JP6068900B2 - Alarm and control method thereof - Google Patents

Description

  The present invention relates to an alarm device and a control method thereof.

  Conventionally, when multiple fire alarms are connected by wire or wirelessly and one of the fire alarms determines that a fire has occurred, an interlocking alarm is issued to issue an alarm from all the fire alarms. ing. In addition, such a fire alarm device distinguishes the sound output from the fire alarm device of the interlocking source and the fire alarm device of the interlocking destination in order to identify the source of the fire at the time of the interlocking alarm. (For example, refer to Patent Documents 1 and 2).

JP 2005-222319 A JP 2009-237873 A

  Here, the conventional fire alarm is provided with a stop switch operated by pulling a drawstring, and is configured to stop the interlocking alarm for a predetermined time when the stop switch is operated. However, in the conventional fire alarm, if the interlock alarm is stopped by the stop switch, then the alarm is stopped by the intention of the user (so-called alarm stop) or by the calming of the fire that causes the alarm It is not possible to distinguish whether has stopped (so-called alarm release).

  This problem is not limited to fire alarms, but other alarm devices that perform linked alarms, such as gas alarms that detect gas leaks of city gas and LP gas, gas alarms that detect CO, and intruders. This is a problem common to other alarm devices such as a human alarm device to be detected.

  The present invention has been made to solve such conventional problems, and an object of the present invention is to provide an alarm device capable of distinguishing between alarm stop and alarm release and a control method thereof. There is to do.

When the alarm device of the present invention determines that an abnormal state has occurred in the monitoring region based on the signal from the sensor, and an abnormal state has occurred in another alarm device having a different monitoring region. When it is determined that an abnormal state has occurred, an abnormal state determination unit that determines an abnormal state based on a signal from the sensor and an abnormal state determination unit determines that an abnormal state has occurred. And when an abnormal condition is determined to have occurred in another alarm device, an abnormal condition alarm means for issuing an alarm, and a predetermined first operation when an alarm is issued by the abnormal condition alarm means And stopping means for stopping the alarm for a predetermined time, and the abnormal state determining means determines that the alarm state has been released when it is determined that the abnormal state has subsided based on the signal from the sensor. Abnormal condition alarm If it is determined that the alarm state has been released by the abnormal state determination means, or if it is determined that the alarm state has been released by the abnormal state determination means of another alarm device, the alarm is stopped. When the predetermined second operation is performed during a predetermined time when the alarm is stopped by the stop means, the alarm state is determined not to be released by the abnormal state determination means, and the abnormal state of another alarm device when it is determined that the alarm condition is not released by the determining means, and outputs a voice indicating that during alarm different from the alarm sound.

According to this alarm device, when it is determined that the alarm state is not released when a predetermined second operation is performed during a predetermined time when the alarm is stopped, an output indicating that the alarm is being performed is performed. Therefore, the user can know whether the alarm is being performed by performing a predetermined second operation. Therefore, it is possible to distinguish between alarm stop and alarm release. Further, when it is determined that the alarm state is not released when the predetermined second operation is performed during the predetermined time when the alarm is stopped, the user outputs a sound indicating that the alarm is being performed. By performing the predetermined second operation, for example, a sound such as “alarm is in progress” is output, and it is possible to easily communicate that the alarm is not canceled.

  Moreover, in the alarm device of the present invention, it is preferable that the abnormal condition alarm means make the volume when outputting a sound indicating that an alarm is being made smaller than the volume when alarming.

  According to this alarm device, the volume at the time of outputting the sound indicating that the alarm is in progress is made smaller than the volume at the time of alarming. Here, since the user performs the predetermined second operation to confirm the current state, it can be said that the user is watching the alarm device when performing the predetermined second operation. If the volume is high, it becomes rather troublesome. However, since the volume of the alarm is being suppressed, the annoyance can be reduced.

  Further, in the alarm device of the present invention, the abnormal state alarm means does not release the alarm state by the abnormal state determination means when a predetermined second operation is performed during a predetermined time when the alarm is stopped by the stop means. When it is determined that the alarm state has not been released by the abnormal state determination means of another alarm device, it is preferable to display that the alarm is being performed.

  According to this alarm device, when a predetermined second operation is performed during a predetermined time when the alarm is stopped, when it is determined that the alarm state is not released, an indication that the alarm is being performed is displayed. . Here, since the user performs the predetermined second operation to confirm the current state, it can be said that the user is gazing at the alarm when performing the predetermined second operation. Even if it is a display, it is very unlikely to miss it. Therefore, by displaying that the alarm is being performed, the user can be confirmed based on the display content.

  Further, in the alarm device of the present invention, the predetermined second operation is the same as the operation at the time of executing the inspection operation, and the abnormal state alarm means is a predetermined time during a predetermined time when the alarm is stopped by the stop means. When the second operation is performed, it is determined that the alarm state has been canceled by the abnormal state determination unit, or when the alarm state is canceled by the abnormal state determination unit of another alarm device, It is preferable to output.

  According to this alarm device, the second operation is the same as the operation when the inspection operation is executed, and the alarm state is released when the predetermined second operation is performed during the predetermined time when the alarm is stopped. When it is determined that the inspection has been performed, an inspection operation is performed. For this reason, when the alarm state is cancelled, the output during the inspection operation can be performed as usual to inform that the alarm state is cancelled.

In addition, the alarm control method of the present invention is abnormal when it is determined that an abnormal state has occurred in the monitoring area based on the signal from the sensor, and when another alarming apparatus having a different monitoring area is used. This is a method for issuing an alarm when it is determined that a condition has occurred, and an abnormal condition determination process for determining an abnormal condition based on a signal from a sensor, and an abnormal condition has occurred in the abnormal condition determination process. Predetermined when there is an abnormal condition alarm process that issues an alarm when it is determined that there is an abnormal condition at another alarm device, and when an alarm is issued in the abnormal condition alarm process When the first operation is performed, it is determined that the alarm state has been canceled in the stop step for stopping the alarm for a predetermined time and in the abnormal state determination step, or in the abnormal state determination step of another alarm device. State When it is determined that the alarm has been released, an alarm release process for stopping the alarm that has been issued, and an alarm in the abnormal condition determination process when a predetermined second operation is performed during a predetermined time during which the alarm is stopped in the stop process. state is determined is not released, and, when an alarm condition is determined not to be released in the abnormal state determining step of the other alarm devices, outputs the sound indicating that during alarm different from the alarm sound And an output step.

According to the control method of the alarm device, when it is determined that the alarm state is not released when the predetermined second operation is performed during the predetermined time when the alarm is stopped, the alarm is in effect. Since the output is performed, the user can know whether the alarm is being performed by performing a predetermined second operation. Therefore, it is possible to distinguish between alarm stop and alarm release. Further, when it is determined that the alarm state is not released when the predetermined second operation is performed during the predetermined time when the alarm is stopped, the user outputs a sound indicating that the alarm is being performed. By performing the predetermined second operation, for example, a sound such as “alarm is in progress” is output, and it is possible to easily communicate that the alarm is not canceled.

  ADVANTAGE OF THE INVENTION According to this invention, the alarm device which can distinguish alarm stop and alarm cancellation, and its control method can be provided.

It is the schematic of the alarm system containing the alarm device which concerns on embodiment of this invention. It is a block diagram which shows an example of the fire alarm shown in FIG. It is a figure which shows the output content of the fire alarm device which concerns on this embodiment, Comprising: (a) shows the output content at the time of a fire alarm, (b) shows the output content at the time of operation of the 1st drawstring, c) shows the output contents during the second drawstring operation. It is a flowchart which shows the control method of the fire alarm which concerns on this embodiment. It is a timing chart which shows the control method of the fire alarm device which concerns on this embodiment, Comprising: (a) shows the operation | movement at the time of a fire alarm, and the operation | movement at the time of operation of the 1st drawstring, (b) is the 2nd time The operation when the alarm state is not released when the drawstring is operated is shown, and (c) shows the operation when the alarm state is released when the second drawstring is operated. It is a figure which shows the output content of the fire alarm device which concerns on 2nd Embodiment, Comprising: (a) shows the output content at the time of a fire alarm, (b) shows the output content at the time of operation of the 1st drawstring, (C) has shown the output content at the time of operation of the 2nd drawstring. It is a flowchart which shows the control method of the fire alarm which concerns on 2nd Embodiment. It is a timing chart which shows the control method of the fire alarm device which concerns on 2nd Embodiment, Comprising: (a) shows the operation | movement at the time of a fire alarm, and the operation | movement at the time of operation of the 1st drawstring, (b) is the 2nd time The operation when the alarm state is not released during the operation of the drawstring is shown, and (c) shows the operation when the alarm state is released during the second operation of the drawstring.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of the invention will be described with reference to the drawings. FIG. 1 is a schematic diagram of an alarm system including an alarm device according to an embodiment of the present invention. In the following embodiments, the fire alarm device is an example of an alarm device, and the fire alarm system is described as an example of an alarm system. However, the alarm device is not limited to a fire alarm device, and the alarm system is a fire alarm system. It is not limited to.

  The fire alarm system 1 shown in the figure includes a plurality of (for example, four) fire alarm devices 10a to 10d, and these fire alarm devices 10a to 10d are connected by wire or wirelessly, and any one of the fire alarm devices 10a. When it is determined that a fire (an example of an abnormal condition) has occurred at 10 to 10d, an alarm is issued from all the fire alarm devices 10a to 10d (linked alarm is performed).

  Specifically, the plurality of fire alarms 10a to 10d have different monitoring areas for monitoring fires, and as shown in FIG. 1, for example, a room in which the first fire alarm 10a is installed. When a fire occurs in (an example of a monitoring area), a fire alarm is generated from the first fire alarm device 10a as well as the second to fourth fire alarm devices 10b to 10d having different monitoring areas.

  FIG. 2 is a configuration diagram illustrating an example of the fire alarms 10a to 10d illustrated in FIG. Since the first to fourth fire alarm devices 10a to 10d have the same configuration, the configuration of the first fire alarm device 10a will be described, and the description of the second to fourth fire alarm devices 10b to 10d will be omitted.

  The fire alarm device 10a shown in FIG. 2 detects a fire when a fire occurs in a living room or the like, and alerts the fire. For example, the fire alarm 10a is installed in a ceiling portion of a space such as a living room. The fire alarm device 10a is not limited to the ceiling, and can be installed at any location such as a wall or floor.

  Such a fire alarm 10a includes a CO sensor 11, a heat sensor 12, a smoke sensor 13, a CPU (Central Processing Unit) 14, an alarm unit (abnormal state alarm means) 15, an interface unit 16, and a trigger. It consists of a string 17.

  The CO sensor 11 outputs a signal corresponding to the surrounding carbon monoxide concentration. Specifically, the CO sensor 11 is an electrochemical sensor in which a current corresponding to the CO concentration flows due to an oxidation reaction of CO, converts the current corresponding to the CO concentration into a voltage, and outputs the voltage to the CPU 14.

  The thermal sensor 12 outputs a signal corresponding to the temperature. Specifically, the thermal sensor 12 includes a thermistor whose resistance value varies depending on the ambient temperature, and outputs a temperature signal corresponding to the ambient temperature based on this resistance value to the CPU 14.

  The smoke sensor 13 outputs a signal corresponding to the amount of smoke. Specifically, the smoke sensor 13 includes a photoelectric element that outputs a light amount signal corresponding to the light amount on a predetermined optical path to the CPU 14.

  The CPU 14 controls the entire fire alarm device 1. The CPU 14 includes a fire determination unit (abnormal state determination means) 14a that determines a fire based on signals from the sensors 11 to 13. Specifically, the fire determination unit 14a is configured to detect when a CO concentration equal to or higher than a predetermined concentration is detected from a signal from the CO sensor 11, when a temperature equal to or higher than a predetermined temperature is detected from a signal from the thermal sensor 12, and a smoke sensor. If no more than a predetermined amount of light is detected in step 13, it is determined that a fire has occurred. In addition, the judgment method of a fire is not restricted above, A various change is possible.

  Furthermore, the fire determination unit 14a determines that the alarm state has been released when it is determined that the fire has subsided based on the signals from the sensors 11 to 13. Specifically, the fire determination unit 14a detects that the CO concentration of a predetermined concentration or more is not detected by the signal from the CO sensor 11, the temperature of the predetermined temperature or more is not detected by the signal from the thermal sensor 12, and the smoke sensor 13 If a light amount exceeding a predetermined light amount is detected, it is determined that the fire has subsided and the alarm state is released.

  The alarm unit 15 issues a fire alarm when the CPU 14 determines that a fire has occurred. For example, an alarm output unit such as a speaker or a buzzer and a display unit such as an LED (Light Emitting Diode) are used. It is configured. Moreover, the alarm part 15 will stop the fire alarm which was emitted, when it is judged by the fire judgment part 14a that the alarm state was cancelled | released.

  The interface unit 16 is a part that exchanges signals with the other fire alarm devices 10b to 10d. For example, when the fire determination unit 14a determines that a fire has occurred, the interface unit 16 sends the signals to the other fire alarm devices 10b to 10d. On the other hand, it is a part that transmits a signal to that effect. Further, the other fire alarm devices 10b to 10d are also provided with the interface unit 16, and the other fire alarm devices 10b to 10d having received a signal indicating that a fire has occurred from the first fire alarm device 10a A fire alarm is issued from the alarm unit 15.

  The interface unit 16 also has a function of receiving a signal indicating that a fire has occurred from the other fire alarm devices 10b to 10d. In this case, the alarm unit 15 of the first fire alarm device 10a In response to the signals from the fire alarm devices 10b to 10d, a fire alarm is issued. In addition, the interface unit 16 also has a function of receiving a signal indicating that the alarm state has been canceled. In this case, the alarm unit 15 of the first fire alarm device 10a receives an alarm from the other fire alarm devices 10b to 10d. In response to the signal that the state has been released, the fire alarm that was issued will be stopped.

  The drawstring 17 can be operated by the user, and when the drawstring 17 is pulled, a switch (not shown) of the fire alarm device 10a is operated. In addition, the CPU 14 includes a stop processing unit (stop means) 14b. The stop processing unit 14b is configured to operate the switch (predetermined first operation) by pulling the drawstring 17 when the alarm unit 15 generates a fire alarm. 1 operation), a process for stopping the alarm for a predetermined time (for example, 5 minutes) is executed. Note that the pull string 17 is not only used to stop the fire alarm, but if it is pulled, for example, in a standby state where the fire alarm is not issued, the CPU 14 determines that it is an inspection operation, and outputs an output for inspection to the alarm unit. 15 will be performed. Moreover, although the fire alarm device 10a includes the pull string 17 in the present embodiment, the present invention is not limited to this, and the fire alarm device 10a may be simply provided with a switch, and the user may directly press the switch. Good.

  Here, as described above, when the fire alarm is issued, the switch is operated by the drawstring 17 so that the alarm is stopped for a predetermined time. However, when the interlocking alarm is stopped by the switch operation with the drawstring 17, whether the alarm is stopped by the intention of the user (so-called alarm stop) or the alarm is stopped due to the calming of the fire that causes the alarm. (So-called alarm release) cannot be distinguished.

  Therefore, in this embodiment, the CPU 14 performs the following notification by pulling the drawstring 17 and performing a switch operation (predetermined second operation) during a predetermined time when the fire alarm is stopped by the stop processing unit 14b. Let That is, when the fire determination unit 14a determines that the alarm state has not been canceled, the CPU 14 outputs that the alarm is being performed. On the other hand, when it is determined by the fire determination unit 14a that the alarm state has been released, the CPU 14 performs output during the inspection operation.

  FIG. 3 is a diagram showing the output contents of the fire alarm devices 10a to 10d according to the present embodiment, where (a) shows the output contents at the time of the fire alarm, and (b) shows the first operation of the drawstring 17. The output content at the time is shown, and (c) shows the output content at the time of the second operation of the drawstring 17.

  As shown in FIG. 3A, for example, when the fire determination unit 14a of the first fire alarm device 10a determines that a fire has occurred in the monitoring area, the first fire alarm device 10a becomes the link source. . For this reason, the CPU 14 of the first fire alarm device 10a turns on the LED, and outputs a voice message from the alarm unit 15 at a loud volume level, saying “Pippy poppy fire alarm has been activated.

  On the other hand, the CPU 14 of the second to fourth fire alarm devices 10b to 10d as the interlocking destination blinks the LED, and a voice message “Pipipippi fire alarm has been activated. Please confirm.” The alarm unit 15 outputs the sound when the volume is high.

  And if a drawstring is pulled from this state and switch operation is performed, the stop process of a fire alarm will be performed by the stop process part 14b. For this reason, as shown in FIG.3 (b), in all the 1st-4th fire alarm devices 10a-10d, while LED is light-extinguished, there is no voice message.

  Further, when the pull string 17 is pulled from the state of FIG. 3B and the switch operation is performed, when the alarm state is not released, the CPU 14 of the first fire alarm device 10a serving as the interlocking source performs FIG. As shown in c), the LED is turned on, and a voice message “Pipipipippo fire alarm has been activated. Please confirm.” is output from the alarm unit 15 at a high volume. That is, the CPU 14 of the first fire alarm device 10a outputs a fire alarm again to output that the alarm is being performed.

  In addition, the CPU 14 of the second to fourth fire alarms 10b to 10d as the interlocking destination blinks the LED and raises the volume of the voice message “Pippippi fire alarm has been activated. Please confirm.” And output from the alarm unit 15. That is, the CPU 14 of the second to fourth fire alarm devices 10b to 10d similarly outputs a fire alarm by outputting the fire alarm again.

  Thus, in this embodiment, the alarm unit 15 is released from the alarm state by its own fire determination unit 14a when the pull string 17 is pulled and the switch is operated during a predetermined time when the fire alarm is stopped. If it is determined that the alarm state is not released by the fire determination unit 14a of the other fire alarms 10b to 10d, an output indicating that the alarm is being generated is generated by issuing a fire alarm. Do. For this reason, when the user pulls the drawstring 17, the fire alarm is output again, and it can be directly notified that the alarm is not canceled.

  In addition, although illustration is abbreviate | omitted, when the drawstring 17 is pulled from the state of FIG.3 (b) and switch operation is carried out, an alarm state will be carried out by the fire judgment part 14a of self or other fire alarm devices 10b-10d. When it is determined that it has been released, an output during the inspection operation is performed. At this time, for example, the CPU 14 causes the LED to blink and causes the alarm unit 15 to output a voice message such as “Pie operates normally”.

  Next, a method for controlling the fire alarm devices 10a to 10d according to the present embodiment will be described. FIG. 4 is a flowchart showing a method for controlling the fire alarm devices 10a to 10d according to the present embodiment.

  As shown in FIG. 4, first, the CPU 14 inputs a signal from each of the sensors 11 to 13 and a signal to that effect when the other fire alarm devices 10a to 10d determine the occurrence of a fire (S1). ). Next, the fire determination unit 14a of the CPU 14 determines whether or not a fire has occurred in its own monitoring area or the monitoring areas of the other fire alarm devices 10a to 10d based on the signal input in step S1. (S2).

  If it is determined that no fire has occurred (S2: NO), the process proceeds to step S9. On the other hand, if it is determined that a fire has occurred (S2: YES), the CPU 14 determines whether or not it is the interlocking source (S3).

  When it is determined that it is the interlocking source (S3: YES), the CPU 14 causes the alarm unit 15 to output the first alarm (S4). Here, the first alarm is, for example, as shown in FIG. 3 (a), the lighting of the LED and the output of a voice message “Pipipipippo fire alarm has been activated. Please confirm.” Then, the process proceeds to step S6.

  On the other hand, when determining that it is not the interlocking source (S3: NO), the CPU 14 causes the alarm unit 15 to output a second alarm (S5). Here, for example, as shown in Fig. 3 (a), the second alarm is a blinking LED and an output of a voice message saying "A fire alarm has been activated. is there. Then, the process proceeds to step S6.

  In step S6, the CPU 14 determines whether or not the drawstring 17 has been operated (S6). If it is determined that the drawstring 17 has not been operated (S6: NO), the process proceeds to step S1. On the other hand, if it is determined that the drawstring 17 has been operated (S6: YES), the stop processing unit 14b stops the output of the first or second alarm (S7), and then the CPU 14 determines whether or not a predetermined time has elapsed. Is determined (S8).

  When it is determined that the predetermined time has not elapsed (S8: NO), the CPU 14 determines whether the drawstring 17 has been operated (S9). If it is determined that the drawstring 17 has not been operated (S9: NO), the process proceeds to step S8.

  When it is determined that the drawstring 17 has been operated (S9: YES), the CPU 14 determines whether or not the alarm state is released (S10). In this process, the CPU 14 inputs sensor signals from the respective sensors 11 to 13 as in step S1 and step S2, and whether the alarm state is released from the other fire alarm devices 11a to 11d or whether the alarm state is released. A signal is input, and based on the input signal, it is determined whether or not a fire has occurred in its own monitoring area and the monitoring areas of the other fire alarm devices 10a to 10d. When it is determined that no fire has occurred, the CPU 14 determines that the alarm state has been released (S10: YES), and causes the alarm unit 15 to output during the inspection operation (S11). Thereafter, the process shown in FIG. 4 ends.

  On the other hand, when it is determined that the alarm state is not released (S10: NO), the CPU 14 determines whether or not the alarm state is the interlocking source (S12). When it is determined that it is the interlocking source (S12: YES), the alarm unit 15 outputs a first alarm (S13). Then, the process shown in FIG. 4 ends. On the other hand, when it judges that it is not an interlocking source (S12: NO), alarm part 15 outputs the 2nd alarm (S14). Then, the process shown in FIG. 4 ends.

By the way, when it is determined that the predetermined time has elapsed (S8: YES), the processing shown in FIG. 4 ends. The process shown in FIG. 4 is repeatedly executed until the power of the fire alarm devices 10a to 10d is turned off.

  FIG. 5 is a timing chart showing a control method of the fire alarm devices 10a to 10d according to the present embodiment, where (a) shows the operation at the time of the fire alarm and the operation at the time of the first operation of the drawstring 17. (B) shows the operation when the alarm state is not released when the second drawstring 17 is operated, and (c) shows the operation when the alarm state is released when the second drawstring 17 is operated. Is shown.

  As shown in FIG. 5, for example, it is assumed that the first or second alarm due to the occurrence of a fire is output at time t1. In this case, the CPU 14 repeatedly outputs the first or second alarm from the alarm unit 15 as shown at times t <b> 2 and t <b> 3 until the drawstring 17 is operated or until the fire subsides.

  Next, it is assumed that the drawstring 17 is operated at time t4. At this time, the CPU 14 stops the first or second alarm at time t4 when the drawstring 17 is operated.

  Thereafter, it is assumed that the drawstring 17 is operated again at time t5. At this time, if the alarm state is not released, the fire alarm is resumed as shown in FIG. That is, the CPU 14 repeatedly outputs the first or second alarm from the alarm unit 15.

  On the other hand, if the alarm state is cancelled, as shown in FIG. 5C, the fire alarm is not resumed, and an inspection message and an inspection display are output. And after completion | finish of inspection operation | movement, the fire alarm devices 10a-10d will be in a standby state.

  Thus, according to the fire alarm devices 10a to 10d and the control method thereof according to the present embodiment, the alarm state is released when the drawstring 17 is operated during a predetermined time when the alarm is stopped. When it is determined that there is no alarm, an output indicating that the alarm is being performed is performed, so that the user can know whether the alarm is being performed by operating the drawstring 17. Therefore, it is possible to distinguish between alarm stop and alarm release.

  Further, when it is determined that the alarm state is not released when the drawstring 17 is operated during a predetermined time when the alarm is stopped, an alarm is issued to output that the alarm is being performed. Therefore, when the user operates the drawstring 17, an alarm is output again, and it can be directly notified that the alarm is not canceled.

  Next, a second embodiment of the present invention will be described. The fire alarm devices 10a to 10d and the control method thereof according to the second embodiment are the same as those of the first embodiment, but the processing contents are partially different. Hereinafter, differences from the first embodiment will be described.

  First, the fire alarms 10a to 10d according to the first embodiment are released when the pull string 17 is pulled and the switch is operated during a predetermined time when the fire alarm is stopped by the stop processing unit 14b. If not, the fire alarm would be issued again.

  On the other hand, the fire alarm devices 10a to 10d according to the second embodiment do not issue a fire alarm again, but perform a dedicated output to output a warning. The dedicated output is an output that is at least partially different from the fire alarm. In the present embodiment, the alarm unit 15 performs LED display and audio output. Therefore, the dedicated output is different from the fire alarm in both LED display and audio output, and LED display and audio. It is a concept that includes one of the outputs that is different from the fire alarm.

  FIG. 6 is a diagram showing the output contents of the fire alarm devices 10a to 10d according to the second embodiment, where (a) shows the output contents at the time of a fire alarm, and (b) shows the first drawstring 17. The output content at the time of operation is shown, and (c) shows the output content at the time of the second operation of the drawstring 17. 6 (a) and 6 (b) are the same as FIGS. 3 (a) and 3 (b), and a description thereof will be omitted.

  When the drawstring 17 is pulled from the state of FIG. 6B and the switch operation is performed, when the alarm state is not released, the CPU 14 of the first fire alarm device 10a serving as the interlocking source performs the operation shown in FIG. As shown in FIG. 4, the LED is turned on, and a voice message “Alarm is in progress” is output from the alarm unit 15 at a low volume. That is, the CPU 14 of the first fire alarm device 10a outputs a message indicating that the alarm is being performed by outputting a dedicated sound. Moreover, CPU14 outputs that it is in alarm by performing LED lighting. The LED display at this time is the same as that at the time of fire alarm.

  Further, the CPU 14 of the second to fourth fire alarm devices 10b to 10d as the interlocking destination blinks the LED and causes the alarm unit 15 to output a voice message “alarming” at a low volume. That is, the CPU 14 of the second to fourth fire alarm devices 10b to 10d outputs a message indicating that the alarm is being performed by outputting a dedicated sound. In addition, the CPU 14 outputs that the alarm is being performed by blinking the LED. The LED display at this time is the same as that at the time of fire alarm.

  As described above, in the second embodiment, the user pulls the predetermined pull string 17 in order to output a sound indicating that the alarm is being performed (a sound indicating that the alarm is being performed and the fire state has not been released). Therefore, it is possible to output an audio message such as “Alarm is in progress” and easily convey that the alarm is not canceled.

  Here, since the user pulls the drawstring 17 to confirm the current state, it can be said that when pulling the drawstring 17, it can be said that the user is watching the fire alarm devices 10a to 10d. If the volume is high, it becomes rather troublesome. However, in the second embodiment, since the sound volume when outputting the sound indicating that the alarm is being performed is made smaller than the sound volume when the fire alarm is given, the troublesomeness can be reduced.

  Furthermore, since the user is gazing at the fire alarm devices 10a to 10d, it can be said that the possibility of overlooking the display (lighting and blinking) of the fire alarm devices 10a to 10d provided on the ceiling or the like is very low. Therefore, by performing the lighting display or the blinking display indicating that the alarm is being performed, the user can be confirmed by the display content.

  FIG. 7 is a flowchart illustrating a method for controlling the fire alarm devices 10a to 10d according to the second embodiment. In the process shown in FIG. 7, the same reference numerals are assigned to the same processes in FIG.

  When it is determined that the alarm state has not been released (S10: NO), the CPU 14 determines whether or not it is the interlocking source (S12). When it is determined that it is the interlocking source (S12: YES), the alarm unit 15 performs the first output (S15). Then, the process shown in FIG. 7 ends. Here, as described with reference to FIG. 6, the first output is an output of a voice message with a low sound volume indicating that “alarm is in progress” by turning on the LED.

  On the other hand, when determining that it is not the interlocking source (S12: NO), the alarm unit 15 performs the second output (S16). Then, the process shown in FIG. 7 ends. Here, as described with reference to FIG. 6, the second output is an output of a voice message with a low volume of “alarming” by blinking the LED.

  FIG. 8 is a timing chart showing a control method of the fire alarm devices 10a to 10d according to the second embodiment, wherein (a) shows the operation at the time of the fire alarm and the operation at the time of the first operation of the drawstring 17. (B) shows the operation when the alarm state is not released when the second drawstring 17 is operated, and (c) shows the operation when the alarm state is released when the second drawstring 17 is operated. The operation is shown.

  As shown in FIG. 8, it is assumed that the first or second alarm due to the occurrence of a fire is output at time t1, for example. In this case, the CPU 14 repeatedly outputs the first or second alarm from the alarm unit 15 as shown at times t <b> 2 and t <b> 3 until the drawstring 17 is operated or until the fire subsides.

  Next, it is assumed that the drawstring 17 is operated at time t4. At this time, the CPU 14 stops the first or second alarm at time t4 when the drawstring 17 is operated.

  Thereafter, it is assumed that the drawstring 17 is operated again at time t5. At this time, if the alarm state is not canceled, as shown in FIG. 8B, a dedicated voice “Alarm is in progress” is output at time t5. Further, when the fire alarm devices 10a to 10d are interlocking sources, the LEDs are lit between time t5 and time t6.

  On the other hand, if the alarm state is released, an inspection message and an inspection display are output as shown in FIG. And after completion | finish of inspection operation | movement, the fire alarm devices 10a-10d will be in a standby state.

  In this way, according to the fire alarm devices 10a to 10d and the control method thereof according to the second embodiment, it is possible to distinguish between the alarm stop and the alarm release as in the first embodiment.

  In addition, when it is determined that the alarm state is not released when the drawstring 17 is operated during a predetermined time when the alarm is stopped, the user outputs a voice indicating that the alarm is in effect. By operating the string 17, for example, a sound such as “alarm is in progress” can be output, and it can be easily understood that the alarm is not cancelled.

  In addition, the volume at the time of outputting the sound indicating that the alarm is being performed is made smaller than the volume at the time of alarming. Here, since the user operates the pull string 17 to confirm the current state, it can be said that the user is gazing at the fire alarm devices 10a to 10d when operating the pull string 17. If the volume is loud like time, it will be rather annoying. However, since the volume of the alarm is being suppressed, the annoyance can be reduced.

  Further, when it is determined that the alarm state is not released when the drawstring 17 is operated during a predetermined time when the alarm is stopped, a display indicating that the alarm is being performed is displayed. Here, since the user operates the pull string 17 to confirm the current state, it can be said that when operating the pull string 17, it can be said that the user is gazing at the fire alarm devices 10a to 10d. Even the display of the alarm devices 10a to 10d is very unlikely to be missed. Therefore, by displaying that the alarm is being performed, the user can be confirmed based on the display content.

  Further, the second operation is the same as the operation when the inspection operation is executed, and it is determined that the alarm state is released when the drawstring 17 is operated during a predetermined time when the alarm is stopped. In the event of a failure, perform an inspection operation. For this reason, when the alarm state is cancelled, the output during the inspection operation can be performed as usual to inform that the alarm state is cancelled.

  As described above, the present invention has been described based on the embodiment, but the present invention is not limited to the above embodiment, and may be modified without departing from the gist of the present invention. For example, in the above embodiment, the fire determination method is not limited to the above. For example, signals from the sensors 11 to 13 may be determined in a composite manner.

  Moreover, about each warning and alerting | reporting shown above, the lighting state of LED, a voice message, etc. can be variously changed.

  Furthermore, in the said embodiment, although the fire alarm device 10a-10d was demonstrated to the example, if it has an above-described function, it may be not only the fire alarm device 10a-10d but a gas fire integrated alarm device. . Also, other alarm devices such as a gas alarm device that detects a gas leak of city gas or LP gas, a gas alarm device that detects CO, and a human alarm device that detects an intruder may be used.

  In addition, in this embodiment, the volume of the alarm and the dedicated voice may be the same, or the volume of the dedicated voice may be larger than that of the alarm. Furthermore, an artificial sound may be used for the dedicated voice, and the predetermined first and second operations may be different.

DESCRIPTION OF SYMBOLS 1 ... Fire alarm system 10 ... Fire alarm 11 ... CO sensor 12 ... Thermal sensor 13 ... Smoke sensor 14 ... CPU
14a ... Fire judgment part (abnormal state judgment means)
14b ... Stop processing section (stop means)
15 ... Alarm section (Abnormal condition alarm means)
16 ... interface unit 17 ... drawstring

Claims (5)

When it is determined that an abnormal condition has occurred in the monitoring area based on the signal from the sensor, and when it is determined that an abnormal condition has occurred in another alarm device with a different monitoring area An alarm device that emits an alarm,
An abnormal state determination means for determining an abnormal state based on a signal from the sensor;
When it is determined that an abnormal state has occurred by the abnormal state determination unit and when it is determined that an abnormal state has occurred in another alarm device, an abnormal state alarm unit that issues an alarm;
Stop means for stopping this alarm for a predetermined time by performing a predetermined first operation when an alarm is issued by the abnormal state alarm means,
The abnormal state determination means determines that the alarm state has been released when it is determined that the abnormal state has calmed based on a signal from the sensor,
The abnormal state alarm means was issued when it was determined that the alarm state was canceled by the abnormal state determination means, or when it was determined that the alarm state was canceled by the abnormal state determination means of another alarm device The alarm state is stopped, and when the predetermined second operation is performed during the predetermined time when the alarm is stopped by the stop unit, it is determined that the alarm state is not released by the abnormal state determination unit, and An alarm device that outputs a sound indicating that an alarm is different from the sound of the alarm when it is determined that the alarm state is not released by the abnormal state determination means of another alarm device. The alarm device according to claim 1 , wherein the abnormal state alarming unit makes a volume when outputting a sound indicating that an alarm is being made smaller than a volume when performing the alarm. The abnormal condition alarm means determines that the alarm condition is not canceled by the abnormal condition determination means when a predetermined second operation is performed during a predetermined time when the alarm is stopped by the stop means; and 3. The display according to claim 1 , wherein an alarm is being displayed when it is determined that the alarm state has not been released by the abnormal state determination means of another alarm device. Alarm. The predetermined second operation is the same as the operation when the inspection operation is executed,
The abnormal condition alarm means determines that the alarm condition is canceled by the abnormal condition determination means when a predetermined second operation is performed during a predetermined time when the alarm is stopped by the stop means; The alarm device according to any one of claims 1 to 3, wherein when the alarm state is determined to have been canceled by the abnormal state determination means of the alarm device, an output at the time of an inspection operation is performed. When it is determined that an abnormal condition has occurred in the monitoring area based on the signal from the sensor, and when it is determined that an abnormal condition has occurred in another alarm device with a different monitoring area A method of controlling an alarm device that emits an alarm,
An abnormal state determination step of determining an abnormal state based on a signal from the sensor;
When it is determined that an abnormal state has occurred in the abnormal state determination step and when it is determined that an abnormal state has occurred in another alarm device, an abnormal state alarm step for issuing an alarm;
When the alarm is issued in the abnormal state alarm process, a predetermined first operation is performed to stop the alarm for a predetermined time; and
When it is determined that the alarm state is released in the abnormal state determination step, or when it is determined that the alarm state is released in the abnormal state determination step of another alarm device, the alarm release step of stopping the alarm that has been issued When,
When a predetermined second operation is performed during a predetermined time when the alarm is stopped in the stop step, it is determined that the alarm state is not released in the abnormal state determination step, and an abnormality of another alarm device is detected. When it is determined that the alarm state is not released in the state determination step, an output step of outputting a sound indicating that the alarm is different from the sound of the alarm; and
A control method for an alarm device comprising:

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