JP3940630B2 - Gas leak reporting stop device and gas leak alarm - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a gas leak detector that detects a gas leak and issues an alarm, and a gas leak report stop device that stops a gas leak report based on an alarm issued by the gas leak alarm device.
[0002]
[Prior art]
  Currently, gas leak alarms that detect gas leaks and issue alarms are widely used. The gas leak alarm notifies the user that a gas leak has occurred by, for example, sounding a buzzer when a gas leak is detected. There are two types of gas leak alarms, one installed in a facility where a plurality of households and tenants are in one building, and one installed in each household.
[0003]
  FIG. 9A shows a configuration in which the gas leak alarm 1 is provided in a facility (a condominium or a tenant building) where a plurality of homes or tenants are located. Moreover, (b) has shown the structure which provided the gas leak alarm 1 in each household. The configurations shown in (a) and (b) both notify that a gas leak has occurred by a method such as sounding a buzzer when the gas leak alarm 1 detects a gas having a predetermined concentration or more.
[0004]
  The sounding of the buzzer continues for a predetermined time (for example, 45 seconds). If the gas falls below a predetermined concentration during that time, the gas leak alarm stops and the gas leak alarm 1 is automatically restored. On the other hand, if the gas does not fall below the predetermined concentration within a predetermined time, the monitoring device 3 is notified that a gas leak has occurred. The monitoring device 3 is further connected to a monitoring center 4 at a predetermined report destination such as a security company via a telephone line or a network line (referred to as a network line N in the first embodiment), and a gas leak report is sent to the network. It is transmitted to the monitoring center 4 via the line N.
[0005]
  Moreover, in the structure which provided the gas leak alarm 1 in the apartment etc., as shown in FIG.9 (b), the alarm display panel 2 is provided between the gas leak alarm 1 and the monitoring apparatus 3. As shown in FIG. The alarm display panel 2 is provided in a manager room or the like that manages the entire facility, and is configured to notify the manager of gas leaks in a plurality of homes or tenants. When the alarm display panel 2 is provided, the recovery method after the gas leak alarm device 1 reports is that the administrator performs a predetermined operation on the alarm display panel 2 and sends a recovery signal to the gas leak alarm device 1. Done by sending. The gas leak alarm device 1 is configured to recover by a recovery signal from the alarm display panel 2 without being recovered even if the gas concentration becomes a predetermined value or less when a report is made.
[0006]
  The process performed by the conventional gas leak alarm 1 described above is shown as a flowchart in FIG. According to the illustrated flowchart, when the gas leak alarm 1 detects a gas leak (step S1), the buzzer is sounded (step S2). If the gas concentration falls below the predetermined concentration within a predetermined time, the gas leak alarm device is set (restored) again so that a gas leak alarm can be made (step S4), and the buzzer is stopped ( Step S10). If the gas concentration does not fall below the predetermined concentration, an alarm is issued (step S6), and the monitoring device is notified to the outside that a gas leak has occurred. After that, when a recovery signal is input from the alarm display panel 2 by an operation of an administrator or the like (step S7: Yes), the gas concentration detected by the gas leak alarm device 1 is less than a predetermined level and is restored to a safe state. If (step S8: Yes), the gas leak alarm 1 is restored (step S9).
[0007]
[Problems to be solved by the invention]
  However, the gas leak alarm device 1 may issue an alarm by detecting volatile components contained in alcohol or spray used in cooking. In the case of such a gas, in each household, although the resident can immediately understand that the alarm is an alarm due to a false detection (misinformation), the gas cannot be eliminated within a predetermined time, and the monitoring device 3 Gas leak may be reported. Note that it is possible to extend the predetermined time until the alarm is output, and to ensure sufficient time to eliminate the gas in the case of false alarms, but the alarm output is delayed when a gas leak actually occurs. Therefore, the predetermined time cannot be extended unnecessarily.
[0008]
  Furthermore, when a gas leak is reported to the alarm display panel 2, the manager must restore the gas leak alarm 1 after confirming that the report is a false report. Further, at the place where the warning display panel 2 is installed, there is a case where a gas leak has occurred to other households or tenants in the facility for the purpose of preventing damage expansion, but a false alarm is sent to the warning display panel 2. Then, there is a concern that other households and tenants in the facility will be notified that a gas leak has occurred, giving an unnecessary sense of anxiety to others.
[0009]
  The present invention has been made in order to solve the above-described problems, and prevents gas leak alarms caused by misreports, thereby reducing the load on the management side and improving the reliability of alarms. A first object is to provide a report stop device and a gas leak alarm. It is a second object of the present invention to provide a gas leak notification stop device that can more easily restore the gas leak alarm.
[0010]
[Means for Solving the Problems]
  In order to solve the above-described problems and achieve the object, a gas leak notification stop device according to the invention of claim 1 is provided:A gas leak alarm stop device connected to a gas leak alarm device that detects gas leak and an alarm display panel that displays gas leak when a report signal reporting the occurrence of gas leak is input,An alarm input means for inputting a gas leak alarm from a gas leak alarm device, an operation means for invalidating the gas leak alarm input by the alarm input means, and a gas leak when the operation means is operated. The recovery signal for setting the gas leak alarm device that has detected the gas leak to be detected again is input to the gas leak alarm device for a predetermined time, thereby outputting a report signal for reporting the occurrence of the gas leak for a predetermined time. And a reporting stop means for stopping.
[0011]
  According to the first aspect of the present invention, the gas leak alarm can be invalidated by operating the operating means. In addition, when the operation means is operated, a recovery signal for setting the gas leak alarm device that has detected the gas leak to a state in which the gas leak can be detected again is input to the gas leak alarm device for a predetermined time, and the gas leak alarm device is turned on. Sufficient time can be secured for recovery, and the gas leak alarm can be easily recovered.
[0012]
  According to a second aspect of the present invention, there is provided the gas leak notification stopping device according to the first aspect, wherein the notification stop means is within a predetermined time after the operation means is operated. When the gas leak alarm is not input by the alarm input means, the recovery signal is not input to the gas leak alarm device.
[0013]
  According to the second aspect of the present invention, even when the operation means is operated by mistake, if the alarm signal is not input within a predetermined time, the notification stop means ends the process without outputting the recovery signal. In addition, when a gas leak occurs after operating the operating means due to an erroneous operation by the user, it is possible to prevent a gas leak alarm from being displayed and to notify the gas leak appropriately.
[0014]
  According to a third aspect of the present invention, there is provided the gas leak notification stop device according to the first or second aspect, wherein the notification stop means is a predetermined device after the operation means is operated. When the operation means is operated again in time, the recovery signal is input to the gas leak alarm device for a predetermined time after the operation means is operated again, thereby outputting the notification signal to a predetermined time. It is characterized by stopping time.
[0015]
  According to the third aspect of the present invention, when the gas concentration cannot be reduced below the concentration determined to be a gas leak within a preset time, the notification stop means is operated again to extend the notification stop time. If the user can determine that the gas is not leaking, such as alcohol or spray used for cooking, the notification can be stopped until the alcohol or spray concentration is reduced, and erroneous reporting can be prevented.
[0016]
  Claim4The gas leak alarm device according to the invention described in claim 1 includes a gas leak detection means for detecting a gas leak, and a report signal for reporting to the outside that a gas leak has occurred when the gas leak detection means detects the gas leak. A gas leak alarm device comprising: a reporting means for outputting; a reporting stop operation means for performing an operation for stopping reporting by the reporting means; and a predetermined time when the reporting stop operation means is operated. The notification stop time timing means for timing, and during the measurement of a predetermined time by the notification stop time timing means,By inputting a recovery signal to the gas leak detection means that sets the gas leak detection means that has detected the gas leak to a state in which the gas leak can be detected again,And a reporting stop means for stopping the reporting signal output by the reporting means.
[0017]
  This claim4According to the invention described in the above, by operating the notification stop operation means, it is possible to stop the notification by the notification means for outputting a notification signal for reporting to the outside that a gas leak has occurred for a predetermined time. In addition, when the notification stop operation means is operated, a sufficient time can be secured to restore the gas leak alarm, and the gas leak alarm can be easily restored.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
  Embodiments 1 and 2, which are preferred embodiments of a gas leak notification stop device and a gas leak alarm according to the present invention, will be described in detail below with reference to the accompanying drawings.
[0019]
(Embodiment 1)
  FIG. 1 is a diagram for explaining a configuration to which a report stop unit 105 that is a gas leak report stop apparatus according to Embodiment 1 is applied. FIG. 1 (a) shows a plurality of gas leak alarm devices 101 in one facility ( In the present embodiment, it is a condominium). Moreover, (b) is the figure which showed the structure which provided the gas leak alarm 101 in the single household.
[0020]
  The configuration shown in FIG. 1 (a) and the configuration shown in FIG. 1 (b) are both a gas leak alarm 101, a report stop unit 105 that stops the alarm output of the gas leak alarm 101 for a predetermined time, and a gas. A monitoring device 103 that monitors the operation of the leakage alarm device 101 and a monitoring center 104 that is in a security company and is connected to the monitoring device 103 via a network line N are provided. And the structure which provided the gas leak alarm device 101 in the apartment shown to (a) is equipped with the alarm display panel 102 which is not in (b) between the notification stop part 105 and the monitoring apparatus 103. FIG. Hereinafter, in Embodiment 1, the configuration of FIG. 1A in which the gas leak alarm device 101 is provided in an apartment or the like will be described.
[0021]
  The gas leak alarm device 101 includes a sensor that detects the gas concentration, a buzzer that sounds when the sensor detects a gas having a predetermined concentration or more, and a device that outputs a signal for issuing an alarm. Since the sensor, the buzzer, and the signal output device are all well-known structures, a detailed description thereof will be omitted.
[0022]
  The report stop unit 105 includes a button, a switch, or the like provided near the gas leak alarm device 101 operated by a resident (user) of each household to stop the transmission of the gas leak alarm to the monitoring device 103. When the report stop unit 105 is operated, a gas leak report output from the gas leak alarm device 101 is not transmitted to the alarm display panel 102 or the monitoring device 103 for a predetermined time. Moreover, the operation | movement which restores the gas leak alarm 101 is performed.
[0023]
  FIG. 2 is a block diagram for explaining the configuration of the report stop unit 105. The report stop unit 105 includes an input / output unit 201 for transmitting / receiving a signal to / from the gas leak alarm 101, an input / output unit 203 for transmitting / receiving a signal to / from the alarm display panel 102, and a user to input a report stop instruction. The operation unit 202 which is a button or switch part of the above, a timer 206 which measures a predetermined time by operation of the operation unit 202, a control unit 204 which controls the above configuration, a program used for processing of the control unit 204, and the like are stored. The storage unit 205 is provided.
[0024]
  Of the above configuration, the input / output unit 201 inputs an alarm signal indicating the occurrence of gas leakage from the gas leakage alarm device 101. The operation unit 202 is configured to perform an operation of invalidating the alarm signal input by the input / output unit 201. Note that the invalidation of the alarm signal in the first embodiment is a state in which an alarm signal is not input to an output destination such as an alarm display panel even if the alarm signal is output from the gas leak alarm 101, or the output destination is not operated by the alarm signal. It means to make. The invalidation of the warning signal is executed by the control unit 204 when the operation unit 202 is operated.
[0025]
  In the first embodiment, the alarm signal is invalidated, and the gas leak alarm device 101 that has detected the gas leak via the input / output unit 201 is set to a state in which the gas leak can be detected again (recovered). A signal is input to the gas leak alarm 101 for a predetermined time. When an operation for invalidating the alarm signal is performed, the monitoring device 103 and the monitoring center 104 are not notified of the occurrence of gas leakage. For this reason, in this specification, invalidation of an alarm signal is also referred to as stoppage of a report.
[0026]
  The above configuration operates as follows. When the gas leak alarm 101 detects a gas leak, the gas leak alarm 101 sounds a buzzer and starts measuring a first predetermined time (for example, 45 seconds). At this time, when a user who knows the operation of the gas leak alarm device 101 by operating the buzzer operates the operation unit 202 to instruct to stop the notification, the notification stop unit 105 causes the timer 206 to perform a second predetermined time (for example, 3 minutes). ). Then, the gas leak alarm device 101 inputs the alarm signal a to the notification stop unit 105 via the input / output unit 201 after the first predetermined time elapses, but the alarm signal a until the second predetermined time elapses. Is not transmitted to the alarm display panel 102. In addition, the reporting stop unit 105 outputs a recovery signal to the gas leak alarm device while measuring the second predetermined time, and the gas leak alarm device 101 has a gas concentration that is lower than the predetermined value while receiving the recovery signal. Returns to normal. The gas leak alarm device 101 automatically recovers and stops the buzzer sounding if the gas concentration falls below a predetermined value during the first predetermined time.
[0027]
  When the operation unit 202 is not operated even after the first predetermined time has elapsed and the alarm signal a is output from the gas leak alarm 101, the alarm signal a is output from the alarm display panel 102 via the notification stop unit 105. To enter. When the alarm signal “a” is input, the alarm display panel informs the manager of where the gas leak has occurred, and notifies a predetermined reporting destination via the monitoring device. When an administrator who knows the gas leak alarm confirms that the gas leak alarm is a false alarm, or that the gas leak has been recovered and is in a safe state, the administrator operates the alarm display panel 102 and outputs a recovery signal b. The information is output and input to the gas leak alarm device 101 via the notification stop unit 105.
[0028]
  FIG. 3 is a flowchart for explaining the processing performed in the first embodiment described above, and particularly shows the processing performed by the notification stopping unit 105 in the first embodiment.
[0029]
  The control unit 204 of the notification stop unit 105 determines whether or not the operation unit 202 has been operated (step S301). When the operation unit 202 is not operated (step S301: No), it is determined whether or not the alarm signal a is input from the gas leak alarm 101 (step S306). When the alarm signal a is input, an alarm is issued. The signal a is output to the alarm display panel 102 (step S307). If the alarm signal a is not input (step S306: No), the process waits until the alarm signal a is input.
[0030]
  As a result of the determination in step S301, when the operation unit 202 is operated (step S301: Yes), the timer 206 starts counting time (second predetermined time) (step S302). Further, the control unit 204 outputs the recovery signal b from the input / output unit 201 to the gas leak alarm device 101 until the time measurement by the timer 206 is completed (step S303), and stops the output of the alarm signal a.
[0031]
  Furthermore, the control unit 204 determines whether or not the measurement of the predetermined time has ended, that is, whether or not the predetermined time has elapsed (step S304). As a result, when it is determined that the predetermined time has elapsed (step S304: Yes), the time measurement by the timer 206 is terminated (step S305), and the process is terminated.
[0032]
  The notification stop unit 105 according to the first embodiment described above is configured so that the gas leak is notified to the monitoring device 103 when the user operates the operation unit 202 after the buzzer of the gas leak alarm sounds. Can be stopped. For this reason, Embodiment 1 does not report to the outside that a gas leak has been detected when the alarm is a false alarm or when the gas leak alarm can be restored by ventilation. With such processing, the first embodiment can provide a gas leak notification stopping device that reduces the burden on the administrator of the gas leak alarm and increases the reliability of the gas leak alarm.
[0033]
  Furthermore, the notification stop unit 105 of the first embodiment invalidates the alarm signal a issued by the gas leak alarm using the recovery signal b. For this reason, even when the gas leak alarm 101 detects a gas leak, the recovery signal can be output to the gas leak alarm 101 to restore the gas leak alarm 101. For this reason, the configuration to which the report stop unit 105 of the first embodiment is applied is a simple gas leak when the gas leak alarm 101 detects the gas leak and the gas leak is not reported to the alarm display panel 102. The alarm device 101 can be restored.
[0034]
  Next, another process performed by the report stop unit 105 will be described with reference to FIG. The flowchart shown in FIG. 4 is obtained by adding processing for ending processing without operating when the operation unit 202 is operated by mistake to the flowchart shown in FIG.
[0035]
  The control unit 204 of the notification stop unit 105 determines whether or not the operation unit 202 has been operated (step S401). When the operation unit 202 is not operated (step S401: No), it is determined whether or not the alarm signal a is input from the gas leak alarm 101 (step S411). If the alarm signal a is input, an alarm is issued. The signal a is output to the alarm display panel 102 (step S412). If the alarm signal a is not input (step S411: No), the process waits until the alarm signal a is input.
[0036]
  If the operation unit 202 is operated as a result of the determination in step S401 (step S401: Yes), the timer 206 starts measuring a third predetermined time by the third timer (step S402). Then, it is determined whether or not the alarm signal a is input during the measurement of the third predetermined time (step S403), and when the alarm signal a is output, the time measurement by the third timer is ended (step S404). If the alarm signal a is not input (step S403: No), it is determined whether a third predetermined time has elapsed (step S409).
[0037]
  If it is determined in step S409 that the third predetermined time has elapsed (step S409: Yes), the time measurement by the third timer is terminated (step S410), and the process is terminated. According to such a process, even when the user operates the operation unit 202 by mistake, if the alarm signal is not input within the third predetermined time, the notification stop unit 105 does not output the recovery signal, and the process is performed. Exit. For this reason, it is possible to prevent the notification stop unit 105 from operating due to a user's erroneous operation.
[0038]
  In addition, after the time measurement of the third timer in step S404 is completed, the notification stop unit 105 starts time measurement of the second timer (step S405). Further, the control unit 204 outputs the recovery signal b from the input / output unit 201 to the gas leak alarm 101 until the time measurement by the timer 206 ends (step S406), and stops the output of the alarm signal a.
[0039]
  Further, the control unit 204 determines whether or not the second predetermined time has elapsed (step S407). As a result, when it is determined that the second predetermined time has elapsed (step S407: Yes), the time measurement by the second timer is terminated (step S408), and the process is terminated.
[0040]
  Next, still another process performed by the report stop unit 105 will be described with reference to FIG. The flowchart shown in FIG. 5 is obtained by adding processing for extending the time for which the notification is stopped when the gas leak alarm 101 cannot be recovered within the set time to the flowchart shown in FIG. .
[0041]
  The control unit 204 of the report stop unit 105 determines whether or not the operation unit 202 has been operated (step S501). When the operation unit 202 is not operated (step S501: No), it is determined whether or not the alarm signal a is input from the gas leak alarm 101 (step S508), and an alarm is issued when the alarm signal a is input. The signal a is output to the alarm display panel 102 (step S509). If alarm signal a is not input (step S508: No), the process waits until alarm signal a is input.
[0042]
  As a result of the determination in step S501, when the operation unit 202 is operated (step S501: Yes), the timer 206 starts measuring a predetermined time (step S502). Then, during the measurement of the predetermined time, the recovery signal b is output to the gas leak alarm 101 (step S503), and it is determined whether or not the predetermined time has elapsed (step S504). When it is determined that the predetermined time has elapsed (step S504: Yes), the time measurement by the timer 206 is terminated (step S505), and all the processes are terminated.
[0043]
  If it is determined in step S504 that the predetermined time has not elapsed (step S504: No), the control unit 204 subsequently performed an operation for stopping the report again on the operation unit 202. It is determined whether or not (step S506). As a result of this determination, if it is determined that a notification stop operation has not been performed (step S506: No), the output of the recovery signal is continued (step S503).
[0044]
  On the other hand, when it is determined in step S506 that the operation unit 202 has been operated again (step S506: Yes), the control unit 204 resets the time count of the timer 206 (step S507). The timer 206 starts counting a predetermined time again when it is reset. Then, the report stop unit 105 outputs a recovery signal to the gas leak alarm device 101 while the timer 206 measures the time.
[0045]
  According to such a process, the time measured by the timer 206 is longer than the predetermined time by the time already counted at the time when the time is reset, and the time for stopping the notification is increased. Therefore, the user can extend the notification stop time by operating the notification stop unit 105 again when the gas concentration cannot be reduced below the concentration determined to be a gas leak within a preset time.
[0046]
(Embodiment 2)
  The second embodiment describes a gas leak alarm device in which the configuration of the notification stop unit described in the first embodiment is integrated into a gas leak alarm device. In the second embodiment, the same components as those described in the first embodiment are denoted by the same reference numerals, and the description thereof is partially omitted.
[0047]
  FIG. 6 is a diagram for explaining a configuration to which the gas leak alarm device 601 of the second embodiment is applied. FIG. 6A shows a configuration in which a plurality of gas leak alarm devices 601 are arranged in an apartment. Moreover, (b) is the figure which showed the structure which provided the gas leak alarm device 601 in the single household. The gas leak alarm 601 includes a report stop unit 601a that disables the alarm issued by the gas leak alarm 601 for a predetermined time and stops reporting the gas leak.
[0048]
  FIG. 7 is a block diagram for explaining the configuration of the gas leak alarm 601. The gas leak alarm 601 includes a detection unit 701 that detects a gas leak by detecting a gas having a predetermined concentration or more, a determination unit 702 that determines whether the detection of the detection unit 701 is a malfunction, and a detection unit 701 that includes a determination unit 702. For example, a notification unit 703 for sounding a buzzer, an operation unit 704 for performing an operation to stop notification of the input / output unit 708, and an operation unit 704 are operated for a predetermined time. A timer 707 for timing, an input / output unit 708 for reporting the occurrence of gas leakage to the outside, a control unit 705 for controlling the above configuration, and a storage unit 706 for storing data and programs used in the processing of the control unit 705 I have. Of the above configuration, the input / output unit 708, the operation unit 704, the control unit 705, the storage unit 706, and the timer 707 constitute the notification stop unit 601a of the second embodiment.
[0049]
  The input / output unit 708 outputs an alarm signal a to the alarm display panel 102 and inputs a recovery signal b output from the alarm display panel 102. The recovery signal b of the second embodiment is used only for recovery of the gas leak alarm 601. In addition, the control unit 705 controls the input / output unit 708 to stop the output of the alarm signal a, for example, while the timer 707 measures time.
[0050]
  In addition, the determination unit 702 performs a process called an accumulation operation in order to determine whether the detection by the detection unit 701 is performed by detecting a gas leak or a malfunction caused by detecting a substance other than gas. . In the accumulation operation here, it is determined that a gas leak is detected when a gas having a concentration higher than that determined to be a gas leak is detected continuously for a predetermined time, and a problem occurs if the gas concentration falls within the predetermined time. It is determined that there is no gas leak alarm 601 and is restored.
[0051]
  Further, the buzzer sounding by the notification unit 703 continues until the determination unit 702 restores the gas leak alarm 601 or the restoration signal b is input from the alarm display panel 102 to the input / output unit 708.
[0052]
  The gas leak alarm according to the second embodiment described above can reduce the burden on the manager of the gas leak alarm and improve the reliability of the gas leak alarm.
[0053]
  FIG. 8 is a flowchart for explaining the processing performed in the second embodiment described above.
[0054]
  As shown in FIG. 8, the gas leak alarm 601 determines whether or not a gas leak has been detected (step S801). If no gas leak is detected (step S801: No), the detection operation is repeated. If a gas leak is detected (step S801: Yes), the buzzer is sounded (step S802), and time measurement by the first timer is started (step S803). The first timer is a timer that measures a first predetermined time, which is a holding time from when the gas leak alarm 601 detects a gas leak until it outputs an alarm. If the gas leak detection is a false alarm, the user operates the operation unit 704 during the holding time to eliminate the gas that caused the false alarm.
[0055]
  Thereafter, the gas leak alarm 601 determines whether or not the concentration of the detected gas has become equal to or lower than a predetermined level and the safe state has been restored (step S804). When the gas concentration is equal to or lower than the predetermined value (step S804: Yes), the buzzer sounding of the gas leak alarm 601 is stopped (step S805), and the time measurement of the first timer is stopped (step S806).
[0056]
  Further, when the gas leak alarm device 601 determines that the concentration of the detected gas is not lower than the predetermined value and has not been restored to a safe state (step S804: No), it determines whether the operation unit 704 has been operated. (Step S807). If it is determined that the operation unit 704 has been operated (step S807: Yes), the time measurement of the first timer is stopped (step S808), and the time measurement by the second timer is started (step S809). The second timer is a timer that measures a second predetermined time, which is a time during which the notification is stopped by the notification stop unit 601a.
[0057]
  When the time measurement by the second timer is started, the notification stop unit 601a does not output an alarm to the alarm display panel 102 or the monitoring device 103, and outputs a recovery signal to the gas leak alarm 601. A trigger is given to restore the system to the normal state (step S810). The restoration signal is output until the second predetermined time has elapsed (step S811), and the timing of the second timer is stopped (step S812). Thereafter, the gas leak alarm device 601 determines whether or not the concentration of the detected gas has fallen by a predetermined value and is restored to a safe state (step S813).
[0058]
  As a result of the determination in step S813, when the gas leak alarm 601 has been restored (step S813: Yes), the gas leak alarm 601 is restored to a state where it can detect the gas leak again (step S814). The alarm device 601 ends all processing.
[0059]
  Further, as a result of the determination in step S813, when it is determined that the gas leak alarm 601 cannot be recovered (step S813: No), the report stop unit 601a stops outputting the recovery signal to the gas leak alarm 601 and displays an alarm display. An alarm signal a is output to the panel 102 (step S817). As a result, the alarm display panel 102 notifies the monitoring device 103 that a gas leak has occurred.
[0060]
  Thereafter, the gas leak alarm 601 determines whether or not the restoration signal b is input to the gas leak alarm 601 (step S818). If the recovery signal b is input as a result of this determination (step S818: Yes), it is determined whether the gas concentration detected by the gas leak alarm device 601 has become a predetermined concentration or less and has recovered to a safe state. (Step S819).
[0061]
  When the detected gas concentration is equal to or lower than the predetermined concentration (step S819: Yes), the gas leakage alarm device 601 is restored to a state where gas leakage can be detected (step S820). When it is determined that the recovery signal b has not been input (step S818: No), when a gas having a predetermined concentration or more is detected by the gas leak alarm 101 (step S819: No), the recovery signal b enters the gas leak alarm 601 and waits until the gas leak alarm 601 detects no more gas than the predetermined concentration.
[0062]
  Furthermore, when it is determined in step S807 that the operation unit 704 has not been operated (step S807: No), it is determined whether or not a first predetermined time has elapsed (step S815). As a result, when it is determined that the first predetermined time has elapsed (step S815: Yes), the first timer is stopped (step S816), and an alarm is output to the alarm display panel 102 (step S817). If it is determined in step S815 that the first predetermined time has not elapsed (step S815: No), the process returns to step S804 to determine whether or not the gas concentration is equal to or lower than the predetermined concentration.
[0063]
【The invention's effect】
  As described above, the invention according to claim 1 can stop the output of the notification signal indicating that a gas leak has occurred by operating the operating means for a predetermined time. It is possible to provide a gas leak report stop device that can prevent a report due to a false report, reduce the load on the management side, and increase the reliability of the alarm. Moreover, sufficient time for restoring the gas leak alarm can be secured. Furthermore, since the gas leak alarm can be restored using the recovery signal output by the operation of the operation means, it is possible to provide a gas leak report stop device that can more easily restore the gas leak alarm. There is an effect.
[0064]
  According to the second aspect of the present invention, even when the user operates the operation unit by mistake, if the alarm signal is not input within a predetermined time, the notification stop unit terminates the process without outputting the recovery signal. It is possible to prevent a gas leak alarm from being displayed when a gas leak occurs after operating the operating means due to an erroneous operation by the user, and appropriately notify the gas leak.
[0065]
  The invention according to claim 3 can extend the notification stop time by operating the notification stop means again when the gas concentration cannot be reduced below the concentration determined to be a gas leak within a preset time. , Determined by the user that there is no gas leak such as alcohol or spray used in cooking When possible, notification can be stopped until the alcohol or spray concentration is reduced, and false alarms can be prevented.
[0066]
  Claim4In the invention described in the above, since the notification signal output from the reporting means can be stopped during the predetermined time by the operation of the reporting stop operating means, the notification on the management side is reduced and the alarm on the management side is reduced and the alarm is alarmed. There is an effect that it is possible to provide a gas leak alarm that can improve the reliability of the gas leak. Moreover, sufficient time for restoring the gas leak alarm can be secured.
[Brief description of the drawings]
FIG. 1 is a diagram for explaining a configuration to which a gas leak notification stopping apparatus according to a first embodiment of the present invention is applied.
FIG. 2 is a block diagram for explaining a configuration of a report stop unit.
FIG. 3 is a flowchart for explaining a process performed by a report stop unit according to the first embodiment.
FIG. 4 is another flowchart for explaining the process performed by the report stop unit according to the first embodiment.
FIG. 5 is another flowchart for explaining the process performed by the report stop unit according to the first embodiment.
FIG. 6 is a diagram for explaining a configuration to which a gas leak alarm according to a second embodiment of the present invention is applied.
FIG. 7 is a block diagram for explaining a configuration of a gas leak alarm according to a second embodiment.
FIG. 8 is a flowchart showing a process performed by the gas leak alarm according to the second embodiment.
FIG. 9 is a diagram for explaining a conventional gas leak alarm.
10 is a flowchart for explaining a process performed by the gas leak alarm shown in FIG. 9; FIG.
[Explanation of symbols]
  101,601 Gas leak alarm
  102 Alarm display panel
  103 Monitoring device
  104 Monitoring center
  105 Report stoppage
  201 Input / output unit
  202,704 operation unit
  203,708 Input / output unit
  204,705 Control unit
  205,706 storage unit
  206,707 timer
  601a Report stoppage
  701 detector
  702 judgment part
  703 Notification unit

Claims (4)

A gas leak alarm stop device connected to a gas leak alarm device that detects gas leak and an alarm display panel that displays gas leak when a report signal reporting the occurrence of gas leak is input,
An alarm input means for inputting a gas leak alarm from the gas leak alarm,
An operation means for performing an operation of invalidating the gas leak alarm input by the alarm input means;
When said operation means is operated, by inputting a predetermined time recovery signal to the gas leak alarms to be set in a state capable of detecting again gas leakage gas leak alarm device detects a gas leak, said notification signal Report stop means for stopping output for a predetermined time;
A gas leak reporting stop device comprising: The notification stop means does not input the recovery signal to the gas leak alarm when the alarm input means does not input the gas leak alarm within a predetermined time after the operation means is operated. The gas leak notification stop device according to claim 1, wherein the device is a gas leak notification stop device. When the operation means is operated again within a predetermined time after the operation means is operated, the notification stop means is configured to send the recovery signal to the gas leak alarm and operate the operation means again. The gas leak report stop device according to claim 1 or 2, wherein the output of the report signal is stopped for a predetermined period of time by inputting from a predetermined period of time. A gas leak alarm comprising: a gas leak detecting means for detecting a gas leak; and a reporting means for outputting a report signal for reporting to the outside that a gas leak has occurred when the gas leak is detected by the gas leak detecting means. A vessel,
Report stop operation means for performing an operation to stop the report of the report means;
When the notification stop operation means is operated, a notification stop time counting means for measuring a predetermined time;
By inputting to the gas leak detection means a recovery signal that sets the gas leak detection means that has detected a gas leak to a state in which the gas leak can be detected again during the measurement of the predetermined time by the report stop time counting means. Reporting stop means for stopping the reporting signal output by the means;
A gas leak alarm device comprising:

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