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JP5893835B2 - Alarm and monitoring system - Google Patents

Alarm and monitoring system Download PDF

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JP5893835B2
JP5893835B2 JP2011052799A JP2011052799A JP5893835B2 JP 5893835 B2 JP5893835 B2 JP 5893835B2 JP 2011052799 A JP2011052799 A JP 2011052799A JP 2011052799 A JP2011052799 A JP 2011052799A JP 5893835 B2 JP5893835 B2 JP 5893835B2
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reception
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JP2012190225A (en
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秀成 松熊
秀成 松熊
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Hochiki Corp
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Description

本発明は、電池電源で動作し、自己の監視領域における火災等の異状を検知した場合に、自分自身で警報を出力すると共に他の警報器に異状を示す連動信号を送信して警報させる連動型の警報器及び監視システムに関する。
The present invention operates with a battery power source and outputs an alarm on its own when an abnormality such as a fire in its own monitoring area is detected and sends an alarm signal to the other alarm device to indicate the alarm. Type alarm and monitoring system.

従来、住宅等における火災やガス漏れなどの異状を検知して警報する警報器が普及している。このうち、住宅用火災警報器を住警器と言う。   2. Description of the Related Art Conventionally, alarm devices that detect and warn of abnormalities such as fires and gas leaks in houses have become widespread. Of these, residential fire alarms are referred to as residential alarms.

このような住警器にあっては、電池電源で動作し、住警器内に火災を検知するセンサ部と火災を警報する警報部を一体に備え、センサ部の検知信号から火災を検知すると警報部から所定パターンの火災警報音を出力するようにしており、専用の受信設備等を必要とせず住警器単体で火災監視と警報報知ができることから、設置が簡単でコスト的にも安価であり、一般住宅での設置義務化に伴い広く普及している。   In such a house alarm, it operates with a battery power source, and is equipped with a sensor part for detecting a fire and an alarm part for alarming a fire in the house alarm, and when a fire is detected from a detection signal of the sensor part. The alarm unit outputs a fire alarm sound with a predetermined pattern, and it is easy to install and inexpensive because it can be used for fire monitoring and alarm notification without requiring a dedicated receiving facility. Yes, it has become widespread with the obligatory installation in ordinary houses.

また、複数の住警器間で通信を行うことによって、任意の住警器で火災警報音が出力されると、他の住警器でも連動して火災警報音を出力させる連動型の住警器も提案されている。   In addition, by communicating between multiple home alarms, when a fire alarm sound is output from any home alarm, an interlocked home police that outputs a fire alarm sound in conjunction with other home alarms. A vessel has also been proposed.

このような連動型の住警器では、住警器で火災を検知した場合、火災を検知した連動元の住警器は、例えば「ウーウー 火事です 火事です」を出力すると共に他の住警器に連動信号を送信し、一方、連動信号を受信することで連動先となる他の住警器では例えば「ウーウー 別の警報器が作動しました」といった火災警報音を出力するようにしている。   In such an interlocking house alarm, when a fire is detected by the house alarm, the home alarm that detects the fire outputs, for example, “Woo Woo is a fire” and other house alarms. On the other hand, by receiving the interlock signal, other house alarms that are the target of interlocking output a fire alarm sound, for example, “Woo-Wood alarm has been activated”.

また、近年、住警器の低消費電力化が推し進められた結果、例えば10年以上といった長期の電池寿命が保証されており、その間、電池交換は不要である。   Further, in recent years, as a result of efforts to reduce the power consumption of residential alarms, a long battery life of, for example, 10 years or more is guaranteed, and no battery replacement is necessary during that period.

住警器の低消費電力化は、住警器に設けている各種回路の消費電力を低下させると共に、特に無線信号の間欠受信方式を採用することで実現されている。間欠受信方式は、所定の周期毎に所定の受信可能時間を設定して受信部を動作してキャリアセンスを行い、キャリアセンスにより受信出力が得られたら受信動作を継続して他の住警器からの連動信号を受信する。   The reduction in power consumption of the home alarm device is realized by lowering the power consumption of various circuits provided in the home alarm device, and in particular by adopting an intermittent radio signal reception system. The intermittent reception method sets a predetermined receivable time for each predetermined period, operates the receiving unit to perform carrier sense, and continues the reception operation when the reception output is obtained by carrier sense, and other resident alarm Receive interlocking signal from.

住警器を長期間使用して電池寿命に近づいて電池電圧(残り電源容量)の低下が検知されると、電池切れ予告警報(以下、「ローバッテリー障害警報」と云う)を出力して電池交換を促すようにしている。   If the battery voltage (remaining power supply capacity) is reduced due to the use of the home alarm for a long time and the battery voltage (remaining power capacity) is reduced, a battery warning warning (hereinafter referred to as “low battery failure alarm”) is output and the battery is output. The exchange is encouraged.

このローバッテリー障害状態では、電池電圧正常時に比べて低消費の動作(例えば間欠受信周期を長くする等)を行わせて、電池切れにより動作停止に至るまでの時間を所定以上確保するように工夫したものもあり、このようにして利用者がローバッテリー障害に気づいて電池交換を行う等の対処に猶予期間を得られるようにしている。或いは、予定の所定猶予期間(例えば72時間)を確保したうえで、それ以前の動作期間(ローバッテリー障害状態となるまでの動作期間)を延ばすようにしている。
In this low battery failure state, the device consumes less power than when the battery voltage is normal (for example, lengthens the intermittent reception cycle) and secures a certain amount of time until the operation is stopped due to battery exhaustion. In this way, the user can get a grace period for taking measures such as replacing the battery when he / she notices a low battery failure. Alternatively, after a predetermined grace period (for example, 72 hours) is secured, the previous operation period (operation period until a low battery failure state is reached) is extended.

特開2007−094719号公報JP 2007-094719 A 実用新案登録第3143139号公報Utility Model Registration No. 3143139

ところで、このような従来の連動型の住警器にあっては、火災や火災以外の事象を検知した場合、通信規格に従って、所定の休止時間を挟んで所定時間の送信を複数回繰り返す送信動作を行い、連動信号を断続的に複数回送信することで火災連動信号や火災以外の連動信号を、間欠受信を行っている他の住警器に受信させて連動警報を出せるようにしている。   By the way, in such a conventional interlocking type home guard, when a fire or an event other than a fire is detected, a transmission operation that repeats transmission for a predetermined time multiple times with a predetermined pause time in accordance with a communication standard By transmitting the interlock signal intermittently multiple times, the fire alarm signal and the interlock signal other than the fire can be received by other house alarms that perform intermittent reception so that an interlock alarm can be issued.

しかしながら、火災を検知した場合の連動は、火災以外の事象を検知した場合の連動に比べ重要性が高く、電波環境等に影響されることなく、より確実に送受信する必要があるが、従来の住警器にあっては、火災の連動と火災以外の事象をの連動について同じ送受信方式としている。ここで少なくとも、上述の通り重要度の高い火災連動については送受信の迅速性と確実性を更に高めていくことが望まれる。   However, the linkage when a fire is detected is more important than the linkage when an event other than a fire is detected, and it is necessary to transmit and receive more reliably without being affected by the radio wave environment. In the case of a mortgage guard, the same transmission / reception system is used for interlocking fires and events other than fires. Here, it is desirable to further improve the speed and certainty of transmission / reception at least for fire interlocking, which is highly important as described above.

本発明は、電池電圧の正常で且つ火災等の異状を検知した場合に、連動信号の送信能力を高めて連動動作を迅速且つ確実に行えるようにする連動型の警報器を提供することを目的とする。   An object of the present invention is to provide an interlocking type alarm device that enhances the ability to transmit an interlocking signal so that the interlocking operation can be performed quickly and reliably when the battery voltage is normal and an abnormality such as a fire is detected. And

また本発明の他の目的は、送信能力を高めるための送信動作に係る消費電力の増加に対応して受信動作に係る消費電力を減少させることで、総合的な電力の増加を抑制して電池寿命への影響を低減する、連動型の警報器及び監視システムを提供することを目的とする。
Another object of the present invention is to reduce the power consumption related to the reception operation in response to the increase in power consumption related to the transmission operation for increasing the transmission capability, thereby suppressing the increase in the total power and the battery. An object is to provide an interlocking alarm device and a monitoring system that reduce the influence on the life.

本発明は、電池電源で動作し、監視領域の異状を検知した場合に警報を出力する連動型の警報器に於いて、
電池電圧に関わらず、監視領域の異状を検知した場合には、監視領域の異状以外の他の事象を検知した場合に比べて送信能力のを高くして連動信号を送信すると共に消費電力を小さくして連動信号を受信することを特徴とする。

The present invention is an interlock type alarm device that operates with a battery power source and outputs an alarm when an abnormality in the monitoring area is detected .
Regardless of the battery voltage, when detecting the abnormality of the monitoring area, reduced power consumption and transmits the higher to the interlocking signal from transmission capacity as compared with the case of detecting the other events other than abnormalities in the monitored area And receiving an interlocking signal .

また本発明は、電池電源で動作し、監視領域の異状を検知した場合に連動元を示す警報を出力すると共に他の警報器に監視領域の異状を示す連動信号を送信部から送信し、他の警報器から監視領域の異状を示す連動信号を受信部で受信した場合に連動先を示す警報を出力する警報器に於いて、
送信部は、
監視領域の異状以外の他の事象を検知した場合、所定の第1送信モードを設定して他の警報器に検知内容を示す連動信号を送信し、
監視領域の異状を検知した場合、第1送信モードより送信能力の高い第2送信モードを設定して他の警報器に監視領域の異状を示す連動信号を送信し、
第1送信モード及び第2送信モードは、所定の休止時間と所定の送信時間を組み合わせた送信を複数回繰り返し、第2送信モードは、組み合わせた送信の回数を第1送信モードより多くすることを特徴とする。
In addition, the present invention operates with a battery power source, and outputs an alarm indicating an interlocking source when an abnormality in the monitoring area is detected and transmits an interlocking signal indicating an abnormality in the monitoring area from another transmitter to the other alarm device. In the alarm device that outputs an alarm indicating the interlock destination when the interlock signal indicating the abnormality of the monitoring area is received from the alarm device of
The transmitter
When an event other than the abnormality in the monitoring area is detected, a predetermined first transmission mode is set and an interlocking signal indicating the detection content is transmitted to another alarm device,
If a monitoring area abnormality is detected, a second transmission mode having a higher transmission capability than the first transmission mode is set, and an interlocking signal indicating the monitoring area abnormality is transmitted to another alarm device .
In the first transmission mode and the second transmission mode, transmission in which a predetermined pause time and a predetermined transmission time are combined is repeated a plurality of times, and in the second transmission mode, the number of combined transmissions is made larger than that in the first transmission mode. Features.

第2送信モードは、第1送信モードに対し送信電力をより増加させる。   The second transmission mode further increases transmission power compared to the first transmission mode.

第2送信モードは、第1送信モードに対し送信電波強度を高くするか、或いは送信頻度を高くする。   In the second transmission mode, the transmission radio wave intensity is increased or the transmission frequency is increased as compared with the first transmission mode.

また本発明は、電池電源で動作し、監視領域の異状を検知した場合に連動元を示す警報を出力すると共に他の警報器に監視領域の異状を示す連動信号を送信部から送信し、他の警報器から監視領域の異状を示す連動信号を受信部で受信した場合に連動先を示す警報を出力する警報器に於いて、
送信部は、
監視領域の異状以外の他の事象を検知した場合、所定の第1送信モードを設定して他の警報器に検知内容を示す連動信号を送信し、
監視領域の異状を検知した場合、第1送信モードより送信能力の高い第2送信モードを設定して他の警報器に監視領域の異状を示す連動信号を送信し、
受信部は、
監視領域の異状又は他の事象を未検知の場合、所定周期毎に所定の受信可能時間を設定する間欠受信を行い、
他の事象を検知した場合、所定の第1受信モードを設定して他の警報器からの連動信号を受信し、
監視領域の異状を検知した場合、第1受信モードより消費電力の小さい第2受信モードを設定して他の警報器からの連動信号を受信することを特徴とする
In addition, the present invention operates with a battery power source, and outputs an alarm indicating an interlocking source when an abnormality in the monitoring area is detected and transmits an interlocking signal indicating an abnormality in the monitoring area from another transmitter to the other alarm device. In the alarm device that outputs an alarm indicating the interlock destination when the interlock signal indicating the abnormality of the monitoring area is received from the alarm device of
The transmitter
When an event other than the abnormality in the monitoring area is detected, a predetermined first transmission mode is set and an interlocking signal indicating the detection content is transmitted to another alarm device,
If a monitoring area abnormality is detected, a second transmission mode having a higher transmission capability than the first transmission mode is set, and an interlocking signal indicating the monitoring area abnormality is transmitted to another alarm device.
The receiver
When abnormalities in the monitoring area or other events are not detected, intermittent reception is performed to set a predetermined receivable time every predetermined period,
When other events are detected, a predetermined first reception mode is set and an interlocking signal is received from another alarm device,
When detecting abnormality of the monitoring region, characterized in that by setting a smaller second reception mode power consumption than the first reception mode to receive the interlock signal from another alarm device.

第1受信モードは、他の事象の検知状態が継続中は間欠受信を常時受信に切替え、他の事象の検知状態が解除されたことを条件として常時受信を間欠受信に戻し、
第2受信モードは、送信部による監視領域の異状を示す連動信号の送信中は間欠受信を常時受信に切替え、その後の監視領域の異状の検知状態が継続中は所定周期より長い周期の間欠受信に切替え、監視領域の異状の検知状態が解除されたことを条件として長い周期の間欠受信を所定周期の間欠受信に戻す。

In the first reception mode, the intermittent reception is switched to the continuous reception while the detection state of the other event is continued, and the continuous reception is returned to the intermittent reception on condition that the detection state of the other event is canceled,
In the second reception mode, intermittent reception is switched to continuous reception during transmission of the interlock signal indicating the abnormality of the monitoring area by the transmission unit, and intermittent reception with a period longer than a predetermined period is continued while the abnormality detection state of the subsequent monitoring area continues. The long period intermittent reception is returned to the predetermined period intermittent reception on condition that the abnormal detection state of the monitoring area is released.

第1受信モードは、他の事象の検知状態が継続中は間欠受信を常時受信に切替え、他の事象の検知状態が解除されたことを条件として常時受信を間欠受信に戻し、
第2受信モードは、送信部による監視領域の異状を示す連動信号の送信中は間欠受信を常時受信に切替え、その後の監視領域の異状の検知状態が継続中は所定の受信可能時間より短い受信可能時間の間欠受信に切替え、監視領域の異状の検知状態が解除されたことを条件として短い受信可能時間の間欠受信を所定の受信可能時間の間欠受信に戻す。

In the first reception mode, the intermittent reception is switched to the continuous reception while the detection state of the other event is continued, and the continuous reception is returned to the intermittent reception on condition that the detection state of the other event is canceled,
In the second reception mode, intermittent transmission is switched to continuous reception during transmission of the interlock signal indicating the abnormality in the monitoring area by the transmission unit, and reception is shorter than the predetermined receivable time while the abnormality detection state in the subsequent monitoring area continues. Switching to intermittent reception of possible reception time is performed, and intermittent reception of short receivable time is returned to intermittent reception of a predetermined receivable time on condition that the abnormal detection state of the monitoring area is released.

受信部で他の警報器から連動信号を有効受信した場合、正常受信を示すACK信号を送信部で送信し、
送信部から連動信号を送信した後に他の住警器からのACK信号を受信部で受信し、ACK信号を受信しない警報器を検知した場合、ACK信号を受信した他の警報器に対し記連動信号に中継要求を示す符号を含む連動信号を送信して、連動信号の内容を中継送信させる。
When the receiver receives the interlock signal effectively from another alarm device, the transmitter transmits an ACK signal indicating normal reception,
After transmitting the interlock signal from the transmitter, if the receiver receives an ACK signal from another resident alarm and detects an alarm device that does not receive the ACK signal, it is synchronized with the other alarm device that received the ACK signal. The interlocking signal including the code indicating the relay request is transmitted in the signal, and the contents of the interlocking signal are relayed and transmitted.

本発明警報器に於いて、送信部は、受信部で他の警報器から連動信号を受信した場合、当該連動信号を中継送信することを特徴とする。
In the alarm device of the present invention, the transmission unit relays and transmits the interlock signal when the receiver receives the interlock signal from another alarm device .

本発明警報器を設けた監視システムにあっては、警報器の送信部は、受信部で他の警報器から連動信号を受信した場合、当該連動信号を中継送信することを特徴とする。

In the monitoring system having a alarm of the present invention, the transmission unit of the alarm device, when receiving the interlocking signal from another alarm device by the reception section, characterized in that relay-transmits the interlocking signal.

本発明の警報器によれば、火災等の異状を検知した場合は、火災以外の事象を検知した場合に連動信号を送信する第1送信モードに対し消費電力の大きい第2送信モード、例えば送信回数や送信電力(電波強度等)を増大させた第2送信モードを設定して火災連動信号を送信するため、連動信号の送信能力が高められ、他の事象に対し比較的重要性の高い火災等の異状検知に伴う連動信号を迅速且つ確実に他の警報器に送信して連動先でも連動警報を出すことができ、連動警報の信頼性を向上することができる。   According to the alarm device of the present invention, when an abnormality such as a fire is detected, a second transmission mode that consumes more power than the first transmission mode that transmits an interlocking signal when an event other than a fire is detected, for example, transmission Since the second transmission mode with increased frequency and transmission power (radio wave intensity, etc.) is set and the fire interlocking signal is transmitted, the transmission capability of the interlocking signal is enhanced and the fire is relatively important for other events The interlocking signal accompanying abnormality detection such as the above can be promptly and reliably transmitted to another alarm device, and the interlocking alarm can be issued even at the interlocking destination, and the reliability of the interlocking alarm can be improved.

また送信能力を高めるための第2送信モードによる高消費電力の送信は電池消耗を促進することになるが、火災等の異状を検知した場合、この第2送信モードに対応して、火災以外の事象を検知した場合に他の警報器からの連動信号を受信する第1受信モードに対し消費電力の小さい第2受信モードを設定するため、自己の火災検知に基づく高消費電力の送信で促進される電池の消耗が、低消費電力の受信により緩和することができる。   In addition, transmission of high power consumption in the second transmission mode for enhancing the transmission capability promotes battery consumption. However, when an abnormality such as a fire is detected, it corresponds to the second transmission mode and other than fire. In order to set the 2nd reception mode with low power consumption to the 1st reception mode which receives the interlocking signal from other alarm devices when an event is detected, it is promoted by transmission of high power consumption based on own fire detection. Battery consumption can be reduced by receiving low power consumption.

ここで、消費電力を低減する第2受信モードでは受信機能を低下させており、他の警報器との連動機能が損なわれる可能性が考えられる。   Here, in the second reception mode for reducing power consumption, the reception function is lowered, and there is a possibility that the interlocking function with other alarm devices may be impaired.

しかしながら、例えば3台以上の警報器で連動システムを構成する場合(一般的な住宅の住警器システムではそうなる)、各警報器が連動信号の中継機能を実行できるときには、他の警報器から送信された連動信号は更に別の警報器でも中継送信されることで全体として所定の送信数が確保できるので、受信機会が高まることで、連動機能が損なわれることが防止される。このように、自己が連動元として火災などの異状警報を出力している間、受信機能を低下させても実質的には問題にならない。   However, for example, when an interlock system is configured with three or more alarm devices (as is the case with a general residential mortgage alarm system), when each alarm device can execute the relay function of the interlock signal, from other alarm devices Since the transmitted interlocking signal is relayed and transmitted by another alarm device, a predetermined number of transmissions can be ensured as a whole, so that the interlocking function is prevented from being impaired by increasing the reception opportunity. In this way, while the self outputs a malfunction alarm such as a fire as a link source, even if the reception function is lowered, there is substantially no problem.

更には、自己が連動元として火災などの異状警報を出力しているときは、そもそも他の警報器からの連動信号を処理する必要性が相対的に低いため、受信機能を低下させても実質的には問題にならない。このため、第2受信モードとして、最も消費電力の低い受信動作パターンである「受信停止」を設定することも可能である。
In addition, when the self is outputting a warning alarm such as a fire as the interlock source, the necessity of processing the interlock signal from other alarm devices is relatively low in the first place. It does n’t matter. For this reason, it is possible to set “reception stop”, which is the reception operation pattern with the lowest power consumption, as the second reception mode.

本発明の連動型の住警器による監視システムを設置した住宅を示した説明図Explanatory drawing which showed the house which installed the monitoring system by the interlocking type residence guard of this invention 本発明による住警器の外観を示した説明図Explanatory drawing which showed the external appearance of the house alarm device by this invention 本発明による住警器の実施形態を示したブロック図The block diagram which showed embodiment of the residence guard by this invention 電池電圧が正常な状態で火災以外の事象を検知した場合の送受信動作を示したタA tag that indicates the transmission / reception operation when an event other than a fire is detected while the battery voltage is normal. イムチャートIm chart 電池電圧が正常な状態で火災を検知した場合の送受信動作を示したタイムチャーA time chart that shows the transmission and reception operations when a fire is detected with the battery voltage in a normal state G 図3の実施形態で使用する連動信号のフォーマットを示した説明図Explanatory drawing which showed the format of the interlocking signal used in embodiment of FIG. 本発明の住警器による送受信処理を示したフローチャート Flow chart showing the reception process by the home alarm of the present invention 本発明の住警器による監視処理を示したフローチャートThe flowchart which showed the monitoring process by the residence guard of this invention

図1は住宅に対する本発明の警報器として連動型住警器を用いた監視システムの設置状態例を示した説明図である。図1の例にあっては、住宅24に設けられている台所、居間、子供部屋、主寝室、階段室のそれぞれの警戒エリア(監視領域)に、火災を検知して連動警報する無線式の住警器(住宅用火災警報器)10−1〜10−6が設置されている。以下、住警器10−1〜10−6をそれぞれ区別せず総称する場合は住警器10という。   FIG. 1 is an explanatory view showing an example of an installation state of a monitoring system using an interlocked house alarm as an alarm device of the present invention for a house. In the example of FIG. 1, a wireless system that detects and interlocks with a fire in each of the warning areas (monitoring areas) of the kitchen, living room, children's room, master bedroom, and staircase provided in the house 24. House alarms (fire alarms for houses) 10-1 to 10-6 are installed. Hereinafter, the housing alarm devices 10-1 to 10-6 are collectively referred to as the housing alarm device 10 without being distinguished from each other.

住警器10は、連動信号を無線により相互に送受信する機能を備え、住宅各所の、それぞれ対応する監視領域について火災発生有無の監視を行っている。いま住宅24の台所で万一、火災が発生したとすると、住警器10−1が火災を検知して警報を開始する。この火災を検知して警報を開始することを、住警器における「発報」という。   The home alarm device 10 has a function of wirelessly transmitting and receiving interlocking signals to each other, and monitors whether or not a fire has occurred in each corresponding monitoring area of each house. If a fire has occurred in the kitchen of the house 24, the home alarm device 10-1 detects the fire and starts an alarm. Detecting this fire and initiating an alarm is referred to as “reporting” at the home alarm.

住警器10−1が発報するとき、住警器10−1は連動元として機能し、連動先となる他の住警器10−2〜10−6に対し、火災連動信号を無線送信する。他の住警器10−2〜10−6は、連動元の住警器10−1からの火災連動信号を有効受信した場合に、警報音と警報表示により連動先としての警報動作を行う。   When the home alarm device 10-1 issues a report, the home alarm device 10-1 functions as an interlocking source, and wirelessly transmits a fire interlocking signal to the other interlocking devices 10-2 to 10-6 serving as interlocking destinations. To do. When the other home alarm devices 10-2 to 10-6 have received the fire interlock signal from the home alarm device 10-1 as the interlock source, the other home alarm devices 10-2 to 10-6 perform the alarm operation as the interlock destination by the alarm sound and the alarm display.

ここで、住警器10は、受信した連動信号に含まれるグループ符号がメモリに登録しているグループ符号に一致し、且つ信号内容を正常認識したときに、この連動信号を有効受信したことを検知するようにしている。また住警器10から送信する連動信号には、送信元の住警器を示す識別情報として例えばシリアル番号等を利用した送信元符号が含まれている。さらに、連動信号を有効受信した住警器10は必要に応じて連動信号の中継送信を行う。   Here, when the group code included in the received interlocking signal matches the group code registered in the memory and the signal content is normally recognized, the resident alarm 10 confirms that the interlocking signal has been effectively received. I try to detect it. Further, the interlocking signal transmitted from the home alarm device 10 includes a source code using, for example, a serial number as identification information indicating the source home alarm device. Furthermore, the resident guard 10 that has effectively received the interlocking signal relays the interlocking signal as necessary.

連動元となった住警器10−1の警報動作としては、例えば「ウーウー 火災警報器が作動しました 確認してください」といった音声メッセージによる火災警報音を出力する。一方、連動先の住警器10−2〜10−6にあっては、警報動作として例えば「ウーウー 別の火災警報器が作動しました 確認してください」といった音声メッセージによる火災警報音を出力する。   As an alarm operation of the home alarm device 10-1 that is the interlock source, for example, a fire alarm sound is output by a voice message such as “Please confirm that the Woo Woo fire alarm has been activated”. On the other hand, in the interlocked home alarm devices 10-2 to 10-6, as an alarm operation, for example, a fire alarm sound is output by a voice message such as “Please confirm that another fire alarm device has been activated”. .

また連動元となった住警器10−1の火災警報に伴う警報表示としては、例えばLEDを点灯する。一方、連動先の住警器10−2〜10−6にあっては、LEDを点滅する。これによって、連動元警報と連動先警報におけるLEDによる警報表示を区別できるようにしている。   Moreover, as an alarm display accompanying the fire alarm of the residence police device 10-1 which became the interlocking source, for example, an LED is lit. On the other hand, in the interlocking residence police 10-2 to 10-6, the LED blinks. As a result, the alarm display by the LED in the interlock source alarm and the interlock destination alarm can be distinguished.

図2は本発明による無線連動型の煙式住警器の外観を示した説明図であり、図2(A)に正面図を、図2(B)に側面図を示している。なお、取付フック15を設けているほうを上側とする。   FIG. 2 is an explanatory view showing the appearance of a wireless interlocking smoke type house alarm according to the present invention. FIG. 2 (A) shows a front view and FIG. 2 (B) shows a side view. The side provided with the attachment hook 15 is the upper side.

図2において、本実施形態の住警器10の筐体はカバー12と本体14で構成されている。カバー12の中央には突出部を設け、突出部の周囲に複数の煙流入口を開口し、その内部には検煙部16が配置され、火災に伴う煙が流入口を介し検煙部16に流入して所定濃度に達したときに火災を検知するようにしている。検煙部16としては、散乱光式の煙検知器等の検煙機構が適用できる。   In FIG. 2, the housing of the residential alarm 10 according to the present embodiment includes a cover 12 and a main body 14. A protrusion is provided at the center of the cover 12, a plurality of smoke inlets are opened around the protrusion, and a smoke detector 16 is disposed in the inside thereof, so that smoke accompanying a fire passes through the inlet. The fire is detected when it reaches the specified concentration. As the smoke detector 16, a smoke detector mechanism such as a scattered light type smoke detector can be applied.

カバー12の左下側には音響孔18が設けられ、この背後にブザーやスピーカを内蔵し、警報音や音声メッセージを出力できるようにしている。カバー12の下側には警報停止スイッチ20が設けられている。   An acoustic hole 18 is provided on the lower left side of the cover 12, and a buzzer and a speaker are incorporated behind this so that an alarm sound and a voice message can be output. An alarm stop switch 20 is provided below the cover 12.

警報停止スイッチ20は、半透明部材で形成されたスイッチカバーを押圧操作すると、内蔵のプッシュスイッチ(図示せず)が押圧されるようになっている。スイッチカバー内部のプッシュスイッチ近傍には、警報等の表示を行うLED22が配置されている。   The alarm stop switch 20 is configured to press a built-in push switch (not shown) when a switch cover formed of a translucent member is pressed. An LED 22 for displaying an alarm or the like is disposed near the push switch inside the switch cover.

また本体14の裏側上部にはその略中央部に挿通孔を有する取付フック15が設けられており、設置する部屋の壁にビスなどをねじ込み、この取付フック15の挿通孔にビスを通して引っかけることで、壁面に住警器10を所謂壁掛け状に固定設置することができる。   Further, a mounting hook 15 having an insertion hole in the substantially central portion thereof is provided at the upper part on the back side of the main body 14, and a screw or the like is screwed into the wall of the room to be installed and hooked through the insertion hole of the mounting hook 15. The residential alarm 10 can be fixedly installed on the wall surface in a so-called wall-hanging manner.

図3は本発明による住警器10−1の要部構成を示したブロック図である。これは一例であり、各機能の分離、統合は任意に行うことができる。また各機能のそれぞれの一部または全部は、ソフトウェア(プログラム)によって実行されるものであっても、ハードウェアによって実行されるものであっても良い。また図3では、台所に設置した住警器10−1について示しているが、他の住警器10−2〜10−6についても同様の構成となる。   FIG. 3 is a block diagram showing the configuration of the main part of the residence guard 10-1 according to the present invention. This is an example, and the separation and integration of each function can be performed arbitrarily. Each part or all of each function may be executed by software (program) or may be executed by hardware. Moreover, in FIG. 3, although it has shown about the residence guard 10-1 installed in the kitchen, it becomes the same structure also about the other residence guards 10-2 to 10-6.

住警器10−1はワンチップCPUとして知られたプロセッサ28を備え、プロセッサ28に対してはアンテナ31を備えた無線通信部30、メモリ32、センサ部34、報知部36、操作部38及び電池電源40を設けている。   The home guard 10-1 includes a processor 28 known as a one-chip CPU. For the processor 28, a wireless communication unit 30 including an antenna 31, a memory 32, a sensor unit 34, a notification unit 36, an operation unit 38, and A battery power source 40 is provided.

無線通信部30には送信回路42と受信回路44が設けられ、他の住警器10−2〜10−6との間で連動信号を無線により送受信できるようにしている。無線通信部30としては、日本国内の場合には、例えば400MHz帯の特定小電力無線局の標準規格として知られたSTD−30(小電力セキュリティシステム無線局の無線設備標準規格)またはSTD−T67(特定小電力無線局テレメータ用、テレコントロール用及びデータ伝送用無線設備の標準規格)に準拠した構成を備える。   The wireless communication unit 30 is provided with a transmission circuit 42 and a reception circuit 44 so that an interlocking signal can be transmitted and received wirelessly between the other residential alarm devices 10-2 to 10-6. As the wireless communication unit 30, in Japan, for example, STD-30 (wireless equipment standard of a low power security system wireless station) or STD-T67 known as a standard of a specific low power wireless station of 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.

もちろん無線通信部30としては、日本国内以外で使用する場合は、その地域の割当無線局の標準規格に準拠した内容を持つことになる。   Of course, when the wireless communication unit 30 is used outside Japan, the wireless communication unit 30 has contents compliant with the standard of the assigned wireless station in that region.

ここで、アンテナ31、送信回路42及び送信制御部62を併せて送信部として機能し、アンテナ31、受信回路44及び受信制御部64を併せて受信部として機能する。   Here, the antenna 31, the transmission circuit 42, and the transmission control unit 62 function as a transmission unit, and the antenna 31, the reception circuit 44, and the reception control unit 64 function as a reception unit.

メモリ32には、連動信号の生成順或いは送信順番を示す連続番号である連番48、各住警器を特定する住警器識別情報となる例えばシリアル番号等を利用した送信元符号50、図1のように住宅24に設置した各住警器10で連動警報を行う連動グループを構成するためのグループ符号52が格納されている。

In the memory 32, a serial number 48, which is a serial number indicating the generation order or transmission order of the interlocking signal, a transmission source code 50 using, for example, a serial number or the like serving as residential alarm identification information for identifying each residential alarm, The group code | symbol 52 for comprising the interlocking | linkage group which performs an interlocking | linkage alarm with each residence alarm device 10 installed in the house 24 like 1 is stored.

センサ部34には、散乱光式の煙検知原理によって煙を観測(検出)して煙濃度に応じた検出信号を出力する検煙部16を設けている。   The sensor unit 34 is provided with a smoke detection unit 16 that observes (detects) smoke according to the scattered light type smoke detection principle and outputs a detection signal corresponding to the smoke density.

報知部36には警報音等を出力する音響出力器であるスピーカ56と警報表示等を行うLED22が設けられている。スピーカ56は、後述する警報処理部60の制御により図示しない駆動回路で駆動されて、住警器10−1がメモリ等に保持している各種のデータ等に基づいて音声メッセージや警報音等を出力する。LED22は点滅や明滅、点灯などにより、火災などの異状その他を表示する。   The notification unit 36 is provided with a speaker 56 that is an acoustic output device that outputs an alarm sound and the like, and an LED 22 that displays an alarm. The speaker 56 is driven by a drive circuit (not shown) under the control of an alarm processing unit 60 described later, and generates a voice message, an alarm sound, or the like based on various data stored in the memory etc. Output. The LED 22 displays an abnormality such as a fire by blinking, blinking, or lighting.

操作部38には警報停止スイッチ20が設けられ、警報停止スイッチ20は住警器10−1の機能の自己点検を指示する点検スイッチとしての機能を兼ねている。例えば、利用者等により火災警報出力中に警報停止スイッチ20が操作されると火災警報を停止し、通常状態で警報停止スイッチ20が操作されると所定の機能点検を実施して結果を報知する。ここで通常状態とは、少なくとも火災警報出力中または障害警報出力中でない状態を指す。   The operation unit 38 is provided with an alarm stop switch 20, and the alarm stop switch 20 also functions as an inspection switch for instructing self-inspection of the function of the home alarm device 10-1. For example, when the alarm stop switch 20 is operated while a fire alarm is being output by a user or the like, the fire alarm is stopped, and when the alarm stop switch 20 is operated in a normal state, a predetermined function check is performed and the result is notified. . Here, the normal state refers to a state where at least a fire alarm is being output or a failure alarm is not being output.

電池電源40は、例えば所定セル数のリチウム電池やアルカリ乾電池を使用しており、電池容量としては住警器10−1における無線通信部30を含む回路部全体の低消費電力化により、例えば10年の電池寿命を保証している。   The battery power source 40 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 30 in the residential alarm 10-1. The battery life of the year is guaranteed.

プロセッサ28にはプログラムの実行により実現される機能として、警報処理部60、送信制御部62、受信制御部64の機能が設けられる。   The processor 28 is provided with functions of an alarm processing unit 60, a transmission control unit 62, and a reception control unit 64 as functions realized by executing the program.

警報処理部60は、センサ部34に設けた検煙部16からの検出信号出力に基づく火災の有無、操作部38の操作による警報停止指示入力の有無や点検指示入力の有無、センサ部34に設けた検煙部16からの検出信号出力が低下して火災検知状態が解消される火災復旧の有無の他、必要に応じ各種の監視回路(図示省略)を介してセンサ障害やローバッテリー障害有無等の事象を検知する。また警報処理部60は他の住警器10−2〜10−6からの連動信号の解読結果として得られた連動信号有効受信の有無およびその連動内容を検知する。   The alarm processing unit 60 is provided with the presence or absence of a fire based on the detection signal output from the smoke detector 16 provided in the sensor unit 34, the presence or absence of an alarm stop instruction input by the operation of the operation unit 38, the presence or absence of an inspection instruction input, In addition to the presence or absence of a fire recovery that reduces the detection signal output from the smoke detector 16 provided to eliminate the fire detection state, the presence or absence of sensor failure or low battery failure via various monitoring circuits (not shown) as necessary Detect events such as. Further, the alarm processing unit 60 detects the presence / absence of the interlocking signal effective reception obtained as a result of decoding the interlocking signals from the other residential alarm devices 10-2 to 10-6 and the interlocking contents.

また警報処理部60は、センサ部34に設けた検煙部16の煙検出信号に基づき火災を検知した場合に、報知部36に対しスピーカ56から連動元を示す警報音例えば「ウーウー 火事です 火事です 確認して下さい」の音声メッセージを繰り返し出力させる制御を行うと共に、LED22を点灯させて連動元を示す警報表示を行わせる制御を行い、更に、送信制御部62および送信回路42を介して火災連動信号をアンテナ31から他の住警器10−2〜10−6に向けて送信させる。

In addition, when the alarm processing unit 60 detects a fire based on the smoke detection signal of the smoke detecting unit 16 provided in the sensor unit 34, the alarm processing unit 60 issues an alarm sound indicating the interlock source from the speaker 56 to the notification unit 36, for example, “Woo Woo Fire. “Please confirm” voice message is repeatedly output, control is performed to turn on the LED 22 and display an alarm indicating the interlocking source, and further fires via the transmission control unit 62 and the transmission circuit 42 The interlocking signal is transmitted from the antenna 31 to the other residential alarm devices 10-2 to 10-6.

また警報処理部60は、無線通信部30の受信回路44及び受信制御部64を介して他の住警器10−2〜10−6の何れかから火災連動信号を有効受信したことを検知した場合に、報知部36のスピーカ56から連動先を示す警報音例えば「ウーウー 別の火災警報器が作動しました 確認してください」となる音声メッセージを繰り返し出力させると共にLED22を例えば点滅させて連動先を示す警報表示を行わせる。   In addition, the alarm processing unit 60 has detected that the fire-linked signal has been effectively received from any of the other residential alarm devices 10-2 to 10-6 via the reception circuit 44 and the reception control unit 64 of the wireless communication unit 30. In this case, an alarm sound indicating the interlocking destination, for example, “Wow, please confirm that another fire alarm has been activated” is repeatedly output from the speaker 56 of the notification unit 36 and the LED 22 is blinked, for example. An alarm display showing is displayed.

また警報処理部60は、連動元を示す火災警報音の出力中に警報停止スイッチ20の操作を検知した場合、報知部36を制御してスピーカ56からの音声メッセージとLED22の警報表示による火災警報の出力を停止させる。なお、連動元を示す火災警報音の出力中に他の住警器10−2〜10−6の何れかからの警報停止連動信号の有効受信を検知した場合、火災警報は停止せずに連動元が分かるようにする。   When the alarm processing unit 60 detects the operation of the alarm stop switch 20 during the output of the fire alarm sound indicating the interlocking source, the alarm processing unit 60 controls the notification unit 36 to fire the alarm by the voice message from the speaker 56 and the alarm display of the LED 22. The output of is stopped. In addition, when the effective reception of the alarm stop interlocking signal from any of the other residential alarm devices 10-2 to 10-6 is detected during the output of the fire alarm sound indicating the interlock source, the fire alarm is not stopped and interlocked Try to understand the origin.

また警報処理部60は、連動先を示す警報音の出力中に警報停止スイッチ20の操作又は他の住警器10−2〜10−6の何れかからの警報停止連動信号の有効受信を検知した場合、報知部36を制御してスピーカ56からの音声メッセージとLED22の警報表示による火災警報の出力を停止させる。   Further, the alarm processing unit 60 detects the operation of the alarm stop switch 20 or the effective reception of the alarm stop interlocking signal from any of the other residential alarm devices 10-2 to 10-6 during the output of the alarm sound indicating the interlock destination. When it does, the alerting | reporting part 36 is controlled and the output of the fire alarm by the voice message from the speaker 56 and the alarm display of LED22 is stopped.

また警報処理部60には、電池電源40の電源電圧が所定レベル未満となるローバッテリー障害の監視機能が設けられ、ビルトインテストとしてバックグラウンドで定期的に自動実行されている。   In addition, the alarm processing unit 60 is provided with a low battery failure monitoring function in which the power supply voltage of the battery power supply 40 is less than a predetermined level, and is automatically executed regularly in the background as a built-in test.

ローバッテリー障害監視は、具体的には、所定の測定時間間隔、例えば図示しない電圧監視回路を介して4時間間隔で電池電源40から供給される電池電圧を読み込んで所定の閾値電圧と比較するビルトインテストを実施し、この閾値電圧未満の時にローバッテリー障害を予備判定して結果をカウント記憶し、更にローバッテリー障害の予備判定が連続して所定回数続いたときにローバッテリー障害と判定(確定)して検知し、ローバッテリー障害フラグをセットしてメモリ32に更新記憶する。   Specifically, the low battery fault monitoring is a built-in that reads a battery voltage supplied from the battery power supply 40 at a predetermined measurement time interval, for example, a 4-hour interval via a voltage monitoring circuit (not shown), and compares it with a predetermined threshold voltage. A test is performed, and when the battery voltage is lower than the threshold voltage, the low battery failure is preliminarily determined, and the result is counted and stored. Further, when the low battery failure preliminary determination continues continuously for a predetermined number of times, the low battery failure is determined (confirmed). The low battery failure flag is set and updated and stored in the memory 32.

また警報処理部60には、センサ部34の障害を監視するセンサ障害監視機能が設けられ、同じくビルトインテストとしてバックグラウンドで自動実行されている。センサ障害監視は、具体的には、所定の測定時間間隔、例えば1秒間隔でセンサ部34の検煙部16から出力される煙検出信号を読み込んでメモリ32に保持し、所定の時間間隔、例えば10分毎に、メモリ32に保持している直近10分間ぶんの検出データの平均値を求め、この平均値が所定の基準レベル(零点レベルという)を下回った場合に、出力停止状態である等としてセンサ部34の障害と判定して検知し、センサ障害フラグをセットしてメモリ32に更新記憶する。   The alarm processing unit 60 is provided with a sensor failure monitoring function for monitoring a failure of the sensor unit 34, and is automatically executed in the background as a built-in test. Specifically, the sensor failure monitoring reads a smoke detection signal output from the smoke detector 16 of the sensor unit 34 at a predetermined measurement time interval, for example, 1 second, and holds it in the memory 32. For example, every 10 minutes, the average value of the detected data for the last 10 minutes held in the memory 32 is obtained, and when this average value falls below a predetermined reference level (referred to as the zero point level), the output is stopped. For example, it is determined that the sensor unit 34 has failed, and a sensor failure flag is set and stored in the memory 32.

また警報処理部60は、通常状態で点検スイッチとして機能する警報停止スイッチ20の操作による点検指示操作(点検指示入力)を検知した場合、メモリ32にローバッテリー障害フラグ又はセンサ障害フラグがセット記憶されていることを判別検知した場合には、報知部36からローバッテリー障害警報又はセンサ障害警報を出力させ、更に、ローバッテリー障害連動信号又はセンサ障害連動信号を他の住警器10−2〜10−6に送信して障害連動先を示すローバッテリー障害警報又はセンサ障害警報を出力させる。   When the alarm processing unit 60 detects an inspection instruction operation (inspection instruction input) by operating the alarm stop switch 20 that functions as an inspection switch in a normal state, the low battery failure flag or the sensor failure flag is set and stored in the memory 32. When it is determined and detected that the low battery failure alarm or the sensor failure alarm is output from the notification unit 36, the low battery failure interlocking signal or the sensor failure interlocking signal is output to the other residential alarm devices 10-2 to 10-10. Transmit to -6 to output a low battery fault alarm or sensor fault alarm indicating the fault linkage destination.

送信制御部62は、警報処理部60により検煙部16からの煙検出信号に基づく火災検知、操作部38による警報停止入力や点検指示入力、検煙部16からの煙検出信号出力が低下して火災検知状態が解消される火災復旧等、ローバッテリー障害やセンサ障害等の自己の事象が検知された場合に、検知した事象内容を示す連動信号を、無線通信部30の送信回路42、アンテナ31を介して連動先の住警器に送信する。また送信制御部62は他の住警器から有効受信した連動信号を、必要に応じて中継送信する。   In the transmission controller 62, the alarm processor 60 detects fire based on the smoke detection signal from the smoke detector 16, the alarm stop input or inspection instruction input by the operation unit 38, and the smoke detection signal output from the smoke detector 16 decreases. When a self-event such as a low battery failure or a sensor failure is detected, such as a fire recovery that eliminates the fire detection state, a synchronization signal indicating the detected event content is transmitted to the transmission circuit 42 of the wireless communication unit 30, the antenna It is transmitted to the house keeper at the link destination via 31. Further, the transmission control unit 62 relays and transmits the interlocking signal that is effectively received from the other home guards as necessary.

また送信制御部62は、警報処理部60において電源電圧が所定レベル以上(ローバッテリー障害未検知)となっている状態で自己において火災以外の事象が検知された場合、火災以外の事象を示す連動信号を、所定の第1送信モードを設定して他の住警器に送信する。   In addition, the transmission control unit 62, when the alarm processing unit 60 detects an event other than a fire in the state where the power supply voltage is equal to or higher than a predetermined level (low battery failure is not detected), The signal is transmitted to another residential alarm device by setting a predetermined first transmission mode.

この第1送信モードは、図4(A)に示すように、時刻t1で、自己において火災以外の事象が検知された場合に、図4(B)に示す通り、所定時間T1、例えばT1=3秒に亘り連動信号を送信する送信動作70を、所定時間T2、例えばT2=2秒の休止時間を空けて例えば4回繰り返している。このT1=3秒送信、T=2秒休止は特定小電力無線局の標準規格に準拠したものである。   In the first transmission mode, as shown in FIG. 4A, when an event other than a fire is detected at time t1, as shown in FIG. 4B, a predetermined time T1, for example, T1 = The transmission operation 70 for transmitting the interlocking signal over 3 seconds is repeated, for example, four times with a predetermined time T2, for example, a pause time of T2 = 2 seconds. This T1 = 3-second transmission and T = 2-second pause comply with the standard of a specific low-power radio station.

またT1=3秒の送信動作70は、その内の最初から例えば2.8秒はダミー信号送信動作72であり、残り0.2秒の時間に連動信号の反復送信動作74を行うようにしている。ダミー信号は他の住警器において間欠受信のキャリアセンスで検知されて当該他の住警器の受信動作を開始させ、これに続く連動信号の受信を可能とする。   The transmission operation 70 for T1 = 3 seconds is a dummy signal transmission operation 72 for 2.8 seconds from the beginning of the transmission operation 70, and the interlocking signal repeated transmission operation 74 is performed for the remaining 0.2 seconds. Yes. The dummy signal is detected by the intermittent sense carrier sense in the other home alarm device, and the reception operation of the other home alarm device is started, and the subsequent interlocking signal can be received.

受信制御部64は、他の住警器10−2〜10−6からの連動信号を、アンテナ31、無線通信部30の受信回路44を介して受信し解読する。ここで、受信制御部64は、警報処理部60において電源電圧が所定レベル以上(ローバッテリー障害未検知)となっている状態では間欠受信により他の住警器からの連動信号を受信しており、この状態で自己において火災以外の事象が検知された場合は、所定の第1受信モードを設定して他の住警器からの連動信号を受信する。   The reception control unit 64 receives and decodes the interlocking signals from the other mortgages 10-2 to 10-6 via the antenna 31 and the reception circuit 44 of the wireless communication unit 30. Here, the reception control unit 64 receives an interlocking signal from another residential alarm device by intermittent reception when the power supply voltage is equal to or higher than a predetermined level (low battery failure is not detected) in the alarm processing unit 60. In this state, when an event other than a fire is detected by itself, a predetermined first reception mode is set and an interlocking signal is received from another house alarm device.

間欠受信は図4(C)の時刻t1の事象検知前に示すように、周期T3毎に受信可能時間T4のあいだ受信動作を繰り返しており、例えば周期T3=7秒、受信可能時間T4=100ミリ秒としている。受信可能時間T4の間にキャリアセンスにより他の住警器からの送信ダミー信号を検知すると所定時間のあいだ常時受信に切替えてダミー信号に続く連動信号を受信する。   As shown in FIG. 4C, before the event detection at the time t1, the intermittent reception repeats the reception operation during the receivable time T4 every period T3. For example, the period T3 = 7 seconds and the receivable time T4 = 100. Milliseconds. When a transmission dummy signal from another house alarm is detected by carrier sense during the receivable time T4, the reception signal is switched to the constant reception for a predetermined time and the interlocking signal following the dummy signal is received.

第1受信モードは、図4(A)の時刻t1で自己により火災以外の事象が検知された場合、図4(C)に示すように、それまでの周期T3の間欠受信を常時受信動作80に切替え、他の住警器からの連動信号(例えば後述するACK信号)を迅速に受信できるようにする。火災以外の事象発生中(検知状態継続中)は常時受信動作80を継続し、事象検知状態が解除された場合には、常時受信動作80を停止して事象検知前の間欠受信動作に戻す。   In the first reception mode, when an event other than a fire is detected by itself at time t1 in FIG. 4 (A), as shown in FIG. 4 (C), intermittent reception of the previous period T3 is always received. So that an interlocking signal (for example, an ACK signal to be described later) from another house alarm can be quickly received. During the occurrence of an event other than a fire (while the detection state is continuing), the continuous reception operation 80 is continued. When the event detection state is canceled, the continuous reception operation 80 is stopped and the intermittent reception operation before the event detection is restored.

ここで、送受信の無線チャンネル周波数を同じとしているため、常時受信動作80中、並行して行っている送信動作70の送信時間T1については、他の住警器からの連動信号は受信できず、送信休止時間T2に対応した部分及び送信終了後の部分を有効受信動作82としている。   Here, because the transmission and reception radio channel frequencies are the same, during the continuous reception operation 80, the transmission time T1 of the transmission operation 70 performed in parallel cannot receive the interlocking signal from other resident alarms, The portion corresponding to the transmission pause time T2 and the portion after the end of transmission are used as an effective reception operation 82.

また受信制御部64は、自己が連動信号を送信した場合、他の住警器10−2〜10−6から当該連動信号を正常に受信したことを示す確認応答信号(以下「ACK信号」と云う)が有効受信されるか否か監視している。   In addition, when the self-transmitting signal is transmitted, the reception control unit 64 receives an acknowledgment signal (hereinafter referred to as an “ACK signal”) indicating that the interlocking signal has been normally received from the other residential alarm devices 10-2 to 10-6. It is monitored whether or not it is effectively received.

他の住警器の中にACK信号が受信されない(ACK信号の返信を確認できない)ものを検知した場合、ACK信号の受信が確認された(ACK信号の返信が確認された)他の住警器に対し送信制御部62により中継要求有りを示す符号を付加した連動信号(中継要求有りの連動信号と云う)を送信し、中継要求有りの連動信号を受信したACK応答確認済みの住警器からAKC信号未応答の住警器へこれを中継送信させる。ここで中継された連動信号を受信したAKC信号未応答の住警器はこの受信に基づいて警報処理等を行うと共にこの受信に対するACK信号を返信し、更にこの返信について他の住警器の中継送信を経て連動元の住警器10−1で受信される。   When other resident alarms that do not receive an ACK signal (cannot confirm ACK signal reply) are detected, other resident police confirmed that ACK signal has been received (reply ACK signal confirmed) The transmission control unit 62 transmits an interlocking signal (referred to as an interlocking signal with relay request) to the transmitter, and receives the interlocking signal with relay request, and has confirmed the ACK response. This is relay-transmitted to the home alarm device that has not yet responded to the AKC signal. The AK that has not received an AKC signal that has received the interlocking signal relayed here performs an alarm process or the like based on this reception, and returns an ACK signal in response to this reception. The transmission is received by the interlocking home security device 10-1.

また送信制御部62及び受信制御部64は、ローバッテリー障害が未検知となる電池電圧の正常状態で火災が検知された場合、消費電力を増加させた所定の第2送信モードを設定して火災連動信号の送信能力を高めると共に消費電力を低減した所定の第2受信モードを設定して他の住警器10−2〜10−6からの連動信号を受信する。   In addition, the transmission control unit 62 and the reception control unit 64 set a predetermined second transmission mode with increased power consumption when a fire is detected in a normal state of a battery voltage at which a low battery failure is not detected. A predetermined second reception mode in which the transmission capability of the interlocking signal is increased and the power consumption is reduced is set to receive the interlocking signal from the other mortgages 10-2 to 10-6.

図5は電池電圧が正常な状態で火災が検知された場合の送受信動作を示したタイムチャートである。図5(A)に示すように、時刻t1で火災が検知されたとすると、送信制御部62により、図5(B)に示すように、第2送信モードを設定して火災連動信号の送信動作を行う。   FIG. 5 is a time chart showing a transmission / reception operation when a fire is detected with a normal battery voltage. As shown in FIG. 5 (A), if a fire is detected at time t1, the transmission control unit 62 sets the second transmission mode and transmits the fire-linked signal as shown in FIG. 5 (B). I do.

第2送信モードは、図4(B)の第1送信モードと同様、T1=3秒に亘り連動信号を送信する送信動作70を、T2=2秒の休止時間を空けて例えば6回繰り返す。このように第2送信モードは第1送信モードに対し送信回数が2回増加することで消費電力が増加することになるが、他の住警器10−2〜10−6に対する送信能力が向上し、火災連動を迅速且つ確実に行うことができる。   In the second transmission mode, as in the first transmission mode of FIG. 4B, the transmission operation 70 for transmitting the interlocking signal for T1 = 3 seconds is repeated, for example, six times with a pause time of T2 = 2 seconds. As described above, the second transmission mode increases the power consumption by increasing the number of times of transmission twice as compared with the first transmission mode, but the transmission capability for the other residential alarm devices 10-2 to 10-6 is improved. In addition, the fire interlock can be performed quickly and reliably.

第2送信モードとしては、これ以外に送信電力(電波強度)を増加させても良く、これにより同様に消費電力が増加することになるが、他の住警器10−2〜10−6に対する送信機能が向上し、火災連動を迅速且つ確実に行うことができる。   As the second transmission mode, the transmission power (radio wave intensity) may be increased in addition to this, and the power consumption will increase in the same manner, but the other transmission devices 10-2 to 10-6 The transmission function is improved, and the fire interlock can be performed quickly and reliably.

一方、受信制御部64により設定される第2受信モードは、図5(C)(D)に示すいずれかの低消費電力モードとする。   On the other hand, the second reception mode set by the reception control unit 64 is any one of the low power consumption modes shown in FIGS.

図5(C)の第2受信モードは、時刻t1で火災を検知した場合の図5(B)の送信動作70に対応し、それまでの間欠受信を常時受信動作80に切替えており、常時受信動作80は送信動作70による送信繰り返し中に亘り継続し、一連の繰り返し送信を終了すると事象検知前の間欠受信に戻す。なお、常時受信動作80は繰り返し送信の終了から適宜の遅延時間を経過してから(所定時間の経過後に)終了するようにしても良い。   The second reception mode in FIG. 5C corresponds to the transmission operation 70 in FIG. 5B when a fire is detected at time t1, and the intermittent reception until then is switched to the constant reception operation 80. The reception operation 80 continues during the transmission repetition by the transmission operation 70. When a series of repeated transmissions is completed, the reception operation 80 is returned to the intermittent reception before the event detection. Note that the constant reception operation 80 may be terminated after an appropriate delay time has elapsed from the end of repeated transmission (after a predetermined time has elapsed).

ここで常時受信動作80は、図4(C)と同様、送受信の無線チャンネル周波数が同一なため、並行して行っている送信動作70の送信時間T1については他の住警器からの連動信号は受信できず、送信休止時間T2に対応した部分を有効受信動作82としている。   Here, as in the case of FIG. 4C, the constant reception operation 80 has the same transmission / reception radio channel frequency, and therefore the transmission time T1 of the transmission operation 70 performed in parallel is an interlocking signal from another resident alarm. Cannot be received, and the portion corresponding to the transmission suspension time T2 is set as the effective reception operation 82.

また、図4(C)の第1受信モードに対し図5(C)の第2受信モードは、一連の繰り返し送信が終了した時点で、或いはその後所定時間が経過した時点で常時受信動作80を事象検知前の間欠受信に戻しているため常時受信動作80の時間が短くなっており、受信機能は低下するものの、その分、消費電力を低減でき、第2送信モードの設定で増加する消費電力を相殺するか又は抑制することができる。

4C is different from the first reception mode in FIG. 4C in that the continuous reception operation 80 is performed when a series of repeated transmissions are completed, or when a predetermined time has passed thereafter. The time of the continuous reception operation 80 is shortened because it is returned to the intermittent reception before the event detection, and although the reception function is lowered, the power consumption can be reduced correspondingly, and the power consumption increased by the setting of the second transmission mode. Can be offset or suppressed.

図5(D)の第2受信モードは概ね図5(C)と同様であるが、図5(A)の送信モードに対応した常時受信動作80を終了した後に、t1以前よりも消費電力を低下した間欠受信に切替える。具体的には、時刻t1までの間欠受信の周期T3を、それより短い周期T5の間欠受信とし、更に、受信周期T5毎の受信可能時間T6を時刻t1までの間欠受信の受信可能時間T4より短くしており、図5(C)に比べ更に消費電力を低減できる。なお、間欠受信の周期を長くすることと受信可能時間を短くすることは、両方とする以外にいずれか一方としても良い。   The second reception mode in FIG. 5D is substantially the same as that in FIG. 5C, but after the constant reception operation 80 corresponding to the transmission mode in FIG. Switch to lowered intermittent reception. Specifically, the intermittent reception cycle T3 up to time t1 is set to intermittent reception with a shorter cycle T5, and further, the receivable time T6 for each reception cycle T5 is from the receivable time T4 of intermittent reception up to time t1. The power consumption is shortened and the power consumption can be further reduced as compared with FIG. It should be noted that increasing the period of intermittent reception and shortening the receivable time may be either one in addition to both.

このように消費電力を小さくするために第2受信モードを設定した場合、受信機能も低下することになるが、他の住警器10−2〜10−6からの連動信号については、必要に応じて更に他の住警器から中継送信されることで送信数が所定以上確保されるため、第2受信モードの設定により常時受信帯を短くしたり、間欠受信の受信周期を長くしたり、或いは受信可能時間を短くして受信機能を低下させても実質的には問題にならない。   When the second reception mode is set in order to reduce the power consumption in this way, the reception function is also deteriorated, but the interlocking signals from the other mortgages 10-2 to 10-6 are necessary. In response, since the number of transmissions is ensured by more than a predetermined by relay transmission from other resident police, shorten the reception band constantly by setting the second reception mode, increase the reception cycle of intermittent reception, Alternatively, even if the receivable time is shortened to lower the reception function, there is practically no problem.

また住警器10−1自身が連動元として火災などの異状警報の出力中は、他の警報器10−2〜10−6からの連動信号を処理する必要性が低いため、受信機能を低下させても実質的には問題にならない。   In addition, while the home alarm device 10-1 itself is outputting a malfunction alarm such as a fire as the link source, it is less necessary to process the link signals from the other alarm devices 10-2 to 10-6, so the reception function is lowered. It doesn't really matter if you let it.

なお、上記以外に、第2受信モードとして、図示の常時受信動作80に対応する受信動作も適宜の間欠動作としたり、送信動作70の繰り返し期間中や火災検知状態継続中、或いはそれらに適宜の遅延時間を加えた期間中に亘り受信動作を停止するようにしても良い。 In addition to the above, as the second reception mode, the reception operation corresponding to the illustrated constant reception operation 80 is also an appropriate intermittent operation, the transmission operation 70 is repeated, the fire detection state is continuing, or the appropriate The reception operation may be stopped during the period in which the delay time is added.

また、火災を検知して第2送信モードと第2受信モードによる送受信を行った後に、火災以外の事象として火災復旧や警報停止を検知した場合は、第1送信モードにより火災復旧連動信号や警報停止連動信号を送信すると共に第1受信モードによる常時受信動作に切替え、火災復旧連動信号や警報停止連動信号に対する他の住警器からのACK信号等を受信し、ACK信号受信が確認された場合に、また更に必要に応じACK信号確認後更に適宜の遅延時間を経た場合に、火災検知前の間欠受信に戻すようにする。   In addition, after a fire is detected and transmission / reception is performed in the second transmission mode and the second reception mode, if a fire recovery or alarm stop is detected as an event other than a fire, a fire recovery interlocking signal or alarm is detected in the first transmission mode. When the stop interlock signal is transmitted and the operation is switched to the continuous reception operation in the first reception mode, and the ACK signal is received from the other resident alarm for the fire recovery interlock signal and the alarm stop interlock signal, and the ACK signal reception is confirmed. In addition, if an appropriate delay time has passed after confirmation of the ACK signal, if necessary, the intermittent reception before the fire detection is restored.

即ち、火災が復旧した場合には、すぐに火災検知前の間欠受信には戻らず、その間に第1送信モードと第1受信モードによる火災復旧連動信号や警報停止連動信号の送信とACK信号の受信を行った後に、火災検知前の間欠受信に戻ることになる。つまり、例えば火災復旧等の事象検知状態解除は火災以外の事象である。   In other words, when the fire recovers, it does not immediately return to intermittent reception before the fire detection, but during that time, the transmission of the fire recovery interlock signal and alarm stop interlock signal in the first transmission mode and the first reception mode and the ACK signal After receiving, it returns to intermittent reception before fire detection. That is, for example, event detection state cancellation such as fire restoration is an event other than a fire.

また、電池電圧が低下したローバッテリー障害状態で火災又は火災以外の事象を検知した場合については、図4と同じ第1送受信モードとしても良いし、更なる低消費電力の送受信モードとしても良い。このようにローバッテリー障害状態での第1送受信モードを電池電圧正常状態での第1送受信モードよりも低消費とする場合にも、この状態において、第2送信モードは第1送信モードよりも消費電力が大きいが送信能力を高めた動作とし、また第2受信モードは第1受信モードよりも消費電力を小さくした動作とする。   Further, when a fire or an event other than a fire is detected in a low battery failure state in which the battery voltage is reduced, the first transmission / reception mode may be the same as in FIG. 4, or a transmission / reception mode with further low power consumption may be used. As described above, even when the first transmission / reception mode in the low battery failure state is lower than the first transmission / reception mode in the normal battery voltage state, the second transmission mode is consumed more than the first transmission mode in this state. It is assumed that the power is large but the transmission capability is increased, and that the second reception mode is an operation with lower power consumption than the first reception mode.

図6は本実施形態で連動警報に使用する連動信号のフォーマットを概略的に示した説明図である。図6において、連動信号46は連番48、送信元符号50、グループ符号52及び事象符号54で構成されている。なお、中継送信する連動信号に対しては、連動元の送信元符号と、中継送信元としての自己の送信元符号の両方を付加する。また必要に応じ、これとは別に中継要求有りを示す符号を付加するようにする。   FIG. 6 is an explanatory diagram schematically showing the format of the interlocking signal used for the interlocking alarm in this embodiment. In FIG. 6, the interlock signal 46 includes a serial number 48, a transmission source code 50, a group code 52, and an event code 54. It should be noted that both the link source transmission source code and its own transmission source code as the relay transmission source are added to the link transmission signal for relay transmission. If necessary, a code indicating that there is a relay request is added separately.

ここで、事象符号54は、火災などの事象内容を表す符号であり、本実施形態にあっては4ビット符号を使用しており、例えば
0001=火災
0010=ACK
0011=警報停止
0100=復旧
0101=センサ障害
0110=ローバッテリー障害
としている。
Here, the event code 54 is a code representing the content of an event such as a fire, and in the present embodiment, a 4-bit code is used. For example, 0001 = fire 0010 = ACK
0011 = Alarm stop 0100 = Recovery 0101 = Sensor failure 0110 = Low battery failure.

図7は本発明の住警器10における送受信処理の概略例を示したフローチャートである。これは電池電圧正常状態におけるフローチャートであるが、前述の通り、ローバッテリー障害状態においても同様とすることができる。図7において、送受信処理はステップS1で初期モードとして周期T3、受信可能時間T4とした間欠受信モードを設定し、続いてステップS2で火災検知の有無を判別し、火災を検知していない場合はステップS3に進んで火災以外の事象検知の有無を判別している。   FIG. 7 is a flowchart showing a schematic example of the transmission / reception processing in the residence guard 10 of the present invention. This is a flowchart in a normal battery voltage state, but as described above, the same applies to a low battery fault state. In FIG. 7, the transmission / reception process sets an intermittent reception mode with a period T3 and a receivable time T4 as an initial mode in step S1, and then determines whether or not a fire is detected in step S2 and does not detect a fire. In step S3, it is determined whether or not an event other than a fire has been detected.

ステップS3で火災以外の事象検知があった場合はステップS4に進み、図4(B)に示した送信動作70を4回繰り返す第1送信モードを設定し、同時に、図4(B)に示した第1受信モードを設定し、ステップS3で判別した事象検知状態が、復旧等によって終了(解除)したことを検知するまで第1受信モードを継続し、事象の終了を検知するとステップS1に戻って再び事象検知前の間欠受信モードを設定する。   If an event other than a fire is detected in step S3, the process proceeds to step S4 to set a first transmission mode in which the transmission operation 70 shown in FIG. 4 (B) is repeated four times, and at the same time, shown in FIG. 4 (B). The first reception mode is set, and the first reception mode is continued until it is detected that the event detection state determined in step S3 has ended (released) due to recovery or the like. When the end of the event is detected, the process returns to step S1. Set the intermittent reception mode before detecting the event again.

一方、ステップS2で火災検知を判別した場合はステップS6に進み、例えば図5(B)に示した第2送信モードを設定して送信能力を高めすると共に、例えば図5(C)又は(D)に示した第2受信モードを設定し、第2送信モードの設定で消費電力が大きくなった影響を小さくする。   On the other hand, if fire detection is determined in step S2, the process proceeds to step S6, where the second transmission mode shown in FIG. 5B, for example, is set to increase the transmission capability, and for example, FIG. ) Is set to reduce the influence of increased power consumption due to the setting of the second transmission mode.

続いてステップS7で火災復旧検知等による火災検知状態解消の有無を判別しており、火災復旧を検知するとステップS1に戻って再び事象検知前の間欠受信モードを設定する。ステップS7からステップS1に戻る際は、必要に応じ所定の遅延時間経過を条件としても良い。もちろん、ステップS5からステップS1に戻る際にも、同様に適宜の遅延時間経過条件判定ステップを挿入しても良い。   Subsequently, in step S7, it is determined whether or not the fire detection state has been canceled by fire recovery detection or the like. When fire recovery is detected, the process returns to step S1 and the intermittent reception mode before event detection is set again. When returning from step S7 to step S1, a predetermined delay time may be elapsed as necessary. Of course, when returning from step S5 to step S1, an appropriate delay time elapsed condition determining step may be inserted in the same manner.

図8は本発明による住警器の監視処理の概略例を示したフローチャートである。図8において、住警器10の電池電源40による電源供給が開始されると、ステップS11で初期化、自己診断、送受信モードの設定を含む各種設定の読み込み等を実行し、異常がなければステップS12に進み、火災の有無を検知している。ステップS11で初期化異常があった場合には報知部36からその旨を報知したうえで動作を途中停止するか、或いは再度ステップS11の処理を行うようにしているが、図示を省略している。   FIG. 8 is a flowchart showing a schematic example of the monitoring process of the house alarm according to the present invention. In FIG. 8, when the power supply by the battery power source 40 of the mortgage alarm device 10 is started, various settings including initialization, self-diagnosis, and transmission / reception mode setting are executed in step S11. Proceeding to S12, the presence or absence of a fire is detected. If there is an initialization abnormality in step S11, the notification unit 36 notifies that fact, and the operation is stopped halfway, or the processing of step S11 is performed again, but the illustration is omitted. .

ステップS12において、センサ部34に設けた検煙部16から出力された煙検出信号が所定の火災レベルを超えると火災が検知されてステップS13に進み、火災連動信号を他の住警器に無線送信すると共に、報知部36のスピーカ56から音声メッセージ等による警報音とLED22の例えば点灯による警報表示とにより連動元を示す火災警報を出力する。   In step S12, when the smoke detection signal output from the smoke detector unit 16 provided in the sensor unit 34 exceeds a predetermined fire level, a fire is detected and the process proceeds to step S13, and the fire-linked signal is wirelessly transmitted to other residential alarms. In addition to the transmission, a fire alarm indicating an interlocking source is output from the speaker 56 of the notification unit 36 by an alarm sound by a voice message or the like and an alarm display by, for example, lighting the LED 22.

なお、ステップS13で火災が検知された場合、高消費電力モードとなる第2送信モードの設定により火災連動信号を送信すると共に間欠受信から第2受信モードによる低消費電力受信モードに切替えて他の住警器からACK信号等の連動信号を受信する。   If a fire is detected in step S13, a fire-linked signal is transmitted by setting the second transmission mode to be the high power consumption mode, and the intermittent reception is switched to the low power consumption reception mode by the second reception mode. Receive an interlock signal such as an ACK signal from the home alarm.

続いて、ステップS14で検煙部16からの煙検知信号が低下して火災検知状態が解消する火災復旧検知の有無を判別しており、火災復旧検知を判別するとステップS15で火災復旧連動信号を他の住警器に送信すると共に、スピーカ56からの警報音とLED22の点灯による連動元を示す火災警報を停止する。
なお、LED22による警報表示は警報音の停止から所定時間経過後に消灯しても良い。また、ステップS14で火災復旧を検知した場合、それまで継続していた第2受信モードを終了する。
Subsequently, in step S14, it is determined whether or not there is a fire recovery detection in which the smoke detection signal from the smoke detector 16 is lowered and the fire detection state is resolved. If fire recovery detection is determined, a fire recovery interlock signal is output in step S15. While transmitting to another house alarm, the fire alarm which shows the interlocking origin by the alarm sound from the speaker 56 and lighting of LED22 is stopped.
The alarm display by the LED 22 may be turned off after a predetermined time has elapsed since the alarm sound stopped. If fire recovery is detected in step S14, the second reception mode that has been continued is terminated.

続いてステップS16で警報停止スイッチ20の警報停止指示操作検知の有無を判別し、スイッチ操作検知が判別されるとステップS17に進んで警報停止連動信号を他の住警器に送信し、スピーカ56からの連動元を示す警報音出力を停止し、LED22の点灯による警報表示を消灯する。なお、LED22による警報表示は警報音の停止からは所定時間経過後に消灯しても良い。   Subsequently, in step S16, it is determined whether or not an alarm stop instruction operation of the alarm stop switch 20 has been detected. If switch operation detection is determined, the process proceeds to step S17, where an alarm stop interlocking signal is transmitted to another house alarm, and the speaker 56 The alarm sound output indicating the link source from is stopped, and the alarm display by turning on the LED 22 is turned off. The alarm display by the LED 22 may be turned off after a predetermined time has elapsed since the alarm sound stopped.

ステップS25、S27における復旧連動信号送信、警報停止連動信号を送信した場合の受信モードは、火災継続中に火災復旧又は警報停止を検知した時点で第2受信モードを終了して第1受信モードとするが、受信モードを第2受信モードから第1受信モードに切り替えた場合にACK信号等を受信し、ACK信号受信が確認された場合に、また更に必要に応じACK信号確認後更に適宜の遅延時間を経た場合に、火災検知前の間欠受信に戻すようにする。   The reception mode in the case of transmitting the recovery interlock signal and the alarm stop interlock signal in steps S25 and S27 ends the second reception mode when the fire recovery or alarm stop is detected during the fire continuation, and the first reception mode. However, when the reception mode is switched from the second reception mode to the first reception mode, an ACK signal or the like is received, and when reception of the ACK signal is confirmed, and if necessary, an additional delay after confirming the ACK signal. When time passes, return to intermittent reception before fire detection.

続いてステップS18に進み、他の住警器から送信または中継送信された火災連動信号有効受信検知の有無を判別している。他の住警器からの火災連動信号の有効受信検知を判別すると、ステップS19に進んで連動先を示す火災警報として自己のスピーカ56から警報音を出力し、例えばLED22の点滅による警報表示を行う。   Then, it progresses to step S18 and it is discriminate | determined the presence or absence of the fire interlocking | linkage signal effective reception detection transmitted or relay-transmitted from the other residence police. When the effective reception detection of the fire interlock signal from another house alarm is determined, the process proceeds to step S19 to output an alarm sound from the own speaker 56 as a fire alarm indicating the interlock destination, for example, an alarm display by blinking of the LED 22 is performed. .

次にステップS20で他の住警器から送信または中継送信された火災復旧連動信号有効受信検知の有無を判別しており、火災復旧連動信号の有効受信検知を判別すると、ステップS21に進んで連動先の警報として行っているスピーカ56からの警報音出力とLED22の点滅による警報表示を停止する。   Next, in step S20, it is determined whether or not a fire recovery interlocking signal effective reception detection is transmitted or relayed from another home police, and if the fire recovery interlocking signal effective reception detection is determined, the process proceeds to step S21 to interlock. The alarm display by the alarm sound output from the speaker 56 and the blinking of the LED 22 performed as the previous alarm is stopped.

次にステップS22で他の住警器から送信または中継送信された警報停止連動信号の有効受信の有無を検知しており、警報停止連動信号の有効受信を検知すると、ステップS23に進んで連動先としての警報音出力を停止し、警報表示も停止させる。   Next, in step S22, the presence or absence of effective reception of an alarm stop interlocking signal transmitted or relay-transmitted from another resident alarm is detected, and when effective reception of the alarm stop interlocking signal is detected, the process proceeds to step S23 to interlock with The alarm sound output is stopped and the alarm display is also stopped.

ステップS18、ステップS20、ステップ22で他の住警器から連動信号を受信した場合に、当該連動信号に中継要求符号が含まれていときは必要に応じ中継送信とそれに伴う処理を行うが、説明の簡単のため図示を省略している。   When a interlocking signal is received from another mortgage in step S18, step S20, or step 22, if a relay request code is included in the interlocking signal, relay transmission and processing accompanying it are performed as necessary. The illustration is omitted for simplicity.

また、これも図示を省略しているが、例えばローバッテリーや故障等の障害発生その他、図示以外の事象についても適宜監視しており、これらを検知した場合には、必要に応じ連動元としてそれを報知し、対応する連動信号を他の住警器に送信する。また他の住警器からこれら事象を示す連動信号を受信した場合には、連動先としての報知等、対応する処理を行うと共に、必要に応じ連動信号の中継送信を行う。   In addition, although illustration is omitted, for example, the occurrence of a failure such as a low battery or a failure and other events other than the illustration are also monitored as appropriate. Is transmitted, and a corresponding interlocking signal is transmitted to another resident alarm. In addition, when an interlocking signal indicating these events is received from another resident alarm, corresponding processing such as notification as an interlocking destination is performed, and relaying transmission of the interlocking signal is performed as necessary.

なお、第2送信モードとして消費電力を増加させて送信能力を高める方式は、上記の実施形態に限定されず、適宜の方式をとることができる。同様に第2受信モードとして消費電力を小さくする方式も上記の実施形態に限定されず、適宜の方式をとることができる。要するに、少なくとも火災を検知した際に、少なくとも火災連動信号の送信については他の事象に比べて連動の確実性を高めることができれば良い。このとき、受信モードを低消費モードへ切り替えることも必須ではない。   In addition, the system which increases power consumption as a 2nd transmission mode and raises a transmission capability is not limited to said embodiment, An appropriate system can be taken. Similarly, the method of reducing power consumption as the second reception mode is not limited to the above embodiment, and an appropriate method can be adopted. In short, at least when a fire is detected, it is sufficient that at least the fire-linked signal can be transmitted more reliably than other events. At this time, it is not essential to switch the reception mode to the low consumption mode.

また上記の実施形態は監視領域の異状として火災を検知して警報する住警器を例にとるものであったが、住警器以外の火災警報器、ガス漏れ警報器、CO警報器、各種の防犯用警報器を配置した警報システムやそれら各種の警報器を混在させて配置した警報システムについても同様に適用できる。   In addition, the above embodiment is an example of a residential alarm device that detects and alerts a fire as an abnormality in the monitoring area. However, a fire alarm device other than a residential alarm device, a gas leak alarm device, a CO alarm device, The present invention can be similarly applied to an alarm system in which an alarm device for crime prevention is arranged and an alarm system in which various alarm devices are arranged in a mixed manner.

また、本発明の警報器による監視システムは、一部に本発明による上記の送信モード切替機能を備えない従来の警報器を含むものであっても良い。この場合でも、全体として少なくとも部分的には本発明の目的を達成することができる。   Moreover, the monitoring system using the alarm device of the present invention may include a conventional alarm device that does not partially include the transmission mode switching function according to the present invention. Even in this case, the object of the present invention can be achieved at least partially as a whole.

また図3の住警器10−1(および10−2〜10−6)にあっては、検煙部16を備え、火災に伴い発生する煙を観測して監視領域の火災を検知する煙式住警器(警報器)を例に取っているが、これ以外に火災に伴う熱を検知するサーミスタ等の温度検知素子を備えた熱式住警器(警報器)や火災に伴うその他の環境変化を検知する住警器(警報器)、火災以外にガス漏れを検知する警報器、侵入者や地震その他の異状を検知する各種の警報器、これらを組み合わせて成る警報器についても、本発明の対象に含まれる。   In addition, the residential alarm device 10-1 (and 10-2 to 10-6) in FIG. 3 includes a smoke detector 16, which detects smoke generated by a fire and detects a fire in the monitoring area. This is taken as an example of a type of home alarm (alarm), but in addition to this, a thermal home alarm (alarm) equipped with a temperature detection element such as a thermistor that detects heat associated with fire and other types of fire This also applies to residential alarms that detect environmental changes, alarms that detect gas leaks in addition to fires, various alarms that detect intruders, earthquakes, and other abnormalities, and alarms that combine these alarms. It is included in the object of the invention.

また、上記実施例では所定の事象として火災を検知した場合に送信モードを切り替えて送信能力を高める例を示したが、他の事象を異状の対象とする警報器では、その事象を検知した場合、例えばガス漏れ警報器ではガス漏れを検知した場合に送信モードを切り替える事になる。   In the above embodiment, when a fire is detected as a predetermined event, an example is shown in which the transmission mode is switched to increase the transmission capability. However, in the alarm device that targets other events as abnormal, the event is detected. For example, in a gas leak alarm device, when a gas leak is detected, the transmission mode is switched.

また、火災等、その警報器が本来監視対象とする監視領域の異状以外にも、例えば重要な障害事象等について、上記同様に送信モードを切り替えるようにしても良い。   In addition to the abnormalities in the monitoring area that the alarm device originally monitors, such as a fire, the transmission mode may be switched in the same manner as described above for, for example, an important failure event.

また、警報器の各連携は無線通信によるものでなくても良く、有線通信によっても、また有線と無線を適宜混在させるものであっても良い。   Further, the cooperation of the alarm devices may not be based on wireless communication, may be wired communication, or may be a combination of wired and wireless as appropriate.

また、上記の実施形態で警報停止スイッチ20として示した操作手段は、必ずしもスイッチである必要は無く、リモコン装置等を使用して外部からの通信によって警報履歴出力を指示するもの等、どのような手段や方法を適用しても良い。   Further, the operation means shown as the alarm stop switch 20 in the above embodiment does not necessarily need to be a switch, and any operation means such as an instruction for alarm history output by external communication using a remote control device or the like. Means and methods may be applied.

また上記の実施形態におけるフローチャートは処理の概略例を説明したもので、処理の順番等はこれに限定されない。必要に応じ他の処理を追加、挿入等する等ができる。   In addition, the flowcharts in the above-described embodiments have described a schematic example of processing, and the order of processing is not limited to this. Other processes can be added or inserted as necessary.

また、上記実施の形態で示した住警器のプロセッサは、その機能の一部又は全部を、例えばワイヤードロジック等による他の手段に代えることができる。プロセッサを含め他の電気的、機能的構成は適宜に統廃合することもできる。   Moreover, the processor of the house alarm shown in the said embodiment can replace the one part or all part of the function with the other means by a wired logic etc., for example. Other electrical and functional configurations including the processor can be appropriately integrated and abolished.

また、上記の実施形態は住宅用に限らずビルやオフィス用など各種用途の警報器にも適用できる。   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.

また本発明は上記の実施形態に限定されず、その目的と利点を損なうことのない適宜の変形を含み、更に上記の実施形態に示した数値による限定は受けない。
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.

10,10−1〜10−6:住警器
12:カバー
14:本体
15:取付フック
16:検煙部
18:音響孔
20:警報停止スイッチ
22:LED
24:住宅
28:プロセッサ
31:アンテナ
30:無線通信部
32:メモリ
34:センサ部
36:報知部
38:操作部
40:電池電源
42:送信回路
44:受信回路
46:連動信号
48:連番
50:送信元符号
52:グループ符号
54:事象符号
56:スピーカ
60:警報処理部
62:送信制御部
64:受信制御部
10, 10-1 to 10-6: House alarm 12: Cover 14: Main body 15: Mounting hook 16: Smoke detector 18: Sound hole 20: Alarm stop switch 22: LED
24: house 28: processor 31: antenna 30: wireless communication unit 32: memory 34: sensor unit 36: notification unit 38: operation unit 40: battery power source 42: transmission circuit 44: reception circuit 46: interlocking signal 48: serial number 50 : Transmission source code 52: Group code 54: Event code 56: Speaker 60: Alarm processing unit 62: Transmission control unit 64: Reception control unit

Claims (10)

電池電源で動作し、監視領域の異状を検知した場合に警報を出力する連動型の警報器に於いて、
電池電圧に関わらず、前記監視領域の異状を検知した場合には、前記監視領域の異状以外の他の事象を検知した場合に比べて送信能力を高くして連動信号を送信すると共に消費電力を小さくして連動信号を受信することを特徴とする警報器。
In a linked alarm device that operates with battery power and outputs an alarm when an abnormality in the monitoring area is detected,
Regardless of the battery voltage, when an abnormality in the monitoring area is detected, the transmission capability is increased compared to the case where an event other than the abnormality in the monitoring area is detected, and an interlocking signal is transmitted and power consumption is reduced. An alarm device characterized by receiving an interlocking signal with a small size.
電池電源で動作し、監視領域の異状を検知した場合に連動元を示す警報を出力すると共に他の警報器に前記監視領域の異状を示す連動信号を送信部から送信し、他の警報器から前記監視領域の異状を示す連動信号を受信部で受信した場合に連動先を示す警報を出力する警報器に於いて、
前記送信部は、
前記監視領域の異状以外の他の事象を検知した場合、所定の第1送信モードを設定して他の警報器に検知内容を示す連動信号を送信し、
前記監視領域の異状を検知した場合、前記第1送信モードより送信能力の高い第2送信モードを設定して他の警報器に前記監視領域の異状を示す連動信号を送信し、
前記第1送信モード及び第2送信モードは、所定の休止時間と所定の送信時間を組み合わせた送信を複数回繰り返し、前記第2送信モードは、前記組み合わせた送信の回数を前記第1送信モードより多くすることを特徴とする警報器。
Operates with battery power, outputs an alarm indicating the interlocking source when an abnormality in the monitoring area is detected, and transmits an interlocking signal indicating the abnormality in the monitoring area to the other alarm devices from the transmitter, from other alarm devices In the alarm device that outputs an alarm indicating the interlocking destination when the interlocking signal indicating abnormality of the monitoring area is received by the receiving unit ,
The transmitter is
When an event other than an abnormality in the monitoring area is detected, a predetermined first transmission mode is set and an interlocking signal indicating the detection content is transmitted to another alarm device,
When detecting an abnormality in the monitoring area, a second transmission mode having a higher transmission capability than the first transmission mode is set, and an interlocking signal indicating the abnormality in the monitoring area is transmitted to another alarm device,
In the first transmission mode and the second transmission mode, transmission in which a predetermined pause time and a predetermined transmission time are combined is repeated a plurality of times, and in the second transmission mode, the number of times of the combined transmission is greater than that in the first transmission mode. An alarm device characterized by doing more.
請求項2記載の警報器に於いて、前記第2送信モードは、第1送信モードに対し送信電力をより増加させることを特徴とする警報器。
The alarm device according to claim 2, wherein the second transmission mode further increases transmission power compared to the first transmission mode.
請求項2記載の警報器に於いて、前記第2送信モードは、前記第1送信モードに対し送信電波強度を高くするか、或いは送信頻度を高くすることを特徴とする警報器。
The alarm device according to claim 2, wherein the second transmission mode has a higher transmission radio wave intensity or higher transmission frequency than the first transmission mode.
電池電源で動作し、監視領域の異状を検知した場合に連動元を示す警報を出力すると共に他の警報器に前記監視領域の異状を示す連動信号を送信部から送信し、他の警報器から前記監視領域の異状を示す連動信号を受信部で受信した場合に連動先を示す警報を出力する警報器に於いて、
前記送信部は、
前記監視領域の異状以外の他の事象を検知した場合、所定の第1送信モードを設定して他の警報器に検知内容を示す連動信号を送信し、
前記監視領域の異状を検知した場合、前記第1送信モードより送信能力の高い第2送信モードを設定して他の警報器に前記監視領域の異状を示す連動信号を送信し、
前記受信部は、
前記監視領域の異状又は前記他の事象を未検知の場合、所定周期毎に所定の受信可能時間を設定する間欠受信を行い、
前記他の事象を検知した場合、所定の第1受信モードを設定して他の警報器からの連動信号を受信し、
前記監視領域の異状を検知した場合、前記第1受信モードより消費電力の小さい第2受信モードを設定して他の警報器からの連動信号を受信する、
ことを特徴とする警報器。
Operates with battery power, outputs an alarm indicating the interlocking source when an abnormality in the monitoring area is detected, and transmits an interlocking signal indicating the abnormality in the monitoring area to the other alarm devices from the transmitter, from other alarm devices In the alarm device that outputs an alarm indicating the interlocking destination when the interlocking signal indicating abnormality of the monitoring area is received by the receiving unit ,
The transmitter is
When an event other than an abnormality in the monitoring area is detected, a predetermined first transmission mode is set and an interlocking signal indicating the detection content is transmitted to another alarm device,
When detecting an abnormality in the monitoring area, a second transmission mode having a higher transmission capability than the first transmission mode is set, and an interlocking signal indicating the abnormality in the monitoring area is transmitted to another alarm device,
The receiver is
When abnormalities in the monitoring area or other events are not detected, intermittent reception is performed to set a predetermined receivable time for each predetermined period,
When the other event is detected, a predetermined first reception mode is set and an interlocking signal is received from another alarm device,
When detecting an abnormality in the monitoring area, set a second reception mode that consumes less power than the first reception mode and receive an interlocking signal from another alarm device;
An alarm device characterized by that.
請求項記載の警報器に於いて、
前記第1受信モードは、前記他の事象の検知状態が継続中は前記間欠受信を常時受信に切替え、前記他の事象の検知状態が解除されたことを条件として前記常時受信を前記間欠受信に戻し、
前記第2受信モードは、前記送信部による前記監視領域の異状を示す連動信号の送信中は前記間欠受信を常時受信に切替え、その後の前記監視領域の異状の検知状態が継続中は前記所定周期より長い周期の間欠受信に切替え、前記監視領域の異状の検知状態が解除されたことを条件として前記長い周期の間欠受信を前記所定周期の間欠受信に戻す、
ことを特徴とする警報器。
The alarm device according to claim 5 ,
In the first reception mode, the intermittent reception is switched to the continuous reception while the detection state of the other event is continued, and the continuous reception is changed to the intermittent reception on condition that the detection state of the other event is canceled. Return,
In the second reception mode, the intermittent reception is switched to continuous reception during transmission of the interlock signal indicating the abnormality of the monitoring area by the transmission unit, and the predetermined period is continued while the abnormality detection state of the monitoring area thereafter is continued. Switching to intermittent reception with a longer cycle, and returning the intermittent reception with the long cycle to the intermittent reception with the predetermined cycle on condition that the abnormal detection state of the monitoring area has been canceled,
An alarm device characterized by that.
請求項記載の警報器に於いて、
前記第1受信モードは、前記他の事象の検知状態が継続中は前記間欠受信を常時受信に切替え、前記他の事象の検知状態が解除されたことを条件として前記常時受信を前記間欠受信に戻し、
前記第2受信モードは、前記送信部による前記監視領域の異状を示す連動信号の送信中は前記間欠受信を常時受信に切替え、その後の前記監視領域の異状の検知状態が継続中は前記所定の受信可能時間より短い受信可能時間の間欠受信に切替え、前記監視領域の異状の検知状態が解除されたことを条件として前記短い受信可能時間の間欠受信を前記所定の受信可能時間の間欠受信に戻す、
ことを特徴とする警報器。
The alarm device according to claim 5 ,
In the first reception mode, the intermittent reception is switched to the continuous reception while the detection state of the other event is continued, and the continuous reception is changed to the intermittent reception on condition that the detection state of the other event is canceled. Return,
In the second reception mode, the intermittent reception is switched to the constant reception during the transmission of the interlocking signal indicating the abnormality of the monitoring area by the transmission unit, and the predetermined detection state is continued while the abnormality detection state of the monitoring area thereafter is continued. Switch to intermittent reception with a receivable time shorter than the receivable time, and return the intermittent reception with the short receivable time to the intermittent reception with the predetermined receivable time on condition that the abnormal detection state of the monitoring area is released ,
An alarm device characterized by that.
請求項2又は5記載の警報器に於いて、
前記受信部で他の警報器から連動信号を有効受信した場合、正常受信を示すACK信号を前記送信部で送信し、
前記送信部から連動信号を送信した後に他の住警器からのACK信号を前記受信部で受信し、前記ACK信号を受信しない警報器を検知した場合、ACK信号を受信した他の警報器に対し前記連動信号に中継要求を示す符号を含む連動信号を送信して、前記連動信号の内容を中継送信させることを特徴とする警報器。
In the alarm device according to claim 2 or 5 ,
When the reception signal is effectively received from another alarm device in the reception unit, the transmission unit transmits an ACK signal indicating normal reception,
After transmitting the interlock signal from the transmitter, the receiver receives an ACK signal from another resident alarm, and when detecting an alarm that does not receive the ACK signal, the other alarm device that has received the ACK signal On the other hand, an alarm device characterized in that the interlocking signal including a code indicating a relay request is transmitted to the interlocking signal, and the contents of the interlocking signal are relayed and transmitted.
請求項2又は5記載の警報器に於いて、前記送信部は、前記受信部で他の警報器から連動信号を受信した場合、当該連動信号を中継送信することを特徴とする警報器。
6. The alarm device according to claim 2 , wherein the transmitting unit relays and transmits the interlock signal when the receiver receives the interlock signal from another alarm device.
請求項2又は5記載の警報器を設けた監視システムであって、前記警報器の送信部は、前記受信部で他の警報器から連動信号を受信した場合、当該連動信号を中継送信することを特徴とする監視システム。 A claim 2 or 5 the monitoring system having a alarm device disclosed, the transmission unit of the alarm device, when receiving the interlock signal from another alarm device by the reception section, to relay transmits the interlock signal A monitoring system characterized by
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Publication number Priority date Publication date Assignee Title
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