JP2011104032A - Hydrant apparatus monitoring system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To appropriately respond to state changes by monitoring, on a center side, the states of multiple hydrant apparatuses installed in a tunnel. <P>SOLUTION: The multiple hydrant apparatuses 10 installed in the tunnel are monitored by a center device 14. A terminal unit 12 provided in each of the hydrant apparatuses 10 transmits state detection information created by detecting the state of the hydrant apparatus, to the center device 14. The center device 14 receives the state detection information transmitted from the hydrant apparatus 10 and notifies the content of the state detection information. The terminal unit 12 of the hydrant apparatus 10 detects, as the states of the hydrant apparatus 10, the states such as the presence/absence of a fire extinguisher, opening/closing of the door, a water feed pressure, a discharge pressure and a nozzle removing operation and transmits them to the center device 14. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

The present invention relates to a fire hydrant monitoring system that centrally monitors a state of a fire hydrant device that draws out a hose with a water discharge nozzle housed in a main body and discharges the water.

  Conventionally, a fire hydrant device has been installed in a tunnel such as an automobile road in preparation for a fire.

  Such a fire hydrant device opens the fire hydrant door on the front of the main unit in the event of a vehicle accident involving a fire, pulls out a hose with a nozzle housed inside, and opens the fire hydrant valve opening / closing lever also provided inside. By operating it, fire extinguishing pump equipment can be activated to discharge water.

  A fire extinguisher is housed in a fire extinguisher box in the fire hydrant casing or in the vicinity of the fire hydrant apparatus, and the fire extinguisher can be taken out of the fire extinguisher to perform a fire extinguishing activity.

In addition, there is a notification device in or near the fire hydrant device, which is equipped with a red indicator light, transmitter, and response lamp. In the event of a fire, when the transmitter is pressed and the switch button is turned on, the transmission signal is sent to the monitoring room. A fire alarm is sent to the fire receiver, and a response signal is sent back from the fire receiver, and the response lamp is turned on.

JP 2005-318972 A

  However, in such conventional fire hydrant devices for tunnels, for example, all checks of status such as whether the fire extinguisher is normally stored or whether the fire hydrant door or fire extinguisher door is correctly opened or closed are inspectors. Therefore, there is a problem that the inspection work takes time and labor.

  In addition, the operating status of the hydrant valve opening / closing lever used by general users and the pump start switch used by the fire brigade, the water supply pressure, the discharge pressure from the nozzle, etc. must all be checked on-site, such as in the monitoring room. There is a problem that the state of the fire hydrant device cannot be fully grasped on the center side. In addition, many fire hydrant devices were installed in the tunnel, for example, every 50 m, and these inspections / confirmation operations took time, and labor costs were also incurred, such as being carried out by multiple inspectors. For this reason, the inspection work has been carried out at regular or irregular intervals with intervals.

SUMMARY OF THE INVENTION An object of the present invention is to provide a fire hydrant monitoring system capable of appropriately responding to a change in state by monitoring the state of a number of fire hydrants installed in a tunnel on the center side.

The fire hydrant monitoring system of the present invention is a fire hydrant monitoring system for monitoring a fire hydrant installed in a disaster prevention area by a center device.
In the fire hydrant device,
A detection processing unit for detecting the state of the fire hydrant device;
A terminal transmission unit that transmits state detection information of a detection processing unit to the center device;
Provided,
In the center device,
A center transmission unit for receiving state detection information transmitted from the fire hydrant device;
A notification processing unit for reporting the received state detection information;
Is provided.

  Here, the detection processing unit of the fire hydrant device, as the state of the fire hydrant device, the presence of a fire extinguisher, the remaining amount of extinguishing agent in the fire extinguisher, the status of fire extinguisher window contamination, the opening and closing of doors, water supply pressure, water discharge pressure, nozzle removal At least one of operation or transmitter failure or failure, power supply abnormality, or transmission line breakage is detected and transmitted to the center device by the terminal transmission unit.

  The detection processing unit of the fire hydrant device detects the presence or absence of a fire extinguisher, causes the terminal transmission unit to transmit the state detection information to the center device, and the notification processing unit of the center device uses the fire extinguisher from the state detection information received by the center transmission unit. When it is determined that there is no fire extinguisher, information indicating that there is no fire extinguisher including specific information of the fire extinguisher device is notified.

  The detection processing unit of the fire hydrant device detects the opening and closing of the fire hydrant door, the fire extinguisher door, the maintenance door or the notification device door, and transmits the detection result to the center device by the terminal transmission unit as state detection information, and the notification processing unit of the center device Displays the opening including the specific information of the fire extinguisher device when the opening of the fire hydrant door, fire extinguisher door, maintenance door or notification device door is determined from the state detection information received by the center transmission unit, and then closes the door When it is determined, the display of the door is stopped.

  The detection processing unit of the fire hydrant device detects the ON operation of the transmitter and causes the terminal transmission unit to transmit the state detection information to the center device, and the notification processing unit of the center device transmits the state detection information received from the center transmission unit. When it is determined that the machine has been turned on, a fire signal is output to the fire reception panel, and confirmation response information is transmitted to the hydrant device of the transmission source to light the confirmation indicator lamp.

  The detection processing unit of the fire hydrant device detects the on / off operation of the pump start switch, transmits the detection result as state detection information to the center device by the terminal transmission unit, and the notification processing unit of the center device is the center transmission unit. When the on-operation of the pump start switch is determined from the received status detection information, a pump start signal is output to the pump control panel and the pump operation is displayed, and then a pump stop signal is output to the pump control panel when the off operation is determined. At the same time, the pump operation display is stopped.

  The detection processing unit of the fire hydrant device detects the nozzle attachment / detachment operation with respect to the nozzle holder, causes the terminal transmission unit to transmit the detection result as state detection information, and the notification processing unit of the center device receives the state received by the center transmission unit The presence / absence of nozzle use is displayed based on the nozzle attaching / detaching operation acquired from the detection information.

  The detection processing unit of the fire hydrant device determines the water supply pressure abnormality when the water supply pressure of the water supply pipe detected by the pressure sensor is equal to or lower than a predetermined threshold pressure, and transmits it to the center device by the terminal transmission unit. The unit acquires and notifies the water supply pressure abnormality from the state detection information received by the center transmission unit.

  The detection processing unit of the fire hydrant device detects the water supply pressure (primary side pressure) of the water supply pipe with a pressure sensor, causes the terminal transmission unit to transmit data indicating the water supply pressure to the center device as state detection information, and notifies the center device. When the water supply pressure acquired from the state detection information received by the center transmission unit is equal to or lower than a predetermined threshold pressure, the processing unit determines the presence or absence of a water supply pressure abnormality based on the state detection information and notifies the result. Moreover, the display which shows water supply pressure is performed as needed. Further, data indicating the water supply pressure is transferred to the outside (including a printer mounted on the center device).

  The detection processing unit of the fire hydrant device discriminates the water discharge pressure abnormality when the water discharge pressure by the hose with the nozzle is equal to or lower than a predetermined threshold pressure by the pressure sensor, and transmits the determination result to the center device by the terminal transmission unit as the state detection information. The notification processing unit of the apparatus acquires and notifies the discharge water pressure abnormality from the state detection information received by the center transmission unit.

  The detection processing unit of the fire hydrant device detects the water discharge pressure (secondary side pressure) by the hose with a nozzle by a pressure sensor, causes the terminal transmission unit to transmit data indicating the water discharge pressure to the center device as state detection information, The notification processing unit determines a discharge pressure abnormality based on data indicating the discharge pressure acquired from the state detection information received by the center transmission unit, and notifies the result. Moreover, the display which shows a water discharge pressure is performed as needed. Further, data indicating the discharge pressure is transferred to the outside (including a printer mounted on the center device).

  The terminal transmission unit of the fire hydrant device and the center transmission unit of the center device are connected by a signal line to perform wired transmission.

  Further, the terminal transmission unit of the fire hydrant device and the center transmission unit of the center device may be connected by a wireless line to perform wireless transmission.

  In addition, the terminal transmission unit of the fire hydrant device transmits the state detection information to a management device different from the center device.

  In addition, the terminal transmission unit of the fire hydrant device includes an auxiliary transmission unit that performs transmission with the management device. Transmission between the auxiliary transmission unit and the management apparatus is performed by wire or wireless.

The fire hydrant device controls the auxiliary transmission unit and monitors the state, and transmits the monitoring information as state detection information to the center device and / or the management device.
Further, the detection processing unit of the fire hydrant device detects the contamination state of the fire extinguisher window with a contamination sensor, determines the presence or absence of contamination based on the detection signal, and transmits the determination result as state detection information to the center device by the terminal transmission unit. The notification processing unit of the center apparatus acquires and notifies the presence of the fire extinguisher window from the state detection information received by the center transmission unit.

  In addition, the detection processing unit of the fire hydrant device detects the degree of contamination of the fire extinguisher window with a contamination sensor, causes the terminal transmission unit to transmit data indicating the degree of contamination to the center device as state detection information, and the notification processing unit of the center device Determines the presence or absence of fire extinguisher window contamination from the state detection information received by the center transmission unit, and notifies the result. Moreover, the display which shows the degree of contamination is performed as needed. Further, the data indicating the degree of contamination is transferred to the outside (including a printer mounted on the center device).

  The fire hydrant device displays or acoustically outputs at least one of the various state detection information.

The present invention also provides a fire hydrant device,
A detection processing unit that detects its own state and obtains state data;
A determination unit that determines its own state based on the state data acquired by the state data acquisition unit;
It is provided with.

The present invention also provides a fire hydrant device,
A detection processing unit that detects its own state and obtains state data;
A terminal transmission unit that transmits the state data acquired by the state data acquisition unit to the center device;
It is provided with.

The present invention also provides a center device,
A center transmission unit for receiving state data transmitted from the fire hydrant device;
Based on the state data received by the center transmission unit, the state of the fire hydrant device is determined, and a notification processing unit that outputs the result,
It is provided with.

The present invention also provides a fire hydrant monitoring system,
A fire hydrant device that detects its own state, acquires state data, and transmits the acquired state data to the center device;
Center monitoring that determines the state of the fire hydrant device based on the state data transmitted from the fire hydrant device, and outputs the result;
It is characterized by comprising.

Here, the center device outputs the status data transmitted from the fire hydrant device. Moreover, the fire hydrant device transmits the acquired state data to the management device.

  According to the present invention, the presence or absence of a fire extinguisher, the amount of extinguishing agent in the fire extinguisher, the situation of fouling of the fire extinguisher, opening and closing of the door, water supply pressure, water discharge pressure, nozzle removal operation or transmitter failure or failure, power supply abnormality, By detecting the state of the fire hydrant device including the disconnection of the transmission line and transmitting it to the center device, the state of the fire hydrant device can be centrally monitored on the center side. For example, if the fire extinguisher is taken out, the fire hydrant immediately A fire extinguisher without information is displayed on the center side in real time together with information such as a number that identifies the device, and it is always possible to manage whether or not the fire extinguisher is correctly stored. It is possible to quickly take appropriate measures such as installing equipment, eliminate the need for human work to go to the site and check the state, and to easily and easily maintain many fire hydrant devices installed in the tunnel, It is possible to reduce the use cost.

In addition, by integrating the center unit with a disaster prevention reception board such as a fire receiver, it is possible to efficiently manage information from other disaster prevention facilities such as fire detectors and information from the fire hydrant collectively. .

The block diagram which showed embodiment of the fire hydrant apparatus monitoring system by this invention Explanatory drawing which showed the fire hydrant device monitored by the present invention from the front FIG. 2 is a front view showing the internal structure of the main body with the door side removed. The block diagram which showed the detail of the terminal unit and center apparatus which were provided in the fire hydrant apparatus of FIG. The flowchart which showed the detection process of the fire hydrant apparatus by the terminal unit of FIG. The flowchart which showed the monitoring process of the fire hydrant apparatus by the center apparatus of FIG. Explanatory drawing which listed the status data acquired by the fire extinguisher apparatus process of FIG. 5, and the processing content by the center apparatus process of FIG. The block diagram which showed other embodiment of this invention which connected the terminal unit and center apparatus of the fire hydrant apparatus with the radio | wireless circuit

  FIG. 1 is a block diagram showing an embodiment of a fire hydrant monitoring system according to the present invention. In FIG. 1, a plurality of fire hydrant apparatuses 10 are installed along the side wall of the tunnel, for example, at intervals of 50 meters, and contain a hose with a nozzle and a fire extinguisher inside. Each of the fire hydrant devices 10 is provided with a terminal unit 12. The terminal unit 12 detects the state of the hydrant device 10, and transmits a telegram signal including state detection information (hereinafter simply referred to as “telegram”) via the transmission line 16. Transmit to the center device 14.

  In the present embodiment, the terminal unit 12 is in the state of the fire hydrant device 10, whether or not there is a fire extinguisher, the remaining amount of fire extinguishing agent in the fire extinguisher, the contamination status of the fire extinguisher window, the fire hydrant door, the fire extinguisher door, the maintenance door, and the notification device door. Operation of operation parts such as opening and closing, fire hydrant valve opening and closing lever, water supply pressure, water discharge pressure, nozzle attachment / detachment operation or transmitter operation, transmitter failure or failure such as function, power supply abnormality, transmission line disconnection, other electrical circuit part At least one state of a failure or a failure such as a function is detected, a message including state detection information is generated based on the detection signal, and transmitted to the center device 14.

  The terminal unit 12 provided in the fire hydrant device 10 is connected to a center device 14 installed in a monitoring room or the like via a transmission path 16. At this time, a terminator for monitoring disconnection of the transmission line 16 on the center device 14 side is connected to the fire hydrant device 10 corresponding to the end of the line. The center device (monitoring control panel) 14 receives the message transmitted from the terminal unit 12 of the fire hydrant device 10, and notifies the status information by an alarm sound and / or display based on the status detection information in the received message. Further, if necessary, a pump start signal or a pump stop signal is transmitted to the pump control panel 18 or a fire report signal is transmitted to the disaster prevention reception panel 20.

  Note that the monitoring control board 14, the pump control board 18, and the disaster prevention reception board 20 can appropriately separate and integrate part or all of these functions.

  FIG. 2 is a front view of the fire hydrant device 10 installed in the tunnel shown in FIG. In FIG. 2, the fire hydrant apparatus 10 is divided into a fire hydrant side housing (first housing: fire hydrant body) 22-1 and a fire extinguisher side housing (second housing: fire hydrant box) 22-2. The decorative plates 24-1 and 24-2 are attached to the respective front surfaces, and necessary devices and members are assembled to the housing 22-1 and the housing 22-2, and then fixed by a connection fixing portion. In this state, it is carried into the tunnel site and installed on the gantry 11.

  The decorative plates 24-1 and 24-2 are provided with door opening portions 26 and 27, respectively. A fire hydrant door 28 and a maintenance door 32 are provided at the opening 26 of the housing 22-1, and the inside is a hose storage space and a water supply valve storage space. The fire hydrant door 28 can be opened and closed while rotating and tilting forward with the lower hinge as a center. Normally, the fire hydrant door 28 is closed at a closed position shown in FIG. If you put your hand and pull it forward, it will unlock and you can open it.

  A maintenance door 32 is provided on the fire hydrant door 28. The maintenance door 32 opens and closes around the hinge on the upper part. The maintenance door 32 is opened by opening the fire hydrant door 28 and releasing the inner lock (not shown) during inspection. it can.

  A reporting device door 34 is provided on the right side of the front surface of the door opening 27 of the housing 22-2, and a red indicator lamp 36, a transmitter 38, and a response lamp 40 are provided therein. A telephone jack is provided inside the notification device door 34. This reporting device door does not necessarily have a structure that can be opened and closed, but if it cannot be opened and closed, it needs to be structured so that at least the telephone jack can be accessed from the outside.

  The red indicator lamp 36 is always lit so that the installation location of the fire hydrant device 10 can be seen from a distance. In the event of a fire, when the transmitter 38 is pressed and the switch button is turned on, a transmission signal is transmitted to the disaster prevention receiving panel 20 via the center device 14 in the monitoring room, a fire alarm is issued, and a response signal is sent to the center device 14 accordingly. The response lamp 40 is turned on.

  Note that power is supplied from the center device 14 to electrical devices such as the red indicator lamp 36 and the response lamp 40 provided on the notification device door 34.

  A fire extinguisher door 42 is provided on the left side of the front face of the door opening 27, and the inside of the housing 22-1 corresponding to the fire extinguisher door 42 is used as a fire extinguisher storage space. For example, as shown in FIG. A fire extinguisher 46 is housed. The fire extinguisher door 42 is provided with a handle 44. When the handle 44 is pulled forward, the latch mechanism (not shown) is unlatched, and the fire extinguisher door 42 can be opened forward while rotating with the left side as a hinge. In addition, a viewing window 45 is provided in the lower part of the fire extinguisher door 44 so that the housed state of the fire extinguisher can be confirmed from the outside.

  FIG. 3 is a front view showing the internal structure of the fire hydrant apparatus 10 of FIG. 2 with the fire hydrant door on the housing 22-1 side removed and the maintenance door 32 opened upward and supported by a stay. The maintenance door 32 is normally closed except during maintenance of the fire hydrant device and the hose housing operation, and only the fire hydrant door 28 is opened while being closed during the fire extinguishing operation.

  In FIG. 3, a hose storage space is formed on the left side of the housing 22-1 and a valve storage space is formed on the right side. The hose storage space is provided with a hose bucket 50 that surrounds the hose storage space and presses the stored hose 54, and forms a hose storage portion inside.

  The hose bucket 50 partitions and forms a hose outlet 52 at a position that is substantially the center in the vertical and horizontal directions of the door opening portion 26 by a grid-like frame arrangement.

  A nozzle holder 58 is attached to the right side of the hose bucket 50, and a nozzle 56 attached to the tip of the hose 54 pulled out from the hose outlet 52 is detachably held sideways.

  In the hose storage space surrounded by the hose bucket 50 and the inner wall of the housing, the hose 54 is wound and stored in an inner winding. In the valve storage space arranged on the right side of the hose storage space, a water supply valve 62, a fire hydrant valve are connected to a piping system extending from a fire hydrant connection port to which a water supply pipe from an external pump facility is connected to a connection port of a hose base portion. , An automatic pressure regulating valve 64, an automatic drain valve, and a maintenance device 66 such as a maintenance valve and a branch pipe are provided.

  A fire hydrant valve opening / closing lever 60 is provided for the fire hydrant valve, and the fire hydrant valve arranged on the back side of the nameplate provided correspondingly is manually opened and closed. When the fire hydrant valve opening / closing lever 60 is operated to the downward open position, the fire hydrant valve is actuated to the open position, the fire hydrant valve secondary side pressure in the pipe rises, and the automatic drain valve is actuated to the closed position.

  At the same time, a limit switch installed behind the fire hydrant valve opening / closing lever 60 is turned on, whereby a pump activation signal is sent to the pump control panel 20 via the center device 14 of FIG. 1, and the pump equipment is activated. When stopping the water discharge, returning the hydrant valve opening / closing lever 60 to the original upward position closes the hydrant valve and simultaneously turns off the limit switch to stop the operation of the pump equipment.

  A pump start switch 68 is disposed in front of the water supply valve 62. The water supply valve 62 and the pump activation switch 68 are devices operated by the fire brigade when extinguishing the fire, and water can be discharged from the hose 54 without performing this operation. For this reason, when a general operator operates, the water supply valve 62 and the pump start switch 68 are hidden by the maintenance door 32 even when the fire hydrant door 28 is opened, and should not be shown to the user who intends to operate the fire hydrant device. So that it does not cause unnecessary confusion. That is, a general operator can open only the fire hydrant door 28 and perform a necessary series of operations, and is configured so as to perform a quick initial fire fighting activity.

  FIG. 4 is a block diagram showing details of the terminal unit and the center device provided in the fire hydrant apparatus of FIG.

  In FIG. 4, the terminal unit 12 provided in the fire hydrant device is provided with a terminal transmission unit 70 and a detection processing unit 72, and an input unit 74 and an output unit 76 are provided for the detection processing unit 72. The terminal transmission unit 70 can be provided with an auxiliary transmission unit 71 that performs communication with an external management device different from the center device 14. The auxiliary transmission unit 71 is not connected to the center device 14 in a wired or wireless manner, and communicates only with, for example, a portable management device.

  The input unit 74 includes a fire extinguisher detection switch 78 (can be provided for each fire extinguisher), a fire extinguisher opening / closing door detection switch 80, a fire hydrant opening / closing door detection switch 82, and a fire hydrant as sensors for detecting the state of the fire hydrant device. A valve opening / closing detection switch 84, a transmitter switch 38a, a pump start switch 86, a nozzle detection switch 90, a water supply pressure sensor 92, and a water discharge pressure sensor 94 are connected. The red indicator lamp 36 and the response lamp 40 are connected to the output unit 76, and the detection processing unit 72 collects signals indicating the respective states from these sensors via the input unit 74 at a predetermined cycle. The input unit 74 and the output unit 76 are shown for convenience in order to clarify the input / output relationship, but may be included in the process detection unit 72.

  When detecting the remaining amount of the fire extinguisher, for example, a fire extinguisher weight detection unit 85 is provided, and when the presence of the fire extinguisher is detected by the fire extinguisher detection switch 78, the remaining amount is detected by detecting the weight. A fire extinguisher weight detection unit 85 can also be provided for each fire extinguisher.

  In addition, when detecting the state of contamination of the fire extinguisher window, for example, an optical contamination sensor 86 including a light projecting unit and a light receiving unit is provided to attenuate the signal light transmitted through the fire extinguisher window and to be reflected by the fire extinguisher window. The degree of contamination can be detected based on the change in the signal light.

  Of course, by providing various state detection sensors other than these, the inspector can easily grasp the detailed state even at the place where the fire hydrant 10 is installed.

  In addition, a display unit 73 and a sound output unit 75 are provided for the detection processing unit 72 to display the state and communication status of the fire hydrant device 12 detected by the detection processing unit 72, and to notify the state by a buzzer or sound. You may do it. Thereby, it becomes easy to confirm the state of the fire hydrant device 10. For this display, by providing an output instruction switch 77, it is possible for the inspector to select and instruct the presence or absence of output (output start / stop) for part or all of the output information.

  At this time, real-time processing for collecting and outputting the latest state information when an output instruction is received by operating the output instruction switch 77 may be performed. However, a storage unit is provided, and the previous state information is stored in the storage unit. In addition, when an output instruction is received by operating the output instruction switch 77, the immediately preceding state information may be output.

  In addition, the terminal unit 12 is a circuit that monitors a failure or failure of an electric circuit unit for executing an own communication function including an auxiliary transmission unit, an output function such as a display, and the like, an abnormality in a power supply supplied to each electric circuit, and the like. An abnormality detection unit (not shown) is provided, and these abnormality detection results are processed in the same manner as the input of the input unit 74, for example.

  On the other hand, the center device 14 is provided with a center transmission unit 96 and a notification processing unit 98. In addition, a display unit 104, an operation unit 106, an alarm unit 108 that performs an acoustic alarm, and a storage unit 110 are connected to the notification processing unit 98.

  The terminal transmission unit 70 and the center transmission unit 96 are connected to each other via the transmission line 16, and a message including the state detection information of the fire hydrant device is transmitted from the terminal transmission unit 70 to the center transmission device 96, and terminal transmission is performed from the center transmission device 96. A message for response based on the state detection information and a message for control are transmitted to the unit 70. A message transmitted between the terminal transmission unit 70 and the center transmission unit 96 has a predetermined format including a node ID indicating a transmission source and at least state detection information.

  The fire extinguisher detection switch 78 is a switch for detecting the presence or absence of the fire extinguisher 46 housed in the fire extinguisher door 42 shown in FIG. 3. For example, the fire extinguisher detection switch 78 is turned off in a state where the fire extinguisher 46 is housed in a predetermined position. A limit switch that turns on when the fire extinguisher is removed is used.

  When the detection processing unit 72 of the terminal unit 12 detects a change in the state of the fire extinguisher detection switch 78 from OFF to ON via the input unit 74, the detection processing unit 72 generates a message indicating that there is no fire extinguisher, and the terminal transmission unit 70 performs the center transmission. Transmit to device 14.

  When the notification processing unit 98 determines that there is no fire extinguisher from the state detection information of the message received by the center transmission unit 96, the fire extinguisher together with a device number that identifies the fire extinguisher device corresponding to the transmission source node ID obtained from the message. None is displayed on the display unit 104, and at the same time, the alarm unit 108 outputs an alarm sound or a voice alarm message.

  In addition, when the detection processing unit 72 of the terminal unit 12 detects the absence of the fire extinguisher and detects a change in the state of the fire extinguisher detection switch 78 from the on state to the off state via the input unit 74, a message indicating that there is a fire extinguisher is sent. It is generated and transmitted to the center device 14 by the terminal transmission unit 70, and the notification processing unit 98 determines the presence of the fire extinguisher based on the reception of the message, and stops the previous notification without the fire extinguisher.

  The fire extinguisher open / close door detection switch 80 is turned off when the fire extinguisher door 42 in FIG. 3 is closed, and is a limit switch that is turned on when the fire extinguisher door 42 is opened. When the detection processing unit 72 of the terminal unit 12 detects opening of the fire extinguisher opening / closing door detection switch 80, the detection processing unit 72 generates a message including state detection information indicating the opening of the fire extinguisher door. Transmit to the center device 14. The notification processing unit 98 displays the opening on the display unit 104 together with the fire extinguisher device number when the opening of the fire extinguisher door is determined from the state detection information of the message received by the center transmission unit 96, and at the same time, the alarm unit 108 issues an alarm. Output a sound or voice alert message.

  The detection processing unit 72 of the terminal unit 12 detects the opening of the fire extinguisher door, and then detects the state change from the on-off state of the fire extinguisher opening / closing door detection switch 80 via the input unit 74. A telegram indicating the closing of the door is generated and transmitted to the center device 14 by the terminal transmission unit 74. Based on the reception of this telegram, the notification processing unit 98 determines whether the fire extinguisher door is closed, and notifies the previous door opening. Stop.

  The fire hydrant door open / close detection switch 82 is a limit switch that is turned off when the fire hydrant door 28 is opened. When the detection processing unit 72 of the terminal unit 12 detects opening of the fire hydrant opening / closing door detection switch 82, the detection processing unit 72 generates a message including state detection information indicating the opening of the fire extinguisher door. Transmit to device 14. The notification processing unit 98 displays the opening on the display unit 104 together with the fire extinguisher device number when the opening of the hydrant door is determined from the state detection information of the message received by the center transmission unit 96, and at the same time, the alarm unit 108 outputs an alarm sound. Or output a voice alert message.

  When the detection processing unit 72 of the terminal unit 12 detects the opening of the fire hydrant door and then detects a change in the state of the hydrant opening / closing door detection switch 82 from ON to OFF via the input unit 74, the fire hydrant door is closed. Is transmitted to the center device 14 by the terminal transmission unit 74, and the notification processing unit 98 determines the closing of the fire hydrant door based on the reception of this message, and stops the notification of the opening until then.

  In the fire hydrant device 10 of FIG. 3, a maintenance door 32 and a notification device door 34 are provided, and for these doors, a corresponding message is similarly transmitted to the center device 14 based on the detection of the open state. It is also possible to send a corresponding message to the center device 14 based on the detection of the state of closing the door to stop the notification of opening.

  The transmitter switch 38a is a push button switch of the transmitter 38 provided on the notification device door 34 as shown in FIG. 3, and is operated in the event of a fire. The detection processing unit 72 of the terminal unit 12 detects an ON operation of the transmitter switch 38 a, generates a message including the fire detection state detection information, and transmits it to the center device 14 by the terminal transmission unit 70.

  The notification processing unit 98 outputs a fire alarm signal to the fire receiving panel (disaster prevention receiving panel) 20 when it determines fire confirmation based on the transmitter ON operation from the state detection information received by the center transmission unit 96. And a fire alarm is output by the display unit 104 and the alarm unit 108, and at the same time, an alarm sound or a voice alarm message is output from the alarm unit 108. Further, the notification processing unit 98 transmits a response message including confirmation response information to the transmission source fire hydrant device, and turns on the response lamp 40.

  The hydrant valve opening / closing detection switch 84 is a limit switch that is turned on when the hydrant valve opening / closing lever 60 shown in FIG. 3 is opened and turned off when the hydrant valve opening / closing lever 60 is closed. When the detection processing unit 72 of the terminal unit 72 detects the opening or closing operation of the fire hydrant valve opening / closing lever 60, the detection processing unit 72 generates a message including the state detection information and transmits it to the center device 14 by the terminal transmission unit 70.

  The notification processing unit 98 outputs a pump activation signal to the pump control panel 18 when the opening operation of the hydrant opening / closing lever 60 is determined from the state detection information received by the center transmission unit 96 and displays the opening of the hydrant valve on the display unit 104. To do.

  Further, when the detection processing unit 72 subsequently determines that the hydrant valve opening / closing lever 60 is closed, the detection processing unit 72 generates a message including the state detection information of the lever closing operation, and transmits it to the center device 14 by the terminal transmission unit 70. Upon receiving this message, the notification processing unit 98 outputs a pump stop signal to the pump control panel 18 and stops the display of the fire hydrant valve.

  The pump activation switch 86 is a push button switch operated by a fire brigade arranged inside the maintenance door 32 as shown in FIG. When the detection processing unit 72 of the terminal unit 12 detects the ON operation of the pump activation switch 86, the detection processing unit 72 generates a message including the state detection information and transmits the electronic message to the center device 14 by the terminal transmission unit 70.

  The notification processing unit 98 outputs a pump start signal to the pump control panel 18 and displays the fire extinguishing pump start operation on the display unit 104 when it determines that the pump start switch 86 is turned on from the state detection information received by the center transmission unit 96. To do.

  Further, when the detection processing unit 72 subsequently determines that the pump activation switch 86 is turned off, the detection processing unit 72 generates a message including the state detection information and transmits the message to the center device 14 by the terminal transmission unit 70. Upon receiving this message, the notification processing unit 98 outputs a pump stop signal to the pump control panel 18 and stops the display of the fire pump activation operation.

  The nozzle detection switch 90 is a limit switch that is turned off when the nozzle 56 is attached to the nozzle holder 58 shown in FIG. 3 and is turned off when the nozzle 56 is removed from the nozzle holder 58 for water discharge. When the detection processing unit 72 of the terminal unit 12 detects that the nozzle detection switch 90 is turned off by removing the nozzle from the nozzle holder 58, the detection processing unit 72 generates a message including the state detection information and transmits it to the center device 14 by the terminal transmission unit 70. To do.

  When the notification processing unit 98 determines the nozzle removal operation from the state detection information received by the center transmission unit 96, the notification processing unit 98 displays a display indicating “nozzle in use” corresponding to no nozzle on the display unit 104.

  When the detection processing unit 72 determines that the nozzle detection switch 90 is turned off by attaching the nozzle 56 to the nozzle holder 58 and then returning to the holding state, the detection processing unit 72 generates a message including the state detection information, and the terminal transmission unit 70 To the center device 14. Upon receiving this message, the notification processing unit 98 stops displaying “nozzle in use”.

  The water supply pressure sensor 92 detects the pressure in the water supply pipe with respect to the fire hydrant device 10 of FIG. 3, and is provided, for example, on the primary side of the water supply valve 62. The detection processing unit 72 of the terminal unit 12 discriminates a water supply pressure abnormality when the water supply pressure level of the water supply pipe detected by the water supply pressure sensor 92 is equal to or lower than a predetermined threshold (allowable lower limit threshold) or higher than another threshold (allowable upper limit threshold). Then, a message including the state detection information is generated and transmitted to the center device 14 by the terminal transmission unit 72.

  The notification processing unit 98 acquires the water supply pressure abnormality from the message state detection information received by the center transmission unit 96, displays the water supply pressure abnormality together with the fire hydrant device number on the display unit 104, and simultaneously displays the water supply pressure abnormality from the alarm unit 108. The alarm sound shown is output. At this time, an underpressure or an overpressure may be notified together.

  The water discharge pressure sensor 94 detects the pressure of the fire water discharged from the nozzle 56 via the hose 54 provided in the fire hydrant device 10 of FIG. 3 as an alternative. For example, the automatic water pressure control valve 64 adjusts the water discharge pressure to a predetermined water discharge pressure. The water discharge pressure sensor 94 is provided in the piping path connected to the hose 54 on the secondary side.

  The detection processing unit 72 of the terminal unit 12 discriminates a water discharge pressure abnormality when the water discharge pressure detected by the water discharge pressure sensor 94 is equal to or lower than a predetermined allowable lower limit threshold pressure or higher than an allowable upper limit threshold, and generates a message including the state detection information. Then, the data is transmitted to the center device 14 by the terminal transmission unit 72.

  The notification processing unit 98 acquires the water discharge pressure abnormality from the message state detection information received by the center transmission unit 96, displays the fire hydrant device number on the display unit 104, and generates an alarm sound indicating the water discharge pressure abnormality from the alarm unit 108. Output. At this time, an underpressure or an overpressure may be notified together.

  In addition, regarding the state detection by the water supply pressure sensor 92 and the discharge water pressure sensor 94, the pressure abnormality due to the threshold comparison is determined on the terminal unit 12 side, but the determination method does not necessarily depend on the comparison with the threshold. An appropriate discrimination method can be applied. Further, a signal corresponding to the pressure value detected by the water supply pressure sensor 92 and the discharge water pressure sensor 94 is transmitted as a message to the center device 14 as it is, and the pressure abnormality is determined by an appropriate method such as comparison with a threshold value on the center device 14 side. You may do it.

  When the detection processing unit 72 detects an abnormality such as the absence of a fire extinguisher or the opening of a door (here, a state different from the steady state is abnormal, and a state change for an appropriate operation is also included in this), the output unit 76 The red indicator lamp 36 that is always lit in connection with the LED may blink or blink, so that it can be seen from the outside that an abnormality has occurred in the fire hydrant device. Further, instead of the red indicator lamp, another display means may be provided to perform this display.

  FIG. 5 is a flowchart illustrating the fire hydrant processing by the terminal unit 12 provided in the fire hydrant device 10 of FIG.

  In FIG. 5, when the terminal unit 12 is turned on and activated, initialization processing is performed in step S1 and self-diagnosis is performed. If there is no abnormality, the process proceeds to step S2 to determine occurrence of an event due to a state change.

  If it is determined in step S2 that an event has occurred, the process proceeds to step S3, where the event type is determined, and in step S4, a message including state data corresponding to the event type is transmitted to the center device.

  Here, in the event occurrence determination in step S2, for example, the terminal unit 12 side periodically collects state signals of the state detection means such as sensors, and performs predetermined determination processing such as threshold comparison based on the collected signals. Can be realized.

  At this time, even when there is no state change, each time the determination process is performed, the determined state detection information may be generated and transmitted to the center device 14 by the terminal transmission unit 74. In this case, it is also possible to transmit all the information in a single message so as to include a code indicating all the state information. Further, an output signal from at least some of the sensors may be received as an interrupt input by the terminal unit 12, and a predetermined determination process such as threshold comparison may be performed based on the interrupt signal.

  FIG. 6 is a flowchart illustrating the center device processing by the notification processing unit 98 provided in the center device 14 of FIG. In FIG. 6, when the center apparatus is turned on and activated, initialization processing is performed in step S11 and self-diagnosis is performed. If there is no abnormality, the process proceeds to step S12 to determine whether or not a message has been received.

  If it is determined in step S12 that a message has been received, the process proceeds to step S33 to determine the message content, and in step S14, processing corresponding to the message content is performed.

  FIG. 7 shows a list of status data acquired by the fire extinguisher apparatus process of FIG. 5 and examples of processing contents by the center apparatus process of FIG.

  FIG. 8 is a block diagram showing another embodiment of the fire hydrant device monitoring system according to the present invention. In this embodiment, a wireless line is used for transmission between the terminal unit of the fire hydrant device and the center device. It is characterized by doing so.

  In FIG. 7, a plurality of fire hydrant apparatuses 10 are installed at intervals of 50 meters along the side wall of the tunnel. Each of the fire hydrant apparatuses 10 is provided with a wireless terminal unit 112, and the wireless terminal unit 112 is in a state of the fire hydrant apparatus 10. And a message including state detection information is wirelessly transmitted to the center device (monitoring control panel) 14. A radio wave repeater 114 can be provided as necessary.

The center device 14 is also capable of wireless transmission, and the center transmission unit 94 shown in FIG. 4 is handled as a wireless center transmission unit. Alternatively, wired transmission may be performed between the repeater 114 and the center device 14 with the center device 14. The repeater 114 relays a radio signal related to communication between the wireless terminal unit 112 and the center device 14. By providing the repeater 114 in this manner, even if the wireless signal is difficult to reach due to the installation location of the wireless terminal unit 112 (fire hydrant device 10) and the center device 14 being separated, appropriate communication is ensured. I can do it.
Other configurations and operations are the same as those in the embodiment of FIG. As a wireless transmission unit provided in the wireless terminal unit 112 and the center device 14, for example, wireless communication is performed in accordance with the standard of a specific low power wireless station in the 400 MHz band.

  Thus, by transmitting a message between the wireless terminal unit 112 of the fire hydrant device and the center device 14 using a wireless line, for example, the wireless terminal unit 112 is connected to a fire hydrant device installed in an existing tunnel. By installing, the fire hydrant monitoring system can be easily constructed according to the present invention while reducing the wiring work of the transmission line to and from the center device 14 as much as possible.

  Of course, the monitoring control board 14, the pump control board 18, and the disaster prevention receiving board 20 can appropriately separate and integrate part or all of these functions.

  In addition, operation parts such as the presence or absence of a fire extinguisher, the opening and closing of a fire hydrant door, the opening and closing of a fire extinguisher door, the opening and closing of a maintenance door, the opening and closing of a reporting device door, and the opening and closing lever of a fire hydrant valve The operation, the water supply pressure, the water discharge pressure, the nozzle attaching / detaching operation or the transmitter operation are taken as examples. However, if necessary, other appropriate state changes can be detected and monitored by the center device.

  The fire hydrant device to be monitored according to the present invention is not limited to FIGS. 3 and 4 and includes a fire hydrant device for a tunnel having an appropriate structure.

  Moreover, the fire hydrant device of the present invention is not limited to being used for a tunnel. That is, the present invention can be similarly applied to indoor fire hydrant devices installed in buildings and other buildings and other fire hydrant devices.

  The fire hydrant body, the fire extinguisher box, and the reporting device do not have to be integrated, and any one or all of them may be separated. It is.

  In addition, the notification device does not need to include all of the transmitter, the red indicator lamp, the response lamp, and the telephone jack, and may be provided with at least a part.

  Moreover, the fire hydrant device of the present invention may be provided with at least the fire hydrant body among the fire hydrant body, the fire extinguisher box, and the notification device, and may not include either or both of the fire hydrant box and the notification device.

  Moreover, the fire hydrant device of the present invention may further include a configuration other than the fire hydrant body, the fire extinguisher box, and the reporting device.

  In addition, the flowcharts in the above-described embodiments have described a schematic example of processing, and the order of processing is not limited to this. Further, it is possible to provide a delay time between processes or between processes, insert other determinations, and the like.

  In addition, the function of detecting such state information and displaying the result as a result of display, sound, communication, etc. shall be applied to other equipment provided in the same disaster prevention system, such as water spray equipment. You can also. Similarly in this case, the output information can be acquired and managed by the center device or the management device.

The present invention includes appropriate modifications that do not impair the objects and advantages thereof, and is not limited by the numerical values shown in the above embodiments.

10: Fire hydrant device 12: Terminal unit 14: Center device 16: Transmission path 18: Pump control panel 20: Disaster prevention reception panel 22-1: First housing 22-2: Second housing 28: Fire hydrant door 32: Maintenance door 34: Notification device door 36: Red indicator lamp 38: Transmitter 38a: Transmitter switch 40: Response lamp 42: Fire extinguisher door 46: Fire extinguisher 50: Hose bucket 52: Hose outlet 54: Hose 56: Nozzle 58: Nozzle Holder 60: Fire hydrant valve opening / closing lever 68: Pump start switch 70: Terminal transmission unit 71: Auxiliary transmission unit 72: Detection processing unit 74: Input unit 76: Output unit 77: Output instruction switch 78: Fire extinguisher detection switch 80: Fire extinguisher Opening / closing door detection switch 82: Fire hydrant opening / closing door detection switch 84: Fire hydrant valve opening / closing detection switch 85: Fire extinguisher weight detection unit 86: Contamination sensor 90: Nozzle detection switch 9 : Supply pressure sensor 94: release water pressure sensor 96: a center transmitting unit 98: left processing unit 104: display unit 106: operation unit 108: warning unit 110: storage unit 112: wireless terminal unit 114: repeater

Claims (25)

In the fire hydrant monitoring system that monitors the fire hydrant installed in the disaster prevention area with the center device,
In the fire hydrant device,
A detection processing unit for detecting the state of the fire hydrant device;
A terminal transmission unit that transmits state detection information of a detection processing unit to the center device;
Provided,
In the center device,
A center transmission unit that receives state detection information transmitted from the fire hydrant device;
A notification processing unit for reporting the received state detection information;
A fire hydrant monitoring system characterized by comprising:
In the fire hydrant monitoring system according to claim 1,
The detection processing unit of the fire hydrant device includes, as the state of the fire hydrant device, the presence or absence of a fire extinguisher, the remaining amount of extinguishing agent in the fire extinguisher, the state of contamination of the fire extinguisher window, opening and closing of the door, water supply pressure, water discharge pressure, nozzle removal operation A fire hydrant monitoring system characterized by detecting at least one of a transmitter failure or failure, a power supply abnormality, and a disconnection of a transmission line and transmitting the state to a center device by a terminal transmission unit.
In the fire hydrant monitoring system according to claim 1,
The detection processing unit of the fire hydrant device detects the presence or absence of a fire extinguisher, and transmits it to the center device by the terminal transmission unit as state detection information,
When the information processing unit of the center device determines that there is no fire extinguisher from the state detection information received by the center transmission unit, it notifies that there is no fire extinguisher including specific information of the fire extinguisher device, and then determines that there is a fire extinguisher. A fire hydrant device monitoring system characterized by sometimes stopping notification without a fire extinguisher.
In the fire hydrant monitoring system according to claim 1,
The detection processing unit of the fire hydrant device detects opening and closing of a fire hydrant door, a fire extinguisher door, a maintenance door or a notification device door, and transmits the detection result to the center device by the terminal transmission unit as state detection information,
The notification processing unit of the center device includes a door that includes specific information of the fire extinguisher device when it is determined that the fire hydrant door, the fire extinguisher door, the maintenance door, or the reporting device door is opened from the state detection information received by the center transmission unit. A fire hydrant monitoring system characterized by displaying and then stopping the display of the door when it is determined that the door is closed.
In the fire hydrant monitoring system according to claim 1,
The detection processing unit of the fire hydrant device detects the ON operation of the transmitter, causes the terminal transmission unit to transmit the state detection information to the center device,
When the notification processing unit of the center device determines that the transmitter is turned on from the state detection information received by the center transmission unit, it outputs a fire report signal to the fire receiving panel and sends confirmation response information to the fire hydrant device of the transmission source. A fire hydrant monitoring system, characterized by transmitting a confirmation indicator light after transmission.
In the fire hydrant monitoring system according to claim 1,
The detection processing unit of the fire hydrant device detects an ON operation or an OFF operation of the pump start switch, and transmits a detection result to the center device by the terminal transmission unit as state detection information.
The notification processing unit of the center device outputs a pump start signal to the pump control panel when the pump start switch is turned on from the state detection information received by the center transmission unit, displays the pump operation, and then turns off. A fire hydrant monitoring system that outputs a pump stop signal to the pump control panel and stops the pump operation display when it is determined.
In the fire hydrant monitoring system according to claim 1,
The detection processing unit of the fire hydrant device detects a nozzle attachment / detachment operation with respect to the nozzle holder, causes the terminal transmission unit to transmit the detection result as state detection information,
The fire hydrant monitoring system according to claim 1, wherein the notification processing unit of the center device displays whether or not the nozzle is used based on a nozzle removal operation that is acquired from the state detection information received by the center transmission unit.
In the fire hydrant monitoring system according to claim 1,
The detection processing unit of the fire hydrant device determines a water supply pressure abnormality when the water supply pressure of the water supply pipe detected by the pressure sensor is equal to or lower than a predetermined threshold pressure, and causes the terminal transmission unit to transmit to the center device,
The fire hydrant monitoring system according to claim 1, wherein the notification processing unit of the center device acquires and notifies the water supply pressure abnormality from the state detection information received by the center transmission unit.
In the fire hydrant monitoring system according to claim 1,
The detection processing unit of the fire hydrant device detects a water supply pressure of the water supply pipe by a pressure sensor, and causes the terminal transmission unit to transmit data indicating the water supply pressure as state detection information to the center device,
The notification processing unit of the center device determines whether there is an abnormality in the water supply pressure based on the state detection information when the water supply pressure acquired from the state detection information received by the center transmission unit is equal to or lower than a predetermined threshold pressure, and notifies the result. The fire hydrant monitoring system is characterized in that the water supply pressure is displayed as necessary, and the data indicating the water supply pressure is transferred to the outside.
In the fire hydrant monitoring system according to claim 1,
The detection processing unit of the fire hydrant device determines a water discharge pressure abnormality when the water discharge pressure by the hose with a nozzle is equal to or lower than a predetermined threshold pressure by a pressure sensor, and causes the terminal transmission unit to transmit the determination result as state detection information to the center device.
The fire hydrant monitoring system according to claim 1, wherein the notification processing unit of the center device acquires and reports a discharge pressure abnormality from the state detection information received by the center transmission unit.
In the fire hydrant monitoring system according to claim 1,
The detection processing unit of the fire hydrant device detects a water discharge pressure by a hose with a nozzle by a pressure sensor, causes the terminal transmission unit to transmit data indicating the water discharge pressure to the center device as state detection information,
The notification processing unit of the center device determines a discharge pressure abnormality based on data indicating the discharge pressure acquired from the state detection information received by the center transmission unit, notifies the result, and displays a display indicating the discharge pressure as necessary. The fire hydrant monitoring system is characterized in that the data indicating the discharge pressure is further transferred to the outside.
In the fire hydrant monitoring system according to claim 1,
The fire hydrant monitoring system is characterized in that the terminal transmission unit of the fire hydrant device and the center transmission unit of the center device are connected by a signal line to perform wired transmission.
In the fire hydrant monitoring system according to claim 1,
The fire hydrant monitoring system is characterized in that the terminal transmission unit of the fire hydrant device and the center transmission unit of the center device are connected by a wireless line to perform wireless transmission.
In the fire hydrant monitoring system according to claim 1,
The fire hydrant monitoring system, wherein the terminal transmission unit of the fire hydrant device transmits state detection information to a management device different from the center device.
In the fire hydrant monitoring system according to claim 1,
The fire hydrant monitoring system according to claim 1, wherein the terminal transmission unit of the fire hydrant device includes an auxiliary transmission unit that performs wired or wireless transmission with the management device.
The fire hydrant monitoring system according to claim 15,
The terminal transmission unit of the fire hydrant device controls the auxiliary transmission unit and monitors the state, and transmits the monitoring information as state detection information to the center device or the management device.
In the fire hydrant monitoring system according to claim 1,
The detection processing unit of the fire hydrant device detects a fouling state of the fire extinguisher window with a fouling sensor, determines the presence or absence of fouling based on the detection signal, and transmits the determination result as state detection information to the center device by the terminal transmission unit. Let
The fire hydrant monitoring system according to claim 1, wherein the notification processing unit of the center device acquires and notifies the presence of fire extinguisher window contamination from the state detection information received by the center transmission unit.
In the fire hydrant monitoring system according to claim 1,
The detection processing unit of the fire hydrant device detects the degree of contamination of the fire extinguisher window with a contamination sensor, causes the terminal transmission unit to transmit data indicating the degree of contamination to the center device as state detection information,
The notification processing unit of the center device determines the presence or absence of fire extinguisher window contamination from the state detection information received by the center transmission unit, notifies the result, and displays the degree of contamination as necessary. A fire hydrant monitoring system characterized by transferring data indicating the outside to the outside.
In the fire hydrant monitoring system according to claim 1,
The fire hydrant monitoring system, wherein the detection processing unit of the fire hydrant device displays or acoustically outputs at least one of the various state detection information.
A detection processing unit that detects its own state and obtains state data;
A determination unit that determines its own state based on the state data acquired by the state data acquisition unit;
A fire hydrant device characterized by comprising:
A detection processing unit that detects its own state and obtains state data;
A terminal transmission unit that transmits the state data acquired by the state data acquisition unit to a center device;
A fire hydrant device characterized by comprising:
A center transmission unit for receiving the state data transmitted from the fire hydrant device;
A notification processing unit that determines the state of the fire hydrant device based on the state data received by the center transmission unit, and outputs the result;
A center device comprising:
A fire hydrant device that detects its own state and acquires state data, and transmits the acquired state data to a center device;
Center monitoring to determine the state of the fire hydrant device based on the state data transmitted from the fire hydrant device, and to output the result;
A fire hydrant monitoring system comprising:
The fire hydrant monitoring system according to claim 23,
The fire hydrant monitoring system, wherein the center device outputs the status data transmitted from the fire hydrant device.
The fire hydrant monitoring system according to claim 23,
The fire hydrant monitoring system, wherein the fire hydrant device transmits the acquired state data to a management device.

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