JP3874474B2 - Water leakage detection device - Google Patents

Description

[0001]
[Industrial application fields]
The present invention is used in, for example, an apartment house, and when water leaks occur in these apartment houses, etc., the alarm sound is sounded, and the water leak detection is used to notify the management office of the apartment house, etc. Relates to the device.
[0002]
[Prior art]
In recent years, apartment buildings have been configured to detect the presence or absence of water leakage by installing a water leakage detection terminal in each dwelling unit that constitutes this, and if the detection terminal detects the occurrence of water leakage, In addition to notifying the warning sound to the central control device that centrally manages the information from each leakage terminal, the leakage information is transmitted to the central control device that generates an alarm of the management office, so that appropriate and quick response can be made. The warning system at the time of water leakage is becoming popular. The water leakage sensor of the water leakage detection terminal is generally installed in a toilet, a bathroom, or concrete under the floor. Japanese Patent Application Laid-Open No. 6-266985 discloses a device that is relatively close to such a water leakage warning system.
[0003]
[Problems to be solved by the invention]
The conventional system for generating a warning at the time of water leakage as described above is not limited to the case where the water leakage sensor has detected water leakage once it has been completed and the concrete has not completely dried. First, the water leakage detection terminal sends a water leakage command to the central control unit, and the central control unit receives the water leakage command, alerts the residents and issues an alarm to the management office. There was a case happening.
[0004]
In such a case, the residents and the administrative office had to take measures such as stopping the alarm sound every time the alarm was activated, which could cause a situation such as disturbing sleep to the residents.
[0005]
  The present invention solves the above-described conventional problems, and once a water leak is detected and an alarm sound is sounded, the corresponding dwelling unit and management are only performed after a certain period of time or when a water leak occurs again after the time.ThingIt is an object of the present invention to provide a water leakage detection device capable of generating a warning in a business room and preventing an alarm sound from being repeated many times in a short time.
[0006]
[Means for Solving the Problems]
  In view of the above object, the present invention,Command for water leakageSendingBelieveMode 1When,When a leakage detection command is received from a plurality of leakage detection terminals each having an operation mode of mode 2 that does not transmit a leakage occurrence command when leakage occurs, and from one leakage detection terminal of the leakage detection terminals, this one leakage The detection terminal is instructed to operate in the mode 2 and a leak occurrence command is transmitted to the common part transmission line, and after a certain period of time, the one leak detection terminal is instructed to operate in the mode 1It is characterized by comprising a central control unit.
[0007]
  As a result,Once the water leakage detection terminal has detected a water leak, it operates in mode 2 for a certain period of time, and during that time it does not send a water leakage occurrence command, so the central controller sends the water leakage occurrence command via the common part transmission line, As a result, once a leak occurrence command is received and an audible alarm is sounded, if the leak does not occur for a certain period of time, the leak will occur. Occurrence warning means issue an alarmWill not.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
  Claim1The described invention includes a plurality of leakage detection terminals each having an operation mode of mode 1 for transmitting a leakage occurrence command when leakage occurs and mode 2 for not transmitting a leakage occurrence command when leakage occurs, and among the leakage detection terminals When a water leak occurrence command is received from one water leak detection terminal, the one water leak detection terminal is instructed to operate in the mode 2, and the water leak occurrence command is transmitted to the common part transmission path. And a central controller that commands the water leakage detection terminal to operate in the mode 1.
[0011]
As a result, the leak detection terminal that has once detected a leak operates in mode 2 for a certain period of time and does not transmit a leak occurrence command during that time. Therefore, the central controller sends a leak occurrence command via the shared section transmission line, As a result, once the leak occurrence command is received and the alarm sound is sounded, the leak will occur again if a certain period of time has not passed. However, the water leakage occurrence warning means does not issue an alarm.
[0015]
  Claim2The described invention has a plurality of modes 5 each for sounding a water leakage alarm sound and transmitting a water leakage occurrence command when a water leak occurs and mode 6 for not sounding a water leakage alarm sound and transmitting a water leakage occurrence command when a water leak occurs. When a water leakage occurrence command is received from one of the water leakage detection terminals and one of the water leakage detection terminals, the one water leakage detection terminal is instructed to operate in the mode 6 and the water leaks to the common part transmission line. It is composed of a central controller that transmits a generation command and commands the one water leakage detection terminal to operate in the mode 5 after a predetermined time has elapsed.
[0016]
As a result, since the water leak detection terminal that has once detected a water leak operates for a certain period of time in mode 6, once the alarm sound is sounded once, if a certain time or more has not passed, the alarm sound will Will not ring.
[0017]
In addition, even if a device on the shared unit side that receives a water leakage occurrence command from the common unit transmission path via the central control unit and generates an alarm in the administrative office etc., once receives the water leakage occurrence command and sounds an alarm sound If a certain time or more does not elapse, the alarm sound will not sound even if water leaks again.
[0020]
  Claim3The described invention includes a plurality of leakage detection terminals each having an operation mode of mode 1 for transmitting a leakage occurrence command when leakage occurs and mode 2 for not transmitting a leakage occurrence command when leakage occurs, and the leakage detection terminal When a water leak occurrence command is received from a single water leak detection terminal, this water leak detection terminal is commanded to operate in the mode 2 and a water leak occurrence command is transmitted to the common part transmission line, and a certain time comes A central controller that commands the one water leakage detection terminal to operate in the mode 1;OrIt is composed.
[0021]
As a result, the leak detection terminal that has detected a leak once operates in mode 2 until a certain time and does not send a leak command until that time, so that a leak occurs from the common part transmission line via the central controller. Even if the device on the common side that receives the command and generates an alarm in the administrative office etc., once the water leak occurrence command is received and the alarm sound is sounded, if it does not come after a certain time, the water leak will occur again. However, the alarm sound does not sound.
[0025]
  Claim4The described invention has a plurality of modes 5 each for sounding a water leakage alarm sound and transmitting a water leakage occurrence command when a water leak occurs and mode 6 for not sounding a water leakage alarm sound and transmitting a water leakage occurrence command when a water leak occurs. When a water leakage occurrence command is received from one of the water leakage detection terminals and one of the water leakage detection terminals, the one water leakage detection terminal is instructed to operate in the mode 6 and the water leaks to the common part transmission line. It is composed of a central control device that transmits a generation command and commands the one water leakage detection terminal to operate in the mode 5 at a certain time.
[0026]
As a result, the leak detection terminal that has once detected a water leak operates in mode 6 until a certain time, so once the alarm sound is sounded once, if a certain amount of time has not passed, an alarm will be issued even if a leak occurs again. The sound will not sound.
[0027]
In addition, even if a device on the shared unit side that receives a water leakage occurrence command from the common unit transmission path via the central control unit and generates an alarm in the administrative office etc., once receives the water leakage occurrence command and sounds an alarm sound If a certain time or more does not elapse, the alarm sound will not sound even if water leaks again.
[0030]
  Claim5The described invention is claimed.1In the described invention, each of the plurality of water leakage detection terminals includes a water leakage detection means for detecting water leakage, a transmission / reception means for transmitting a water leakage occurrence command to the terminal transmission path and receiving a command from the terminal transmission path, and a water leakage occurrence. When a leak occurrence command is sometimes sent to the terminal transmission line, mode 1 is set, and when not sent in reverse, mode 2 is stored and the output of the leak detection means is input. Control means for controlling the transmission / reception means to transmit a water leakage occurrence command to the terminal transmission line only when mode 1 is stored, and the central control unit sends the water leakage occurrence command from the terminal transmission line. A terminal unit transmitting / receiving unit that receives and transmits the command to the transmitting / receiving unit via the terminal transmission path, and water leakage occurs by the terminal unit transmitting / receiving unit. A timer that starts a timer count when it is determined that a command has been received and outputs information indicating that a certain period of time has elapsed, a shared unit transmitting unit that transmits the water leakage occurrence command to a shared unit transmission line, and the water leakage The terminal receiving means of one of the detection terminals detects the leakage occurrence command received via the terminal part transmission path, and transmits the fact that the leakage occurrence command has been received to the shared part transmission path The shared unit transmitting unit is controlled, and the terminal unit transmitting / receiving unit transmits a mode change command command to the one water leakage detection terminal so as to operate in mode 2, and the time measuring unit transmits and receives the terminal unit after a certain time has elapsed. Arithmetic control means for controlling to transmit a mode change command command so as to operate in mode 1 to said one water leakage detection terminal by means; AndConfigureThe control means of the water leakage detection terminal is configured to change the storage of the storage means when receiving a mode change command command from the arithmetic control means via the terminal transmission path.
[0031]
As a result, the leak detection terminal that has detected a leak once operates in mode 2 for a certain period of time and does not transmit the leak occurrence command during that time, so it receives the leak occurrence command from the common unit transmission line via the central controller. Even in a shared office that generates an alarm in a management office, etc., once a leak occurrence command is received and an alarm tone is sounded, the alarm tone will sound even if a leak occurs again if a certain period of time has not passed. Will not ring.
[0035]
  Claim6The described invention is claimed.2In the described invention, the plurality of water leakage detection terminals respectively detect water leakage, a water leakage occurrence command and a transmission / reception means for receiving a command from the terminal transmission path and transmitting a water leakage occurrence command to the terminal transmission path. Alarm sounding means for sounding the alarm sound and mode 5 when sounding the alarm sound and transmitting the water leakage occurrence command when water leakage occurs, and mode 6 when not transmitting the sounding alarm sound and water leakage occurrence command. The storage means for storing and the output of the water leakage detection means are input, and the alarm is only issued when mode 5 is stored in the storage means when a water leak occurs.soundControl means for controlling the transmission / reception means to sound a warning sound by the sounding means and to transmit a water leakage occurrence command to the terminal transmission line.ConfiguredThe central control unit receives a water leakage occurrence command from the terminal transmission path and transmits the command to the transmission / reception means via the terminal transmission path, and a water leakage occurrence command is transmitted by the terminal transmission / reception means. Time counting means for starting a timer count when it is determined that it has been received and outputting information indicating that a certain period of time has elapsed, a common part transmission means for transmitting the water leakage occurrence command to a common part transmission line, and the water leakage detection terminal The common terminal is configured to decode the leak occurrence command received via the terminal part transmission path by the terminal part receiving means of one of the water leak detection terminals, and transmit the fact that the leak occurrence command has been received to the common part transmission path. A mode change command command so that the terminal transmission / reception means operates in mode 6 to the one water leakage detection terminal. And a calculation control means for controlling the terminal unit transmission / reception means to transmit a mode change command command to the one water leakage detection terminal so as to operate in mode 5 after the time measurement means has timed a predetermined time. TheConfigureWhen the control means of the water leakage detection terminal receives a mode change command command from the terminal transmission path, it is configured to change the storage of the storage means.
[0036]
As a result, since the water leak detection terminal that has once detected a water leak operates for a certain period of time in mode 6, once the alarm sound is sounded once, if a certain time or more has not passed, the alarm sound will Will not ring.
[0037]
In addition, even if a device on the shared unit side that receives a water leakage occurrence command from the common unit transmission path via the central control unit and generates an alarm in the administrative office etc., once receives the water leakage occurrence command and sounds an alarm sound If a certain time or more does not elapse, the alarm sound will not sound even if water leaks again.
[0040]
  Claim7The described invention is claimed.3In the described invention, each of the plurality of water leakage detection terminals includes a water leakage detection means for detecting water leakage, a transmission / reception means for transmitting a water leakage occurrence command to the terminal transmission path and receiving a command from the terminal transmission path, and a water leakage occurrence. When a leak occurrence command is sometimes sent to the terminal transmission line, mode 1 is set, and when not sent in reverse, mode 2 is stored and the output of the leak detection means is input. Control means for controlling the transmission / reception means to transmit a water leakage occurrence command to the terminal transmission line only when mode 1 is stored.ConfiguredThe central control unit receives a water leakage occurrence command from the terminal transmission path and transmits the command to the transmission / reception means via the terminal transmission path, and a clock means for counting the current time A common part transmitting means for transmitting the water leakage occurrence command to a part transmission path, and decoding a water leakage occurrence command received via the terminal part transmission line by a transmission / reception means of one water leakage detection terminal among the leakage detection terminals, While controlling the shared part transmitting means to transmit to the shared part transmission path that the leakage occurrence command has been received, and when receiving the leakage occurrence command again from the one leakage detection terminal by the terminal transmission / reception means, A mode change command command is transmitted to the one water leak detection terminal so as to operate in mode 2, and the one water leak is detected at a certain time by the clock means. And an arithmetic control unit for controlling to transmit the mode change command commands to operate in mode 1 on one of the water leakage detecting terminal via the terminal transmission channel by the terminal portion transmitting and receiving means of the output terminalConfigureWhen the control means receives a mode change command command from the arithmetic control means via the terminal transmission path, the storage means is changed.
[0041]
As a result, the leak detection terminal that has detected a leak once operates in mode 2 until a certain time, and therefore does not transmit a leak occurrence command until that time, so the leak from the common part transmission line via the central controller Even in the equipment on the common part side that receives the generated command and generates an alarm in the administrative office etc., once the water leakage occurrence command is received and the alarm sound is sounded, if it does not come after a certain time, water leakage will occur again. However, the alarm sound does not sound.
[0045]
  Claim8The described invention is claimed.4In the described invention, each of the plurality of water leakage detection terminals includes a water leakage detection means for detecting water leakage, a transmission / reception means for transmitting a water leakage occurrence command to the terminal transmission path and receiving a command from the terminal transmission path, and water leakage detection. Alarm sounding means to sound an alarm sound at the time, and when sounding an alarm sound and transmitting a water leakage occurrence command when a water leak occurs, mode 5 is set. On the other hand, when a sounding sound and a water leakage occurrence command are not transmitted Only when the storage means for storing mode 6 and the output of the water leakage detection means are input and the memory means stores mode 5 when a water leak occurssoundControl means for sounding alarm sound by sounding meansConfiguredThe central control unit receives a water leakage occurrence command from the terminal transmission path and transmits the command to the transmission / reception means via the terminal transmission path, and a clock means for counting the current time A common part transmission means for transmitting a water leakage occurrence command to a transmission line, and a leakage detection command of one leakage detection terminal among the leakage detection terminals received via the terminal transmission line by the terminal transmission / reception means A mode in which the shared unit transmitting means is controlled to transmit the fact that the water leakage occurrence command has been received to the shared unit transmission path, and the terminal leak transmitting / receiving unit is operated in mode 6 by the terminal leak transmitting / receiving unit. A change command command is transmitted, and a mode change command command is sent to the one water leakage detection terminal so as to operate in mode 5 at a certain time by the clock means. The command and an arithmetic control unit for controlling so as to transmit via the terminal transmission lineConfigureWhen the control means receives a mode change command command from the arithmetic control means via the terminal transmission line, the storage means changes the storage.StructureCompletionShiing.
[0046]
As a result, the leak detection terminal that has once detected a water leak operates in mode 6 until a certain time. Therefore, once a warning sound is sounded, a warning will be issued even if a leak occurs again if a certain period of time has not elapsed. The sound will not sound.
[0047]
In addition, even if a device on the shared unit side that receives a water leakage occurrence command from the common unit transmission path via the central control unit and generates an alarm in the administrative office etc., once receives the water leakage occurrence command and sounds an alarm sound If it is not after a certain time, even if water leaks again, the alarm sound will not sound.
[0048]
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0049]
(Embodiment 1)
FIG. 1 shows a configuration diagram of Embodiment 1 according to the present invention, and 6 and 6 are water leakage detection terminals installed in each dwelling unit of an apartment house, and a water leakage detection means 1 for detecting water leakage, Terminal transmission path 2, transmission means 3 for transmitting a water leakage occurrence command to the terminal transmission path 2, and local station number setting means 4 for setting different local station numbers for identifying the respective water leakage detection terminals 6 and 6. The control means 5 is constituted.
[0050]
Reference numeral 12 denotes a central control device that centrally manages information transmitted from the water leakage detection terminals 6 and 6 installed in each dwelling unit, and includes a terminal unit receiving means 7 that receives a command of the terminal transmission path 2, and a terminal Common unit transmission path for transmitting the command to the time counting unit 8 that starts the timer count when the water leakage generation command is received by the unit reception unit 7 and the alarm sounding device installed in the management office on the common unit side 9, a common part transmitting means 10 for transmitting a water leakage occurrence command to the common part transmission path 9, and a calculation control means 11.
[0051]
The operation of the above configuration will be described below.
[0052]
First, when water leakage is detected by the water leakage detection means 1 of the water leakage detection terminal 6, the control means 5 reads the local station number from the local station number setting means 4, and transmits a water leakage generation command including the local station number by the transmission means 3. Control to transmit to terminal transmission path 2. Then, the central control unit 12 receives this water leakage occurrence command by the terminal unit receiving means 7, and as a result, the arithmetic control means 11 transmits the water leakage occurrence command to the common part transmission path 9, and the time measuring means 8 is constant. Start timer count of time. As a result of this series of operations, the alarm sounding device connected to the shared section transmission line 9 sounds an alarm sound for water leakage.
[0053]
Next, once the water leakage is recovered at the water leakage detection terminal 6 and the water leakage occurs again, a groove leakage occurrence command is similarly transmitted to the terminal transmission path 2. The central control device 12 receives this in the same way at the terminal receiving means 7, but the arithmetic control means 11 that detects that one boat time has not yet elapsed from the first occurrence of water leakage by the time measuring means 8 Since the transmission means 10 is not controlled, the water leakage occurrence command is not transmitted to the shared part transmission path 9.
[0054]
Therefore, if a certain amount of time has not elapsed, even if water leaks again, the alarm sounding device connected to the shared section transmission line 9 does not sound the water leakage alarm sound.
[0055]
(Embodiment 2)
FIG. 2 shows a block diagram of a second embodiment according to the present invention. The water leakage detection terminals 6 and 6 are installed in each dwelling unit of the apartment house, and the water leakage detection means 1 and terminal for detecting water leakage. It is composed of a transmission path 2, a local station number setting means 4 for setting different local station numbers in order to identify each water leak detection terminal 6, 6, and a control means 5. However, it centrally manages the information transmitted from the water leakage detection terminals 6 and 6 installed in each dwelling unit, and when the water leakage occurrence command is received, the time counting means 8 for starting the timer count, and the management on the shared part side From the common part transmission line 9 for transmitting a command to an alarm sounding device or the like installed in the office, the common part transmission means 10 for transmitting a water leakage occurrence command to the common part transmission line 9, and the arithmetic control means 11 Consists of the same as in the first embodiment It is.
[0056]
The difference from Embodiment 1 is that the water leakage detection terminals 6 and 6 have transmission / reception means 13 for transmitting / receiving commands of the terminal transmission path 2 instead of the transmission means 3, and water leakage occurs when water leakage occurs. When the generated command is transmitted, it is stored as mode 1, and when it is not transmitted, it is different in that it has the storage means 14 that stores it as mode 2.
[0057]
Further, the central control unit 12 is different from the terminal unit receiving unit 7 in that a terminal unit transmitting / receiving unit 17 that transmits and receives commands on the terminal transmission path 2 is different.
[0058]
The operation of the above configuration will be described below.
[0059]
First, when water leakage is detected by the water leakage detection means 1 of the water leakage detection terminal 6, the control means 5 first confirms the operation mode in the storage means 14, and if the operation mode is 1, the local station number setting means 4 The number is read, and the water leakage generation command including the local station number is controlled to be transmitted to the terminal transmission path 2 by the transmission / reception means 13. Then, the central controller 12 receives the water leakage occurrence command by the terminal unit reception means 17, and as a result, the arithmetic control means 11 transmits the water leakage occurrence command to the shared part transmission path 9 and also by the terminal part transmission / reception means 17. A mode change command command is transmitted to the water leakage detection terminal 6 so as to operate in mode 2. Then, the water leakage detection terminal 6 receives this command by the transmission / reception means 13 and changes the memory of the local station means 14 to mode 2 if the command is for the local station.
[0060]
Further, by these operations, the alarm sounding device connected to the shared part transmission line 9 sounds the alarm sound of water leakage.
[0061]
Next, when water leakage occurs once again at the water leakage detection terminal 6, the control means 5 does not transmit a water leakage occurrence command because the storage in the storage means 14 is mode 2. As a result, the alarm sounding device connected to the common unit transmission line 9 many times within a certain time does not sound the water leakage alarm sound.
[0062]
Further, when the time measuring means 8 of the central control device 12 detects that a certain time has elapsed, the arithmetic control means 11 changes the mode so that the leak detection terminal 6 operates in the mode 1 by the terminal transmitting / receiving means 17. Send command command. Then, the water leakage detection terminal 6 receives this command by the transmission / reception means 13 and changes the storage of the storage means 14 to mode 1 if the command is directed to the own station. For this reason, when water leaks, the alarm sounding device connected to the common part transmission line 9 will sound the water leakage alarm sound again.
[0063]
(Embodiment 3)
FIG. 3 shows a block diagram of Embodiment 3 according to the present invention, where water leakage detection terminals 6 and 6 are installed in each dwelling unit of the apartment house, and the water leakage detection means 1 and terminal for detecting water leakage. It is composed of a transmission path 2, a local station number setting means 4 for setting different local station numbers in order to identify each water leak detection terminal 6, 6, and a control means 5. However, it centrally manages the information transmitted from the water leakage detection terminals 6 and 6 installed in each dwelling unit, and when the water leakage occurrence command is received, the time counting means 8 for starting the timer count, and the management on the shared part side Consists of a common part transmission line 9 for transmitting a command to an alarm sounding device or the like installed in an office, etc., a common part transmission means 10 for transmitting a water leakage occurrence command to the common part transmission line 9, and a calculation control means 11. Same as the first embodiment A.
[0064]
The difference from the first embodiment is that the water leakage detection terminals 6 and 6 have transmission / reception means 13 for transmitting / receiving commands of the terminal transmission path 2 instead of the transmission means 3, and an alarm sound when water leakage occurs. Is stored as mode 3, and when not ringing, it is different in that it has a storage means 20 that stores mode 4 and an alarm sound sounding means 21 that sounds an alarm sound when water leakage is detected. .
[0065]
Further, the central control unit 12 is different from the terminal unit receiving unit 7 in that a terminal unit transmitting / receiving unit 17 that transmits and receives commands on the terminal transmission path 2 is different.
[0066]
The operation of the above configuration will be described below.
[0067]
First, when water leakage is detected by the water leakage detection means 1 of the water leakage detection terminal 6, the control means 5 first reads the local station number from the local station number setting means 4, and transmits / receives a leakage occurrence command including the local station number to the transmission / reception means 13 Then, the control device 5 confirms the operation mode in the storage means 20 and, if the operation mode is 3, controls the alarm sounding means 21 to Sound a sound.
[0068]
Then, the central controller 12 receives the water leakage occurrence command by the terminal unit reception means 17, and as a result, the arithmetic control means 11 transmits the water leakage occurrence command to the shared part transmission path 9 and also by the terminal part transmission / reception means 17. A mode change command command is transmitted to the water leakage detection terminal 6 so as to operate in mode 4. Then, the water leakage detection terminal 6 receives this command by the transmission / reception means 13 and changes the storage of the local station means 20 to mode 4 if the command is for the local station. Further, by these operations, the alarm sounding device connected to the shared part transmission line 9 sounds the alarm sound of water leakage.
[0069]
Next, when water leaks again at the same water leak detection terminal 6, the control means 5 does not control the alarm sounding means 21 because the storage of the storage means 20 is mode 4, and the alarm means sounding means 21 is not controlled. Does not sound. In addition, a water leakage occurrence command is transmitted to the terminal transmission path 2 and the central control device 12 receives the same in the terminal unit transmission / reception means 17, but a certain period of time has not elapsed since the first occurrence of water leakage by the time measuring means 8. Since the arithmetic control means 11 that detects this does not control the common part transmission means 10, the leakage command is not transmitted to the common part transmission path 9.
[0070]
Therefore, the alarm sounding device connected to the common part transmission path 9 many times within a certain time does not sound the water leakage alarm sound.
[0071]
When the time measuring means 8 of the central control device 12 detects that a certain time has elapsed, the arithmetic control means 11 changes the mode so that the water leakage detection terminal 6 operates in the mode 3 by the terminal transmission / reception means 17. Send command command. Then, the water leakage detection terminal 6 receives this command by the transmission / reception means 13 and changes the storage of the storage means 20 to mode 3 if the command is for the own station. For this reason, when water leaks, the alarm sound sounding means 21 again sounds a water leak alarm sound.
[0072]
(Embodiment 4)
FIG. 4 shows a block diagram of Embodiment 4 according to the present invention. Water leakage detection terminals 6 and 6 are installed in each dwelling unit of an apartment house and the water leakage detection means 1 and terminal for detecting water leakage are shown. It is composed of a transmission path 2, a local station number setting means 4 for setting different local station numbers in order to identify each water leak detection terminal 6, 6, and a control means 5. However, it centrally manages the information transmitted from the water leakage detection terminals 6 and 6 installed in each dwelling unit, and when the water leakage occurrence command is received, the time counting means 8 for starting the timer count, and the management on the shared part side Consists of a common part transmission line 9 for transmitting a command to an alarm sounding device or the like installed in an office, etc., a common part transmission means 10 for transmitting a water leakage occurrence command to the common part transmission line 9, and a calculation control means 11. Same as the first embodiment A.
[0073]
The difference from the first embodiment is that the water leakage detection terminals 6 and 6 have transmission / reception means 13 for transmitting / receiving commands of the terminal transmission path 2 instead of the transmission means 3, and an alarm sound when water leakage occurs. The storage means 26 stores the mode 5 when transmitting the water leakage occurrence command and the mode 6 when the leakage alarm sound and the transmission of the water leakage generation command are not performed when the water leakage occurs. The difference is that it has an alarm sound sounding means 21 that sounds an alarm sound when water leakage is detected.
[0074]
Further, the central control unit 12 is different from the terminal unit receiving unit 7 in that a terminal unit transmitting / receiving unit 17 that transmits and receives commands on the terminal transmission path 2 is different.
[0075]
The operation of the above configuration will be described below.
[0076]
First, when water leakage is detected by the water leakage detection means 1 of the water leakage detection terminal 6, the control means 5 first confirms the operation mode in the storage means 26. If the operation mode is 5, the alarm sounding means 21 is controlled to alarm. A sound is generated, and the local station number is read from the local station number setting means 4, and a water leakage generation command including the local station number is controlled to be transmitted to the terminal transmission path 2 by the transmission / reception means 13.
[0077]
Then, the central controller 12 receives the water leakage occurrence command by the terminal unit reception means 17, and as a result, the arithmetic control means 11 transmits the water leakage occurrence command to the shared part transmission path 9 and also by the terminal part transmission / reception means 17. A mode change command command is transmitted to the water leakage detection terminal 6 so as to operate in mode 6. Then, the water leakage detection terminal 6 receives this command by the transmission / reception means 13 and changes the memory of the local station means 26 to mode 6 if the command is for the local station. Further, by these operations, the alarm sounding device connected to the shared part transmission line 9 sounds the alarm sound of water leakage.
[0078]
Next, when water leaks again at the same water leak detection terminal 6, the control means 5 does not control the alarm sounding means 21 because the storage of the storage means 26 is mode 6, and the alarm means sounding means 21 is not controlled. Does not sound. In addition, a leak occurrence command is not transmitted.
[0079]
Therefore, the alarm sounding device connected to the common part transmission path 9 many times within a certain time does not sound the water leakage alarm sound.
[0080]
When the time measuring means 8 of the central control device 12 detects that a certain time has elapsed, the arithmetic control means 11 changes the mode so that the leakage detection terminal 6 operates in the mode 5 by the terminal transmitting / receiving means 17. Send command command. Then, the water leakage detection terminal 6 receives this command by the transmission / reception means 13 and changes the storage of the storage means 26 to mode 3 if it is a command for its own station. For this reason, when a water leak occurs, the alarm sound sounding means 21 again sounds a water leak alarm sound and also transmits a water leak generation command.
[0081]
(Embodiment 5)
FIG. 5 shows a block diagram of Embodiment 5 according to the present invention. Water leakage detection terminals 6 and 6 are installed in each dwelling unit of an apartment house, and the water leakage detection means 1 and terminal for detecting water leakage are shown. It is composed of a transmission path 2, a local station number setting means 4 for setting different local station numbers in order to identify each water leak detection terminal 6, 6, and a control means 5. For centrally managing the information transmitted from the water leakage detection terminals 6 and 6 installed in each dwelling unit, and for transmitting a command to an alarm sounding device or the like installed in a management office on the shared section side The configuration is the same as that of the first embodiment in that the shared section transmission path 9, the shared section transmission means 10 that transmits a leakage occurrence command to the shared section transmission path 9, and the calculation control means 11 are configured.
[0082]
The difference from the first embodiment is that the central control device 12 is replaced with a clock means for counting the current time instead of the time measuring means 8.
[0083]
The operation of the above configuration will be described below.
[0084]
First, when water leakage is detected by the water leakage detection means 1 of the water leakage detection terminal 6, the control means 5 first reads the local station number from the local station number setting means 4, and transmits a water leakage generation command including the local station number to the transmission means 3 Then, the data is transmitted to the terminal transmission path 2. Then, the central controller 12 receives this water leakage occurrence command by the terminal unit receiving means 7, and as a result, the arithmetic control means 11 transmits the water leakage occurrence command to the shared part transmission path 9. As a result of this series of operations, the alarm sounding device connected to the shared section transmission line 9 sounds an alarm sound for water leakage.
[0085]
Next, once the water leakage is recovered and the water leakage occurs again at the same water leakage detection terminal 6, a water leakage occurrence command is similarly transmitted to the terminal transmission path 2. The central control unit 12 receives this in the same manner by the terminal unit receiving unit 7, but the arithmetic control unit 11 that detects that the clock unit 31 has not reached a certain time does not control the shared unit transmitting unit 10. The water leakage occurrence command will not be transmitted to the shared part transmitting means.
[0086]
Therefore, if it does not come after a certain time, even if water leaks again, the alarm sounding device connected to the shared part transmission path does not sound the water leakage alarm sound.
[0087]
(Embodiment 6)
FIG. 6 shows a block diagram of a sixth embodiment according to the present invention. The water leakage detection terminals 6 and 6 are installed in each dwelling unit of the apartment house, and the water leakage detection means 1 and terminal for detecting water leakage. It is composed of a transmission path 2, a local station number setting means 4 for setting different local station numbers in order to identify each water leak detection terminal 6, 6, and a control means 5. For centrally managing the information transmitted from the water leakage detection terminals 6 and 6 installed in each dwelling unit, and for transmitting a command to an alarm sounding device or the like installed in a management office on the shared section side The configuration is the same as that of the first embodiment in that the shared section transmission path 9, the shared section transmission means 10 that transmits a leakage occurrence command to the shared section transmission path 9, and the calculation control means 11 are configured.
[0088]
The difference from Embodiment 1 is that the water leakage detection terminals 6 and 6 have transmission / reception means 13 for transmitting / receiving commands of the terminal transmission path 2 instead of the transmission means 3, and water leakage occurs when water leakage occurs. When the generated command is transmitted, it is stored as mode 1, and when it is not transmitted, it is different in that it has the storage means 14 that stores it as mode 2.
[0089]
Further, the central control unit 12 replaces the terminal unit receiving unit 7 with the terminal unit transmitting / receiving unit 17 for transmitting / receiving commands of the terminal transmission path 2 and the clock unit for counting the current time instead of the time measuring unit 8. 31 is different.
[0090]
The operation of the above configuration will be described below.
[0091]
First, when water leakage is detected by the water leakage detection means 1 of the water leakage detection terminal 6, the control means 5 first confirms the operation mode in the storage means 14. The station number is read, and the transmission / reception means 13 is controlled to transmit the water leakage occurrence command including the station number to the terminal transmission line 2. Then, the central controller 12 receives this water leakage occurrence command by the terminal unit receiving means 17, and as a result, the arithmetic control means 11 transmits the water leakage occurrence command to the shared part transmission path 9 and also by the terminal part transmission / reception means 17. Then, a mode change command command is transmitted to the leak detection terminal so as to operate in mode 2. Then, the water leakage detection terminal 6 receives this command by the transmission / reception means 13 and changes the storage of the storage means 14 to mode 2 if it is a command for its own station. In addition, by these operations, the alarm sounding device connected to the common unit transmission line 9 sounds the alarm sound of water leakage.
[0092]
Next, when a leak occurs once again at the same leak detection terminal 6, the control means 5 does not transmit the leak occurrence command because the storage in the storage means 14 is mode 2. As a result, the alarm sounding device connected to the common part transmission path many times within a certain time does not sound the water leakage alarm sound.
[0093]
When it is detected that the time which is the clock means 31 of the central control device 12 is reached, the arithmetic control means 11 causes the terminal transmission / reception means 17 to operate the leak detection terminal 6 in the mode 1 so as to operate in the mode 1. Send. Then, the water leakage detection terminal receives this command by the transmission / reception means 13, and if it is a command for its own station, in order to change the memory of the storage means 14 to mode 1, it will be shared if the next water leakage occurs again. The alarm sounding device connected to the transmission line will sound an alarm sound for water leakage.
[0094]
(Embodiment 7)
FIG. 7 shows a block diagram of Embodiment 7 according to the present invention. The water leakage detection terminals 6 and 6 are installed in each dwelling unit of the apartment house, and the water leakage detection means 1 and terminal for detecting water leakage. It is composed of a transmission path 2, a local station number setting means 4 for setting different local station numbers in order to identify each water leak detection terminal 6, 6, and a control means 5. For centrally managing the information transmitted from the water leakage detection terminals 6 and 6 installed in each dwelling unit, and for transmitting a command to an alarm sounding device or the like installed in a management office on the shared section side The configuration is the same as that of the first embodiment in that the shared section transmission path 9, the shared section transmission means 10 that transmits a leakage occurrence command to the shared section transmission path 9, and the calculation control means 11 are configured.
[0095]
The difference from the first embodiment is that the water leakage detection terminals 6 and 6 have transmission / reception means 13 for transmitting / receiving commands of the terminal transmission path 2 instead of the transmission means 3, and an alarm sound when water leakage occurs. Is stored as mode 3, and when not ringing, it is different in that it has a storage means 20 that stores mode 4 and an alarm sound sounding means 21 that sounds an alarm sound when water leakage is detected. .
[0096]
In addition, the central control device 12 is replaced with the terminal unit receiving unit 7 as a terminal unit transmitting / receiving unit 17 that transmits / receives a command of the terminal transmission path 2 and a clock that counts the current time instead of the time measuring unit 8. The difference is that the means 31 is used.
[0097]
The operation of the above configuration will be described below.
[0098]
First, when water leakage is detected by the water leakage detection means 1 of the water leakage detection terminal 6, the control means 5 first reads the local station number from the local station number setting means 4, and transmits / receives a leakage occurrence command including the local station number to the transmission / reception means 13 Then, the control device 5 confirms the operation mode in the storage means 20 and, if the operation mode is 3, controls the alarm sounding means 21 to Sound a sound.
[0099]
Then, the central controller 12 receives the water leakage occurrence command by the terminal unit reception means 17, and as a result, the arithmetic control means 11 transmits the water leakage occurrence command to the shared part transmission path 9 and also by the terminal part transmission / reception means 17. A mode change command command is transmitted to the water leakage detection terminal 6 so as to operate in mode 4. Then, the water leakage detection terminal 6 receives this command by the transmission / reception means 13 and changes the storage of the local station means 20 to mode 4 if the command is for the local station. Further, by these operations, the alarm sounding device connected to the shared part transmission line 9 sounds the alarm sound of water leakage.
[0100]
Next, when water leaks again at the same water leak detection terminal 6, the control means 5 does not control the alarm sounding means 21 because the storage of the storage means 20 is mode 4, and the alarm means sounding means 21 is not controlled. Does not sound. In addition, a leak occurrence command is transmitted to the terminal transmission line 2, and the central control unit 12 receives the same in the terminal unit transmission / reception means 17, but the clock means 31 detects that it is not a certain time. Since the means 11 does not control the shared part transmitting means 10, the water leakage command is not transmitted to the shared part transmission path 9.
[0101]
Therefore, the alarm sounding device connected to the common part transmission path 9 several times a day does not sound the water leakage alarm sound.
[0102]
Further, when the clock means 31 of the central control device 12 detects that a certain time has come, the arithmetic control means 11 changes the mode so that the leakage detection terminal 6 operates in mode 3 by the terminal transmission / reception means 17. Send command command. Then, the water leakage detection terminal 6 receives this command by the transmission / reception means 13 and changes the storage of the storage means 20 to mode 3 if the command is for the own station. For this reason, when water leaks, the alarm sound sounding means 21 again sounds a water leak alarm sound.
[0103]
(Embodiment 8)
FIG. 8 shows a block diagram of an eighth embodiment according to the present invention. The water leakage detection terminals 6 and 6 are installed in each dwelling unit of the apartment house, and the water leakage detection means 1 and terminal for detecting water leakage. It is composed of a transmission path 2, a local station number setting means 4 for setting different local station numbers in order to identify each water leak detection terminal 6, 6, and a control means 5. For centrally managing the information transmitted from the water leakage detection terminals 6 and 6 installed in each dwelling unit, and for transmitting a command to an alarm sounding device or the like installed in a management office on the shared section side The configuration is the same as that of the first embodiment in that the shared section transmission path 9, the shared section transmission means 10 that transmits a leakage occurrence command to the shared section transmission path 9, and the calculation control means 11 are configured.
[0104]
The difference from the first embodiment is that the water leakage detection terminals 6 and 6 have transmission / reception means 13 for transmitting / receiving commands of the terminal transmission path 2 instead of the transmission means 3, and an alarm sound when water leakage occurs. The storage means 26 stores the mode 5 when transmitting the water leakage occurrence command and the mode 6 when the leakage alarm sound and the transmission of the water leakage generation command are not performed when the water leakage occurs. The difference is that it has an alarm sound sounding means 21 that sounds an alarm sound when water leakage is detected.
[0105]
In addition, the central control device 12 is replaced with the terminal unit receiving unit 7 as a terminal unit transmitting / receiving unit 17 that transmits / receives a command of the terminal transmission path 2 and a clock that counts the current time instead of the time measuring unit 8. The difference is that the means 31 is used.
[0106]
The operation of the above configuration will be described below.
[0107]
First, when water leakage is detected by the water leakage detection means 1 of the water leakage detection terminal 6, the control means 5 first confirms the operation mode in the storage means 26. If the operation mode is 5, the alarm sounding means 21 is controlled to alarm. A sound is generated, and the local station number is read from the local station number setting means 4, and a water leakage generation command including the local station number is controlled to be transmitted to the terminal transmission path 2 by the transmission / reception means 13.
[0108]
Then, the central controller 12 receives the water leakage occurrence command by the terminal unit reception means 17, and as a result, the arithmetic control means 11 transmits the water leakage occurrence command to the shared part transmission path 9 and also by the terminal part transmission / reception means 17. A mode change command command is transmitted to the water leakage detection terminal 6 so as to operate in mode 6. Then, the water leakage detection terminal 6 receives this command by the transmission / reception means 13 and changes the memory of the local station means 26 to mode 6 if the command is for the local station. Further, by these operations, the alarm sounding device connected to the shared part transmission line 9 sounds the alarm sound of water leakage.
[0109]
Next, when water leaks again at the same water leak detection terminal 6, the control means 5 does not control the alarm sounding means 21 because the storage of the storage means 26 is mode 6, and the alarm means sounding means 21 is not controlled. Does not sound. In addition, a leak occurrence command is not transmitted.
[0110]
Therefore, the alarm sounding device connected to the common part transmission path 9 many times a day does not sound the water leakage warning sound.
[0111]
When the clock means 31 of the central controller 12 detects that a certain time has come, the arithmetic control means 11 changes the mode so that the leakage detection terminal 6 operates in the mode 5 by the terminal transmission / reception means 17. Send command command. Then, the water leakage detection terminal 6 receives this command by the transmission / reception means 13 and changes the storage of the storage means 26 to mode 3 if it is a command for its own station. For this reason, when a water leak occurs, the alarm sound sounding means 21 again sounds a water leak alarm sound and also transmits a water leak generation command.
[0112]
In the above description, the central control device 12 transmits a water leakage occurrence command to the common unit transmission line 10 so that the alarm sounding device connected to the common unit transmission line 9 sounds a water leakage alarm sound. However, even if the common part transmitting means is replaced with a water leakage alarm generating means, and the central control device itself sounds an alarm sound when a water leakage occurrence command is received, it does not affect the gist of the present invention.
[0113]
Further, although the transmission of the water leakage occurrence command only when the water leakage occurs has been described, the operation of transmitting the water leakage recovery command at the time of the water leakage recovery does not affect the gist of the present invention.
[0114]
Furthermore, in the above description, it has been described on the assumption that a warning sound ringing device that rings a warning sound via the shared part transmission path 9 upon reception of a water leakage occurrence command is provided in the management office. Considering the case of reporting to a remote security management center or the like via a telephone line, it is possible to prevent repeated reporting and frequent addition of telephone charges.
[0115]
【The invention's effect】
As described above, according to the present invention, after detecting a water leak and sounding an alarm sound, the alarm sound is sounded only after a certain period of time or when water leaks again after a certain time. It is possible to prevent the alarm sound from being sounded many times.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a water leakage detection device according to a first embodiment of the present invention.
FIG. 2 is a block diagram showing a configuration of a water leakage detection device according to a second embodiment of the present invention.
FIG. 3 is a block diagram showing a configuration of a water leakage detection device according to a third embodiment of the present invention.
FIG. 4 is a block diagram showing a configuration of a water leakage detection device according to a fourth embodiment of the present invention.
FIG. 5 is a block diagram showing a configuration of a water leakage detection device according to a fifth embodiment of the present invention.
FIG. 6 is a block diagram showing a configuration of a water leakage detection device according to a sixth embodiment of the present invention.
FIG. 7 is a block diagram showing a configuration of a water leakage detection device according to a seventh embodiment of the present invention.
FIG. 8 is a block diagram showing a configuration of a water leakage detection device according to an eighth embodiment of the present invention.
[Explanation of symbols]
1 Water leakage detection means
2 Terminal transmission line
3 Transmission means
4 Local number setting means
5 Control means
6 Water leakage detection terminal
7 Terminal unit receiving means
8 Timekeeping means
9 Common part transmission line
10 Common part transmission means
11 Calculation control means
12 Central controller
13 Transceiver
14, 20, 26 Storage means
17 Terminal section transmission / reception means
21 Alarm sounding means
31 Clock means

Claims (8)

A plurality of water leakage detection terminals each having an operation mode of mode 1 for transmitting a water leakage occurrence command at the time of water leakage and mode 2 for not transmitting a water leakage occurrence command at the time of water leakage;
When a leak occurrence command is received from one leak detection terminal among the leak detection terminals, the leak detection command is transmitted to the common part transmission path while instructing the one leak detection terminal to operate in the mode 2. A central control device that commands the one water leakage detection terminal to operate in the mode 1 after a predetermined time;
A water leakage detection device characterized by comprising: A plurality of water leakage detection terminals each having a mode 5 for sounding a water leakage warning sound and transmitting a water leakage occurrence command when a water leakage occurs, and a mode 6 for not sounding the water leakage warning sound and transmitting the water leakage occurrence command when a water leakage occurs; ,
When a leak occurrence command is received from one of the leak detection terminals among the leak detection terminals, the leak detection command is sent to the common part transmission line while instructing the one leak detection terminal to operate in the mode 6, A water leakage detection device comprising: a central control device that commands the one water leakage detection terminal to operate in the mode 5 after a predetermined time has elapsed. A plurality of leakage detection terminals each having an operation mode of mode 1 for transmitting a leakage occurrence command when a leakage occurs and mode 2 for not transmitting a leakage occurrence command when a leakage occurs;
When a leak occurrence command is received from one leak detection terminal among the leak detection terminals, the leak detection command is transmitted to the common part transmission path while instructing the one leak detection terminal to operate in the mode 2. A central controller that commands the one water leakage detection terminal to operate in the mode 1 when a certain time comes;
A water leakage detection device characterized by comprising: A plurality of water leakage detection terminals each having a mode 5 for sounding a water leakage warning sound and transmitting a water leakage occurrence command when a water leakage occurs, and a mode 6 for not sounding the water leakage warning sound and transmitting the water leakage occurrence command when a water leakage occurs; ,
When a leak occurrence command is received from one of the leak detection terminals among the leak detection terminals, the leak detection command is sent to the common part transmission line while instructing the one leak detection terminal to operate in the mode 6, A central controller that commands the one water leakage detection terminal to operate in the mode 5 at a certain time;
A water leakage detection device characterized by comprising: Each of the plurality of water leak detection terminals
A leakage detection means for detecting leakage, transmission / reception means for transmitting a leakage occurrence command to the terminal transmission path and receiving a command from the terminal transmission path, and a case of transmitting a leakage occurrence command to the terminal transmission path when a leakage occurs. When the mode 1 is set and the transmission is not performed, the storage means for storing the mode 2 and the output of the leakage detection means are input, and the leakage of the terminal transmission line is detected only when the storage means stores the mode 1 when the leakage occurs. And a control means for controlling the transmission / reception means to transmit the generated command,
The central control unit
When it is determined that a water leakage occurrence command is received from the terminal transmission path and a terminal section transmission / reception means for transmitting the command to the transmission / reception means via the terminal transmission path, and a water leakage occurrence command is received by the terminal transmission / reception means Time counting means for starting the timer count and outputting information indicating that a certain period of time has elapsed, common part transmitting means for transmitting the water leakage occurrence command to the common part transmission path, and water leakage detection of one of the water leakage detection terminals decodes the leakage generation command received via the terminal Den sending passage by the terminal unit receiving means of the terminal, controls the duplexer transmitting means to transmit the fact of reception of the leakage occurrence command to the shared portion transmission path And transmitting a mode change command command to operate in mode 2 to the one water leakage detection terminal by the terminal transmission / reception means, and Wherein and a calculation control means for controlling so as to transmit a mode change instruction command to operate in mode 1 on one of the water leakage detecting terminal constituted by the terminal portion transmitting and receiving means after a predetermined time clocked by the time unit,
Control means of said leak detection terminal, according to claim 1, characterized in that to perform the memory changes when said storage means for receiving the mode change command commands via the terminal transmission path from the arithmetic control unit Water leakage detection device. Each of the plurality of water leak detection terminals
Water leakage detection means for detecting water leakage, transmission / reception means for transmitting a water leakage occurrence command to the terminal transmission path and receiving a command from the terminal transmission path, alarm sound sounding means for sounding an alarm sound when water leakage is detected, and water leakage occurrence If the alarm sound is sometimes sounded and the water leakage occurrence command is transmitted, the mode is set to 5. If the alarm sound is not sounded and the water leakage occurrence command is not transmitted, mode 6 is stored, and the output of the water leakage detection means is stored. enter a, by the warning sound sounding means only if it is stored as mode 5 in the storage means when water leakage occurs by sounding an audible alarm, and controls the transmission and reception means to transmit the leakage generation command to the terminal transmission line And having a control means,
The central control unit
When it is determined that a water leakage occurrence command is received from the terminal transmission path and a terminal section transmission / reception means for transmitting the command to the transmission / reception means via the terminal transmission path, and a water leakage occurrence command is received by the terminal transmission / reception means Time counting means for starting the timer count and outputting information indicating that a certain period of time has elapsed, common part transmitting means for transmitting the water leakage occurrence command to the common part transmission path, and water leakage detection of one of the water leakage detection terminals decodes the leakage generation command received via the terminal Den sending passage by the terminal unit receiving means of the terminal, controls the duplexer transmitting means to transmit the fact of reception of the leakage occurrence command to the shared portion transmission path A mode change command command is transmitted so that the terminal unit transmitting / receiving means operates in mode 6 to the one water leakage detection terminal. Constitute and an arithmetic control unit for controlling to transmit the mode change command commands to operate in mode 5 to the one leak detection terminal by the terminal unit transceiver means after a predetermined time clocked by the serial clock means,
The water leakage detection device according to claim 2 , wherein when the control unit of the water leakage detection terminal receives a mode change command command from the terminal transmission path, the memory change of the storage unit is performed. Each of the plurality of water leak detection terminals
A leakage detection means for detecting leakage, transmission / reception means for transmitting a leakage occurrence command to the terminal transmission path and receiving a command from the terminal transmission path, and a case of transmitting a leakage occurrence command to the terminal transmission path when a leakage occurs. When the mode 1 is set and the transmission is not performed, the storage means for storing the mode 2 and the output of the leakage detection means are input, and the leakage of the terminal transmission line is detected only when the storage means stores the mode 1 when the leakage occurs. And a control means for controlling the transmission / reception means to transmit the generated command,
The central control unit
A terminal unit transmission / reception unit that receives a water leakage occurrence command from the terminal transmission line and transmits the command to the transmission / reception unit via the terminal transmission line, a clock unit that counts a current time, and a water leakage in a common unit transmission line a common unit transmitting means for transmitting the generated command, decodes the leakage generation command received via the terminal Den sending passage by receiving means of one leak detection terminal of said leak detection terminal, received the leakage occurrence command The common part transmission means is controlled to transmit a message to the common part transmission line, and when the leak detection command is received again from the one leak detection terminal by the terminal transmission / reception means, the one leak detection terminal A mode change command command is transmitted so as to operate in mode 2, and the terminal unit of the one water leakage detection terminal is transmitted and received at a certain time by the clock means. Constitute and an arithmetic control unit for controlling to transmit the mode change command commands to operate in mode 1 on one of the water leakage detecting terminal via the terminal transmission line by means,
4. The water leakage detection device according to claim 3, wherein when the control means receives a mode change command command from the arithmetic control means via the terminal transmission line, the storage means is changed. . Each of the plurality of water leak detection terminals
Water leakage detection means for detecting water leakage, transmission / reception means for transmitting a water leakage occurrence command to the terminal transmission path and receiving a command from the terminal transmission path, alarm sound sounding means for sounding an alarm sound when water leakage is detected, and water leakage occurrence If the alarm sound is sometimes sounded and the water leakage occurrence command is transmitted, the mode 5 is set. On the contrary, if the sound of the ringing sound and the water leakage occurrence command are not transmitted, the storage means stores the mode 6 and the water leakage detection means. A control means for inputting an output and causing the alarm sound to be sounded by the alarm sound sound means only when mode 5 is stored in the storage means at the time of occurrence of water leakage,
The central control unit
Receives a water leakage occurrence command from the terminal transmission line and transmits the command to the transmission / reception means via the terminal transmission line, clock means for counting the current time, and occurrence of water leakage in the common part transmission line a common unit transmitting means for transmitting a command, decodes the leakage generation command of one leak detection terminal of said leak detection terminal received via the terminal Den sending passage by the terminal portion transmitting and receiving means, the water leakage occurs command Is transmitted to the shared part transmission path, and a mode change command command is sent to the one water leakage detection terminal to operate in mode 6 by the terminal part transmitting / receiving means. A mode change command command is transmitted to the one water leakage detection terminal so as to operate in mode 5 when the time is reached by the clock means. Constitute and an arithmetic control unit for controlling so as to transmit via,
5. The water leakage detection device according to claim 4, wherein when the control means receives a mode change command command from the arithmetic control means via the terminal transmission line, the storage means is changed. .

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