JP2010267183A - Alarm and alarm system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an alarm and an alarm system for increasing monitoring performance in an alarm section by enabling mutual interlocking alarm only between specific alarms by configuring an interlocking group about the detection of different types of abnormalities as a fire, gas leakage, and theft. <P>SOLUTION: When a fire is detected by an event detection part 56, a transmission processing part 58 transmits an event signal including a group code 42 stored in a memory 22 to which the self is belonging and an event code showing a fire as the first abnormality being the object of detection to the other alarm. When a fire is detected by the event detection part 56, an alarm processing part 62 outputs a fire alarm as the first abnormality alarm, and when the event signal from the other alarm is received by a reception processing part 60, and when it is determined that the group code included in the event signal is belonging to the self group, the alarm processing part 62 outputs a fire alarm as the first abnormality alarm when the event code content shows a fire of the same kind as the object of detection, and outputs the second abnormality alarm different from the first abnormality alarm according to the event code content when the event code content is abnormality different from that of the object of detection. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

The present invention relates to an alarm device and an alarm system that detect and alarm an abnormality such as a fire or a gas leak and relay and transmit a signal to another alarm device to output an alarm in conjunction.

  Conventionally, residential alarms (hereinafter referred to as “residential alarms”) that detect and warn of fires in houses have become widespread. In recent years, a plurality of residential alarms can communicate with each other to provide a single residence. Wireless dwelling alarms for linked alarm systems that can alarm alarm information with other alarms have been put into practical use, and some of these operate by battery power.

  In a linked alarm system that performs wireless communication, if a fire is detected by a certain home alarm, the home alarm that detected the fire is, for example, “Woo Woo Fire Alarm has been activated. Please send a voice message saying "Please," while the linked house alarm outputs a voice message saying "Check if a fire alarm for each Woo has been activated". In addition, the alarm lamp of the interlocking house police is blinking, the alarm lamp of the interlocking house police is blinking, and the interlocking source or the interlocking destination can be distinguished from the display of the red lamp.

  On the other hand, there are cases where a house is equipped with a gas leak alarm device, a CO alarm device, and various crime prevention alarm devices in addition to a home alarm device that detects and alerts a fire.

JP 2007-094719 A

  However, in the case of such a conventional wireless alarm device that performs an interlocking alarm, an interlocking alarm is provided for the detection of a fire of the same type of abnormality, but in addition to that, a gas leak alarm, a CO alarm, a crime prevention The alarm system for the alarm system is constructed separately, and it is uneconomical because the monitoring of abnormalities in the same house is performed separately for each type of abnormality. Although it is installed in a room where people are present, the gas leak alarm and the CO alarm are installed in a specific place such as a kitchen.

  In addition, along with the widespread use of various types of wireless alarms such as fires, gas leaks, and theft, wireless alarms using the same communication protocol are also expected to be installed in nearby houses. When event signals from various wireless alarm devices are received, there is a problem that an alarm is unnecessarily performed.

The present invention relates to an alarm device and an alarm system that enhances anomaly monitoring performance of houses and the like by enabling an interlocking alarm between specific alarm devices by configuring an interlocking group for detecting different types of abnormalities such as fire, gas leakage, and theft. The purpose is to provide.

(Alarm)
The alarm of the present invention is
An event detector for detecting an event including the presence or absence of an abnormality,
A storage unit for storing a group code of a group to which the device belongs;
When an abnormality is detected by the event detection unit, an event signal including the group code to which the storage unit belongs and the event code indicating the first abnormality to be detected by the event detection unit is transmitted to another alarm device. A transmission processing unit;
A reception processing unit for receiving event signals from other alarm devices;
When the event detection unit detects an abnormality, the first abnormality alarm is output. When the reception processing unit receives an event signal from another alarm device, the group code of the other alarm device included in the event signal is self. If the event code content of the event signal indicates the same type of abnormality as the detection target of the event detection unit when it is determined that it belongs to its own group, the first abnormality alarm is output When the event code content indicates an abnormality different from the detection target of the event detection unit, an alarm processing unit that outputs a second abnormality alarm different from the first abnormality alarm according to the event code content;
It is provided with.

  Here, the alarm processing unit outputs an abnormality detected by the event detection unit as a first abnormality alarm when an abnormality is detected by the event detection unit and an event signal is received from another alarm device. In addition, an abnormality based on the event signal received from another alarm device is output as a second abnormality alarm.

  The alarm processing unit receives an event signal including an event code indicating an abnormality different from the detection target of the event detection unit from another alarm device during the output of the first abnormality alarm based on the abnormality detected by the event detection unit In such a case, the second abnormality may be alarmed in preference to the first abnormality alarm.

In particular,
The event detector detects the presence of a fire,
The transmission processing unit transmits an event signal including an event code indicating a fire as a first abnormality to be detected by the event detection unit,
The alarm processing unit outputs a fire alarm as a first abnormality alarm when a fire is detected by the event detection unit, and when the event processing signal is received from another alarm device by the reception processing unit, the event code content of the event signal is When the same type of fire as the detection target of the event detection unit is indicated, a fire alarm is output as the first abnormality alarm, and when the event code content indicates an abnormality different from the detection target of the event detection unit, the event code content In response to this, a second abnormality alarm different from the fire alarm is output.

  The alarm processing unit outputs a gas leak alarm or theft alarm as a second abnormality alarm different from the fire alarm.

When the transmission processing unit detects abnormality recovery in the event detection unit, the other alarm device transmits its own group code and an event signal including an event code indicating abnormality recovery,
The alarm processing unit stops the output of the first abnormality alarm when the event detection unit detects the recovery of the abnormality, and receives the event signal from another alarm device at the reception processing unit, from the received event signal When the self-group code and the event code indicating the recovery of the first abnormality are determined, the output of the first abnormality alarm is stopped, and the self-group code and the event code indicating the recovery of the second abnormality are received from the received event signal. When the determination is made, the output of the second abnormality alarm is stopped.

When the transmission processing unit detects an abnormality alarm stop instruction by the event detection unit, the other alarm device transmits its own group code and an event signal including an event code indicating the alarm stop,
The alarm processing unit stops the output of the first abnormality alarm when the event detection unit detects an abnormality alarm stop instruction, and the received event is received when the reception processing unit receives an event signal from another alarm device. Stops the output of the first abnormality alarm when the own group code and the event code indicating the first abnormality alarm stop are judged from the signal, and stops the self group code and the second abnormality alarm from the received event signal. When the event code indicating is determined, the output of the second abnormality alarm is stopped.

(system)
The present invention is also an alarm system,
In the alert area,
An alarm device for detecting and alarming an abnormality,
A heterogeneous alarm device that detects and alarms an abnormality different from the alarm device;
And place
Each alarm and heterogeneous alarm is
An event detector for detecting an event including the presence or absence of an abnormality,
A storage unit for storing a group code of a group to which the device belongs;
When an abnormality is detected by the event detection unit, an event signal including the group code to which the storage unit belongs and the event code indicating the first abnormality to be detected by the event detection unit is transmitted to another alarm device. A transmission processing unit;
A reception processing unit for receiving event signals from other alarm devices;
When the event detection unit detects an abnormality, the first abnormality alarm is output. When the reception processing unit receives an event signal from another alarm device, the group code of the other alarm device included in the event signal is self. If the event code content of the event signal indicates the same kind of abnormality as the detection target of the event detection unit when it is determined that it belongs to its own group, the first abnormality alarm is output. When the event code content indicates an abnormality different from the detection target of the event detection unit, an alarm processing unit that outputs a second abnormality alarm different from the first abnormality alarm according to the event code content;
It is provided with.

Here, the alarm device is a fire alarm device that detects and alarms a fire, and the dissimilar alarm device includes a gas leak alarm device or a theft alarm device that detects and alarms a gas leak or theft.

  According to the present invention, in addition to a plurality of alarm devices that detect a fire and interlock each other, a linked group is configured by different alarm devices such as a gas leak alarm device, a CO alarm device, and a burglar alarm device installed in the same house. In addition, it is possible to construct a combined interlocking system that links alarms between alarm devices and different types of alarm devices. For example, if a gas leak alarm is installed in the kitchen to detect a gas leak, Even in the alarm devices installed in the living room or bedroom for detection, a linked alarm indicating gas leak is issued, and even if different types of alarm devices are installed in different places, the alarms are linked to each other, A plurality of types of alarms can be reliably notified, and appropriate responses can be taken quickly.

Even if another alarm system with the same communication protocol is installed in a nearby house where radio waves reach by configuring a linked group with different types of alarms such as fire, gas leaks, theft, etc. It is determined from the group code included in the signal that it does not belong to its own group, and even if there are multiple alarm systems at the location where the radio wave reaches, it is not affected by mutual interference, etc. Can be put out reliably.

Explanatory drawing which showed the installation state of the alarm system of this invention with respect to a house The block diagram which showed embodiment of the residence alarm device which detects and alarms the fire provided in the alarm system of FIG. Explanatory drawing showing the format of the event signal used in this embodiment The block diagram which showed embodiment of the gas leak alarm device which detects and alarms about the gas leak provided in the alarm system of FIG. The flowchart which showed the fire monitoring processing with the house alarm of FIG. The flowchart which showed the fire monitoring processing by the gas leak alarm of FIG.

  FIG. 1 is an explanatory diagram showing an installed state of the alarm system of the present embodiment for a house. In the example of FIG. 1, there are residence alarm devices 10-1 to 10-4 for detecting and alarming the fire of this embodiment in each of the kitchen, living room, main bedroom, and child room provided in the house 14. Further, a gas leak alarm 12 is installed in the kitchen as a different alarm.

  Each of the home alarm devices 10-1 to 10-4 and the gas leak alarm device 12 has a function of wirelessly transmitting and receiving event signals to each other, and performs fire monitoring of the entire house 14 and kitchen gas leak monitoring.

  In addition, the residence guards 10-11 and 10-12 are installed in another neighboring house 15, and the event signal wirelessly transmitted from the residence guards 10-11 and 10-12 is the residence guard of the house 14. 10-1 to 10-4 and the gas leak alarm 12 can be received. Similarly, event signals from the residence alarm devices 10-1 to 10-4 and the gas leak alarm device 12 of the house 14 are also received by the residence alarm devices 10-11 and 10-12 of the house 15.

  Therefore, in the present embodiment, the interlocking group G1 is configured by the house alarm devices 10-1 to 10-4 and the gas leak alarm device 12 of the house 14, and the house alarm devices 10-11 and 10-12 of the house 15 are different. By configuring an interlocking group and transmitting the event signal including its own group code, only the event signal belonging to the own group is received and processed to avoid interference with the interlocking group of another house 15 that does not require interlocking. Like to do.

  The group identification method is to store the unique number of the resident alarm / alarm device belonging to its own group in the resident alarm or alarm device, and the unique number (source code) of the transmission source added to the received event signal. There is a method of determining whether or not the event signal is within the own group by collating, and the serial number may be used as the unique number. The group identification method is not limited to this, and various other methods are conceivable. In the present embodiment, a description will be given assuming that a unique code (group code) is used for each group.

  If a fire has occurred in the child's room of the house 14 now, the residence guard 10-4 detects the fire and starts an alarm. Detecting this fire and initiating an alarm is referred to as “reporting” at the home alarm. When the home alarm device 10-4 is triggered, the home alarm device 10-4 functions as an interlocking source, and the other residential alarm devices 10-1 to 10-3, 10-5 and the gas leak alarm device 12 to be interlocked. On the other hand, an event signal including its own group code and an event code indicating a fire alarm is transmitted by radio. In the other home alarm devices 10-1 to 10-3, 10-5 and the gas leak alarm device 12, the event signal indicating the fire alarm including the own group code is received from the home alarm device 10-4 of the interlocking source. If this happens, an alarm action is performed as the linkage destination.

  Here, as the alarm sound of the home alarm device 10-4 that has become the link source, for example, “Please confirm that the Woo fire alarm has been activated” is output by a voice message. On the other hand, in the interlocked residence alarm devices 10-1 to 10-3, 10-5 and the gas leak alarm device 12, a voice message such as “Please confirm that another fire alarm has been activated” is displayed. Output.

  Further, when a gas leak alarm 12 installed in the kitchen of the house 14 detects and alerts the gas leak, the gas leak alarm 12 functions as an interlocking source, and other housing alarms 10-1 to 10-1 serving as interlocking destinations. For 10-5, an event signal including its own group code and an event code indicating gas leakage is transmitted wirelessly. When the home alarm device 10-1 to 10-5 receives an event signal indicating a gas leak including its own group code from the interlocking source gas leak alarm device 12, an alarm operation is performed as the interlocking destination.

  Here, as an alarm sound of the gas leak alarm device 12 which has become the interlocking source, for example, “Please confirm that the pyropyro gas leak alarm has been activated” is output by a voice message. On the other hand, in the interlocked residence alarm devices 10-1 to 10-5, a voice message such as “Please confirm that another gas leak alarm has been activated” is output.

  When the alarm stop switch is operated in a state in which the house alarm devices 10-1 to 10-5 and the gas leak alarm device 12 are outputting an alarm sound, an alarm sound stop process is performed. Here, one of the following stop processes is performed as the alarm sound stop process of the present embodiment.

  (1) If any alarm stop switch other than the interlock source is operated among the housing alarm devices 10-1 to 10-5 and the gas leak alarm device 12, only the interlock source continuously outputs an alarm sound, and the interlock destination is an alarm. Stop the sound. On the other hand, when the interlocking source alarm stop switch is operated, all alarm sounds of the interlocking source and the interlocking destination are stopped.

  (2) When any alarm stop switch in the alarm devices 10-1 to 10-5 and the gas leak alarm device 12 during the alarm is operated, all alarm sounds are stopped regardless of the interlock destination and the interlock source. .

  (3) The stop process in (1) is the first mode, and the stop process in (2) is the second mode, and either one of the modes is selected to perform the stop process.

  FIG. 2 is a block diagram showing an embodiment of a residential alarm provided in the alarm system of FIG. FIG. 2 shows in detail the circuit configuration of the five home guards 10-1 to 10-4 shown in FIG.

  The arrows connecting the mortgage alarm 10-1 with the other mortgage alarms 10-2 to 10-4 and the gas leak alarm 12 indicate that they communicate with each other. The home guard 10-3 and the like are also allowed to communicate with each other. Of course, the present invention can also be applied to a system in which the home alarm device 10-1 is used as a master unit of the system and communication is performed only along the route indicated by the arrow in FIG.

  The home guard 10-1 includes a processor 18 known as a one-chip CPU. For the processor 18, a wireless communication unit 20 including an antenna 21, a recording circuit unit (memory) 22, a sensor unit 24, and a notification unit 26. An operation unit 28 and a battery power source 30 are provided.

  The wireless communication unit 20 is provided with a transmission circuit 32 and a reception circuit 34 so that event signals can be transmitted and received wirelessly between the other residential alarm devices 10-2 to 10-5 and the gas leak alarm device 12. . As the wireless communication unit 20, in Japan, for example, STD-30 (a wireless equipment standard for a low power security system wireless station) or STD-T67 known as a standard for a specific low power wireless station in the 400 MHz band. It has a configuration that conforms to the standard for specific low-power radio station telemeters, telecontrol and data transmission radio equipment.

  Of course, the wireless communication unit 20 has contents conforming to the standard of the assigned wireless station in the area in places other than Japan.

  In the memory 22 as a storage unit, a serial number 38 which is a serial number indicating the order of the vent signal, a transmission source code 40 which becomes an ID (identifier) for identifying a residential alarm, and a residence installed in a house as shown in FIG. The group code | symbol 42 for comprising the interlocking group G1 which performs an interlocking alarm with the alarm devices 10-1 to 10-4 and the gas leak alarm device 12 is stored.

  The serial number 38 is used for managing the relay processing of the event signal in the communication between alarm devices, but will not be described in detail because it is not directly related to this embodiment.

  As the transmission source code 40, the number of home guards provided in the country is predicted, and for example, a 26-bit code code is used so as not to be duplicated as the same code.

  The group code 42 is a code that is set in common to a plurality of residential alarms constituting the interlocking group, and the group code included in the event signal from another residential alarm received by the wireless communication unit 20 is registered in the memory 22. When this event signal is matched with the group code 42, the event signal is received and processed as a valid signal. Therefore, as shown in FIG. Interference with alarm devices of other groups that are not required can be avoided.

  In the present embodiment, the sensor unit 24 is provided with a smoke detector unit 46. The smoke detector 46 outputs a detection signal when smoke enters. The detection signal from the smoke detector 46 is taken into the processor 18 (AD conversion), and when the predetermined fire level is exceeded on the processor 18 side, a fire alarm is determined, and the detection signal from the smoke detector 46 decreases. It is determined that the fire report has been lost (fire recovery) by falling below the fire level. In addition to the smoke detector 46, the sensor unit 24 may be provided with a temperature detection element such as a thermistor for detecting a temperature due to a fire, and various elements for detecting other physical phenomenon changes due to the fire.

  The notification unit 26 is provided with a speaker 48 and an LED 50. The speaker 48 outputs a voice message and an alarm sound from a voice synthesis circuit unit (not shown). The LED 50 displays an abnormality such as a fire by blinking, blinking, or lighting. Instead of the speaker 48, a buzzer or the like may be used.

  The operation unit 28 is provided with an alarm stop switch 52. When the alarm stop switch 52 is operated, the alarm sound flowing from the home alarm device 10-1 can be stopped. In this embodiment, the alarm stop switch 52 is also used as a switch for instructing the start of inspection of the internal function and state of the home alarm device 10-1. The alarm stop switch 52 is effective only when an alarm sound is output from the notification unit 26 through the speaker 48. On the other hand, the alarm stop switch 52 functions as an inspection switch in a normal monitoring state in which no alarm sound is output. When the inspection switch is pressed in this state, a predetermined inspection operation is executed and a sound indicating the inspection result is sent from the notification unit 26. Messages are output.

  The battery power source 20 uses, for example, a lithium battery or an alkaline battery having a predetermined number of cells, and has a battery capacity of, for example, 10 by reducing the power consumption of the entire circuit unit including the wireless communication unit 20 in the residential alarm 10-1. The battery life of the year is guaranteed.

  The processor 18 is provided with an event detection unit 56, a transmission processing unit 58, a reception processing unit 60, and an alarm processing unit 62 as functions realized by executing the program.

  The event detection unit 56 detects an event including abnormality detection by the sensor unit 24, alarm stop by the operation unit 28, and abnormality recovery in which the abnormality detection of the sensor unit 24 is eliminated.

  The transmission processing unit 58 is stored in the memory 22 when the event detection unit 56 detects its own event including abnormality detection by the sensor unit 24, alarm stop by the operation unit 28, and abnormality recovery that eliminates abnormality detection of the sensor unit 24. Then, an event signal including the group code 42 to which the user belongs and the event code indicating the detected event is transmitted to the interlocking alarm device.

  The reception processing unit 60 receives and decodes the event signal from the house alarm devices 10-2 to 10-5 or the gas leak alarm device 12.

  The alarm processing unit 62 outputs a fire alarm as the first abnormality alarm when the event detection unit 56 detects a fire alarm as its own abnormality, and the reception processing unit 60 outputs another fire alarm 10-2 to 10-. 5 or when the event signal from the gas leak alarm 12 is received, it is determined whether or not the group code of another alarm included in the event signal belongs to its own group, and it is determined that it belongs to its own group. When the event code content of the event signal indicates a fire alarm that is the same type of abnormality as the detection target of the event detection unit 56, a fire alarm is output as the first abnormality alarm, and the event code content is When an abnormality different from the detection target of the own event detection unit 56 is indicated, a gas leak alarm is output as a second abnormality alarm different from the first abnormality alarm according to the content of the event code.

  In this case, a fire alarm that is the first abnormality alarm and a gas leak alarm that is the second abnormality alarm are an acoustic alarm such as a buzzer sound or a voice message by the speaker 48 provided in the notification unit 26, and the lighting and blinking of the LED 50, Alarm display such as blinking.

  Further, the alarm processing unit 62, when the event detection unit 56 detects its own fire alarm, gas as a second abnormality alarm based on the event signal received from the gas leak alarm 12 which is another alarm device. Prior to the leakage alarm, a fire alarm is performed as a first abnormality alarm by a fire alarm detected by the event detection unit 56.

  Moreover, instead of giving priority to the fire alarm by the self fire report as an alarm when the self fire report and the event signal reception from the gas leak alarm device 1 occur in parallel, the event detection unit 56 detects the fire alarm. A fire alarm is output as a first abnormality alarm based on the fire alarm, and a gas leakage alarm is output in order so as not to overlap as a second abnormality alarm based on the event signal received from the gas leak alarm 12 You may make it do.

  More specifically, when the event detection unit 56 determines a fire from the detection signal of the smoke detection unit 46 provided in the sensor unit 24, the alarm processing unit 62 provides an alarm indicating the interlock source from the speaker 48 of the notification unit 26. A sound such as “Woo Woo fire alarm activated Please confirm” is repeatedly output, and a group code indicating a group to which the user belongs and an event signal indicating a fire alarm are transmitted to the antenna 21 by the transmission circuit 32 of the wireless communication unit 20. To the other house alarm devices 10-2 to 10-5 and the gas leak alarm device 12.

  Also, the alarm processing unit 62 receives an event signal indicating a fire alarm belonging to its own group from any of the other residential alarm devices 10-2 to 10-5 by the reception circuit 34 of the wireless communication unit 20, and performs reception processing. When enabled by the unit 60, an alarm sound indicating the interlocking destination, for example, “Please confirm that another fire alarm has been activated” is repeatedly output from the speaker 48 of the notification unit 26.

  Further, the alarm processing unit 62 receives an event signal indicating a gas leak belonging to its own group from the gas leak alarm device 12 by the reception circuit 34 of the wireless communication unit 20, and notifies when the reception processing unit 60 becomes effective. A sound message indicating the interlocking destination, for example, “Please check that another gas leak alarm has been activated” is repeatedly output from the speaker 48 of the unit 26.

  Here, when the alarm processing unit 62 outputs a fire alarm or gas leak interlocking source alarm sound, for example, the LED 50 of the notification unit 26 is blinked, while when the alarm destination alarm sound is output, the LED 50 of the notification unit 26 is emitted. Blinks. Thus, the display of the LED 50 in the interlocking source alarm and the interlocking destination alarm can be distinguished. Of course, the same LED 50 may be blinking, blinking, or lit for both the interlocking source alarm and the interlocking destination alarm.

  Then, a fire alarm (acoustic / display) as a first alarm to be detected by itself and a gas leak alarm (acoustic) as a second alarm upon receiving a gas leak event signal different from that to be detected by itself / Display) is different. Of course, a display LED associated with the second alarm can be provided separately from the display LED 50 associated with the first alarm.

  Further, when the alarm processing unit 62 detects the operation of the alarm stop switch 52 provided in the operation unit 28 during the output of the alarm sound indicating the interlock source, the alarm processor 62 stops the alarm sound indicating the interlock source output from the speaker 48. And sending an event signal including the group code to which the user belongs and the event code of the alarm stop from the transmission circuit 32 of the wireless communication unit 20 to the other residential alarm devices 10-2 to 10-5 and the gas leak alarm device 12, The alarm sound of the interlocking destination in the other residence alarm devices 10-2 to 10-5 and the gas leak alarm device 12 is stopped.

  In this case, the alarm sound indicating the interlocking source output from the speaker 48 is stopped, the display of the LED 50 is held for at least a predetermined period, and the event signal for alarm stop is transmitted from the transmission circuit 32 of the wireless communication unit 20 to another dwelling device. 10-2 to 10-5 and the gas leak alarm 12 are transmitted to the other dwelling devices 10-2 to 10-5 and the gas leak alarm 12 to stop the alarm sound of the linked destination and the display of the LED 50. Only the original display may be left. In this way, it becomes easy to specify an abnormality detection source (abnormality occurrence location) by confirming later as a report history. Of course, other alarm stop patterns can be taken.

  Further, the alarm processing unit 62 transmits an alarm stop event signal belonging to its own group from the other residential alarm devices 10-2 to 10-5 or the gas leak alarm device 12 during the output of the alarm sound indicating the interlock destination. When the signal is received by the 20 reception circuits 34 and becomes effective in the reception processing unit 60, the alarm sound indicating the interlocking destination is stopped.

  The alarm processing unit 62 stops the interlocking source alarm and returns to the normal state when the event detecting unit 56 detects that the fire is no longer detected due to the absence of smoke from the smoke detecting unit 46 provided in the sensor unit 24. At the same time, the transmission processing unit 60 sends an event signal including the group code to which the transmission processing unit 60 belongs and an event code indicating fire recovery from the transmission circuit 32 of the wireless communication unit 20 to the resident guards 10-2 to 10-5 and the linked destinations. On the other hand, the event signal indicating the fire recovery belonging to its own group is received by the receiving circuit 34 of the wireless communication unit 20 from the other residential alarm devices 10-2 to 10-5, and the reception processing is performed. When it becomes effective in the unit 60, the interlocking destination alarm is stopped and returned to the normal state.

  As a result, when the interlocking source alarm is issued by the home alarm device 10-1, when it is confirmed that the alarm is caused by smoke other than fire by on-site confirmation, or when the cause of the fire is removed early by appropriate measures, etc. 1, if the inhaled smoke is blown out from the smoke inlet of the smoke detector 16 shown in FIG. 1, the fire detection signal from the sensor unit 24 disappears, and the alarm sound of the interlocking source is automatically generated. Can be stopped and restored to normal monitoring status.

  Further, the alarm processing unit 62 receives an event signal indicating recovery of gas leakage belonging to its own group from the gas leakage alarm device 12 by the reception circuit 34 of the wireless communication unit 20 during the output of the gas leakage alarm, and receives the reception processing unit 60. When it becomes effective, stop the gas leak alarm as the interlocking destination and return to the normal state.

  FIG. 3 is an explanatory diagram showing the format of the event signal used in this embodiment. In FIG. 3, the event signal 36 includes a serial number 38, a transmission source code 40, a group code 42, and an event code 44. The transmission source code 40 is an individual ID that identifies the residential alarm or alarm device that transmitted the event signal, and is required by the standard or the like to be added to a signal transmitted from a domestic wireless device. Here, for example, the serial number of each house alarm or alarm is used.

  The serial number 38 is a serial number indicating the order of event signals, and is incremented by one each time an event signal is transmitted. The serial number 38 is generated asynchronously in each of the residence alarm devices 10-1 to 10-5 and the gas leak alarm device 12.

  The transmission source code 40 is a 26-bit code, for example. The group code 42 is an 8-bit code, for example, and the same group code is set for, for example, the residential alarm devices 10-1 to 10-4 and the gas leak alarm device 12 shown in FIG.

  As the group code 42, in addition to setting the same group code for the same group of house alarms, a reference code common to the house alarms constituting a predetermined group, and a sender unique to each house alarm A different group code may be used for each residential alarm obtained from the calculation with the code.

  The event code 44 is a code representing the event contents such as fire and gas leak. In this embodiment, a 3-bit code is used. For example, “001” indicates a fire, “010” indicates a gas leak, “ “011” indicates theft, “100” stops the alarm, “101” recovers, and the rest is reserved. The number of bits of the event code 42 can be further increased to 4 bits and 5 bits when the types of events are increased, thereby representing a plurality of types of event contents.

  In the present embodiment, the description will be made assuming that this is the case. However, the event type represented by the event code is “fire”, “fire recovery”, “gas leak”, “theft”, and “ON / OFF” code is separately provided. For example, when the event type is “fire” and the ON / OFF code is “ON”, it is possible to decode such as fire, and when “OFF”, the alarm is stopped. In addition, an event type such as “failure” can be provided.

  FIG. 4 is a block diagram showing an embodiment of the gas leak alarm 12 provided in the alarm system of FIG.

  The gas leak alarm device 12 includes a processor 118. For the processor 118, a wireless communication unit 120 including an antenna 121, a memory 122, a sensor unit 124 that detects gas leak, a notification unit 126, an operation unit 128, and a battery power source 130. Is provided.

  The wireless communication unit 120 is provided with a transmission circuit 132 and a reception circuit 134. The memory 122 includes a serial number 38, which is a serial number added to the event signal, and a transmission source code 40 and a group code 42, which are IDs (identifiers) for identifying the gas leak alarm device 12 in the same manner as the residential alarm device 10-1. Stored. The notification unit 126 is provided with a speaker 148 and an LED 150, and the operation unit 128 is provided with an alarm stop switch 152. Instead of the speaker 48, a buzzer or the like may be used.

  These details are basically the same as the wireless communication unit 20, the memory 22, the notification unit 26, the operation unit 28, and the battery power supply 30 provided in the residential alarm device 10-1 in FIG. 2 except for the sensor unit 24 that detects gas leakage. Will be the same.

  The processor 118 is provided with an event detection unit 156, a transmission processing unit 158, a reception processing unit 160, and an alarm processing unit 162 as functions realized by executing the program. The functions of the event detection unit 156, the transmission processing unit 158, the reception processing unit 160, and the alarm processing unit 162 are the event detection unit 56, the transmission processing unit 58, and the reception processing unit provided in the processor of the mortgage alarm device 10-1 in FIG. 60 and the alarm processing unit 62, the first abnormality detected by the event detection unit 156 is gas leakage, and the second abnormality due to the event signal received from the other resident alarm by the reception processing unit 60 It is different in that it becomes a fire alarm, but otherwise it is basically the same.

  FIG. 5 is a flowchart showing details of the fire monitoring process in the residential alarm device 10-1 in FIG. 2, which is a process by executing the program of the processor 18.

  In FIG. 5, the fire monitoring process monitors the fire alarm in step S1, and when the detection signal output from the sensor unit 24 exceeds a predetermined fire level, the fire alarm is determined and the process proceeds to step S2. After an event signal including a serial number, a transmission source code, a group code, and an event code indicating a fire alarm is transmitted wirelessly to another residential alarm device, an alarm indicating the interlocking source is output in step S3.

  Subsequently, in step S4, it is determined whether or not there is a fire recovery in which the detection signal from the sensor unit 24 is reduced and the fire alarm disappears. If the fire alarm continues, the alarm stop switch 52 is activated in step S5. Whether or not there is an alarm stop operation is determined, and if there is no alarm stop operation, the process of determining whether or not an alarm stop event signal belonging to the same interlocking group from another resident alarm is received in step S6 is repeated. In addition, while the fire alarm is continuing, the transmission of the event signal indicating the fire alarm is repeated every predetermined time.

  During the processing cycle of steps S4 to S6, when the detection signal from the sensor unit 24 decreases and the fire alarm is lost, fire recovery is determined in step S4, and serial number, transmission source code, group code, and fire recovery are determined in step S7. An event signal including an event code indicating “” is transmitted to the other home alarm device, and the process proceeds to step S9 to stop the interlocking source alarm. In this case, the normal monitoring state is restored.

  If it is determined in step S6 that an alarm stop event signal belonging to the same interlocking group has been received from another residential alarm, the process proceeds to step S9 to stop the interlocking source alarm. Not limited to this, the alarm stop process may depend on any of the patterns (1) to (3) described above. Further, the display by the LED 50 can be different from the acoustic alarm stop process, such as a history (memory) display as described above.

  If it is determined in step S5 that its own alarm stop operation has been performed, the process proceeds to step S8, and an event signal including a serial number, a transmission source code, a group code, and an event code indicating alarm stop is transmitted to the other residential alarms and alarms In step S9, the interlocking source alarm is stopped. And the self alarm as the interlocking source is stopped.

  On the other hand, if it is not a fire alarm in step S1, it is determined in step S10 whether or not an event signal belonging to the same interlocking group from another house alarm or gas leak alarm is received. When it is determined that an event signal belonging to the same interlocking group from another house alarm or alarm device is determined, the process proceeds to step S11 to determine whether or not the event code is a fire alarm event of the same type as its own detection target. If a fire alarm event is determined, the process proceeds to step S12, where a fire alarm (first abnormality alarm) as a linkage destination is performed.

  On the other hand, when it is determined in step S11 that the gas leak event is different from the self detection target, the process proceeds to step S13, and a gas leak alarm (second abnormality alarm) as a linkage destination is output.

  Next, in step S14, it is determined whether or not an event signal indicating an abnormal recovery belonging to the same interlocking group has been received from another residential alarm or gas leak alarm, and an event signal indicating an abnormal recovery belonging to the same interlocking group is determined. If it receives, it will progress to step S18 and will stop the alarm as an interlocking destination, and in this case, it will return to a normal monitoring state. In this case as well, it is possible to appropriately select from the contents and combination patterns of the acoustic alarm stop process and the display alarm stop process.

  If no event signal indicating abnormality recovery belonging to the same interlocking group is received in step S14, an event signal indicating an alarm stop belonging to the same interlocking group from another residential alarm or gas leak alarm is received in step S15. The presence or absence of reception is checked, and if reception of an event signal indicating an alarm stop belonging to the same interlocking group is determined, the process proceeds to step S18 to stop the alarm as the interlocking destination.

  If no event signal indicating alarm stop is received in step S15, the presence or absence of an alarm stop operation by the alarm stop switch 52 is determined in step S16. After transmitting the event signal including the serial number, the transmission source code, the group code, and the event code indicating the alarm stop to the alarm device and the gas leak alarm device, the alarm indicating the interlock destination is stopped in step S18.

  FIG. 6 is a flowchart showing details of the gas leak monitoring process in the gas leak alarm device 12 of FIG. 4, and the process is executed by executing the program of the processor 118.

  In FIG. 6, the gas leak monitoring process monitors the occurrence of gas leak in step S21. If the detection signal output from the sensor unit 124 exceeds a predetermined level, the gas leak is determined and the process proceeds to step S22. After transmitting the event signal including the event code indicating the number, the transmission source code, the group code, and the gas leak to the house alarm device by radio, an alarm indicating the interlocking source is output in step S23.

  Subsequently, in step S24, it is determined whether or not there is a gas leak recovery in which the detection signal from the sensor unit 124 decreases and the gas leak disappears. If the gas leak continues, an alarm by the alarm stop switch 152 in step S25. Whether or not there is a stop operation is determined. If there is no alarm stop operation, the process of determining whether or not an alarm stop event signal belonging to the same interlocking group from another resident alarm is received in step S26 is repeated. In addition, while the gas leak is continuing, the transmission of the event signal indicating the gas leak is repeated every predetermined time.

  During the processing cycle of steps S24 to S26, when the detection signal from the sensor unit 124 decreases and gas leakage is eliminated, recovery of gas leakage is determined in step S24, and serial number, transmission source code, group code, and gas leakage are determined in step S27. An event signal including an event code indicating recovery is transmitted to the home alarm device, and the process proceeds to step S29 to stop the linkage source alarm. In this case, the normal monitoring state is restored.

  If it is determined in step S26 that an alarm stop event signal belonging to the same interlocking group has been received from another residential alarm, the process proceeds to step S29 to stop the interlocking source alarm.

  If it is determined in step S25 that the own alarm stop operation has been performed, the process proceeds to step S28, and an event signal including an event code indicating a serial number, a transmission source code, a group code, and an alarm stop is transmitted to the other home alarm devices, In S29, the interlocking source alarm is stopped. Not limited to this, the alarm stop process may depend on any of the patterns (1) to (3) described above. Further, the display by the LED 50 can be different from the acoustic alarm stop process, such as a history (memory) display as described above.

  On the other hand, if there is no gas leak in step S21, it is determined in step S30 whether or not an event signal belonging to the same interlocking group from a resident alarm as another alarm is received. If it is determined that an event signal belonging to the same interlocking group from the home alarm is determined, the process proceeds to step S31 to determine whether or not the event code is the same type of gas leak event as its own detection target, and the same type of gas leak event is determined. When it does, it progresses to step S32 and performs the gas leak warning as a interlocking destination (1st abnormality warning). In the embodiment of FIG. 1, only one gas leak alarm is installed, so the process of step S32 is not performed.

  On the other hand, if it is determined in step S31 that a fire alarm event that is different from the subject to be detected is detected, the process proceeds to step S33, and a fire alarm is output as a linkage destination (second abnormality alarm).

  Next, in step S34, it is determined whether or not an event signal indicating abnormality recovery belonging to the same interlocking group from another resident alarm is received, and when an event signal indicating abnormality recovery belonging to the same interlocking group is received, Proceeding to S38, the fire alarm as the interlocking destination is stopped, and in this case, the normal monitoring state is restored.

  If there is no event signal indicating an abnormal recovery belonging to the same interlocking group in step S34, it is checked in step S35 whether an event signal indicating an alarm stop belonging to the same interlocking group is received. If it is determined that an event signal indicating an alarm stop belonging to the same interlocking group is received, the process proceeds to step S38, and the fire alarm as the interlocking destination is stopped.

  If no event signal indicating an alarm stop belonging to the same interlocking group is received in step S35, the presence or absence of an alarm stop operation by the alarm stop switch 152 is determined in step S36. Proceeding to step S38, an event signal including a serial number, a transmission source code, a group code, and an event code indicating an alarm stop is transmitted to the home alarm device, and then a fire alarm indicating an interlock destination is stopped in step S38.

  The above embodiment is an example of a composite alarm system in which a residential alarm device for detecting and alarming a fire and a gas leak alarm device for detecting and alarming a gas leak are arranged. In addition to the gas leak alarm device, the present invention can be similarly applied to an alarm system in which a CO alarm device and various security alarm devices are arranged.

  The flowchart in the above-described embodiment describes a schematic example of processing, and the order of processing is not limited to this. Further, it is possible to provide a delay time between each process or between processes, insert another determination, or the like.

  In addition, “reception is received”, “no reception”, “when received”, “determination of reception”, etc. described in the description of the flowchart above are used to determine whether or not the received signal is recognized as valid. Also included.

  Since the same type of alarm (first abnormality alarm) as the subject of detection and the different kind of abnormality alarm (second abnormality alarm) are performed independently, the first alarm and the second alarm are output simultaneously. In some cases, the alarm stop or recovery in such a case may be performed only for either the first alarm or the second alarm. In this case, that is, when an event signal indicating the first alarm stop is received during the output of the first and second alarms, for example, only the first alarm is stopped and the second abnormality alarm continues. The process is to output.

  On the other hand, when an event signal indicating the first abnormality alarm is received during the second abnormality alarm, the second abnormality alarm is stopped and the first abnormality alarm is output. I can do it. As a result, for example, in some cases, it is possible to give an appropriate alarm to the user according to the degree of danger associated with the occurrence of an abnormality, such as giving priority to a fire over an abnormal signal from a crime prevention alarm device.

  The second abnormality alarm is not limited to the meaning of the second type alarm. It is also possible to process a plurality of abnormal alarms that are different from the detection target. Of course, the second alarm may be given priority in some cases. These priorities may be set by the user with a switch or other appropriate means, or may be set and registered in advance by various means using software or hardware. Even when the priorities are not set in this way, variations regarding the acoustic alarm, the display alarm, the stop processing thereof, and the like can be selected in the same manner as in the above embodiment.

  Depending on the type of alarm, setting priorities may be extremely difficult. In such cases, experts should consider the installation environment and other conditions, but there is no problem even if the user sets them. Only the range may be set by the user freely, and the rest may be set by the expert by means that cannot be changed by the user. The user can set priorities within a configurable range, and can pre-determine what to do when an abnormality occurs.

  In addition, for example, even when the first abnormality alarm is preferentially sounded, a priority process combining the sound alarm and the display alarm can be performed, for example, the second abnormality alarm is displayed. The priority processing can be made different depending on the difference between the linkage source and the linkage destination. For example, when the fire alarm is given the highest priority for the entire system, when the fire occurs, both the interlocking source and the interlocking destination sound alarms for fire. If a gas leak is occurring at the same time, the gas leak alarm that is the source of this interlocking alarm is given only by displaying the gas leak alarm that is the first abnormality alarm, and the second abnormality alarm is heard by voice. Alarms can be made.

  The fire alarm (residential alarm) alerts the gas leak that becomes the second abnormality alarm with a display while sound-alarming the fire that becomes the first abnormality alarm for itself. And, for example, even if the first abnormality alarm is given priority, if there is only the second abnormality, this is alarmed in the same manner as the priority alarm, and when the first abnormality occurs during this alarm A priority alarm is given to the first abnormality.

  Through this process, the system as a whole gives detailed alerts, so that the user can be sure of any abnormalities that have occurred, and the priority (high risk) abnormality can be known. I can do it. Further, for example, by displaying the interlock source display on and the interlock destination display blinking, it is possible to know whether the alarming device being viewed is the interlock source or the interlock destination.

  In this way, the priority can be given to the alarm, the alarm output method can be different between the linkage source and the linkage destination, and the combination can also be combined so that the user can deal more appropriately when an abnormality occurs. It becomes possible.

  In the above embodiment, the gas leak alarm device arranged as a heterogeneous alarm device for the home alarm device is provided with a wireless communication unit that performs transmission and reception, and bidirectional communication is performed as an example. In a different kind of alarm device, it is good also as one-way communication which provided only the transmission function which detects abnormality and transmits an event signal.

  Further, the above-described embodiment is applicable not only to residential use but also to various types of alarm devices such as buildings and offices.

  In the above embodiment, the alarm unit is provided with the sensor unit and the alarm output processing unit as an example. However, as another embodiment, the alarm unit has a separate sensor unit and alarm output processing unit. There may be.

The present invention is not limited to the above-described embodiments, includes appropriate modifications that do not impair the objects and advantages thereof, and is not limited by the numerical values shown in the above-described embodiments.

10-1 to 10-5: House alarm 12: Gas leak alarm 14: House 16: Garage 18, 118: Processor 20, 120: Wireless communication unit 21, 121: Antenna 22, 122: Memory 24, 124: Sensor Units 26, 126: notification units 28, 128: operation units 30, 130: battery power supply 32, 132: transmission circuit 34, 134: reception circuit 36: event signal 38: serial number 40: transmission source code 42: event code 44: Group code 46: smoke detector 48, 148: speaker 50, 150: LED
52, 152: Alarm stop switch 56, 156: Event detection unit 58, 158: Transmission processing unit 60, 160: Reception processing unit 62, 162: Alarm processing unit

Claims (10)

An event detector for detecting the presence or absence of an abnormality,
A storage unit for storing a group code of a group to which the device belongs;
When an abnormality is detected by the event detection unit, an event signal including a group code to which the alarm belongs and stored in the storage unit to another alarm device and an event code indicating a first abnormality to be detected by the event detection unit A transmission processing unit for transmitting
A reception processing unit for receiving event signals from other alarm devices;
When the event detection unit detects an abnormality, a first abnormality alarm is output, and when the reception processing unit receives an event signal from another alarm device, the group code of another alarm device included in the event signal If the event code content of the event signal indicates the same kind of abnormality as the detection target of the event detection unit when it is determined that the event signal belongs to the own group, When an abnormality alarm is output and the event code content indicates an abnormality different from the detection target of the event detection unit, a second abnormality alarm different from the first abnormality alarm is generated according to the event code content. An alarm processing unit for outputting;
An alarm device comprising:
2. The alarm device according to claim 1, wherein when the event detection unit detects an abnormality, the alarm processing unit has priority over the second abnormality alarm based on an event signal received from another alarm device. An alarm device that warns the abnormality detected by the event detection unit as a first abnormality alarm.
The alarm device according to claim 1, wherein the alarm processing unit is detected by the event detection unit from another alarm device during the first abnormality alarm output based on an abnormality detected by the event detection unit. When receiving an event signal including an event code indicating an abnormality different from that of the first abnormality alarm, the alarm device is characterized in that the second abnormality is given priority over the first abnormality alarm.
2. The alarm device according to claim 1, wherein the alarm processing unit is detected by the event detection unit when an abnormality is detected by the event detection unit and an event signal is received from another alarm device. An alarm based on an event signal received from the other alarm device and a second abnormality alarm.
The alarm device according to any one of claims 1 to 4,
The event detection unit detects the presence or absence of a fire,
The transmission processing unit transmits an event signal including an event code indicating a fire as a first abnormality to be detected by the event detection unit,
The alarm processing unit outputs a fire alarm as a first abnormality alarm when the event detection unit detects a fire, and when the reception processing unit receives an event signal from another alarm device, When the event code content indicates the same kind of fire as the detection target of the event detection unit, a fire alarm is output as a first abnormality alarm, and the event code content indicates an abnormality different from the detection target of the event detection unit In this case, the alarm device outputs a second abnormality alarm different from the fire alarm according to the content of the event code.
6. The alarm device according to claim 5, wherein the alarm processing unit outputs a gas leak alarm or a theft alarm as a second abnormality alarm different from the fire alarm.
The alarm device according to claim 1, wherein
The transmission processing unit, when detecting recovery of abnormality in the event event detection unit, causes other alarm devices to transmit an event signal including an event code indicating the group code of itself and abnormality recovery,
The alarm processing unit stops output of the first abnormality alarm when the event detection unit detects recovery of abnormality, and receives the event signal from another alarm device at the reception processing unit. When the event code indicating the recovery of the first group error and the first group code is determined from the received event signal, the output of the first error alarm is stopped, and the recovery of the first group code and the second error is performed from the received event signal. An alarm device characterized in that the output of the second abnormality alarm is stopped when an event code indicating is determined.
The alarm device according to claim 1, wherein
When the transmission processing unit detects an abnormality alarm stop instruction by the event detection unit, the other alarm device transmits an event signal including an event code indicating an alarm stop to the own group code,
The alarm processing unit stops outputting the first abnormality alarm when the event detection unit detects an abnormality alarm stop instruction, and when the reception processing unit receives an event signal from another alarm device When the event code indicating the own group code and the first abnormality alarm stop is determined from the received event signal, the output of the first abnormality alarm is stopped, and the self group code and the second error code are stopped from the received event signal. An alarm device characterized in that, when an event code indicating an abnormal alarm stop is determined, output of the second abnormal alarm is stopped.
In the alert area,
An alarm device for detecting and alarming an abnormality,
A heterogeneous alarm device for detecting and alarming an abnormality different from the alarm device;
And place
Each of the alarm device and the heterogeneous alarm device is
An event detector for detecting the presence or absence of an abnormality,
A storage unit for storing a group code of a group to which the device belongs;
When an abnormality is detected by the event detection unit, an event signal including a group code to which the alarm belongs and stored in the storage unit to another alarm device and an event code indicating a first abnormality to be detected by the event detection unit A transmission processing unit for transmitting
A reception processing unit for receiving event signals from other alarm devices;
When the event detection unit detects an abnormality, a first abnormality alarm is output, and when the reception processing unit receives an event signal from another alarm device, the group code of another alarm device included in the event signal If the event code content of the event signal indicates the same kind of abnormality as the detection target of the event detection unit when it is determined that the event signal belongs to the own group, When an abnormality alarm is output and the event code content indicates an abnormality different from the detection target of the event detection unit, a second abnormality alarm different from the first abnormality alarm is generated according to the event code content. An alarm processing unit for outputting;
An alarm system characterized by comprising:
In the alarm system according to claim 9,
The alarm system is a fire alarm device for detecting and alarming a fire, and the dissimilar alarm device includes a gas leak alarm device or a theft alarm device for detecting and alarming a gas leak or theft.

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