG. 2, the fire hydrant storage box 30 of the fire hydrant equipment 16 is embedded and installed in the internal space under the floor surface of the observer passage 14. In the fire hydrant storage box 30, a hose storage portion 44 that is raised and lowered by driving the hydraulic cylinder 60 of the raising and lowering mechanism 46 using the pantograph mechanism is arranged.

The fire hydrant storage box 30 has an opening 34 formed on the front surface of the housing 32, and an inspection door 36 is fixed to the opening 34 by a plurality of bolts 80, and can be detached by removing the bolts 80. It is provided.

Further, support members 70 are provided at a plurality of locations on the lower side of the back surface of the inspection door 36, and the lower end of the support member 70 is fitted into the fitting member 72 fixed to the lower side thereof to position the inspection door 36. Support is being made. The mounting structure of the inspection door 36 by the bearing member 70 and the fitting member 72 will be described in detail later.

On the front of the inspection door 36, a name plate indicating "fire hydrant" is arranged in three letters, and at the upper two places, there is a handle 38 to handle when removing or installing the inspection door 36. It is provided.

Further, a fire hydrant elevating port 42 is formed on the upper part of the observer passage 14 of the fire hydrant storage box 30 shown in FIG. 2 (C), and the hose storage portion moves up and down below the fire hydrant elevating port 42. Since the hose can be freely arranged, the road surface plate 50 of the hose storage portion is located to close the fire hydrant elevating port 42.

A notification device panel is provided corresponding to the fire hydrant storage box 30, and a red indicator lamp, a transmitter, and a response lamp are provided on the notification device panel, but the illustration is omitted. Further, the notification device panel is provided with an ascending switch and a descending switch for raising and lowering the hose storage portion provided in the fire hydrant storage box 30, but the illustration is omitted.

(Structure of fire hydrant equipment installed in the internal space)
As shown in FIGS. 3 and 4, a rectangular fire hydrant elevating port 42 is opened at a position corresponding to the road surface of the observer passage 14 of the fire hydrant storage box 30 installed in the observer passage 14. A hose storage portion 44 is arranged so as to be able to move up and down with respect to the fire hydrant elevating port 42 from below. The hose storage portion 44 includes a box-shaped housing 48 opened on the front surface and the back surface, and four frame pipes 52 are arranged in the openings on the front surface and the back surface of the housing 48, and a hose outlet 55 is formed between them. ing.

Inside the hose storage portion 44, the hose 54 having the nozzle 56 attached to the tip thereof is stored in an inwardly wound state, and the nozzle 56 attached to the tip of the hose is arranged in the central portion of the inwardly wound hose 54. The nozzle 56 can be taken out from either the front surface or the back surface of the hose.

Further, in the hose storage unit 44, the water discharge switch 38a for opening the electric valve and the electric valve are closed by operating the water discharge control mechanism provided in the control mechanism storage unit 45 arranged in the management passage 20. A water discharge stop switch 38b is provided.

The hose accommodating portion 44 is supported by an elevating mechanism 46 so as to be able to elevate and elevate, and in the present embodiment, a pantograph mechanism is used as the elevating mechanism 46.
The elevating mechanism 46 using the pantograph mechanism is composed of two link arms 46a and 46b. The left end of the link arm 46a is rotatably supported by the base 41 by the fulcrum 47a, and the left end of the link arm 46b is rotatably supported by the mounting base 43 by the fulcrum 47b, and the link arms 46a and 46b intersect at the center. It is rotatably connected at the fulcrum 47c.

Further, the right end of the link arm 46a is movably supported by the roller 49a along the mounting base 43, and the right end of the link arm 46b is movably supported by the roller 49b on the base 41.

As a drive mechanism of the elevating mechanism 46, a piston cylinder mechanism is provided, the lower end of the hydraulic cylinder 60 is rotatably connected to the link arm 46b by a fulcrum 51a, and the piston 61 slidably provided in the hydraulic cylinder 60. The tip of the piston rod 63 connected to the link arm 46a is rotatably connected to the link arm 46a by a fulcrum 51b.

A control mechanism storage unit 45 is arranged in the management passage 20 below the internal space in which the elevating mechanism 46 is arranged, and the control mechanism storage unit 45 supplies fire extinguishing water to the hose 54 of the hose storage unit 44. A water discharge control mechanism including valves for discharging water and an elevating control mechanism including valves for driving the elevating mechanism 46 up and down are provided.

A branch pipe 24a branched from the water supply main 24 that functions as a water pressure source is connected to the control mechanism storage unit 45, and fire extinguishing water supplied from the fire extinguishing pump equipment to the water supply main 24 is introduced.

The water supply pipe 58 from the water discharge control mechanism built in the control mechanism accommodating portion 45 is connected to the universal joint 65 which is the hose connection port of the hose accommodating portion 44 via the connecting hose 62. The connecting hose 62 has a hose length with a margin necessary for connection when the hose storage portion 44 is pushed up from the fire hydrant elevating port 42 of the observer passage 14 and held at an 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 pipe on the fixed side, the hose storage portion 44 can move without disconnecting the connecting hose 62. Further, the movement of the connecting hose 62 caused by the elevating operation is absorbed by the movement of the universal joint 65.

Further, from the elevating control mechanism built in the control mechanism storage unit 45, a pipe 59 for supplying and draining fire extinguishing water is connected to the hydraulic cylinder 60 of the elevating mechanism 46.

Here, the number of hydraulic cylinders 60 provided in the elevating mechanism 46 can be appropriately set as needed. For example, four hydraulic cylinders may be arranged at the corners of the bottom of the hose storage portion 44. ..

Further, the hose storage unit 44 and the control mechanism storage unit 45 are connected by a connecting hose 62 in the observer passage and a water supply pipe 58 on the management passage 20 side. However, the hose storage unit 44 and the control mechanism storage unit 45 are connected. It may be directly connected to and from by a connecting hose. Also in this case, one or both of the connecting hoses are connected to the hose storage portion 44 side and the control mechanism storage portion 45 by universal joints.

The elevating mechanism 46 is hydraulically driven, but is not limited to this, and may be hydraulically driven.

[Operation of fire hydrant equipment]
(During normal monitoring)
During normal monitoring when a vehicle is passing through the road of the tunnel 10 shown in FIG. 1, as shown in FIG. 3, the hose storage portion 44 of the fire hydrant equipment 16 is provided with a water discharge control in the control mechanism storage portion 45. Since the supply of fire extinguishing water from the mechanism is stopped, the hydraulic cylinder 60 of the elevating mechanism 46 positions the piston 61 at the lowest point, whereby the elevating mechanism 46 buries the hose storage portion 44 in the observer passage 14. Even if the fire hydrant is stored in the built-in fire hydrant storage box 30, the fire hydrant elevating port 42 is closed by the road surface plate 50 on the upper surface of the housing 48, and the fire hydrant equipment 16 is installed in the observer passage 14. It does not block or pose any danger to anyone passing through the observer passage 14.

(In case of fire)
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 place where the fire broke out, presses the transmitter on the notification device panel, and sends a fire notification signal to the disaster prevention receiver of the monitoring center. Is transmitted, the confirmation response signal is received from the disaster prevention reception panel, the response lamp is turned on, and the red indicator lamp blinks to confirm the completion of the report to the monitoring center side.

Subsequently, in order to perform fire fighting, it is turned on by pressing the up switch provided for the reporting apparatus panel. Fire water to hydraulic cylinder 60 of the lift mechanism 46 from the control mechanism housing portion 45 by the ON operation of the raising switch is sent, the piston 61 is raised by Fire water supplied into the cylinder, the link arm via a piston rod 63 The distance between the 46a and the link arm 46b is widened.

When the distance between the link arms 46a and 46b is widened, the angles of the link arms 46a and 46b widen around the fulcrum 47c, and the rollers 49a and 4b at the right ends of the link arms 46a and 46b move to the left, resulting in mounting. The base 43 is pushed upward, and the hose storage portion 44 attached to the mounting base 43 is pushed up.

Therefore, the road surface plate 50 closing the fire hydrant elevating port 42 of the fire hydrant storage box 30 is lifted, the hose storage portion 44 stored inside slowly appears from the road surface, rises to the exposed position shown in FIG. 4, and stops. , Hold this exposed position.

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

Subsequently, when the user presses the water discharge switch 38a provided in the exposed hose storage unit 44 to turn it on, a water discharge start signal is output to the water discharge control mechanism of the control mechanism storage unit 45, and fire extinguishing water is connected to the water supply pipe 58. It is supplied to the hose 54 via the hose 62, and the fire can be extinguished by discharging water from the nozzle 56.

On the other hand, when the user extinguishes a fire from the observer passage 14 side, it is easy and easy to take out the nozzle 56 from the back opening of the housing 48 in the hose storage portion 44 exposed and held on the observer passage 14. The hose 54 can be easily pulled out to extinguish the fire.

When the fire is extinguished and the fire extinguishing work is completed, when the water discharge stop switch 38b provided in the hose storage unit 44 is pressed to turn it on, a water discharge stop signal is output to the water discharge control mechanism of the control mechanism storage unit 45, and the nozzle 56 Water discharge from is stopped.

Further, in the restoration work after the fire extinguishing work is completed, after draining the hose 54 , the hose 54 is stored in the hose storage portion 44 exposed and held on the observer passage 14 in an inwardly wound state. .. Subsequently, by turning on the lowering switch provided on the notification device panel, the hose storage portion 44 is lowered by the elevating mechanism 46, and the road surface plate 50 is lowered to a position where the fire hydrant elevating port 42 is closed and stopped. The hose storage unit 44 is stored in the fire hydrant storage box 30.

[Inspection door mounting structure]
FIG. 5 is an explanatory view showing the installation structure of the inspection door to the opening of the housing as viewed from the cross section and the inside of the door, FIG. 6 is a sectional view showing the removed state of the inspection door, and FIG. 7 shows the installation work of the inspection door. It is the cross-sectional view shown.

(Mounting structure)
As shown in FIG. 5, the housing 32 of the fire hydrant storage box is formed in a box shape by the frame members 75 and 76, and the decorative frame 78 is fixed to the outside of the frame member 75 located at the front surface of the frame member 75. And a rectangular opening 34 surrounded by a decorative frame 78 is formed.

An inspection door 36 is attached to the opening 34 of the housing 32 from the outside, and is fastened and fixed by bolts 80 and nuts 82 having a dish-shaped head at a plurality of surrounding places. The nut 82 is fixed to the back side of the frame member 75 by welding or the like.

The inspection door 36 is composed of a steel plate having a thickness of about 1 mm and a frame member fixed to the back side thereof, and is sufficiently lightweight.

A bearing member 70 is provided on the lower back surface of the inspection door 36. The bearing member 70 is a plate member formed by bending a metal plate, and the fixing portion 70a on the upper end side is fixed to the back surface of the inspection door 36 by welding or the like, and then bent diagonally downward in the depth direction to project. The overhanging portion 70b is formed, and the fitting support portion 770c bent downward is formed.

Further, as shown by the dotted line in FIG. 2A, the bearing members 70 are provided at a plurality of locations, for example, four locations on the back surface of the inspection door 36. Incidentally, the bearing member 70, in order to remove and install the access door 36 easily and safely, it is necessary to provide at least two positions of the back sides of the access door 36. Further, when it is desired to disperse the door load applied to the support member 70, the number of the support members 70 provided on the back surface of the inspection door 36 may be increased.

A pipe-shaped stationary member 74 is attached to the tips of the bearing members 70 arranged at a plurality of locations by the fitting member 72, and when the inspection door 36 is removed from the opening 34 and placed on the ground nearby to lean against the bearing member 70. It is possible to prevent the tip of the 70 from hitting the ground and being damaged.

(Removal of inspection door)
When inspecting the hose storage portion 44 and the elevating mechanism 46 stored in the fire hydrant storage box 30, loosen and remove the bolt 80 fixing the inspection door 36 to the opening 34 of the housing 32.

Even if all the bolts 80 are removed in this way, since the bearing member 70 on the back surface of the inspection door 36 is located inside the housing 32, the inspection door 36 is lightly supported by hand so as not to open, so that the inspection door 36 can be opened from the opening 34. It will not fall out.

Subsequently, by putting a hand in the handle 38 of the inspection door 36 shown in FIG. 2 (A) and lifting the inspection door 36 diagonally upward, the support member 70 is pulled out from the opening 34, and as shown in FIG. The inspection door 36 can be removed from the opening 34 of the housing 32, and the inspection door 36 can be easily and safely removed.

The inspection door 36 removed from the opening 34 is to be leaned against the ground nearby. In this case, the pipe-shaped stationary member 74 arranged at the tip of the bearing member 70 comes to support the inspection door 36 on the ground. , The tip of the plate member in the bearing member 70 is surely prevented from hitting the ground and being damaged.

(Installation of inspection door)
When the inspection inside the fire hydrant storage box 30 is completed, put a hand in the handle 38 to lift the inspection door 36, and as shown in FIG. 7, the tip of the support member 70 provided on the lower side of the back surface of the inspection door 36. The fitting support portion 70c is inserted through the opening 34 so as to enter the inside, whereby the inspection door 36 is positioned relative to the opening 34, and the work of keeping the inspection door 36 in the closed position becomes unnecessary.

Subsequently, by pressing the inspection door 36 to the position where the opening 34 is closed and screwing and fixing the bolt 80 in this state, the inspection door 36 can be closed and fixed, and the inspection door 36 can be easily and safely attached. Make it possible.

[Modification of the present invention]
(Automatic valve device)
In the above embodiment, the inspection door provided in the fire hydrant storage box is taken as an example, but the automatic valve of the water spray equipment arranged in the vicinity of the storage box of the fire hydrant equipment or integrally arranged. The storage box will have the same inspection door mounting structure. Further, the present invention is not limited to the fire hydrant storage box and the automatic valve storage box, and the inspection door provided in the equipment storage box of the appropriate equipment installed in the tunnel is the same as the inspection door of the above embodiment. It has a mounting structure.

(Fire hydrant equipment)
Further, although the above embodiment takes as an example a fire hydrant facility that discharges fire extinguishing water, it may be a foam fire hydrant facility that discharges a foam extinguishing agent. Further, the hoses of the fire hydrant equipment, valves such as the fire hydrant valve, the configuration and arrangement of the notification device, and other configurations shown in the above embodiment are arbitrary, and an appropriate configuration may be adopted.

(Deferred member)
In the above embodiment, the pipe member is used as the stationary member, but the present invention is not limited to this. For example, by using a semi-cylindrical member whose bottom surface is flat, it is possible to improve the stability due to independence or leaning when the inspection door is removed.

In addition, by using a member with no corners such as a pipe member or a semi-cylindrical member or a member having an excessively small shape as a stationary member, the fire hydrant storage box may be damaged when the inspection door is removed or fitted. Can be prevented.

Further, the stationary member may be provided detachably from the inspection door. As a result, it is possible to add and reduce the number of stationary members provided on the inspection door as needed. In this case, it is necessary to provide stationary members at two locations on the left and right under the inspection door as the minimum necessary configuration.

(Other)
Further, the present invention includes appropriate modifications that do not impair its purpose and advantages, 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 24: Water supply main 24a: Branch pipe 30: Fire hydrant storage box 32 , 48 : Box Body 34: Opening 36: Inspection door 38: Handle
38a: Water discharge switch 38b: Water discharge stop switch 42: Fire hydrant elevating port 44: Hose storage unit 45: Control mechanism storage unit 46: Elevating mechanism 50: Road surface plate 54: Hose 55: Hose outlet 56: Nozzle 60: Hydraulic cylinder 62: Connecting hose 63: Piston rod
65: Universal joint 70: Support member 70a: Fixing part 70b: Overhanging part 70c: Fitting support part 72: Fitting member 74: Stationary member 75, 76: Frame member 78: Decorative frame 80: Bolt 82: Nut

Claims (4)

The wall surface of the tunnel on the road shoulder, equipment storage box equipment is housed is a buried disposed tunnel emergency equipment,
The equipment storage box
A housing with an opening on the front and
An inspection door that is detachably fixed to the opening and
A bearing member provided at the lower inside of the inspection door and extending downward after being projected in the depth direction,
With
The upper end side of the bearing member is fixed to the back surface of the inspection door, and then the bearing member is bent diagonally downward in the depth direction and then bent downward, and the bent and extending lower end is the inspection door. Tunnel emergency equipment characterized by being a plate member located below the lower end.
In the tunnel emergency equipment according to claim 1,
The bearing member is provided at a plurality of locations of the back lower side of the inspection door, to the tip of the plate member, is disposed stationary member to hindrance deferred to the ground,
The stationary member is a tunnel emergency equipment characterized in that when the inspection door is fixed to the opening, the stationary member is housed inside the housing.
In the tunnel emergency equipment according to claim 1 or 2 , the equipment storage box is a tunnel emergency equipment in which the equipment of the fire hydrant is stored.
In the tunnel emergency equipment according to claim 1 or 2 , the equipment storage box is a tunnel emergency equipment in which an automatic valve of a water spraying equipment is housed.

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