JP2021128576A - Alarm unit - Google Patents

Abstract

To provide an alarm unit which is more convenient for users and is capable of reliably notifying an alarm when an abnormality occurs.SOLUTION: An alarm unit (1) comprises a notification control unit (10) configured to respond to a situation where a detection unit (20) detects that a condition requiring notification has arisen about a monitoring target including at least one of gas, carbon monoxide, and fire while a notification unit (30) is performing notification of predetermined content based on a result of communication between a communication unit (60) and a server (3), by having the notification unit stop the notification of the content and perform notification regarding the monitoring target according to a detection result.SELECTED DRAWING: Figure 1

Description

The present invention relates to an alarm device that notifies a monitored object.

Alarms installed in rooms such as kitchens and kitchens equipped with gas appliances such as gas stoves are known. Such alarms include gas sensors and CO sensors for detecting the generation of carbon monoxide (CO) due to gas leaks or incomplete combustion. When gas or carbon monoxide is detected by the sensor, the alarm device issues an alarm with a warning sound or voice, so that the user can use the gas appliance with peace of mind and safety. Further, Patent Document 1 proposes an alarm device that includes a display and a communication unit, can display contents distributed by a server, and can provide an information service to a user.

Japanese Unexamined Patent Publication No. 2019-32738

In the prior art of Patent Document 1, consideration has not been given to the relationship between the display of the content in the alarm device and the alarm operation. One aspect of the present invention is in view of the above problems, and the convenience of the user can be enhanced by being able to notify the content, and the alarm when an abnormality occurs can be reliably notified, so that the user can feel at ease. The purpose is to realize an alarm that can guarantee safety.

In order to solve the above problems, the alarm device according to one aspect of the present invention detects whether or not a monitoring target including at least one of gas, carbon monoxide and fire is in a state requiring notification. A detection unit, a communication unit that communicates with a server on the network, a notification regarding the monitoring target based on the detection result of the detection unit, and a notification of a predetermined content based on the communication result between the communication unit and the server. When it is detected by the detection unit that the notification unit is in a state where the notification is required during the execution of the notification of the content by the notification unit and the notification unit, the notification of the content is stopped and the detection result is obtained. A notification control unit for executing notification regarding the monitoring target by the notification unit based on the notification unit is provided.

According to the above configuration, the convenience of the user can be enhanced by being able to notify the content, and an alarm when an abnormality occurs can be reliably notified, and a notification device that can guarantee the safety or security of the user can be realized. ..

In the alarm device according to the above aspect, when the detection unit detects that the notification unit is not in a state where the notification is required during the execution of the notification regarding the monitoring target by the notification unit, the monitoring target The information may be configured to end the notification regarding the content and then execute the notification of the content by the notification unit based on the communication result between the communication unit and the server. According to the above configuration, when the abnormal state in which the alarm notification should be executed is resolved, the content is controlled so as to be able to be notified again by the alarm device, and the convenience of the user is enhanced.

In the alarm device according to the above aspect, when the detection unit detects that the notification unit is in a state requiring notification, the notification control unit executes notification regarding the monitoring target by the notification unit based on the detection result. It may be provided with a configuration in which the content is not notified by the notification unit. According to the above configuration, the convenience of the user is enhanced by being able to notify the content, and the alarm when an abnormality occurs can be notified exclusively with priority over the content, ensuring the safety or security of the user. A possible alarm can be realized.

The alarm device according to the above aspect further includes a failure detection unit for detecting a device failure, and when the notification control unit detects a device failure, the notification unit notifies the content. It may have a configuration that does not execute. According to the above configuration, since the alarm device itself detects the device failure, it is possible to prevent the user from being left unrecognized for the failure of the alarm device. In addition, since the content notification is not executed when the device fails, the user can recognize that the alarm is not in a normal state, or can more recognize its importance.

The alarm device according to the above aspect further includes an operation time detection unit for detecting the operation time, and when the operation time detected by the operation time detection unit exceeds a predetermined useful time, the notification control unit notifies the alarm device. It may have a configuration that does not execute the notification of the content by the unit. According to the above configuration, since the alarm device detects the excess of the useful life, it is possible to prevent the user from being left unrecognized for the excess of the useful life of the alarm device. In addition, since the content notification is not executed when the useful time is exceeded, the user can recognize that the alarm is not in a normal state, or can more recognize its importance.

According to one aspect of the present invention, the convenience of the user is enhanced by being able to notify the content, and the alarm when an abnormality occurs can be reliably notified, and the alarm can ensure the safety or security of the user. Can be realized.

It is a block diagram which shows the structure of the main part of the alarm device which concerns on embodiment of this invention. It is external drawing which shows the embodiment example of the alarm device which concerns on embodiment of this invention. It is a flowchart for demonstrating the monitoring process which is the operation of the alarm device which concerns on embodiment of this invention. It is a flowchart for demonstrating the content notification processing which is the operation of the alarm device which concerns on embodiment of this invention.

[Embodiment]
Hereinafter, an embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing a configuration of a main part of the alarm device 1 according to the embodiment. The alarm device 1 according to the embodiment detects whether or not a monitoring target including at least one of gas, carbon monoxide, and fire is in a state requiring notification, and an alarm (notification regarding the monitoring target) is performed based on the detection result. )I do.

Further, the alarm 1 can communicate with the server 3 on the network 2. The alarm device 1 executes notification of a predetermined content based on the communication result with the server 3. As shown in FIG. 1, the alarm device 1 includes at least a notification control unit 10, a detection unit 20, a notification unit 30, and a communication unit 60. The alarm device 1 may further include a failure detection unit 40 and an operation time detection unit 50.

<Detector>
The detection unit 20 is a functional block that monitors the output signal of the sensor provided in the detection unit 20 and detects the occurrence of an abnormality. The detection unit 20 detects whether or not the monitoring target including at least one of gas, carbon monoxide, and fire is in a state requiring notification (abnormality). Therefore, the detection unit 20 is provided with at least one of a gas sensor for detecting gas, a CO sensor for detecting carbon monoxide, and a fire sensor for detecting fire.

These sensors provided in the detection unit 20 are preferably arranged in the housing of the alarm device 1 main body. However, any of these sensors may be physically located remotely outside the housing of the alarm device 1. When the sensor of the detection unit 20 is a gas sensor, the detection unit 20 detects an increase in gas concentration in the atmosphere around the alarm device 1 due to a gas leak from a gas device, a gas pipe, or the like as a gas leak abnormality. When the sensor of the detection unit 20 is a CO sensor, the detection unit 20 detects an increase in CO concentration in the atmosphere around the alarm 1 as a CO abnormality due to carbon monoxide gas generation due to incomplete combustion in the gas appliance. do.

When the sensor of the detection unit 20 is a fire sensor, the detection unit 20 detects an abnormality due to a fire due to high temperature, smoke, radiation from a flame, etc. associated with the fire around the alarm device 1. In the following description of the embodiment, as shown in FIG. 1, a case where the detection unit 20 is provided with the gas sensor 21 and the CO sensor 22 will be specifically described. That is, an example of an alarm device having a configuration capable of detecting a gas leak abnormality and a CO generation abnormality will be described as a specific example.

<Notification unit>
The notification unit 30 is a functional block that executes an alarm or other notification to the user. The notification unit 30 can perform notification (alarm notification) regarding the monitoring target based on the detection result of the detection unit 20, and notification of predetermined content based on the communication result between the communication unit 60 and the server 3.

The notification unit 30 has a CO warning lamp 31 for visually notifying a CO abnormality alarm (CO alarm) and a gas leak warning lamp 32 for visually notifying a gas leak abnormality alarm (gas leak alarm). Is provided. The notification unit 30 may also be provided with an indicator lamp 33 for indicating the state of the alarm device 1. Further, the notification unit 30 may be provided with an information notification lamp 34 for indicating that the content is being notified.

The indicator lamp 33 may also have a function as a so-called power lamp, which is continuously lit when the power is on. In this case, the indicator lamp 33 can notify the user that the alarm device 1 is in an abnormal state by executing blinking at predetermined intervals.

Further, the notification unit 30 is provided with a speaker 35 for hearing a gas leak alarm and a CO alarm. Content notification is also executed through the speaker 35 of the notification unit 30. That is, in the following description in the embodiment, a case where the content is auditory information is taken up as a specific example.

<Communication Department>
The communication unit 60 is a communication interface for the alarm device 1 to execute communication with the server 3 on the network 2 via the network 2. When the alarm device 1 is an alarm device installed in a room such as a kitchen or a kitchen equipped with a gas appliance such as a gas stove, it is preferable that the alarm device 1 is connected to the network 2 via wireless communication. This is because the alarm device 1 is often installed on the ceiling or wall, and if the wired communication method is applied, construction work is required, which makes it difficult to install the alarm device 1.

As the wireless communication method, the communication unit 60 preferably uses a communication standard corresponding to, for example, Wi-Fi (registered trademark), which is widely used as a wireless network in a building. In this way, the alarm 1 can communicate with the predetermined server 3 via the wireless network in the building and the upper network such as the Internet (together, the network 2).

<Failure detection unit, operation time detection unit>
The failure detection unit 40 is a functional block that monitors the state of each predetermined part of the alarm device 1 and detects a failure if there is a malfunction in the operation, assuming that the alarm device 1 is out of order. The operation time detection unit 50 is a functional block that monitors the operation time (operating time) of the alarm device 1. The operation time detection unit 50 calculates, for example, the cumulative time during which the alarm device 1 is energized as the operation time.

<Notification control unit>
The notification control unit 10 is a functional block that controls the notification unit 30 by referring to the operations of the detection unit 20 and the communication unit 60, and causes the notification unit 30 to execute a required notification. When the alarm device 1 includes a failure detection unit 40 or an operation time detection unit 50, the notification control unit 10 also refers to at least one of these functional blocks to notify the notification unit 30 of the required notification. To execute. The operation of the alarm device 1 based on the control of the notification unit 30 will be described in detail later.

<Appearance of alarm>
FIG. 2 is an external view showing an example of a form of the alarm device 1 according to the embodiment. In this embodiment, each of the above-mentioned functional blocks shown in FIG. 1 is housed in a housing 70, and the alarm device 1 is configured as an integrated device.

As shown in FIG. 2, a CO warning lamp 31, a gas leak warning lamp 32, an indicator lamp 33, and an information notification lamp 34 are appropriately arranged and arranged below the front surface (panel portion) of the housing 70. ing. The indicator lamp 33 is also used as a power lamp. As an example, the emission colors of the CO warning lamp 31 and the gas leak warning lamp 32 can be yellow and red, which are warning colors, respectively. Further, the emission color of the indicator lamp 33 can be green. The emission color of the information notification lamp 34 may be orange, which is different from the emission color of any of the above lamps.

Vent holes 71 as a plurality of small holes provided in the housing 70 are formed in the central portion in the vertical direction near the side portion of the front surface of the housing 70. By arranging the gas sensor 21 and the CO sensor 22 inside the housing 70 on the back side of the ventilation hole 71, these sensors can monitor the atmosphere around the alarm device 1. Further, near the upper center of the front surface of the housing 70, audio output holes 72 as a plurality of small holes provided in the housing 70 are formed. By arranging the speaker 35 inside the housing 70 on the back side of the audio output hole 72, the output of the speaker 35 is taken out of the housing 70 of the alarm device 1 through the audio output hole 72.

As shown in FIG. 2, an access lamp 61 for indicating the state of communication with the server 3 by the communication unit 60 may be further arranged on the front surface (panel unit) of the housing 70. The access lamp 61 is configured to be lit, for example, when a connection with the server 3 cannot be established, so that the user can recognize a communication problem with the server 3.

<Contents>
The manager of the content provided to the alarm device 1 may be, for example, a gas company, a local government, a local public body, a manufacturer of the alarm device 1, or a company entrusted by any of these. The content manager may provide the content to the alarm device 1 through the server 3.

The aspect of the content is preferably auditory information transmitted through auditory sense. This is because the alarm device 1 may be installed at a high position on the ceiling or wall, and a method of transmitting information to the user by displaying it on a display is not suitable. In order to convey the required information to the user, it is most preferable that the aspect of the content is voice content uttered by human voice or synthetic voice.

Examples of content include information related to disaster prevention / crime prevention, information on weather / disaster, information on transportation / water services and other infrastructure, and other information such as events related to the area. In addition, information on periodic inspections of gas facilities by gas companies, information on the amount of gas used by users, and information on maintenance and replacement of alarm device 1 and gas appliances can be mentioned.

It should be noted that the type of content provided to the alarm device 1 can be selected at least in part by the user requesting the content manager. Such requests to content managers can also be made over the Internet. By selecting the type of information that the user considers necessary, the user can use the content providing service in a manner that is more in line with his / her taste.

<Overview of alarm operation>
FIG. 3 is a flowchart for explaining the monitoring processing operation executed by the alarm device 1. FIG. 4 is a flowchart for explaining the content notification processing operation executed by the alarm device 1. While the alarm device 1 is in operation, the monitoring process flow shown in FIG. 3 is repeatedly executed. Further, while the alarm device 1 is in operation, the flow of the content notification processing operation shown in FIG. 4 is repeatedly executed in parallel with the flow of the monitoring processing. Next, the flow of the monitoring process and the flow of the content notification process will be described.

<Flow of monitoring process>
Step S101: At the beginning of the flow of the monitoring process, the notification control unit 10 determines whether or not the detection unit 20 has detected any abnormality (abnormality of either gas leakage abnormality or CO abnormality). If it is determined that the detection unit 20 has detected any of the abnormalities (YES in S101), the flow proceeds to step S102. In other cases (NO in S101), the flow proceeds to step S103.

Step S102: The notification control unit 10 determines that the state is an alarm state. Next, the flow proceeds to step S104. When the alarm device 1 is in the alarm state, the notification control unit 10 controls the notification unit 30 to execute an alarm notification based on the detection result of the detection unit 20. A specific example of the notification of the alarm will be described later.

The flow reaches step S102 when the detection unit 20 detects any abnormality. When the flow reaches step S102 in the alarm state, the notification control unit 10 continues the notification of the alarm. When the flow reaches step S102 when it is not in the alarm state, the notification control unit 10 starts the notification of the alarm.

Step S103: The notification control unit 10 determines that the state is not the alarm state. Next, the flow proceeds to step S104. If the alarm device 1 is not in the alarm state, the notification control unit 10 controls the notification unit 30 to prevent the detection unit 20 from executing the alarm notification based on the detection result. When the flow reaches step S103 in the alarm state, the notification control unit 10 stops the notification of the alarm.

Step S104: The notification control unit 10 determines whether or not the failure detection unit 40 has detected a device failure. If it is determined that the failure detection unit 40 has detected a device failure (YES in S104), the flow proceeds to step S105. Otherwise (NO in S104), the flow proceeds to step S107.

Step S105: The notification control unit 10 determines whether or not the state is an alarm state. If it is determined that the state is not an alarm state (YES in S105), the flow proceeds to step S106. Otherwise (NO in S105), the flow proceeds to step S107.

Step S106: The notification control unit 10 determines that the state is the failure notification state. Next, the flow proceeds to step S108. When the state is the failure notification state, the notification control unit 10 controls the notification unit 30 to execute notification (fault notification) indicating that the alarm device 1 is out of order. Specific examples of failure notification will be described later.

The flow reaches step S106 when the state is not in the alarm state and the failure detection unit 40 detects a device failure. When the flow reaches step S106 in the failure notification state, the notification control unit 10 continues the failure notification. When the flow reaches step S106 when the failure notification state is not set, the notification control unit 10 starts the failure notification.

Step S107: The notification control unit 10 determines that the state is not the failure notification state. Next, the flow proceeds to step S108. If the state is not in the failure notification state, the notification control unit 10 controls the notification unit 30 to prevent the failure notification from being executed. When the flow reaches step S107 in the failure notification state, the notification control unit 10 stops the failure notification.

Step S108: The notification control unit 10 determines whether or not the operation time detected by the operation time detection unit 50 exceeds the useful time of the alarm device 1. If it is determined that the amount has been exceeded (YES in S108), the flow proceeds to step S109. Otherwise (NO in S108), the flow proceeds to step S111.

Step S109: The notification control unit 10 determines whether or not the state is neither an alarm state nor a failure notification state. If it is determined that the state is neither an alarm state nor a failure notification state (YES in S109), the flow proceeds to step S110. Otherwise (NO in S109), the flow proceeds to step S111.

Step S110: The notification control unit 10 determines that the state is the overdue notification state. Next, the flow of monitoring processing ends. When the state is the overdue notification state, the notification control unit 10 controls the notification unit 30 to execute a notification (overdue notification) indicating that the operating time of the alarm device 1 has exceeded the useful time. .. A specific example of overdue notification will be described later.

The flow reaches step S110 when the state is neither the alarm state nor the failure notification state and the operating time exceeds the useful time. When the flow reaches step S110 in the overdue notification state, the notification control unit 10 continues the overdue notification. When the flow reaches step S110 when the time limit notification state is not reached, the notification control unit 10 starts the time limit notification.

Step S111: The notification control unit 10 determines that the state is not the overdue notification state. Next, the flow of monitoring processing ends. If the state is not in the overdue notification state, the notification control unit 10 controls the notification unit 30 to prevent the overdue notification from being executed. When the flow reaches step S111 in the overdue notification state, the notification control unit 10 stops the overdue notification.

<Flow of content notification processing>
Step S201: At the beginning of the flow of the content notification process, the notification control unit 10 has been notified by the server 3 that the content to be notified by the alarm device 1 exists as a result of the communication with the server 3 by the communication unit 60. Judge whether or not. When there is a notification that the content exists (YES in S201), the flow proceeds to S202. In other cases (NO in S201), the flow of the content notification process ends.

Step S202: The notification control unit 10 controls the communication unit 60 to start downloading the content to be notified. When the communication unit 60 starts the download in step S202, the communication unit 60 continuously executes and holds the download until the download of the content to be notified is completed. The download of the content to be notified is not interrupted by the change in the above state of the alarm device 1.

Step S203: Subsequently, the notification control unit 10 determines whether or not the state is any of an alarm state, a failure notification state, and an overdue notification state. If it is determined that neither is present (YES in S203), the flow proceeds to S204. In other cases (NO in S203), the flow of the content notification process ends. This is because the content is not notified when the state is any of the alarm state, the failure notification state, and the overdue notification state. In this case, even if the communication unit 60 is executing the download of the content to be notified or the notification unit 30 is executing the notification of the content, the notification of the content is stopped.

Step S204: The notification control unit 10 controls the notification unit 30 for the content to be notified, and sequentially executes notification for a predetermined time among those downloaded and held by the communication unit 60. Here, the predetermined time is a time corresponding to an interval for executing the determination in step S203 in the loop from step S203 to step S205, and may be, for example, a time of about 0.01 to 1 second.

Step S205: The notification control unit 10 determines whether or not the notification of the content to be notified has been completed. That is, it is determined whether or not the notification to the end of the content is completed. When it is determined that the notification about the content is completed (YES in S205), the flow of the content notification processing ends. Otherwise (NO in S205), the flow returns to step S203. During the time when the loop from step S203 to step S205 is repeated, the notification unit 30 notifies the specific content.

In the flow of the content notification process, the content to be notified may be singular or plural. In the case of a plurality of contents, in each of the above steps, execution and determination are made with respect to a plurality of contents (content groups). Further, when there are a plurality of contents to be notified, the order of notification may be random, but the priority is set in advance for each content, and the notification control unit 10 notifies in descending order of priority. It may be something to do.

According to the flow of the content notification process shown in FIG. 4, the execution of downloading the content to be notified is not limited to the case where none of the alarm state, the failure notification state, and the overdue notification state. The content to be notified is downloaded regardless of the alarm state, the failure notification state, or the overdue notification state. By doing so, when any of these states is released and the state transitions to a state that is neither of these, the content can be notified to the user.

Retention of downloaded content may be performed for multiple contents. The retained content may be configured to be appropriately deleted based on the download order and priority when the capacity that can be retained by the alarm device 1 is exceeded.

It should be noted that the content notification is as follows when the content notification is in one of the alarm state, the failure notification state, and the overdue notification state during the content notification, the content notification is interrupted, and then the content notification becomes possible again. It can be carried out in the following manner. The interrupted content may be notified again from the beginning. Alternatively, the notification of the interrupted content may be resumed from where it was interrupted. Alternatively, the interrupted content may not be notified.

<Alarm notification>
A specific example of a method of notifying an alarm executed by the notifying unit 30 when the state of the alarm device 1 is in the alarm state will be described below. When the detection result of the detection unit 20 indicates that the gas to be monitored needs to be notified, the notification unit 30 notifies the gas leak alarm based on the detection result. When the gas leak warning lamp 32 lights up, the alarm device 1 gives a visual notification. The gas leak warning lamp 32 keeps lighting until the state of the alarm device 1 disappears from the warning state due to the gas leak abnormality.

Further, the speaker 35 outputs a sound indicating that the alarm state is due to an abnormal gas leak. An example of a voice could be an utterance such as "Are there any gas leaks?" Or a warning sound. Alternatively, such an utterance and a warning sound may be alternately output as a voice indicating that the alarm state is due to a gas leak abnormality. Such notification through hearing from the speaker 35 is continued until the state of the alarm device 1 disappears from the alarm state due to the gas leak abnormality.

However, the alarm device 1 may be configured so that the output of the voice can be paused for a predetermined time by an operation by a user who feels that the voice is annoying, for example, by pressing a predetermined switch. Such a switch may be composed of a push-type switch integrated with the gas leak warning lamp 32, or may be a switch provided separately. The predetermined time can be several minutes, for example, about 5 minutes.

When the detection result of the detection unit 20 indicates that the carbon monoxide to be monitored needs to be notified, the notification unit 30 notifies the CO alarm based on the detection result. The CO warning lamp 31 lights up, and the alarm device 1 gives a visual notification. The CO warning lamp 31 continues to light until the alarm device 1 is no longer in the alarm state due to a CO abnormality.

Further, the speaker 35 outputs a sound indicating that the alarm state is due to a CO abnormality. Examples of voices can be utterances such as "The air is dirty and dangerous. Please open the windows to ventilate." Or a warning sound. Alternatively, such utterances and warning sounds may be alternately output as voices indicating that the alarm state is due to a CO abnormality. Such notification through hearing from the speaker 35 is continued until the state of the alarm device 1 disappears from the alarm state due to the CO abnormality.

The voices when the detection unit 20 indicates that the gas to be monitored needs to be notified and the carbon monoxide to be monitored needs to be notified are as follows. Can be. The utterance such as "Is gas leaking?", The warning sound, and the utterance such as "The air is dirty and dangerous. Please open the window to ventilate" and the warning sound may be output repeatedly in this order.

<Failure notification>
A specific example of the failure notification method executed by the notification unit 30 when the state of the alarm device 1 is in the failure notification state will be described below. Since it is also used as a power lamp, the indicator lamp 33 is lit during normal operation when the alarm device 1 is in operation. When the state of the alarm device 1 changes to the failure notification state, the indicator lamp 33 changes to a blinking display for indicating the failure notification state, so that the alarm device 1 starts the notification through the visual sense. The visual notification by the indicator lamp 33 continues until the state of the alarm device 1 is no longer the failure notification state.

Further, when the state of the alarm device 1 is the failure notification state, the speaker 35 outputs a voice indicating the failure notification state. Examples of voices may be utterances such as "Failure" at predetermined intervals, or warning sounds at predetermined intervals. Alternatively, both an utterance and a warning sound may be output as a voice indicating that the failure notification state is in effect. In that case, for example, an utterance such as "Failure" is made every 10 minutes, and a warning sound is sounded every minute for several seconds to indicate that the failure notification state is in effect. Such notification through hearing from the speaker 35 is continued until the state of the alarm device 1 is no longer in the failure notification state.

However, the alarm device 1 may be configured so that the output of the voice can be paused for a predetermined time by an operation by a user who feels that the voice is annoying, for example, by pressing a predetermined switch. Such a switch may be composed of a push-type switch integrated with the indicator lamp 33, or may be a switch provided separately. The predetermined time can be several tens of hours, for example, about 36 hours.

It should be noted that such an operation does not release the failure notification state, and the state of the alarm device 1 is in the failure notification state even when the output of the voice indicating that the failure notification state is temporarily stopped by the operation. Is judged. Therefore, the content is not notified even while the output of the voice indicating that the failure notification state is being interrupted by the operation.

<Overdue notification>
A specific example of the method of overdue notification executed by the notification unit 30 when the state of the alarm device 1 is in the overdue notification state will be described below. Since it is also used as a power lamp, the indicator lamp 33 is lit during normal operation when the alarm device 1 is in operation. When the state of the alarm device 1 changes to the overdue notification state, the indicator lamp 33 changes to a blinking display for indicating the overdue notification state, and the alarm device 1 starts the visual notification.

For the sake of distinction, the blinking display for indicating the overdue notification state is preferably a blinking display having a longer cycle than the blinking display for indicating the failure notification state described above. The notification for indicating the failure notification state through the visual sense by the indicator lamp 33 continues until the state of the alarm device 1 is no longer the overdue notification state. The lamp that displays the overdue notification status may not be used in combination with the power lamp as described above, but may be provided separately.

Since the notification indicating the overdue notification status is a visual notification and not a voice notification, it can be performed at the same time as the content notification. However, the alarm device 1 does not notify the content when it is in the overdue notification state. By doing so, it becomes easier for the user to recognize that the alarm device 1 is not in a normal state. The notification for indicating the overdue notification state may be a voice or sound notification instead of the lamp display, or a voice or sound notification may be performed together with the lamp display.

<Content notification>
When the state of the alarm device 1 is not any of the alarm state, the failure notification state, and the overdue notification state, and the server 3 notifies that the content to be notified by the alarm device 1 exists, the notification unit 30 A specific example of the content notification method executed by the above will be described below.

When the alarm device 1 has content to be notified, the communication unit 60 downloads the content from the server 3 and the notification unit 30 notifies the content. Specifically, the notification unit 30 notifies the audio content by the speaker 35. Alternatively, the notification unit 30 may have a plurality of pre-recorded contents and notify the contents specified by the server 3. In this case, the communication unit 60 acquires the designated information of the content from the server 3, and the notification unit 30 notifies the content specified by the designated information.

Further, when the notification unit 30 notifies the content (output of the voice content by the speaker 35), the information notification lamp 34 blinks, and the user visually notifies the content. It may be configured to be recognized by.

<Action, effect>
In the alarm device 1 according to the embodiment, the convenience of the user is enhanced by being able to notify the content having various kinds of information. In particular, when voice content by utterance is selected as the content, it is possible to transmit information to the user in a form suitable for the nature of the device called an alarm device.

Alarms installed in rooms such as kitchens and kitchens equipped with gas appliances such as gas stoves are not suitable for information transmission by displays due to restrictions on the size and installation location of the appliances. In that respect, the notification method using audio content is not affected by such restrictions. In addition, the user can grasp the content of the audio content while performing work such as cooking.

According to the present embodiment, if the detection unit 20 detects that the content needs to be notified during the execution of the content notification, the content notification is stopped, so that an abnormality occurs in the alarm device 1. It is possible to reliably notify the user of the time alarm. In particular, when voice content by utterance is selected as the content, if it is notified in duplicate with the voice alarm, it becomes difficult for the user to grasp the content of the alarm. However, in the alarm device 1 according to the embodiment, there is no such concern.

Therefore, while the alarm device 1 can notify the content, the safety when using the gas appliance is not impaired. In addition, users will be able to use gas appliances with peace of mind. Further, in the alarm device 1, when the abnormal state (alarm state) in which the alarm notification should be executed is resolved, the alarm device 1 is controlled so that the content can be notified again, which is convenient for the user. The sex is enhanced.

Further, the alarm device 1 does not notify the content when the state is in the alarm state. In this way, it is possible to give priority to the content and exclusively notify the alarm, and similarly to the above, it is possible to reliably notify the alarm when an abnormality occurs. Therefore, it is possible to realize an alarm that can guarantee the safety or security of the user.

When the alarm device 1 further includes a failure detection unit 40 for detecting a device failure, the alarm device 1 itself can detect the device failure, so that the user cannot recognize the failure of the alarm device. It is possible to prevent the product from being left as it is. In addition, since the content notification is not executed when the device fails, it becomes easier for the user to recognize that the alarm device 1 is not in the normal state. Further, by doing so, it becomes possible to more recognize the importance of the alarm device 1 not being in a normal state, and it is possible to urge the user to respond to a device failure.

When the alarm device 1 further includes an operation time detection unit 50, the alarm device 1 itself can detect the excess of the useful time, so that the user can detect the excess of the useful life of the alarm device 1. It is possible to prevent the patient from being left unrecognized. Further, since the content notification is not executed when the useful time is exceeded, it becomes easier for the user to recognize that the alarm device 1 is not in the normal state. Further, by doing so, it becomes possible to more recognize the importance of the alarm device 1 not being in a normal state, and it is possible to urge the user to respond to the replacement of the alarm device.

[Example of realization by software]
Control block of alarm device 1 (particularly notification control unit 10, detection unit 20 (excluding each sensor), notification unit 30 (excluding each lamp and speaker), failure detection unit 40, operation time detection unit 50, communication unit 60 (especially, notification control unit 10, detection unit 20 (excluding each sensor)) The))) may be realized by a logic circuit (hardware) formed in an integrated circuit (IC chip) or the like, or may be realized by software.

In the latter case, the alarm device 1 includes a computer that executes a program instruction, which is software that realizes each function. The computer includes, for example, one or more processors and a computer-readable recording medium that stores the program. Then, in the computer, the processor reads the program from the recording medium and executes it, thereby achieving the object of the present invention.

As the processor, for example, a CPU (Central Processing Unit) can be used. As the recording medium, in addition to a "non-temporary tangible medium" such as a ROM (Read Only Memory), a tape, a disk, a card, a semiconductor memory, a programmable logic circuit, or the like can be used. Further, a RAM (Random Access Memory) for expanding the above program may be further provided.

Further, the program may be supplied to the computer via an arbitrary transmission medium (communication network, broadcast wave, etc.) capable of transmitting the program. It should be noted that one aspect of the present invention can also be realized in the form of a data signal embedded in a carrier wave, in which the above program is embodied by electronic transmission.

[Additional notes]
The present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the claims, and the embodiments obtained by appropriately combining the technical means disclosed in the different embodiments. Is also included in the technical scope of the present invention.

The alarm device 1 may be configured to notify the server 3 of the status of the alarm device 1. In that case, the server 3 may select the content to be notified by the alarm device 1 with reference to the notified information. For example, when the state of the alarm device 1 is the failure notification state, the contact information of the maintenance service of the alarm device 1 can be notified as the content to be notified by the alarm device 1.

Further, for example, the alarm device 1 is provided with a motion sensor, and when the motion sensor does not detect the presence of a person in the vicinity of the alarm device 1, the audio output of the content is stopped. May be good. Also in this case, the alarm device 1 performs alarm notification such as gas leak abnormality and CO generation abnormality, and notification indicating that the vehicle is in the failure notification state or the overdue notification state, regardless of the detection information of the motion sensor. You may do so.

1 Alarm 10 Notification control unit 20 Detection unit 21 Gas sensor 22 CO sensor 30 Notification unit 31 CO warning lamp 32 Gas leak warning lamp 33 Display lamp 34 Information notification lamp 35 Speaker 40 Failure detection unit 50 Operating time detection unit 60 Communication unit 70 Body 71 Vent 72 Audio output hole 2 Network 3 Server

Claims (5)

A detector that detects whether or not a monitoring target containing at least one of gas, carbon monoxide, and fire is in a state that requires notification, and a detector.
A communication unit that communicates with servers on the network,
A notification unit that notifies the monitoring target based on the detection result of the detection unit and a predetermined content based on the communication result between the communication unit and the server.
If the detection unit detects that the notification is required during the execution of the content notification by the notification unit, the notification of the content is stopped, and the monitoring by the notification unit based on the detection result. An alarm device including a notification control unit for executing notification regarding a target. When the detection unit detects that the detection unit is not in a state where the notification is required during the execution of the notification regarding the monitoring target by the notification control unit, the notification control unit terminates the notification regarding the monitoring target.
The alarm device according to claim 1, wherein the content is notified by the notification unit based on the communication result between the communication unit and the server. When the detection unit detects that the notification unit is in a state requiring notification, the notification control unit causes the notification unit to perform notification regarding the monitoring target based on the detection result, and the notification unit notifies the content. The alarm according to claim 1 or 2, wherein the alarm is not executed. Further equipped with a failure detection unit that detects equipment failures,
The alarm device according to any one of claims 1 to 3, wherein the notification control unit does not execute the notification of the content by the notification unit when the failure detection unit detects a device failure. Further equipped with an operation time detection unit that detects the operation time,
The method according to any one of claims 1 to 4, wherein the notification control unit does not execute the notification of the content by the notification unit when the operation time detected by the operation time detection unit exceeds a predetermined useful time. Alarm.

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