WO2020026713A1 - Disaster-preparedness device, control method and program - Google Patents

Abstract

The purpose of this invention is to prevent users from forgetting to replace a disaster-preparedness device. This disaster-preparedness device (1) performs an alarm operation with respect to disaster preparedness. The disaster-preparedness device (1) comprises: a preliminary alarm unit (X1); a control panel (3); and a main alarm unit (X2). The preliminary alarm unit (X1) executes a preliminary alarm with respect to replacement if the disaster-preparedness device (1) has reached the time for replacement. The control panel (3) receives operations. If the control panel (3) receives an operation while the preliminary alarm unit (X1) is executing a preliminary alarm, the main alarm unit (X2) executes a main alarm concerning replacement. After the main alarm has started, if predetermined conditions are met, the preliminary alarm unit (X1) executes a preliminary alarm at least once.

Description

Disaster prevention equipment, control method, and program

(4) The present disclosure generally relates to a disaster prevention device, a control method, and a program, and more particularly, to a disaster prevention device that performs a notification operation regarding disaster prevention, a control method of the disaster prevention device, and a program.

火災 As a conventional example, a fire alarm described in Patent Document 1 is exemplified. This fire alarm device determines whether or not the temperature exceeds a fire threshold value, and when it exceeds the fire threshold value, detects a fire and detects the occurrence of a fire. And an alarm unit that turns on an indicator light as a fire alarm and sounds an alarm for the occurrence of a fire. Further, the fire alarm includes a replacement detection unit for detecting that the replacement time has been reached, and an alarm unit for issuing a replacement warning when detecting that the replacement time has been reached.

JP 2016-192117 A

By the way, even if it is notified that the replacement time (replacement time) has been reached in the fire alarm (disaster prevention device), it may not be easy to immediately replace the disaster prevention device due to the convenience of the user. After a short time after the notification of the replacement time, the user may forget to replace the disaster prevention device, and as a result, the state in which the disaster prevention device to be replaced is installed may continue.

The present disclosure has been made in view of the above circumstances, and has as its object to provide a disaster prevention device, a control method, and a program that can prevent a user from forgetting to replace a device.

災 The disaster prevention device according to an aspect of the present disclosure performs a notification operation regarding disaster prevention. The disaster prevention device includes a preliminary notification unit, an operation unit, and a main notification unit. The preliminary notification unit performs a preliminary notification regarding the replacement when the disaster prevention device reaches a replacement time. The operation unit receives an operation. The main notification unit executes the main notification regarding the replacement when the operation is received by the operation unit during the execution of the preliminary notification by the preliminary notification unit. When a predetermined condition is satisfied after the main notification is started, the preliminary notification unit executes the preliminary notification at least once.

制 御 The control method according to an aspect of the present disclosure is a control method for a disaster prevention device that performs a notification operation regarding disaster prevention. The control method includes a preliminary notification step, a main notification step, and a re-notification step. In the preliminary notification step, when the time of replacement of the disaster prevention device has reached, a preliminary notification regarding the replacement is executed. In the main notification step, when an operation is received at the operation unit of the disaster prevention device during execution of the preliminary notification, the main notification regarding the replacement is executed. In the re-notification step, if a predetermined condition is satisfied after the start of the main notification, the preliminary notification is performed at least once.

プ ロ グ ラ ム A program according to one embodiment of the present disclosure is a program for causing a computer system to execute the control method.

FIG. 1 is a block diagram of a disaster prevention device according to one embodiment. FIG. 2 is an overall configuration diagram of a disaster prevention system including a plurality of disaster prevention devices according to the first embodiment. FIG. 3 is an external view of the above disaster prevention device. FIG. 4 is a front view of the above disaster prevention device. FIG. 5 is a diagram showing a state of a bedroom in which the disaster prevention device is installed. FIG. 6A is an explanatory diagram relating to a preliminary notification in the disaster prevention device of the above. FIG. 6B is an explanatory diagram relating to an operation test in the disaster prevention device. 7A to 7C are explanatory diagrams regarding re-execution of the preliminary notification in the disaster prevention device of the above. FIG. 8A and FIG. 8B are explanatory diagrams relating to the re-execution of the main notification in the disaster prevention device of the above.

(1) Outline Each of the drawings described in the following embodiments is a schematic diagram, and the ratio of the size and thickness of each component in each drawing necessarily reflects the actual dimensional ratio. Not necessarily.

災 The disaster prevention device 1 of the present embodiment performs a notification operation regarding disaster prevention. Here, as an example, it is assumed that the disaster prevention device 1 performs a notification operation regarding a fire. That is, the disaster prevention device 1 is a fire alarm that outputs a sound such as an alarm when a fire occurs. However, the alarm sounding target in the disaster prevention device 1 is not limited to a fire, but may be a gas leak or the generation of CO (carbon monoxide) due to incomplete combustion.

(5) The disaster prevention device 1 is installed on a structure C1 (construction material such as a ceiling or a wall) as shown in FIG. As shown in FIG. 1, the disaster prevention device 1 includes a preliminary notification unit X1, an operation unit 3, and a main notification unit X2. As shown in FIG. 1, the disaster prevention device 1 further includes a photoelectric sensor (detection unit 2) for detecting smoke therein. The detection unit 2 may be a constant temperature sensor that detects heat. Further, the detection unit 2 may be separate from the disaster prevention device 1. The disaster prevention device 1 may receive information about a fire by communicating with another disaster prevention device (fire alarm) including the detection unit 2.

(2) The disaster prevention device 1 is installed on one surface (ceiling surface or wall surface) of a structure C1 such as a living room, a bedroom, a staircase, and a corridor in the house 200, as shown in FIG. The house may be a detached house or an apartment house (apartment). Further, the disaster prevention device 1 may be installed not only in a house but also in a non-residential structure C1 (such as a ceiling surface or a wall surface). Examples of non-residential buildings include office buildings, theatres, cinemas, public halls, playgrounds, complex facilities, restaurants, department stores, schools, hotels, inns, hospitals, nursing homes, kindergartens, libraries, museums, museums, underground shopping centers, and stations. , Airports, etc.

予 備 Here, the preliminary notification unit X1 executes a preliminary notification regarding replacement when the disaster prevention device 1 has reached the time for replacement. It is determined that the “replacement time” has reached about 10 years after the installation of the disaster prevention equipment 1 (after the power is turned on). After 10 years, the fire prevention equipment 1 may not be able to detect and report a fire due to the life of the internal electronic components and running out of batteries, and it is recommended that the fire prevention equipment 1 be replaced every 10 years.

(4) The operation unit 3 receives an operation from a user (such as the resident 300 in FIG. 5). The main notification unit X2 executes the main notification regarding replacement when an operation is received by the operation unit 3 during the execution of the preliminary notification by the preliminary notification unit X1. Hereinafter, it is assumed that the preliminary notification unit X1 includes the display unit 11 that executes the preliminary notification by displaying. It is also assumed that the main notification unit X2 includes an audio unit 12 that performs the main notification by outputting sounds. That is, the preliminary notification is performed by light, and the main notification is performed by sound.

{Circle around (4)} When the predetermined condition is satisfied after the main notification is started, the preliminary notification unit X1 executes the preliminary notification at least once. According to this configuration, when the predetermined condition is satisfied, the preliminary notification is performed at least once more, so that it is possible to prevent the user from forgetting to replace the device.

(2) Details (2.1) Overall Configuration Hereinafter, the overall configurations of the disaster prevention equipment 1 and the disaster prevention system 100 according to the present embodiment will be described in detail. Here, the disaster prevention device 1 is, for example, a battery-type fire alarm. However, the disaster prevention equipment 1 is a fire alarm which is electrically connected to an external power supply (for example, a commercial power system), converts AC power (for example, an effective value of 100 V) supplied from the external power supply into DC current, and drives the fire alarm. There may be.

The disaster prevention system 100 includes a plurality (five in the illustrated example) of disaster prevention devices 1 as shown in FIG. The plurality of disaster prevention devices 1 are so-called interlocking type disaster prevention devices. When any one of the disaster prevention devices 1 detects a fire, the plurality of disaster prevention devices 1 work together with the other disaster prevention devices 1 (along with the other disaster prevention devices 1) to generate an alarm sound. It is configured to issue an alert. The disaster prevention device 1 (linking source) at the position of the fire source issues, for example, an alarm sound “view-view fire.” On the other hand, another disaster prevention device 1 (an interlocking destination) issues an alarm sound that can specify the position of the fire source. Desirably, one of the plurality of disaster prevention devices 1 functions as a parent device, and the other remaining disaster prevention devices 1 function as child devices. It is desirable that the disaster prevention device 1 of the parent device stores identification information of the disaster prevention device 1 as another child device.

Regardless of the parent device or the child device, each disaster prevention device 1 outputs an alarm sound corresponding to the place where the device is installed by another disaster prevention device 1 other than the own device. Etc.) in advance. Each disaster prevention device 1 stores voice messages of a plurality of types of alarm sounds in advance. For example, when a certain disaster prevention device 1 is installed in a living room and the disaster prevention device 1 detects a fire, the disaster prevention device 1 at the source of the fire emits an alarm sound “view-view fire.” Further, the fire-prevention equipment 1 transmits an alarm signal including information about the occurrence of a fire and the type of voice message corresponding to its own installation location to the disaster prevention equipment 1 of the parent device and the child device. Then, the disaster prevention equipment 1 other than the fire source issues an alarm sound such as “view fire in the living room” based on the received alarm signal.

In the following, as in the example of FIG. 2, it is assumed that all of the plurality of disaster prevention devices 1 are installed on the ceiling surface (one surface of the structure C <b> 1) of each room or staircase in the house 200. Thus, the up, down, left, and right directions of the disaster prevention device 1 will be described with reference to the up, down, left, and right arrows shown in FIG. These arrows are provided merely for the purpose of explanation and have no substance. Further, these directions are not intended to limit the directions in which the disaster prevention device 1 is used.

As shown in FIG. 1, each disaster prevention device 1 includes, for example, a control unit 10, a display unit 11 (preliminary notification unit X1), a sound unit 12 (main notification unit X2), a detection unit 2, and an operation unit 3, for example. It further includes an output unit 13, a battery 14, and a housing 4 (see FIG. 3). The display unit 11 and the sound unit 12 constitute the notification unit 6. The disaster prevention device 1 further includes a storage unit 7.

Each disaster prevention device 1 further includes a communication unit 8 (transmission unit 15) for communicating with another disaster prevention device 1. The communication unit 8 is a communication interface for wirelessly (or may be wired) issuing an alarm sound and linking an operation test (described later) in the disaster prevention system 100.

(2.2) Housing The housing 4 includes the control unit 10, the display unit 11, the sound unit 12, the output unit 13, the battery 14, the detection unit 2, the storage unit 7, the communication unit 8, the control unit 10, and various A circuit board (not shown) on which circuit components constituting the above circuit are mounted is housed inside. Although not shown, the various circuits referred to herein include, for example, an acoustic circuit, a first lighting circuit, a second lighting circuit, and a power supply circuit, which will be described later.

The housing 4 is made of a synthetic resin, for example, a flame-retardant ABS resin. The housing 4 is formed in a generally flat cylindrical shape. The housing 4 has a mounting portion on its upper surface, and is mounted on one surface (installation surface) of the structure C1 by the mounting portion.

(3) As shown in FIG. 3, the housing 4 has, on its peripheral wall 400, a hole 401 through which smoke can be introduced into a labyrinth provided in the housing 4. The housing 4 has a partition wall that divides its internal space into upper and lower parts. The labyrinth and detection unit 2 is in the first space on the upper side, and the control unit 10, the display unit 11, the sound unit 12, the output unit 13, the battery 14, the storage unit 7, the communication unit 8, and the circuit board are on the lower side. In the second space.

(3) As shown in FIGS. 3 and 4, the housing 4 has a slit 9 that is recessed upward in the front surface 402 (the lower surface in FIG. 3). The slit 9 has an annular shape having a predetermined groove width along the outer periphery of the housing 4. As shown in FIG. 4, the slit 9 has an acoustic hole H1 and a window hole H2 in a first region 91 and a second region 92 of the inner surface 90, respectively. The sound hole H <b> 1 is a hole for guiding the alarm sound of the sound unit 12 to the outside of the housing 4, and faces the sound unit 12 in the housing 4. In addition, the acoustic hole H1 may be omitted or may not be provided. The window hole H2 is a hole for guiding the light from the output unit 13 to the outside of the housing 4 and faces the output unit 13 in the housing 4. Hereinafter, the light of the output unit 13 may be referred to as “illumination light”. However, the light of the output unit 13 illuminates an evacuation route that has lower brightness than illumination light output by a general lighting fixture, for example. It is a degree of light.

Furthermore, the housing 4 supports the operation unit 3 on the front surface 402 such that the lower surface of the operation unit 3 is exposed to the outside of the housing 4. The operation unit 3 receives an external operation input (operation). The operation unit 3 can be pushed upward by a push operation with a user's finger or the like. The operation unit 3 is a light-transmitting disk-shaped member. The operation unit 3 is disposed to face a display unit (operation light) 11 housed in the housing 4. The operation unit 3 is configured to press a push button switch (not shown) housed in the housing 4 by a pressing operation.

(2.3) Notification Unit The notification unit 6 includes the display unit 11 and the sound unit 12 as described above. The notification unit 6 has a function of notifying the occurrence of an external event. The “occurrence of an external event” in the present disclosure is, for example, an event targeted for disaster prevention in the disaster prevention device 1, that is, the occurrence of a fire. The notification unit 6 also has a function of notifying the occurrence of an internal event other than the external event targeted for disaster prevention in the disaster prevention device 1. The “occurrence of an internal event” in the present disclosure is an event that can occur in the disaster prevention device 1 itself, and includes, for example, occurrence of a replacement time (replacement time) of the disaster prevention device 1. In addition to the above, the “occurrence of an internal event” includes a failure in the disaster prevention device 1 (a failure of a circuit component or a disconnection), a battery exhaustion (a state where the remaining capacity of the battery 14 is very small), and a disaster prevention. This includes the occurrence of a communication error between the devices 1 and the like. The battery 14 is, for example, a lithium battery.

The sound unit 12 has a function of notifying the occurrence of an internal event and a function of notifying the occurrence of a fire. The sound unit 12 outputs a sound (sound wave). When the control unit 10 determines that a fire has occurred, the sound unit 12 outputs an alarm sound to notify the occurrence of the fire.

The sound unit 12 is configured by a speaker that converts an electric signal into sound. The speaker has a diaphragm and emits an alarm sound by mechanically vibrating the diaphragm according to an electric signal. The speaker is formed in a circular shape when viewed from the front, and has a disk shape. The sound unit 12 outputs an alarm sound (for example, a “peep” sound) under the control of the control unit 10. It is preferable that the sound unit 12 outputs the alarm sound by changing the loudness (sound pressure level) of the alarm sound. The alarm sound may include, for example, a sweep sound that is swept from a low sound to a high sound. The alarm sound may include a voice message such as "Fire. Fire." Here, it is assumed that the alarm sound is composed of a sweep sound and a voice message continuous with the sweep sound.

回路 On the circuit board described above, for example, circuit components constituting an acoustic circuit are mounted. The acoustic circuit has a low-pass filter, an amplifier, and the like. Upon receiving a PWM (Pulse Width Modulation) signal corresponding to the alarm sound generated by the control unit 10 when a fire occurs, the acoustic circuit converts the signal into a sine waveform audio signal with a low-pass filter, amplifies the signal with an amplifier, and amplifies the alarm sound. From the sound unit 12.

(4) When the control unit 10 determines that any internal event has occurred, the sound unit 12 outputs a sound for notifying the occurrence of the internal event. Hereinafter, this sound may be referred to as a "notification sound" to distinguish it from a warning sound at the time of fire occurrence. For example, an example of the notification sound regarding the replacement time of the disaster prevention device 1 includes a voice message such as “It is time to replace the alarm device”. An example of the notification sound related to the failure includes a voice message such as "A failure has occurred in XX." An example of the notification sound regarding the battery exhaustion includes a voice message such as "The battery is exhausted." The notification sound is output at a volume of about 60 to 70% of the volume of the alarm sound.

(4) The sound unit 12 also outputs a warning sound and a notification sound on a test basis even during an operation test. The operation test can be executed by pushing the operation unit 3 or pulling a drawstring (not shown) derived from the housing 4.

Note that if the operation unit 3 receives an external operation input during a warning (while a warning sound is being issued), the sound unit 12 stops outputting the warning sound.

The display unit (operation light) 11 has a function of notifying the occurrence of an internal event and a function of notifying the occurrence of a fire. The display unit 11 has a red LED (Light Emitting Diode) 110 mounted on the circuit board as a light source. The display unit 11 is normally off (when monitoring a fire), and starts blinking (or lighting) when the control unit 10 determines that a fire has occurred. Hereinafter, the flashing for notifying the occurrence of a fire may be referred to as “operation flashing”. The operation flashing stops under the control of the control unit 10 when the generation of the alarm sound stops.

(4) On the circuit board described above, a circuit component constituting a first lighting circuit for blinking the LED 110 of the display unit 11 is mounted. The first lighting circuit blinks the LED 110 using the DC power discharged from the battery 14 under the control of the control unit 10. When the disaster prevention device 1 is electrically connected to a commercial power system, the first lighting circuit converts AC power supplied from the power system into DC current, and causes the LED 110 to blink.

(4) Light emitted from the display unit 11 is led out of the housing 4 via the light-transmitting operation unit 3. The resident 300 can recognize that the disaster prevention device 1 is operating (fire is being detected) by visually checking the red operation flashing through the operation unit 3.

The display unit 11 is included in the preliminary notification unit X1 in the present disclosure. The preliminary notification unit X1 executes a preliminary notification regarding an internal event when an internal event occurs under the control of the control unit 10. Here, when the time of replacement of the disaster prevention device 1 has arrived, the preliminary notification unit X1 executes a preliminary notification regarding replacement by displaying. In other words, when the control unit 10 determines that the disaster prevention device 1 has reached the time for replacement, the display unit 11 blinks to notify that the time for replacement has been reached. Hereinafter, this blinking may be referred to as “information blinking”. The display unit 11 may perform notification flashing when a failure or battery exhaustion occurs other than at the time of replacement. Note that the blinking periods are different from each other in order to distinguish between the notification blinking and the operation blinking.

The operation test of the display unit 11 can be executed by pressing the operation unit 3 or pulling the drawstring, similarly to the sound unit 12.

On the other hand, the sound unit 12 is included in the main notification unit X2 in the present disclosure. Under the control of the control unit 10, the main notification unit X2 executes the main notification regarding replacement when an operation is received by the operation unit 3 during the execution of the preliminary notification by the preliminary notification unit X1. In other words, the sound unit 12 outputs a voice message such as “It is time to replace the alarm” when the operation unit 3 is pressed while the preliminary notification is being executed (while the notification is blinking) on the display unit 11. . At this time, the operation test is started in conjunction with the disaster prevention device 1 that has received the operation and the other disaster prevention devices 1, with the pushing operation on the operation unit 3 as a trigger. The voice message is output in an operation test. When the operation unit 3 receives a push operation again during execution of the main notification (during output of the voice message), the sound unit 12 stops the main notification under the control of the control unit 10.

(2.4) Output Unit The output unit 13 outputs, under the control of the control unit 10, illumination light that illuminates the surrounding area R1 (see FIG. 5: mainly the floor) in accordance with the occurrence of a fire. The output unit 13 includes one or a plurality of white LEDs for illumination 130 mounted on the circuit board as a light source (see FIG. 1). The output unit 13 is normally turned off, and starts lighting (output of illumination light) when the control unit 10 determines that a fire has occurred. Therefore, as shown in FIG. 5, for example, even if a fire occurs at midnight when the resident 300 is sleeping, the resident 300 does not need to turn on the wall switch to turn on the lighting device. Using the 13 illumination lights, the evacuation route can be immediately visually recognized and evacuated.

The LED 130 is configured as a package-type LED in which at least one LED chip is mounted at the center of the mounting surface of the flat mounting board. The LED chip is preferably, for example, a blue light emitting diode that emits blue light from a light emitting surface. The mounting surface of the substrate including the LED chip is covered with a sealing resin mixed with a fluorescent substance that converts the wavelength of blue light emitted from the LED chip. The LED 130 is configured to emit white illumination light from the light emitting surface when a DC voltage is applied between the anode electrode and the cathode electrode. The color of the illumination light is not limited to white, but may be another light color. However, it is desirable not to cover the light color of the display unit 11.

(4) On the circuit board described above, circuit components constituting a second lighting circuit for lighting the LED 130 of the output unit 13 are mounted. The second lighting circuit lights the LED 130 using the DC power discharged from the battery 14 under the control of the control unit 10. When the disaster prevention device 1 is electrically connected to a commercial power system, the second lighting circuit converts the AC power supplied from the power system into a DC current and turns on the LED 130.

(4) The light (illumination light) emitted from the output unit 13 is led out of the housing 4 through the window H2 of the slit 9, and the surrounding area R1 is illuminated. The output unit 13 is turned on experimentally even during an operation test. The operation test of the output unit 13 can be executed by pressing the operation unit 3 or pulling the drawstring, similarly to the sound unit 12.

(2.5) Detection Unit The detection unit 2 detects information on a fire (external event) for which an alarm sound is issued. Here, the detection unit 2 is, for example, a photoelectric sensor that detects smoke. Therefore, the information includes, for example, information on smoke. As shown in FIG. 1, the detection unit 2 includes a light emitting unit 21 such as an LED and a light receiving unit 22 such as a photodiode. The light emitting unit 21 and the light receiving unit 22 are arranged in the labyrinth of the housing 4 so that the light receiving surface of the light receiving unit 22 is off the optical axis of the irradiation light of the light emitting unit 21. In the event of a fire, smoke can be introduced into the labyrinth through holes 401 in the peripheral wall 400 of the housing 4.

場合 When smoke does not exist in the labyrinth of the housing 4, the irradiation light of the light emitting unit 21 hardly reaches the light receiving surface of the light receiving unit 22. On the other hand, when smoke exists in the labyrinth of the housing 4, the irradiation light of the light emitting unit 21 is scattered by the smoke, and a part of the scattered light reaches the light receiving surface of the light receiving unit 22. That is, the detecting unit 2 receives the irradiation light of the light emitting unit 21 scattered by the smoke by the light receiving unit 22.

The detection unit 2 is electrically connected to the control unit 10. The detecting unit 2 transmits an electric signal (detection signal) indicating a voltage level corresponding to the amount of light received by the light receiving unit 22 to the control unit 10. The control unit 10 determines the fire by converting the light amount of the detection signal received from the detection unit 2 into smoke density. The detection unit 2 may convert the amount of light received by the light receiving unit 22 into smoke density, and then transmit a detection signal indicating a voltage level corresponding to the smoke density to the control unit 10. Alternatively, the detection unit 2 may determine the occurrence of a fire (smoke) from the amount of light received by the light receiving unit 22 and transmit a detection signal including information that a fire has occurred to the control unit 10.

(2.6) Control Unit The control unit 10 includes, for example, a microcontroller having a CPU (Central Processing Unit) and a memory as main components. In other words, the control unit 10 is realized by a computer having a CPU and a memory, and the computer functions as the control unit 10 by the CPU executing a program stored in the memory. Although the program is recorded in the memory in advance here, the program may be provided through a telecommunication line such as the Internet or recorded on a non-temporary recording medium such as a memory card.

The control unit 10 controls the display unit 11, the first lighting circuit, the sound unit 12, the acoustic circuit, the output unit 13, the second lighting circuit, the detection unit 2, the storage unit 7, the communication unit 8, and the like. Further, the control unit 10 controls a power supply circuit that generates operation power of various circuits from the DC power of the battery 14. The storage unit 7 is a data rewritable memory, and is preferably a nonvolatile memory. The storage unit 7 may be a memory of the control unit 10 itself.

The control unit 10 is configured to receive a detection signal from the detection unit 2 and determine whether a fire has occurred. Specifically, the control unit 10 monitors the detection signal of the detection unit 2 and determines whether the signal level included in the detection signal has exceeded a threshold.

The control unit 10 stores the threshold value in the storage unit 7. The control unit 10 may periodically determine, for example, at predetermined time intervals, whether or not the smoke density has exceeded the threshold, and if the smoke density has exceeded the threshold even once, it may be determined that a fire has occurred. The predetermined time interval is, for example, an interval of 5 seconds. Alternatively, the control unit 10 may count the number of times the smoke density continuously exceeds the threshold, and determine that a fire has occurred when the number of times reaches the specified number. Of course, if the control unit 10 receives a detection signal including information indicating that a fire has occurred from the detection unit 2, the control unit 10 may directly determine that a fire has occurred.

When the control unit 10 determines that a fire has occurred based on the smoke density, the control unit 10 causes the sound unit 12 to start outputting a warning sound. Specifically, the control unit 10 generates a PWM signal corresponding to a sweep sound whose frequency changes linearly with time, and outputs the PWM signal to the acoustic circuit. The PWM signal is converted into an audio signal by an audio circuit, and a sweep sound (warning sound) is output from the audio unit 12. Further, the control unit 10 generates a PWM signal corresponding to the voice message based on the message data stored in the storage unit 7 and outputs the PWM signal to the acoustic circuit. The PWM signal is converted into an audio signal by an audio circuit, and an audio message (alarm sound) is output from the audio unit 12.

When determining that a fire has occurred, the control unit 10 transmits a control signal for blinking the display unit 11 to the first lighting circuit and a control signal for lighting the output unit 13 to the second lighting circuit. . When receiving the control signal from the control unit 10, the first lighting circuit causes the display unit 11 to start operating and blinking. When the second lighting circuit receives the control signal from the control unit 10, the second lighting circuit lights the output unit 13 with a constant brightness.

The control unit 10 determines the smoke density even during the alarm (while the alarm sound is being issued). If the smoke density falls below the reference value during the alarm, the control unit 10 stops generating the PWM signal, stops outputting the alarm sound by the sound unit 12, and outputs the stop signal to the first lighting circuit and the second lighting circuit. The signals are transmitted to the lighting circuits, and the light output from the display unit 11 and the output unit 13 also stops. That is, when determining that the fire (smoke) has disappeared, the control unit 10 automatically stops outputting the alarm sound, outputting the illumination light, and blinking the display unit 11.

The control unit 10 stops outputting the alarm sound when the push button switch in the housing 4 is turned on by a push operation on the operation unit 3 during the alarm. If the resident 300 determines that the alarm of the disaster prevention device 1 is a false alarm, the alarm sound can be stopped by pressing the operation unit 3. The stop of the alarm sound can also be stopped by pulling the drawstring.

On the other hand, when the push button switch in the housing 4 is turned on by a push operation on the operation unit 3 during the non-alarm state, the control unit 10 executes a predetermined operation test for inspection. The operation test includes a sound output test of the sound unit 12, a light output test of the output unit 13, a blinking test of the display unit 11, and the like. The operation test can also be performed by pulling a drawstring.

The control unit 10 is further configured to determine whether an internal event (replacement, failure, running out of battery, or the like) has occurred. Hereinafter, determination of whether or not an internal event has occurred will be described in detail.

The control unit 10 monitors the usage time using a built-in timer. The use time is, for example, a time during which the power is turned on and the disaster prevention device 1 is in an operating state. The control unit 10 accumulates and stores the usage time in the storage unit 7. When the cumulative use time reaches 10 years, the control unit 10 determines that its own disaster prevention device 1 has reached the replacement time, and causes the preliminary notification unit X1 (display unit 11) to execute the preliminary notification (preliminary notification). Notification step). That is, the display unit 11 starts the notification blink.

FIG. 6A is a diagram showing a state of preliminary notification (blinking of notification). In the illustrated example, the period A3 corresponds to one cycle. The period A3 is, for example, 5 minutes. The display unit 11 repeats the operation of turning on the light during the period A1 and then turning off the light during the period A2. The period A1 is, for example, 0.1 second, and the period A2 is, for example, 1.9 seconds. After the fourth lighting, the light is kept turned off for the remaining time, and after the period A3, the lighting during the period A1 is repeated four times. Note that the notification flashing is merely an example, and is not particularly limited.

の The time to replace the battery is less urgent than the battery exhaustion and the failure, and the replacement of the disaster prevention equipment 1 is also convenient for the resident 300. Therefore, the control unit 10 does not cause the main notification unit X2 (sound unit 12) to execute the main notification, that is, the output of the voice message notifying the replacement immediately after the determination. Then, during the execution of the preliminary notification, that is, while the notification is blinking, when the resident 300 performs the first push operation on the operation unit 3, the main notification is performed (main notification step). In this way, by notifying the arrival of the replacement time in the order of the preliminary notification (light) and the main notification (sound), the resident 300 can be promptly replaced.

When the operation unit 3 is pressed again by the resident 300 (second press operation) during the execution of this notification, the control unit 10 stops outputting the voice message of the sound unit 12. In other words, the actual notification that is being executed can be stopped in accordance with the convenience of the resident 300, so that the convenience is improved. Further, it is possible to suppress the power consumed by continuing the execution of the notification.

Note that the control unit 10 starts the preliminary notification by the preliminary notification unit X1 (display unit 11) and then starts the preliminary notification until the main notification is started (until the first push operation to the operation unit 3 is performed). The notification is executed continuously. Therefore, the possibility that the resident 300 notices the preliminary notification is improved, and the forgetting to replace the resident 300 can be further suppressed.

The control unit 10 monitors the current flowing from the acoustic circuit to the acoustic unit 12 in addition to the monitoring of the use time. If the current value of the current is an abnormal value (such as zero or a value close to the abnormal value), the disconnection may occur. It is determined that an error has occurred. Further, if the voltage value of a predetermined electric circuit in each circuit is an abnormal value, the control unit 10 determines that a failure has occurred in the circuit. The control unit 10 may monitor the temperature of various circuits and the like, and determine that a failure has occurred if there is abnormal heat generation. When the control unit 10 determines that a failure has occurred, the control unit 10 notifies the notification unit 6. The notification about the failure may be performed in the order of the preliminary notification and the main notification in the same manner as the above-described replacement notification, or the preliminary notification may be omitted and only the main notification may be performed. In addition, when a disconnection occurs between the acoustic circuit and the acoustic unit 12, the notification by the acoustic unit 12 is not possible, and therefore, the notification regarding the failure is provided only from the display unit 11.

(5) The control unit 10 monitors the battery voltage of the battery 14. The control unit 10 previously stores, in the storage unit 7, characteristic data in which the battery voltage and the capacity of the battery 14 are associated with each other, and if the remaining capacity corresponding to the monitored battery voltage is less than 10% of the capacity, It is determined that the battery has run out. When the control unit 10 determines that the battery has run out, the control unit 10 notifies the notification unit 6. The notification about the battery exhaustion may be performed in the order of the preliminary notification and the main notification in the same manner as the above-described replacement notification, or the preliminary notification may be omitted and only the main notification may be performed.

The control unit 10 may determine whether or not these internal events have occurred at a predetermined cycle. The determination of at least a part of the internal event may be performed once a day at midnight, for example.

Note that the control unit 10 generates a PWM signal based on the message data stored in the storage unit 7 and sounds the corresponding voice message via an audio circuit with respect to the voice message notifying the occurrence of the internal event. Output from the unit 12.

(2.7) Re-execution of Preliminary Notification The preliminary notification unit X1 of each disaster prevention device 1 in the present embodiment executes the preliminary notification at least once more when a predetermined condition is satisfied after the main notification is started. . In other words, if the control unit 10 determines that a predetermined condition is satisfied after the main notification is started, the control unit 10 causes the preliminary notification unit X1 (display unit 11) to execute the preliminary notification at least once more (re-notification step). .

Here, the "predetermined condition" means that a predetermined time T1 has elapsed from a certain time point tx (see FIG. 7A). The time point tx is, for example, a start time point t1 of the main notification (a time point when the first push operation is performed on the operation unit 3) (see FIG. 7A). The predetermined time T1 is, for example, four weeks, but is not particularly limited. In the case of FIG. 7A, the second preliminary notification is performed at time t3.

The time point tx may be the end time point t2 of the main notification (the time point at which the second push operation is performed on the operation unit 3) (see FIG. 7B). In the case of FIG. 7B, at time t4, the second preliminary notification is performed.

Alternatively, the time point tx may be the start time point t0 of the preliminary notification (see FIG. 7C). In the case of FIG. 7C, at time t5, the second preliminary notification is executed. In the example of FIG. 7C, even if the predetermined time T1 has elapsed, if the first push operation on the operation unit 3 has not been performed, the control unit 10 resets the clocking of the predetermined time T1, and issues a preliminary notification. It is desirable to continue.

As described above, in the present embodiment, when a predetermined condition is satisfied, the preliminary notification is performed at least once more (at least two times in total, and three times when the main notification is added). Suppression can be achieved.

Further, since the preliminary notification is performed by displaying (lighting) and the main notification is performed by outputting a sound, compared to a case where both the preliminary notification and the main notification are performed by displaying or both are performed by outputting a sound. Thus, the difference between the preliminary notification and the main notification can be recognized by the resident 300. Moreover, the possibility of giving the resident 300 uncomfortable feeling can be reduced as compared with the case where the preliminary notification is executed by outputting sound. Further, it is possible to increase the possibility that the resident 300 notices the notification as compared with the case where the main notification is executed by display. In particular, by performing the main notification by sound immediately after performing the operation, a situation in which the resident 300 misses the main notification by sound is suppressed.

Note that the preliminary notification unit X1 may repeatedly execute the preliminary notification if the above predetermined condition is satisfied after the main notification is started. In short, each disaster prevention device 1 may continue the operations of the preliminary notification, the main notification, the lapse of the predetermined time T1, the preliminary notification, the main notification, the lapse of the predetermined time T1, the preliminary notification, and the like. By repeatedly executing the preliminary notification, forgetting to replace the resident 300 can be further suppressed.

By the way, the re-execution may be performed not only for the preliminary notification but also for the main notification. For example, as illustrated in FIG. 8A, when the operation unit 3 receives an operation after the elapse of a certain period T2 from the specific time point tz (time point t6), the control unit 10 transmits the notification to the main notification unit X2 (sound unit 12). This notification may be executed again. In FIG. 8A, the specific time point tz corresponds to a time point when the first operation is received by the operation unit 3 during the execution of the preliminary notification, that is, a start time point t1 of the first main notification. However, the specific time point tz may be the time point when the second operation is received by the operation unit 3 during the execution of the first main announcement, that is, the end time point t2 of the first main announcement, as shown in FIG. 8B. .

The fixed period T2 is preferably shorter (for example, one day) than the predetermined time T1 (for example, four weeks), but is not particularly limited. The fixed period T2 may be the same as the predetermined time T1, or may be longer than the predetermined time T1.

Further, when the operation unit 3 accepts the operation after the elapse of the fixed time period T2 from the specific time point tz, if the event having a higher priority than the replacement has occurred at that time point, the control unit 10 notifies the notification unit. X2 may be informed of information on the high-priority event. Events having higher priority than replacement include occurrence of a failure and running out of battery. Naturally, the fire alarm has the highest priority during the fire alarm issuance.

In this case, the re-execution of the main notification or the execution of the notification of the information on the event with a high priority can be performed according to the convenience of the resident 300, so that the convenience is improved.

(2.8) Operation Test and Interlocking Function By the way, in this embodiment, when the first push operation is performed on the operation unit 3 with respect to the disaster prevention device 1 which is executing the preliminary notification, the disaster prevention device 1 is immediately Rather than performing this notification, that is, outputting a voice message notifying the replacement, first, a predetermined operation test is started. In addition, the plurality of disaster prevention devices 1 are so-called interlocking type disaster prevention devices, and it has been described that the alarm sound is issued in conjunction with the plurality of disaster prevention devices. However, the operation test is also performed in conjunction. That is, when an operation is received by the operation unit 3 during execution of the preliminary notification, the operation test is performed not only for the disaster prevention device 1 that has received the operation, but also for the disaster prevention device 1 as an interlocking source, and for the other disaster prevention devices 1. An operation test is started for each of the (link destinations) (link step).

Hereinafter, an operation test in the disaster prevention system 100 starting from the preliminary notification and an operation related to the interlocking function will be described with reference to FIG. 6B. As described above, the execution of the operation test itself requires performing a specific operation (operation on the operation unit 3 or the drawstring) when the disaster prevention device 1 is in the standby state even when the preliminary notification is not being executed. Is possible.

The operation test includes at least a test related to replacement (confirmation of replacement time). In the present embodiment, the operation test includes, for example, confirmation of replacement time of the disaster prevention equipment 1, output test of the illumination light of the output unit 13, output test of the alarm sound of the sound unit 12, and lighting of the display unit (operation light) 11. This includes testing, checking the capacity of the battery 14, and checking for the presence or absence of failures in various circuits. Further, the operation test may include a communication test between the plurality of disaster prevention devices 1. For example, the disaster prevention device 1 of the parent device also checks the radio wave intensity, such as whether all the disaster prevention devices 1 of the plurality of child devices are present in the communicable area.

Here, it is assumed that, among the plurality of disaster prevention devices 1 of the disaster prevention system 100, one disaster prevention device 1 serving as a child device has reached a replacement time of 10 years. The disaster prevention device 1 starts the preliminary notification (see FIG. 6A). It is assumed that the resident 300 who noticed the preliminary notification performs the first push operation on the operation unit 3 of the disaster prevention device 1 that is executing the preliminary notification at the time t10 in FIG. 6B.

災 The disaster prevention device 1 that has received the push operation outputs a voice message such as “Pi, testing in progress” through the sound unit 12. Thereafter, at time t11, an operation test is started.

Here, the disaster prevention device 1 that has received the push operation is the interlocking source, and is transmitted from the communication unit 8 (the transmission unit 15) to the master device or the child device disaster prevention device 1 between time points t10 and t11. A test signal (linked signal) for instructing the start of the operation test is transmitted. When the disaster prevention device 1 as the slave receives the test signal from the interlocking source, the operation test is started as it is. In addition, when the master device's disaster prevention device 1 receives the test signal from the interlocking source, it sends a test signal instructing the start of an operation test to the child device's disaster prevention device 1 in the disaster prevention system 100.

More specifically, each of the master device and the plurality of slave devices of the disaster prevention apparatus 1 in the disaster prevention system 100 is in a standby state and uses an asynchronous intermittent reception method to detect a test signal and an alarm when an actual fire is detected. The presence of signals such as signals is checked. That is, in the present embodiment, the intermittent reception system is adopted in the wireless type disaster prevention device 1 having the battery 14 therein in order to suppress the power consumption of the battery 14. Then, the disaster prevention apparatus 1 serving as a link source repeats the test signal (alarm signal when a fire is detected) a plurality of times (for example, three times) and multicasts the test signal to the disaster prevention apparatus 1 of the parent device or another child device. When the disaster prevention device 1 of the slave unit receives the test signal, the operation test is started as it is, and when the disaster prevention device 1 of the master unit receives the test signal, a periodic beacon is transmitted to the slave unit. And the operation test is started on the slave without omission. Thereafter, the disaster prevention equipment 1 of the parent device and the child device communicates by the time division multiple access method until the operation test is completed.

In the example of FIG. 6B, it is assumed that at time t11, all the disaster prevention devices 1 in the disaster prevention system 100 start operation tests substantially simultaneously. Here, as shown in FIG. 6B, the disaster prevention apparatus 1 of the interlocking source continues the preliminary notification as it is until time t11, and stops the preliminary notification at time t11. Note that the stop of the preliminary notification need not be at time t11 but may be at time t10 when the first push operation is performed.

At time t11, each of the disaster prevention devices 1 notifies the sound unit 12 of a test result related to an operation test together with a beep sound “Pi, Pi, Pi, Pi”. Since the disaster prevention equipment 1 of the interlocking source has reached the replacement time, as shown in the example in the figure, the voice message “It is time to replace the pi, pi, pi, pi, and the alarm” is output (this notification). . That is, the time point t11 corresponds to the start time point t1 of the main notification in FIG. 7A, that is, “a certain time point tx”. When it is confirmed that the remaining capacity of the battery 14 is low in the other disaster prevention equipment 1 of the linked destination, for example, a voice message such as “Pi, pi, pi, pip, out of battery” is issued. Output.

If it is found from the operation test that an event other than the arrival of the replacement time, such as a failure or running out of battery, has occurred in the operation test, only the event with the highest priority may be reported as a test result. Then, all the test results may be sequentially reported. Because of the operation test based on the preliminary notification, at least the replacement time has reached the disaster prevention equipment 1 of the interlocking source, but if another disaster prevention equipment 1 has the replacement time, the battery runs out, and If there is no failure, a voice message “Pi, normal” is output. These voice messages are repeatedly output, for example, at intervals of 4 seconds until the operation test is completed.

At time t11, each disaster prevention device 1 performs a lighting test on the display unit (operation lamp) 11 in parallel with the notification of the test result. The display unit 11 periodically repeats, for example, lighting for 0.5 seconds and extinguishing for 0.5 seconds.

At time t11, each disaster prevention device 1 performs an output test of illumination light from the output unit 13 in parallel with the notification of the test result. That is, the output unit 13 of each disaster prevention device 1 starts outputting the illumination light triggered by receiving the first push operation by the operation unit 3 of the disaster prevention device 1 of the interlocking source. The output unit 13 performs continuous lighting.

As described above, in the present embodiment, an operation test of a plurality of other disaster prevention devices 1 can be performed based on the preliminary notification of a certain disaster prevention device 1, that is, starting at the time of replacement. Therefore, even if the resident 300 does not know the timing at which the operation test should be performed, there is a high possibility that the operation test will be performed through the preliminary notification. In addition, it is not necessary to perform an operation test for a plurality of disaster prevention devices 1 one by one, and the convenience of the operation test can be improved.

(4) The above-described operation test (notification of test results, lighting test of display unit 11, output test of illumination light of output unit 13, and the like) ends when the second push operation is performed on operation unit 3. That is, when the operation of the operation unit 3 during the execution of the main report is accepted again, the interlocking disaster prevention apparatus 1 stops the main report, and the disaster prevention apparatus 1 further stops other disaster prevention during the notification of the test result. The notification of the test result to the device 1 is stopped. Therefore, starting the operation on the operation unit 3 of the disaster prevention device 1, the notification of the test result to the other disaster prevention devices 1 can be stopped. Further, according to the circumstances of the resident 300, the notification of the test result being executed can be stopped all at once, so that the convenience is improved. Further, it is possible to suppress the power consumed by continuously performing the notification of the test result.

Similarly, the output unit 13 of each disaster prevention device 1 stops the output of the illumination light when the operation unit 3 of the interlocking disaster prevention device 1 receives the operation again during the output of the illumination light. Therefore, it is possible to realize the link between the main notification and the illumination light.

FIG. 6B is an example in which the resident 300 performs a push operation on the operation unit 3 at time t12. If there is no push operation on the operation unit 3 for a maximum of, for example, one minute from the time point t11, the operation test automatically ends. In the operation test described above, in the above-described example, the push operation on the operation unit 3 of the disaster prevention device 1 that has performed the preliminary notification is started and stopped interlockingly. However, the operation test is performed on the operation unit 3 of another disaster prevention device 1. It is possible to stop interlocking even if the pushing operation of the button becomes the starting point. In short, the disaster prevention devices 1 to be subjected to the first push operation and the second push operation may be different from each other.

Then, at a time point t13 when a predetermined time T1 has elapsed from the start time point t11 of the main notification, the disaster prevention apparatus 1 as the link source executes the preliminary notification again. Also in the second and subsequent preliminary notifications, if the push operation to the operation unit 3 is performed, the operation test is executed again in each disaster prevention device 1.

(3) Modifications The above embodiments are merely one of various embodiments of the present disclosure. The above embodiment can be variously modified according to the design and the like, if the object of the present disclosure can be achieved. Further, the same functions as those of the disaster prevention device 1 according to the above-described embodiment may be embodied by a control method of the disaster prevention device 1, a computer program, a non-temporary recording medium recording the computer program, or the like.

変 形 Hereinafter, modifications of the above embodiment will be listed. The modifications described below can be applied in appropriate combinations. In the following, the above embodiment may be referred to as a “basic example”.

制 御 The control unit 10 of the disaster prevention device 1 according to the present disclosure includes a computer system. The computer system mainly has a processor and a memory as hardware. When the processor executes the program recorded in the memory of the computer system, the function as the control unit 10 of the disaster prevention device 1 according to the present disclosure is realized. The program may be pre-recorded in the memory of the computer system, may be provided through an electric communication line, or may be recorded in a non-transitory recording medium such as a memory card, an optical disk, or a hard disk drive readable by the computer system. May be provided. A processor of a computer system is composed of one or more electronic circuits including a semiconductor integrated circuit (IC) or a large-scale integrated circuit (LSI). An integrated circuit such as an IC or an LSI referred to here differs depending on the degree of integration, and includes an integrated circuit called a system LSI, VLSI (Very Large Scale Integration), or ULSI (Ultra Large Scale Integration). Furthermore, an FPGA (Field-Programmable Gate Array), which is programmed after the manufacture of the LSI, or a logic device capable of reconfiguring a connection relationship inside the LSI or reconfiguring a circuit section inside the LSI, is also adopted as a processor. Can be. The plurality of electronic circuits may be integrated on one chip, or may be provided separately on a plurality of chips. The plurality of chips may be integrated in one device, or may be provided separately in a plurality of devices. The computer system includes a microcontroller having one or more processors and one or more memories. Therefore, the microcontroller is also composed of one or more electronic circuits including a semiconductor integrated circuit or a large-scale integrated circuit.

It is not essential for the disaster prevention device 1 that a plurality of functions of the disaster prevention device 1 are integrated in one housing, and the components of the disaster prevention device 1 are provided separately in the plurality of housings. May be. Further, at least a part of the functions of the disaster prevention device 1, for example, a part of the functions of the disaster prevention device 1 may be realized by a cloud (cloud computing) or the like. Conversely, as in the basic example, a plurality of functions of the disaster prevention device 1 may be integrated in one housing.

で は In the basic example, the fire prevention equipment 1 is an interlocking fire alarm and has a communication unit 8 for communicating with another fire alarm, but may be a single fire alarm. In short, the communication unit 8 is not an essential component in the disaster prevention device 1.

In the basic example, the preliminary notification unit X1 (display unit 11) continuously performs the preliminary notification from the start of the preliminary notification until the start of the main notification (until the operation unit 3 is pressed). To do. However, the preliminary notification unit X1 may stop the preliminary notification when the prescribed period elapses without receiving an operation on the operation unit 3 after the start of the preliminary notification. In this case, the possibility of giving the resident 300 uncomfortable feeling can be reduced as compared with the case where the execution of the preliminary notification is maintained as in the basic example. Further, it is possible to suppress the power consumed by continuing to execute the preliminary notification.

It is preferable that the preliminary notification unit X1 restart the preliminary notification when a specific period elapses from the point in time when the preliminary notification is stopped according to the elapse of the specified period. By starting the preliminary notification again, the possibility of giving the resident 300 unpleasantness can be reduced, and the forgetting to replace the resident 300 can be further suppressed.

In the basic example, the preliminary notification is executed by displaying and the main notification is executed by outputting sound, but the present invention is not limited to this. For example, both the preliminary notification and the main notification may output sounds, and in this case, the volume may be different between the preliminary notification and the main notification, or the content of the output voice message may be different.

で は In the basic example, the disaster prevention device 1 includes an output unit 13 that outputs illumination light. However, the output unit 13 is not an essential component of the disaster prevention device 1. The disaster prevention device 1 does not need to include the output unit 13.

In the basic example, the display unit 11 serves both as an operation light (operation flashing) and a preliminary notification (information flashing). However, the operation light may be provided separately from the display unit 11. In addition, the light of the display unit 11 is configured to be seen through the light-transmitting operation unit 3. However, the operation unit 3 may be an opaque member, and in this case, the light of the display unit 11 radiates to the outside of the housing 4 from a hole or a translucent cover located at a position different from the operation unit 3. May be done.

In the basic example, the configuration in which the operation test is performed after the preliminary notification has been described. In addition to the configuration, if the operation unit 3 is operated when the disaster prevention device 1 is in the standby state without the preliminary notification, the operation is performed. The test may be started. Also at this time, the operation test may be started on another disaster prevention device 1 with the disaster prevention device 1 acting as an interlocking source.

In the basic example, the disaster prevention device 1 itself that has received the operation also performs the operation test, but does not have to perform the operation test. That is, the disaster prevention device 1 may simply output a voice message such as “It is time to replace the alarm device” immediately after receiving the operation.

(4) Advantages As described above, the disaster prevention device (1) according to the first aspect performs a notification operation regarding disaster prevention. The disaster prevention device (1) includes a preliminary notification unit (X1), an operation unit (3), and a main notification unit (X2). The preliminary notification unit (X1) executes a preliminary notification regarding replacement when the disaster prevention device (1) has reached a time for replacement. The operation unit (3) receives an operation. The main notification unit (X2) executes the main notification regarding replacement when an operation is received by the operation unit (3) during the execution of the preliminary notification by the preliminary notification unit (X1). When a predetermined condition is satisfied after the main notification is started, the preliminary notification unit (X1) executes the preliminary notification at least once. According to the first aspect, when the predetermined condition is satisfied, the preliminary notification is performed at least once more, so that it is possible to prevent the user from forgetting to replace the device.

Regarding the disaster prevention equipment (1) according to the second aspect, in the first aspect, it is preferable that the preliminary notification unit (X1) includes a display unit (11) that executes the preliminary notification by displaying. It is preferable that the main notification unit (X2) includes an audio unit (12) that performs the main notification by outputting sound. According to the second aspect, it is possible to make the user recognize the difference between the preliminary notification and the main notification.

Regarding the disaster prevention equipment (1) according to the third aspect, in the first aspect or the second aspect, the main notification unit (X2) receives an operation again at the operation unit (3) during execution of the main notification. It is preferable to stop the notification. According to the third aspect, the actual notification that is being executed can be stopped at the convenience of the user, so that the convenience is improved. Further, it is possible to suppress the power consumed by continuing the execution of the notification.

Regarding the disaster prevention equipment (1) according to the fourth aspect, in any one of the first to third aspects, the predetermined condition is that a predetermined time (T1) elapses from a certain time point (tx). Is preferred. The certain time point (tx) is preferably a start time point (t1, t11) of the main announcement, an end time point (t2) of the main announcement, or a start time point (t0) of the preliminary announcement. According to the fourth aspect, it is possible to prevent the user from forgetting to replace the battery.

The disaster prevention device (1) according to a fifth aspect is the display device according to any one of the first to fourth aspects, further comprising an output unit (13) that outputs illumination light for illuminating the surrounding region (R1). Is preferred. It is preferable that the output unit (13) starts output of the illumination light, triggered by an operation received by the operation unit (3). In addition, it is preferable that the output unit (13) stops the output of the illumination light, triggered by receiving the operation again by the operation unit (3) during the output of the illumination light. According to the fifth aspect, it is possible to provide a disaster prevention device (1) capable of outputting illumination light, and to realize interlocking with the main notification and the illumination light.

With respect to the disaster prevention equipment (1) according to the sixth aspect, in any one of the first to fifth aspects, the notification unit (X2) may be configured such that after a lapse of a fixed period (T2) from a specific time point (tz). When the operation is received at the operation unit (3), it is preferable to execute this notification. Alternatively, when the main notification unit (X2) receives an operation at the operation unit (3) after a lapse of a predetermined period (T2) from a specific time point (tz), the main notification unit (X2) notifies information about an event having a higher priority than replacement. Is preferably performed. The specific time point (tz) is preferably a time point at which an operation is received by the operation unit (3) during execution of the preliminary notification or main notification. According to the sixth aspect, the re-execution of the main notification or the execution of the notification of the information on the event with a high priority can be performed according to the user's convenience, so that the convenience is improved.

Regarding the disaster prevention equipment (1) according to the seventh aspect, in any one of the first to sixth aspects, the preliminary notification section (X1) starts from the preliminary notification until the main notification is started. It is preferable that the preliminary notification is continuously executed. According to the seventh aspect, the possibility that the user notices the preliminary notification is improved, and it is possible to further suppress the user from forgetting to replace.

Regarding the disaster prevention equipment (1) according to the eighth aspect, in any one of the first to sixth aspects, the preliminary notification section (X1) starts the preliminary notification and then operates the operation section (3). When the specified period elapses without receiving an operation, it is preferable to stop the preliminary notification. According to the eighth aspect, the possibility of giving the user discomfort can be reduced as compared with the case where the execution of the preliminary notification is maintained. Further, it is possible to suppress the power consumed by continuing to execute the preliminary notification.

With respect to the disaster prevention equipment (1) according to the ninth aspect, in the eighth aspect, the preliminary notification unit (X1) re-starts when a specific period elapses from the point in time when the preliminary notification is stopped according to the elapse of the prescribed period. It is preferable to start the preliminary notification. According to the ninth aspect, it is possible to further suppress forgetting to replace the user while reducing the possibility of giving the user discomfort.

In any one of the first to ninth aspects, the disaster prevention device (1) according to the tenth aspect, when receiving an operation at the operation unit (3) during execution of the preliminary notification, transmits the other one or the other one. It is preferable to start an operation test for a plurality of disaster prevention devices (1). The operation test includes at least a test related to replacement. According to the tenth aspect, it is possible to cause another plurality of disaster prevention devices (1) to perform an operation test starting from the preliminary notification in the disaster prevention device (1).

In the tenth aspect, it is preferable that the disaster prevention device (1) according to the eleventh aspect stop the main notification when the operation unit (3) receives an operation again during the execution of the main notification. Furthermore, it is preferable that the disaster prevention device (1) stops the notification of the test result regarding the operation test to one or more other disaster prevention devices (1). According to the eleventh aspect, the operation of the operation unit (3) in the disaster prevention device (1) can be used as a starting point to stop another one or more disaster prevention devices (1) from reporting the test result.

The control method according to the twelfth aspect is a control method for the disaster prevention device (1) that performs a notification operation regarding disaster prevention. The control method includes a preliminary notification step, a main notification step, and a re-notification step. In the preliminary notification step, when the time of replacement of the disaster prevention device (1) has arrived, preliminary notification regarding replacement is executed. In the main notification step, if an operation is received by the operation unit (3) of the disaster prevention device (1) during the execution of the preliminary notification, the main notification on replacement is executed. In the re-notification step, when a predetermined condition is satisfied after the main notification is started, the preliminary notification is performed at least once. According to the twelfth aspect, it is possible to provide a control method capable of suppressing the user from forgetting to replace the battery.

The program according to the thirteenth aspect is a program for causing a computer system to execute the control method according to the twelfth aspect. According to the thirteenth aspect, it is possible to provide a function capable of suppressing the user from forgetting to replace the battery. Note that a non-transitory computer-readable medium may store the program and cause the computer system to execute the control method according to the twelfth aspect when executed by the computer system.

構成 The configurations according to the second to eleventh aspects are not essential components for the disaster prevention equipment (1), and can be omitted as appropriate.

DESCRIPTION OF SYMBOLS 1 Disaster prevention equipment X1 Preliminary notification part X2 Main notification part 3 Operation part 11 Display part 12 Sound part 13 Output part R1 Surrounding area tx One point in time tz Specific point in time t0 Start point of preliminary notification t1, t11 Start point of this notification t2 book Notification end time T1 Predetermined time T2 Predetermined time

Claims (13)

1. It is a disaster prevention device that performs a notification operation related to disaster prevention,
   When the disaster prevention device reaches the time of replacement, a preliminary notification unit that performs preliminary notification regarding the replacement,
   An operation unit for receiving an operation,
   During the execution of the preliminary notification by the preliminary notification unit, when the operation is received by the operation unit, a main notification unit that executes the main notification regarding the replacement,
   With
   The preliminary notification unit executes the preliminary notification at least once when a predetermined condition is satisfied after the main notification is started.
   Disaster prevention equipment.
2. The preliminary notification unit includes a display unit that executes the preliminary notification by display,
   The main notification unit includes an audio unit that executes the main notification by outputting sound.
   The disaster prevention device according to claim 1.
3. The main notification unit, during the execution of the main notification, stops the main notification when the operation unit receives the operation again,
   The disaster prevention device according to claim 1.
4. The predetermined condition is that a predetermined time elapses from a certain time,
   The certain time point is a start time point of the main notification, an end time point of the main notification, or a start time point of the preliminary notification.
   The disaster prevention device according to any one of claims 1 to 3.
5. An output unit that outputs illumination light that illuminates the surrounding area,
   The output unit includes:
   Triggering the reception of the operation by the operation unit to start outputting the illumination light,
   Stopping the output of the illumination light, triggered by receiving the operation again by the operation unit during the output of the illumination light,
   The disaster prevention device according to any one of claims 1 to 4.
6. The main notification unit,
   After a lapse of a certain period from a specific point in time, when the operation is received by the operation unit, the main notification or the notification of information on a higher priority event than the replacement is performed,
   The specific point in time is
   During the execution of the preliminary notification or the execution of the main notification, the operation unit receives the operation,
   The disaster prevention device according to any one of claims 1 to 5.
7. The preliminary notification unit, after starting the preliminary notification, until the main notification is started, continuously executes the preliminary notification,
   The disaster prevention device according to any one of claims 1 to 6.
8. The preliminary notification unit, after starting the preliminary notification, stops the preliminary notification when a predetermined period elapses without receiving the operation in the operation unit,
   The disaster prevention device according to any one of claims 1 to 6.
9. The preliminary notification unit, from the time when the preliminary notification is stopped according to the elapse of the specified period, further restarts the preliminary notification when a specific period elapses,
   The disaster prevention device according to claim 8.
10. During the execution of the preliminary notification, when the operation is received by the operation unit, an operation test including at least a test related to the replacement is started for at least one other disaster prevention device,
    The disaster prevention device according to any one of claims 1 to 9.
11. During the execution of the main notification, when the operation unit receives the operation again, the main notification is stopped, and the other one or more disaster prevention devices are notified of a test result regarding the operation test. To stop,
    The disaster prevention device according to claim 10.
12. A control method of a disaster prevention device that performs a notification operation regarding disaster prevention,
    When the disaster prevention device reaches the time of replacement, a preliminary notification step of performing preliminary notification regarding the replacement,
    During the execution of the preliminary notification, when an operation is received at the operation unit of the disaster prevention device, a main notification step of executing the main notification regarding the replacement,
    After the main notification is started, when a predetermined condition is satisfied, the preliminary notification is performed at least once more by a re-notification step;
    Having,
    Control method.
13. A program for causing a computer system to execute the control method according to claim 12.

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