JP2020162878A - Tunnel disaster prevention system - Google Patents

Abstract

To improve safety of evacuation using a watchman's passage, thereby solving a problem that there is a safety problem in the evacuation using a watchman's passage since, when a fire occurs on a driveway in a tunnel, there is a risk of the fire on the driveway invading into the watchman's passage.SOLUTION: A handrail for separating a driveway R and a watchman's passage P in a tunnel is provided with a water curtain forming pipe. The water curtain forming pipe is provided with a plurality of water discharge ports. When a fire occurs on the driveway R, water is discharged vertically upward from the plurality of water discharge ports so that water curtains are set up for separating the driveway R and the watchman's passage P.SELECTED DRAWING: Figure 2

Description

The present invention relates to a tunnel disaster prevention system.

Conventionally, a water spray facility is known as a tunnel emergency facility. The water spraying equipment is installed above the ceiling or side wall of the tunnel and is used to suppress the fire and prevent the spread of fire by dispersing and discharging water (see, for example, Patent Document 1).

JP 2015-146930

Some tunnels have guard passages. The observer passage is a passage installed for the purpose of ensuring the safety of workers engaged in maintenance in the tunnel. This guard passage may be used as an evacuation route in the event of a fire on the roadway in the tunnel. However, since there is only a handrail between the guard passage and the roadway, flames on the roadway may invade the guard passage, so it is safe to evacuate using the guard passage. There was an obstacle above.

The present invention has been made in view of such circumstances, and an object of the present invention is to improve the safety of evacuation using the observer passage.

In order to solve the above problems, the tunnel disaster prevention system according to the present invention is a water pipe installed along the roadway and the observer passage in the tunnel, and is upward when a fire breaks out on the roadway. It is provided with a water pipe having a plurality of water outlets for forming a water curtain or a plurality of water columns that separate the roadway from the observer passage by discharging water.

In a preferred embodiment, the water pipe constitutes a handrail that separates the roadway from the observer passage.

In a more preferred embodiment, the tunnel disaster prevention system further comprises an operating unit installed on the railing and operated to control the water discharge.

In a more preferred embodiment, the water distribution pipe includes a first pipe portion extending along the tunnel and a second pipe portion supporting the first pipe portion, and the first pipe portion is the second pipe portion. It is supported so that it can rotate around the axis, and water is discharged from the end.

According to the present invention, the safety of evacuation using the observer passage is improved.

Diagram showing an example of the configuration of a tunnel disaster prevention system The figure which shows an example of the appearance of a handrail 16. The figure which shows an example of the appearance of a handrail 16. Sequence diagram showing an operation example of the tunnel disaster prevention system The figure which shows the installation example of the pipe 9 for forming a water curtain The figure which shows the installation example of the pipe 9 for forming a water curtain The figure which shows the installation example of the pipe 9 for forming a water curtain The figure which shows an example of the appearance of the water curtain formation pipe 9A

1. 1. Embodiment The tunnel disaster prevention system according to the embodiment of the present invention will be described with reference to the drawings.
1-1. Configuration Figure 1 is a diagram showing an example of the configuration of this tunnel disaster prevention system. The figure shows, in particular, only the equipment related to the water discharge operation in the event of a fire.

The fire detector 1 shown in the figure is connected to the disaster prevention receiver 2 via a line, and when a fire is detected, a fire signal is output to the disaster prevention receiver 2. The fire detector 1 is installed on the inner wall of the tunnel, for example, every detection section at intervals of 50 m.

The primary side of the first automatic valve device 3 is connected to the water supply pipe 4, and the secondary side thereof is connected to the water spray pipe 5. A water spray head 6 is connected to the other end of the water spray pipe 5. The water spray heads 6 are installed above the side wall of the tunnel, for example, at intervals of 5 m. Further, the first automatic valve device 3 is connected to the signal converter 7 via a line. The first automatic valve device 3 is installed in the wall of the tunnel, for example, in each water discharge section at intervals of 50 m. Here, the water discharge section is set so as to overlap with the detection section described above.

The primary side of the second automatic valve device 8 is connected to the water supply pipe 4, and the secondary side thereof is connected to the water curtain forming pipe 9. The water curtain forming pipe 9 will be described in detail later. Further, the second automatic valve device 8 is connected to the signal converter 7 via a line. The second automatic valve device 8 is installed in the wall of the tunnel for each of the above-mentioned water discharge sections.

The operation unit 10 is an operation device operated to control the discharge of water from the water curtain forming pipe 9. The operation unit 10 is connected to the signal converter 7 via a line, and the signal converter 7 outputs an operation signal to the disaster prevention receiver 2 when the operation unit 10 is operated. The output operation signals include an operation signal instructing the start of water discharge from the water curtain forming pipe 9 and an operation signal instructing the stop of water discharge. The operation unit 10 is installed on the handrail 16 described later. As a modification, the operation unit 10 may be installed on the side wall of the tunnel.

The signal converter 7 is connected to the disaster prevention receiving board 2 via a line, and transmits / receives a signal to / from the disaster prevention receiving board 2. In particular, the following three operations are performed as operations related to the water discharge operation in the event of a fire.
(1) The automatic valve of the first automatic valve device 3 is opened and closed according to the control signal for the first automatic valve device 3 output from the disaster prevention receiving panel 2.
(2) The automatic valve of the second automatic valve device 8 is opened and closed according to the control signal for the second automatic valve device 8 output from the disaster prevention receiving panel 2.
(3) When the operation unit 10 is operated, the operation signal is output to the disaster prevention receiving panel 2.
The signal converter 7 is installed on the side wall of the tunnel for each of the above-mentioned water discharge sections.

The pump control panel 11 is connected to the disaster prevention receiving panel 2 via a line, and controls the operation of the fire extinguishing pump 12 based on the control signal output from the disaster prevention receiving panel 2. When the fire extinguishing pump 12 is started, the fire extinguishing water stored in the water tank 13 is pressurized and supplied to the water supply pipe 4. The pump control panel 11 is installed in the pump chamber.

The distant monitoring and control equipment 14 is connected to the disaster prevention receiving board 2 via a communication network, and transmits and receives signals to and from the disaster prevention receiving board 2. In particular, as an operation related to the water discharge operation at the time of a fire, a control signal for the fire extinguishing pump 12, the first automatic valve device 3 or the second automatic valve device 8 is output to the disaster prevention receiving panel 2 based on the operation by the operator.

The disaster prevention receiver 2 monitors fires in the tunnel and controls fire extinguishing through each device connected via a line. In particular, the following six operations are performed as operations related to the water discharge operation in the event of a fire.
(1) When a fire signal is received from the fire detector 1, the water discharge section in which the fire detector 1 is installed is specified, and the signal converter 7 in the specified water discharge section and the adjacent water discharge section is referred to. 1 Outputs a control signal instructing the automatic valves of the automatic valve device 3 and the second automatic valve device 8 to be opened. In addition, a start signal is output to the pump control panel 11.
(2) When an operation signal instructing the start of water discharge from the water curtain forming pipe 9 is received from the signal converter 7, the automatic valve of the second automatic valve device 8 is opened to the signal converter 7. Outputs the instruction control signal. In addition, a start signal is output to the pump control panel 11.
(3) When an operation signal instructing the stop of water discharge from the water curtain forming pipe 9 is received from the signal converter 7, the automatic valve of the second automatic valve device 8 is closed to the signal converter 7. Outputs the instruction control signal.
(4) A control signal instructing the start or stop of the fire extinguishing pump 12 is sent in response to an operation on the display operation unit (not shown) of the disaster prevention receiver panel 2 or in response to a control signal received from the remote monitoring control equipment 14. Output to the pump control panel 11.
(5) A control signal instructing open control or closing control of the first automatic valve device 3 in response to an operation on the display operation unit of the disaster prevention receiver 2 or in response to a control signal received from the remote monitoring control equipment 14. Is output to the signal converter 7 in the designated water discharge section.
(6) A control signal instructing open control or closing control of the second automatic valve device 8 in response to an operation on the display operation unit of the disaster prevention receiver 2 or in response to a control signal received from the remote monitoring control equipment 14. Is output to the signal converter 7 in the designated water discharge section.
The disaster prevention receiver 2 is installed in, for example, a facility control room.

The relay amplification board 15 is a device for relay amplification of signals transmitted and received between the disaster prevention reception board 2 and the fire detector 1 or the signal converter 7 far from the disaster prevention reception board 2.

Next, the handrail 16 described above will be described.
2 and 3 are views showing an example of the appearance of the handrail 16. FIG. 2 shows the appearance of the handrail 16 as seen from the longitudinal direction of the tunnel, and FIG. 3 shows the appearance of the handrail 16 as seen from the lateral direction of the tunnel. As shown in FIG. 2, the handrail 16 is installed along the end of the observer passage P on the road R side so as to separate the road R and the observer passage P in the tunnel. The handrail 16 is installed in units of water discharge sections. Here, the observer passage P is a passage installed for the purpose of ensuring the safety of workers engaged in maintenance in the tunnel.

As shown in FIG. 3, the handrail 16 is composed of an L-shaped water curtain forming pipe 9 and a support column 17 that supports the water curtain forming pipe 9. Among these components, the water curtain forming pipe 9 is a water distribution pipe installed along the roadway R and the observer passage P, and is a water supply pipe 4 in the step portion S via the second automatic valve device 8. Is connected with. The water curtain forming pipe 9 is provided with a plurality of water discharge ports 18 on its side surface, and when a fire breaks out on the roadway R, as shown in FIGS. 2 and 3, these plurality of water discharge ports are provided. Water is discharged vertically upward from 18, and a water curtain is set up to separate the road R and the guard passage P. The formation interval of the water discharge port 18 is, for example, 10 cm, and the height of the water curtain is, for example, 2 m from the water discharge port 18. By forming this water curtain, the flame on the roadway R is suppressed from entering the observer passage P, and as a result, the safety of evacuation using the observer passage P is improved. A watering nozzle may be attached to the water discharge port 18.

1-2. Operation An operation example of the tunnel disaster prevention system described above will be described. In particular, an example of the water discharge operation when a fire occurs will be described below with reference to the sequence diagram shown in FIG.

When a vehicle fire occurs in the tunnel and this fire is detected by the fire detector 1 (step S1), the fire detector 1 outputs a fire signal to the disaster prevention receiver 2 (step S2). The disaster prevention receiving panel 2 that has received the fire signal outputs a start signal to the pump control panel 11 (step S3). Upon receiving this start signal, the pump control panel 11 starts the fire extinguishing pump 12 (step S4). The activated fire extinguishing pump 12 pressurizes the fire extinguishing water stored in the water tank 13 and supplies it to the water supply pipe 4.

Further, the disaster prevention receiver 2 that has received the fire signal specifies the water discharge section in which the fire detector 1 that outputs the fire signal is installed (step S5), and converts the signal between the specified water discharge section and the adjacent water discharge section. A control signal instructing the device 7 to open the automatic valve of the first automatic valve device 3 is output (step S6). The signal converter 7 that has received this control signal opens the automatic valve of the first automatic valve device 3 (step S7). As a result, dispersed water is discharged from the water spray head 6 installed in the specified water discharge section, and the fire is suppressed and the fire spread is prevented.

Further, the disaster prevention receiving panel 2 that has received the fire signal outputs a control signal instructing the signal converter 7 in the specified water discharge section to open the automatic valve of the second automatic valve device 8 (step S8). .. The signal converter 7 that has received this control signal opens the automatic valve of the second automatic valve device 8 (step S9). As a result, a water curtain that separates the roadway R and the observer passage P is formed by the water curtain forming pipe 9 installed in the specified water discharge section. As a result, the flame on the roadway R is suppressed from entering the observer passage P, and the safety of evacuation using the observer passage P is improved.
The above is a description of an operation example in the event of a fire.

In the above operation example, the water discharge operation is performed when the disaster prevention receiving board 2 receives the fire signal, but the disaster prevention receiving board 2 responds to the operation on the display operation unit or monitors the distance. Water discharge operations (specifically, steps S3, S6 and S8) may be executed according to the control signal received from the control equipment 14. At that time, the water discharge section to be controlled is designated by the operator of the disaster prevention receiving panel 2 or the remote monitoring and control equipment 14.

Further, among the above water discharge operations, regarding the start control of the fire extinguishing pump 12 in step S3 and the opening control of the second automatic valve device 8 in step S8, the disaster prevention receiver 2 is for forming a water curtain from the signal converter 7. It may be executed when the operation signal instructing the start of water discharge from the pipe 9 is received.

2. Modification Example The above embodiment may be modified as follows. The following modifications may be combined with each other.

2-1. Modification 1
The structure of the handrail 16 shown in FIGS. 2 and 3 is merely an example. As another structure, for example, the water curtain forming pipe 9 may be formed in an inverted U shape in a side view, and both ends thereof may be connected to the water supply pipe 4. Alternatively, a part of the support column 17 that supports the water curtain forming pipe 9 may be a water distribution pipe that connects the water curtain forming pipe 9 and the water supply pipe 4.

2-2. Modification 2
In the above embodiment, the water curtain forming pipe 9 is installed as a part of the handrail 16, but the method of installing the water curtain forming pipe 9 is not limited to this. For example, as shown in FIG. 5, it may be buried at the end of the observer passage P on the road R side. Alternatively, as shown in FIG. 6, it may be buried at the end of the roadway R on the observer passage P side. Alternatively, as shown in FIG. 7, the tunnel may be installed above the side wall of the tunnel so that water can be discharged vertically downward from the plurality of outlets 18. Even with these installation methods, a water curtain can be set up to separate the roadway R and the observer passage P.

2-3. Modification 3
The water curtain forming pipe 9 may be used as a water discharge gun for extinguishing a fire on the roadway R. FIG. 8 is a diagram showing an example of the appearance of the water curtain forming pipe 9A that can be used as a water discharge gun. The water curtain forming pipe 9A shown in the figure includes a linear pipe portion 91 and an L-shaped pipe portion 92 detachably connected to the linear pipe portion 91. The L-shaped pipe portion 92 includes a first pipe portion 921 extending along the tunnel and a second pipe portion 922 that supports the first pipe portion 921. One end of the first pipe portion 921 is detachably connected to the linear pipe portion 91, and the other end is connected to the second pipe portion 922. One end of the second pipe portion 922 is connected to the first pipe portion 921, and the other end is connected to the water supply pipe 4 via the second automatic valve device 8. As shown in FIG. 8, the first pipe portion 921 is supported so as to be rotatable around the second pipe portion 922, and water is discharged from the end portion 9211 thereof. By discharging water toward the flame on the roadway R at this end 9211, it is possible to suppress the fire force and prevent the spread of fire. A watering nozzle may be attached to the end portion 9211.

2-4. Modification 4
The handrail 16 may form a plurality of water columns between the roadway R and the observer passage P instead of the water curtain by discharging water in a straight line vertically upward from the plurality of water discharge ports 18.

2-5. Modification 5
The handrail 16 may be provided with a plurality of outlets 18 for discharging water vertically upward, and a plurality of outlets for discharging water downward (vertically downward). By discharging water downward, a water curtain that separates the roadway R and the observer passage P can be set up in the downward direction of the handrail 16. In addition, since the discharged fire extinguishing water flows to the roadway R, it is used for fire extinguishing.

1 ... Fire detector, 2 ... Disaster prevention receiver, 3 ... 1st automatic valve device, 4 ... Water supply pipe, 5 ... Water spray pipe, 6 ... Water spray head, 7 ... Signal converter, 8 ... 2nd automatic valve Equipment, 9, 9A ... Water curtain forming piping, 10 ... Operation unit, 11 ... Pump control panel, 12 ... Fire extinguishing pump, 13 ... Water tank, 14 ... Remote monitoring and control equipment, 15 ... Relay amplification board, 16 ... Handrail, 17 ... Support, 18 ... Water outlet, 91 ... Straight pipe, 92 ... L-shaped pipe, 921 ... First pipe, 922 ... Second pipe, 9211 ... End, P ... Observer passage, R ... Road, S ... Steps

Claims (4)

A water pipe installed along the roadway and the guard passage in the tunnel, and when a fire breaks out on the roadway, water is discharged upward to separate the roadway from the guard passage or a plurality of water pipes. A tunnel disaster prevention system equipped with a water pipe having multiple outlets for forming a water column. The tunnel disaster prevention system according to claim 1, wherein the water pipe constitutes a handrail that separates the roadway from the observer passage. The tunnel disaster prevention system according to claim 2, further comprising an operation unit installed on the handrail and operated to control the water discharge. The water distribution pipe includes a first pipe portion extending along the tunnel and a second pipe portion supporting the first pipe portion.
The tunnel disaster prevention system according to claim 2 or 3, wherein the first pipe portion is supported so as to be rotatable about the second pipe portion and water is discharged from the end portion.