JP5888698B2 - Tunnel hydrant installation method - Google Patents

Description

The present invention relates to a method for installing a fire hydrant device installed in a tunnel such as a highway.

  The conventional tunnel hydrant device is installed in a box opener recessed in the wall surface of the observer passage constructed on one shoulder of the tunnel, and is installed at intervals of 50 m (for example, see Patent Document 1). .

JP 2001-9053 A

  The inside of the observer passage built on one shoulder of the tunnel is hollow and used as a duct. And in the duct, the perforated electric wire pipe for routing an electric cable and the water distribution pipe for supplying pressurized fire extinguishing water from pump equipment are installed. The electric cable in the perforated conduit is connected to a terminal portion in a terminal box of a conventional tunnel fire hydrant device via a branched branch line.

  In this conventional tunnel fire hydrant device, the wiring method between the electric cable in the perforated conduit and the terminal portion in the terminal box is not specifically described. However, in general, after the installation of the main body of the tunnel fire hydrant device is completed in the box, one end of the branch wire is connected to the electric cable in the perforated conduit, and the other end side of the branch wire is drawn into the main body, and the cable rack The top is extended to the terminal box, and the end of the branch line is connected to the terminal part in the terminal box.

  Therefore, branch work from branch electric cables, branch line extension work on the cable rack, and connection work to the terminal part of the branch line terminal box are limited work at the installation site of the tunnel fire hydrant device. There was a problem that the work in the space became longer, the wiring work time became longer, the traffic regulation time of the lane in the tunnel became longer, and the work load increased.

The present invention has been made in order to solve the above-described problems, and eliminates the need for extending the branch wires on the cable rack at the installation site and connecting the branch wires to the terminal portions in the terminal box. An object of the present invention is to provide a method for installing a tunnel fire hydrant device that can reduce the wiring work load at the site, shorten the wiring work time at the site, and shorten the traffic regulation time of the lane.

Installation method for a tunnel fire hydrant apparatus according to the present invention, prior to the body is carried in the tunnel, by connecting one end of the branch line to the terminal section of the terminal box, as well as attaching a branch line, the piping system two Connecting the secondary side to the fire hose and connecting one end of the flexible piping to the primary side of the piping system, and the other end of the branch line drawn from the main unit after the main unit is installed in the box unplugged to the signal line And connecting to the power supply line and connecting the fire hydrant valve unit to the other end of the flexible pipe drawn from the main body and the branch portion .

  According to the present invention, since the branch line is attached to the main body before the main body is carried into the tunnel, after the main body is installed in the box opener, the branch line pulled out from the main body is provided. Wiring is completed simply by connecting the ends to signal lines and power supply lines. Therefore, there is no need to extend the branch line on the cable rack at the installation site and to connect the branch line to the terminal in the terminal box. Wiring work time is shortened, and lane traffic regulation time can be shortened.

It is a schematic front view which shows the installation state of the tunnel fire hydrant apparatus which concerns on one embodiment of this invention.

  Hereinafter, preferred embodiments of a wiring method for a tunnel fire hydrant device of the present invention will be described with reference to the drawings.

  FIG. 1 is a schematic front view showing an installation state of a tunnel hydrant apparatus according to an embodiment of the present invention.

  In FIG. 1, a concrete frame 1 is constructed in a bowl shape with respect to a lane (not shown), and a supervisor passage 2 is constructed at a predetermined height on one shoulder. The lower part of the supervisor passage 2 is hollow and is used as the duct 3. In the duct 3, a main line 5 for electrically connecting a monitoring center (not shown) and each of the tunnel hydrant apparatus 10, a water distribution main pipe for supplying pressurized fire-fighting water from a pump facility ( Etc.) are laid. The tunnel fire hydrant apparatus 10 is installed in a box opening 4 that is recessed in the wall surface of the monitoring person passage 2 of the concrete casing 1 of the tunnel, and is arranged, for example, at intervals of 50 m. Here, the trunk line 5 includes a signal converter transmission line 5a, a red indicator lamp line 5b, a heater power supply line 5c, and a disaster prevention ground line 5d. The signal converter transmission line 5a is a signal line, and the red indicator lamp line 5b and the heater power supply line 5c are power supply lines.

  The tunnel fire hydrant device 10 includes a casing 11 made in a rectangular parallelepiped box shape that opens to the front, and a front panel 12 that is fastened and fixed to the front of the casing 11 and closes the front opening of the casing 11. I have. A fire-extinguishing hose 13 having a fire-extinguishing nozzle at the tip and wound in an inner winding around a hose bucket 14 is housed in the inner central portion of the main body composed of the housing 11 and the front panel 12. A fire extinguisher (not shown) and various electric devices (not shown) are housed on one side in the body width direction of the housing portion of the fire hose 13 in the body. A piping system 15 including an automatic pressure regulating valve 16 and a fire hydrant valve 17 is housed on the other side in the body width direction of the housing portion of the fire hose 13 in the body, and the secondary side of the fire hydrant valve 17 is connected to the fire hose 13. Has been.

  Although not shown, a branch pipe branched from the water distribution main is connected to the piping system 15, and pressurized fire-extinguishing water is supplied to the piping system 15. In order to prevent freezing of fire-fighting water in winter, a tape heater is wound around the primary pipe of the fire hydrant valve 17 of the pipe system 15 to which water is constantly supplied.

  The front panel 12 is provided with an opening 12a having a rectangular opening shape facing the fire hose 13 and the piping system 15, and an opening 12b facing the fire extinguisher. A fire hydrant door 18 is attached to the lower end edge of the opening 12a by a hinge (not shown) whose width direction is the rotation axis direction, and can be opened and closed, and a fire hydrant valve opening / closing lever (not shown) for opening and closing the fire hydrant valve 17 Is installed on the back side of the fire hydrant door 18. The maintenance door 19 is attached to the upper end edge of the opening 12a by a hinge (not shown) whose width direction is the rotation axis direction so as to be opened and closed. The fire hydrant door 18 and the maintenance door 19 are substantially flush with the front panel 12 and close the opening 12a.

  The electric device mounting plate 20 is fastened and fixed to the front panel 12 at the four corners, and is disposed so as to extend in the vertical direction on the opening 12a side (the other side in the width direction) of the opening 12b. The electric device mounting plate 20 is provided with a red indicator lamp 21 for position display, an emergency transmitter 22 for reporting a fire to the monitoring center, and other electric devices such as a telephone jack and an emergency outlet. Can be provided.

The fire extinguisher door 23 is attached to one side edge of the opening 12b in the width direction by a hinge (not shown) whose vertical direction is the rotation axis direction. In addition, the electric equipment mounting plate 20 and the fire extinguisher door 23 are substantially flush with the front panel 12 and close the opening 12b.
In addition, a communication terminal box 24 and a low voltage terminal box 25 are installed in the fire extinguisher housing. The communication terminal box 24 is electrically connected to the control circuit of the red indicator lamp 21, the emergency transmitter 22 and the tape heater, and the low voltage terminal box 25 is the red indicator lamp 21, the emergency transmitter 22 and the tape. Connected to the heater power line.

  One branch line 26 has one end connected to the terminal portion of the communication terminal box 24 and extends through a cable rack (not shown) installed in the upper space of the housing portion of the fire hose 13 in the housing 11. The wire is drawn out from the side plate of the housing 11, led into the duct 3 through the conduit 28 attached to the wall surface of the box opener 4 by the pipe hanger 27, and connected to the signal converter transmission line 5 a. .

  In addition, two branch wires 26 are respectively connected at one end to the terminal portion of the low voltage terminal box 25 and extend through the cable rack installed in the upper space of the housing portion of the fire hose 13 in the housing 11. And is led out from the side plate of the housing 11, led into the duct 3 through the conduit 28 attached to the wall surface of the box opening 4 by the pipe hanger 27, and connected to the red indicator lamp line 5 b and the heater power supply line 5 c. It is connected.

  Further, one branch line 26 is connected to the casing 11 at one end, and is extended in the cable rack installed in the upper space of the storage portion of the fire hose 13 in the casing 11, so that the side plate of the casing 11 is connected. And is led into the duct 3 through the conduit 28 attached to the wall surface of the box 4 by the pipe hanger 27 and connected to the disaster prevention grounding wire 5d.

  In the tunnel hydrant apparatus 10 installed in this way, the red indicator lamp 21 is lit by being supplied with a driving voltage via the red indicator lamp line 5b. When a push button is operated during a fire accident, a fire signal is transmitted from the emergency transmitter 22 to the monitoring center through the branch line 26 and the signal converter transmission line 5a. Then, when the monitoring center confirms the occurrence of a fire by the fire report from the emergency transmitter 22, the flashing signal of the red indicator lamp 21 passes through the signal converter transmission line 5a and the branch line 26, and the communication terminal box 24. And the red indicator lamp 21 that has been constantly lit is blinked.

  The operator who has arrived at the tunnel hydrant apparatus 10 opens the hydrant door 18, takes out the fire-extinguishing nozzle, and pulls the hydrant valve opening / closing lever forward. As a result, the fire hydrant valve 17 is opened, and water discharge from the fire-extinguishing nozzle is started. Therefore, the operator pulls out the fire hose 13 toward the fire site while holding the fire extinguishing nozzle, and extinguishes the fire.

  In winter, the tape heater energization signal is transmitted from the monitoring center via the signal converter transmission line 5a and the branch line 26, and the electric power sent via the heater power supply line 5c and the branch line 26 is supplied to the tape heater. Thus, the fire-fighting water in the primary pipe of the fire hydrant valve 17 of the piping system 15 is prevented from freezing.

Next, a wiring method in the tunnel hydrant apparatus 10 will be described.
First, in the factory, the fire hose 13, the piping system 15, various electrical devices, the communication terminal box 24, the low voltage terminal box 25, and the like are incorporated in the housing 11, and the front panel 12 is attached to the housing 11. The tunnel fire hydrant device 10 is assembled. Next, a plurality of branch lines 26 having a predetermined length are connected at one end to the terminal portions in the communication terminal box 24 and the low voltage terminal box 25 and the casing 11, and the fire hose in the casing 11 is connected. A cable rack installed in the upper space of 13 storage units is extended and pulled out from the side plate of the housing 11.

  Next, the tunnel fire hydrant device 10 provided with the branch line 26 is carried into the tunnel and installed in the box opener 4. In addition, the conduit 28 is attached to the wall surface of the box opening 4 by the pipe hanger 27. Next, the branch line 26 drawn out from the side plate of the housing 11 is passed through the conduit 28 and drawn out into the duct 3. Then, the other end of the branch line 26 is connected to a corresponding cable of the trunk line 5 laid in the duct 3, and the wiring work of the tunnel hydrant device 10 is completed.

  Further, the branch pipe is branched from the water main pipe laid in the duct 3 and connected to the pipe system 15, and the installation of the tunnel hydrant apparatus 10 is completed.

  According to the present invention, the tunnel fire hydrant device 10 is carried into the tunnel in a state where the branch wire 26 is connected to the terminal portions in the communication terminal box 24 and the low voltage terminal box 25 and pulled out from the housing 11. Therefore, the work of extending the branch line 26 on the cable rack at the installation site and the work of connecting the branch line 26 to the terminal portions in the communication terminal box 24 and the low-voltage terminal box 25 are not required. Therefore, the wiring work in the limited work space at the installation site of the tunnel hydrant device 10 is reduced, the wiring work load on the site is reduced, the work time at the site can be shortened, and the traffic of the lane is reduced. The regulation time can be shortened.

In the above embodiment, the wiring work is one in which one end of the branch wire 26 is connected to the terminal portion in the communication terminal box 24 and the low voltage terminal box 25 and the other end side of the branch wire 26 is pulled out from the housing 11. However, the wiring work is not necessarily performed in the factory, and may be performed in a large work space prior to the work of bringing the tunnel hydrant device 10 into the tunnel. For example, wiring may be performed in a work building outside the tunnel.
Moreover, in the said embodiment, although the conduit tube 28 which protects the branch line 26 shall be attached to the wall surface of the box opening 4, the conduit tube 28 is not necessarily installed.

  In the above embodiment, the piping system 15 including the automatic pressure regulating valve 16 and the fire hydrant valve 17 is disposed in the main body. However, at least the fire hydrant is used as the piping system disposed in the main body. You may delete the valve 17 and the piping system of the primary side. For example, the automatic pressure regulating valve 16 and the fire hydrant valve 17 are configured as a fire hydrant valve unit, arranged at a branch portion branched from the water distribution main, and the piping system in the main body and the fire hydrant valve unit are connected by flexible piping. To. If comprised in this way, it is only necessary to wind a tape heater around piping (branch part side) of the primary side of a fire hydrant valve, and the operation | work which winds a tape heater becomes easy.

Furthermore, by comprising as mentioned above, it becomes possible to carry in to the field in the state which pulled out the other end side of the flexible piping by which one end was connected to the piping system in a main body from the inside of a main body. Thereby, at the time of factory shipment, the water leakage test in the path from the fire hose 13 to the fire hydrant valve unit can be completed, the installation workability is improved, and the installation work time can be shortened. In other words, after the on-site installation is completed, when the water hydrant valve is opened and a water leak test is performed in the path from the fire hose 13 to the fire hydrant valve unit, the fire water is also supplied to the fire hose 13. It takes a lot of time to drain the fire water in the fire hose 13 after the test, but this process can be reduced.
And after a main body is installed in the box opener 4, the fire hydrant valve unit provided in the other end side of the flexible piping pulled out from the main body is arrange | positioned in the branch part branched from the water distribution main pipe.

  DESCRIPTION OF SYMBOLS 1 Concrete frame, 3 Duct, 4 Box extraction, 5a Signal converter transmission line (signal line), 5b Red indicator light line (power line), 5c Heater power line (power line), 10 Tunnel fire hydrant device, 11 Case ( Main body), 12 Front panel (main body), 13 Fire extinguishing hose, 15 Piping system, 17 Fire hydrant valve, 21 Red indicator lamp, 22 Emergency transmitter, 24 Communication terminal box, 25 Low voltage terminal box, 26 Branch line.

Claims (2)

The body,
A fire hose housed in the body,
A piping system disposed in the main body, the secondary side being connected to the fire hose;
An emergency transmitter to report a fire to the monitoring center;
A red indicator light for position indication,
A terminal box electrically connected to the emergency transmitter and the red indicator lamp;
A fire hydrant valve unit having an automatic pressure regulating valve and a fire hydrant valve;
A flexible pipe connecting the primary side of the piping system and the secondary side of the fire hydrant valve unit ;
The main body is installed in a box opening recessed in the wall of the concrete frame of the tunnel, the terminal box is connected to a signal line and a power line laid in the duct using branch lines, the primary of the fire hydrant valve unit in installation method of tunnel fire hydrant apparatus side is Ru is connected to the branch portion of the water distribution mains,
Prior to the main body being carried into the tunnel, one end of the branch wire is connected to the terminal portion of the terminal box, the branch wire is attached, and the secondary side of the piping system is connected to the fire extinguisher. Connecting to one end of the flexible piping to the primary side of the piping system ,
After the main body is installed in the box opener, the other end of the branch line drawn out from the main body is connected to the signal line and the power supply line, and the fire hydrant valve unit is drawn out from the main body. installation method for a tunnel fire hydrant apparatus characterized by comprising a step of connecting to the other end and the branch portion of the flexible pipe, a. The body,
A fire hose housed in the body,
A piping system disposed in the main body, the secondary side being connected to the fire hose;
An emergency transmitter to report a fire to the monitoring center;
A red indicator light for position indication,
A terminal box electrically connected to the emergency transmitter and the red indicator lamp;
A fire hydrant valve unit having an automatic pressure regulating valve and a fire hydrant valve;
A flexible pipe connecting the primary side of the piping system and the secondary side of the fire hydrant valve unit ;
The main body is installed in a box opening recessed in the wall of the concrete frame of the tunnel, the terminal box is connected to a signal line and a power line laid in the duct using branch lines, the primary of the fire hydrant valve unit in installation method of tunnel fire hydrant apparatus side is Ru is connected to the branch portion of the water distribution mains,
Prior to the main body being carried into the tunnel, one end of the branch wire is connected to the terminal portion of the terminal box, the branch wire is attached, and the secondary side of the piping system is connected to the fire extinguisher. Connecting to one end of the flexible piping, connecting one end of the flexible piping to the primary side of the piping system, and connecting the fire hydrant valve unit to the other end of the flexible piping ;
After the main body is installed in the box opener, the other end of the branch line drawn from the main body is connected to the signal line and the power line, and the fire hydrant valve unit is connected to the branch portion. And a method for installing a tunnel fire hydrant device.

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