JP2016053999A - Optical alarm system - Google Patents
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Abstract
Description
本発明の一態様は、フラッシュライト等を用いた光による光警報を行なう光警報システムに関する。 One embodiment of the present invention relates to an optical alarm system that performs optical alarm using light using a flashlight or the like.
警報システムの警報は、ブザー等のベルを鳴動させて行なうものが一般的である。ところが、近年、火災等の災害発生を音響とともに視認性の高いフラッシュライト等を用いて災害発生を報知する警報システムも提案されている(例えば、特許文献1乃至3参照)。このような警報システムによると、音響だけでなく強い光により災害発生を報知するため、例えば、聴覚不自由者に対しても有効な警報を行なうことができるようになる。以下、このような光による警報を、従来から行われているLEDや赤色ランプ等による表示報知と区別して、光警報という。 The alarm of the alarm system is generally performed by ringing a bell such as a buzzer. However, in recent years, there has also been proposed an alarm system for notifying the occurrence of a disaster such as a fire using a flashlight or the like having high visibility along with sound (for example, see Patent Documents 1 to 3). According to such an alarm system, since the occurrence of a disaster is notified not only by sound but also by strong light, for example, an effective alarm can be given even to a hearing-impaired person. Hereinafter, such a light alarm is referred to as a light alarm in distinction from conventional display notifications such as LEDs and red lamps.
上記のような目的のため光警報は、例えばキセノンランプ等をパルス発光した高光度の白色光(フラッシュライト)で行なう。このため従来の表示報知に比べ、例えば聴覚不自由者にも、災害の発生を早期に、且つ確実に認識させることができる。 For the purpose as described above, the light alarm is performed with white light (flash light) having high luminous intensity, which is pulsed from, for example, a xenon lamp. For this reason, compared with the conventional display notification, for example, a hearing-impaired person can recognize the occurrence of a disaster early and reliably.
上記のように光警報は高光度の白色光(フラッシュライト)を用いるが、その発光時の周囲環境によって視認性が低下する場合がある。例えば光警報を行なう対象領域が明るい環境と暗い環境とではフラッシュライトの視認性が異なり、当該領域が明るい場合、フラッシュライトの視認性が低下する。また、例えば昼間と夜間のような時間帯によっても照明の照度が異なる場合があり、照明が明るい時間帯の場合、フラッシュライトの視認性が低下する。このように光警報の視認性が低下した場合、光警報システムの警報性能が低下する可能性が生じる。 As described above, the light alarm uses high-luminance white light (flash light), but the visibility may be lowered depending on the surrounding environment at the time of light emission. For example, the visibility of the flashlight is different between a bright environment and a dark environment where the light alarm is performed, and the visibility of the flashlight decreases when the area is bright. Moreover, the illumination intensity of the illumination may be different depending on the time zone such as daytime and nighttime, and the visibility of the flashlight is reduced when the illumination is bright. Thus, when the visibility of a light warning falls, the alarm performance of a light warning system may fall.
本発明の目的の一つは、光警報を行なう光警報システムにおいて、光警報の視認性を確保できるようにすることにある。 One of the objects of the present invention is to ensure visibility of a light alarm in a light alarm system that performs a light alarm.
本発明の光警報システムの一態様は、受信装置と直接または間接的に光警報制御装置が接続され、当該光警報制御装置から引き出された光警報回線に光警報装置が並列接続され、受信装置から光警報制御装置を介して出力される制御信号に基づいて光警報装置が光警報を行なう光警報システムであって、光警報装置が光警報を行なうことによって照明される第1領域と一部又は全てが重なる第2領域を照明する照明設備と、受信装置、光警報制御装置及び光警報装置の少なくともいずれか1つから送信される上記の制御信号と連動する連動移報信号に基づいて照明設備の調光制御を行なう照明設備管理部と、を備える。 According to one aspect of the optical alarm system of the present invention, an optical alarm control device is directly or indirectly connected to a receiving device, and the optical alarm device is connected in parallel to an optical alarm line drawn from the optical alarm control device. A light warning system in which the light warning device performs a light warning based on a control signal output from the light warning control device from the first area and a part illuminated by the light warning device performing a light warning Or lighting based on a lighting device that illuminates the second area where all overlap, and an interlocking transfer signal linked to the control signal transmitted from at least one of the receiving device, the light alarm control device, and the light alarm device A lighting facility management unit that performs dimming control of the facility.
このように構成されているため、光警報システムが光警報を行なう場合、照明設備管理部は、光警報を行なうことによって照明される第1領域と一部又は全ての領域が重なる第2領域を照明する照明設備を調光制御することができる。したがって、例えば、照明設備管理部が照明設備を通常時の明るさより暗くすることにより、光警報の視認性を確保することができるようになる。このため、例えば光警報を行なう環境及び時間帯によって、光警報を視認できないという事態を回避することができる。 Since it is configured in this manner, when the light alarm system performs a light alarm, the lighting equipment management unit includes a second region in which a part of or all of the first region illuminated by performing the light alarm overlaps. Dimming control can be performed on the lighting equipment to be illuminated. Therefore, for example, when the lighting equipment management unit makes the lighting equipment darker than the normal brightness, the visibility of the light alarm can be ensured. For this reason, the situation where a light alarm cannot be visually recognized by the environment and time slot | zone which perform a light alarm, for example can be avoided.
また、光警報システムにおいて、所定の管理領域内に1以上の光警報装置及び1以上の照明設備を設け、受信装置が1以上の光警報装置を制御信号に基づいて同期制御し、照明設備管理部が連動移報信号に基づいて1以上の照明設備を調光制御するようにしても良い。 Further, in the light alarm system, one or more light alarm devices and one or more lighting facilities are provided in a predetermined management area, and the receiving device controls the one or more light alarm devices synchronously based on the control signal, thereby managing the lighting facilities. The unit may perform dimming control of one or more lighting facilities based on the interlocking transfer signal.
このようにすると、所定の管理領域内の全ての光警報装置の光警報及び全ての照明設備の調光制御を同期させることができる。このため、当該所定の管理領域内のいずれの場所においても光警報の視認性を確保することができる。 If it does in this way, the light alarm of all the light alarm apparatuses in a predetermined management area | region and the dimming control of all the lighting installations can be synchronized. For this reason, the visibility of the light alarm can be ensured at any location within the predetermined management area.
更に、光警報システムにおいて、所定の管理領域と隣接する隣接管理領域内に1以上の照明設備を設け、照明設備管理部が連動移報信号に基づいて隣接管理領域内の1以上の照明設備を調光制御するようにしても良い。 Furthermore, in the light alarm system, one or more lighting facilities are provided in an adjacent management region adjacent to a predetermined management region, and the lighting facility management unit installs one or more lighting facilities in the adjacent management region based on the interlocking transfer signal. Dimming control may be performed.
このようにすると、照明設備管理部は隣接管理領域内に含まれる1以上の照明設備を任意に調光することができる。このため、例えば上記のように管理領域内の照明を暗く調光した場合に、当該管理領域と隣接する隣接管理領域内の照明を明るく調光することができる。したがって、例えば、災害が発生した管理領域から隣接管理領域へ避難する場合に、当該隣接管理領域が暗くて見えないという状況を回避することができる。また、これらの領域間の明るさの差を利用して管理領域内の人に避難方向を示すことが可能になると共に、当該隣接管理領域内の環境が確認し易くなり、当該隣接管理領域から更に安全な方向に迅速に避難することも可能になる。 If it does in this way, the lighting installation management part can light-control one or more lighting installations contained in an adjacent management area | region arbitrarily. For this reason, for example, when the illumination in the management area is dimmed dark as described above, the illumination in the adjacent management area adjacent to the management area can be dimmed brightly. Therefore, for example, when evacuating from a management area where a disaster has occurred to an adjacent management area, it is possible to avoid a situation where the adjacent management area is dark and cannot be seen. In addition, it becomes possible to indicate the evacuation direction to the person in the management area by using the difference in brightness between these areas, and the environment in the adjacent management area can be easily confirmed. It is also possible to evacuate quickly in a safe direction.
更に、光警報装置は、制御信号に基づいて発光する発光部と、当該発光部の発光により光を照射して光警報を行う領域の照度を測定する照度測定装置と、照度測定装置が測定する照度に基づいて発光部の発光光度を制御する制御部と、を備えるようにすることができる。 Furthermore, the light alarm device measures the illuminance measuring device that measures the illuminance of the light emitting unit that emits light based on the control signal, the region where the light is emitted by emitting light from the light emitting unit, and performs the light alarm, and the illuminance measuring device measures. And a control unit that controls the luminous intensity of the light emitting unit based on the illuminance.
このようにすると、例えば、光警報領域に煙等が発生し、光警報が視認し難い状況になっても、光警報の光度を上げることによって、光警報の視認性を確保することが可能になる。 In this way, for example, even if smoke or the like is generated in the light alarm region and it becomes difficult to visually recognize the light alarm, it is possible to ensure the visibility of the light alarm by increasing the light intensity of the light alarm. Become.
本発明の一態様によると、光警報を行なう光警報システムにおいて、例えば光警報を行なう環境及び時間帯によらず光警報の視認性を確保することができる。 According to one embodiment of the present invention, in an optical alarm system that performs an optical alarm, the visibility of the optical alarm can be ensured regardless of the environment and time zone in which the optical alarm is performed, for example.
以下、本発明の各実施の形態について図面を参照しながら説明する。なお、以下の実施の形態では、ブザー等の音響により警報を行なう警報システムに光警報を行なう構成を追加した光警報システムに、本発明を適用した場合を説明する。 Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following embodiments, a case will be described in which the present invention is applied to an optical alarm system in which a configuration for performing an optical alarm is added to an alarm system that performs an alarm by sound such as a buzzer.
(第1の実施の形態)
図1は光警報システム1の構成を示す図である。図1に例示する光警報システム1では、受信装置50から引き出された災害感知回線DLに災害感知器10が並列接続されており、当該災害感知回線DLの終端には終端抵抗(又は終端器)2が接続されている。災害感知器10で感知する災害としては火災、ガス漏れ等があるが、これらに限定されない。また、受信装置50から引き出されたベル回線BLにベル20が並列接続され、ベル回線BLの終端には光警報制御装置30が接続されている。光警報制御装置30からは、光警報回線KLが引き出されており、当該光警報回線KLに光警報装置40が並列接続され、光警報回線KLの終端には終端抵抗(又は終端器)3が接続されている。また、受信装置50は、照明設備管理部60及び総合監視盤4と通信可能に接続されている。照明設備管理部60は、上記の受信装置50に加え、照明設備70、光警報制御装置30及び光警報装置40と通信可能に接続されている。
(First embodiment)
FIG. 1 is a diagram showing a configuration of the light alarm system 1. In the optical alarm system 1 illustrated in FIG. 1, the disaster detector 10 is connected in parallel to the disaster detection line DL drawn from the receiving device 50, and a termination resistor (or terminator) is connected to the end of the disaster detection line DL. 2 is connected. Examples of disasters detected by the disaster detector 10 include, but are not limited to, fire and gas leakage. Further, the bell 20 is connected in parallel to the bell line BL drawn from the receiving device 50, and the light alarm control device 30 is connected to the end of the bell line BL. An optical alarm line KL is drawn from the optical alarm control device 30, and an optical alarm device 40 is connected in parallel to the optical alarm line KL, and a terminating resistor (or terminator) 3 is provided at the end of the optical alarm line KL. It is connected. The receiving device 50 is connected to the lighting facility management unit 60 and the general monitoring panel 4 so as to be communicable. The lighting equipment management unit 60 is connected to the lighting equipment 70, the light warning control device 30, and the light warning device 40 in addition to the receiving device 50 described above.
なお、図1においては、図示及び説明を簡略化するため、災害感知器10、ベル20及び光警報装置40はそれぞれ1つしか図示していないが、これに限られず適宜複数接続される構成でも良い。また、同様に、受信装置50及び光警報制御装置30から引き出される災害感知回線DL及び光警報回線KLはそれぞれ1つしか図示していないが、適宜複数引き出される構成でも良い。更に、同様に照明設備70は1つしか図示していないが、照明設備管理部60には、複数の照明設備70が接続される構成でも良い。 In FIG. 1, only one disaster detector 10, bell 20, and light alarm device 40 are shown for simplification of illustration and explanation. good. Similarly, only one disaster detection line DL and one light alarm line KL drawn from the receiving device 50 and the light alarm control device 30 are shown, but a configuration in which a plurality of them are drawn as appropriate may be used. Further, similarly, only one lighting facility 70 is illustrated, but the lighting facility management unit 60 may be configured to connect a plurality of lighting facilities 70.
ここで、災害感知器10、ベル20、光警報装置40及び照明設備70は設置される場所に応じていずれかの管理領域に属しており、受信装置50は、管理領域毎に災害感知、ベル制御、光警報制御、照明制御等ができるように構成される。管理領域は、例えば、建物内の部屋、廊下、ロビー等の各領域を管理するために設定される領域である。また、光警報装置40が光警報を行なことによって照明される光警報領域(第1領域)と、照明設備70に照明される照明領域(第2領域)とは、管理領域内に設置される光警報装置40及び照明設備70の場所に応じて、一部又は全部が重なる。 Here, the disaster detector 10, the bell 20, the light alarm device 40, and the lighting equipment 70 belong to one of the management areas depending on the place where they are installed, and the receiving device 50 has a disaster detection, bell for each management area. It is configured to perform control, light alarm control, lighting control, and the like. The management area is an area set for managing each area such as a room, a hallway, and a lobby in a building. In addition, the light alarm area (first area) illuminated by the light alarm device 40 performing a light alarm and the illumination area (second area) illuminated by the lighting equipment 70 are installed in the management area. Depending on the location of the light alarm device 40 and the lighting facility 70, some or all of them overlap.
受信装置50は、電源回路51、災害感知回路52、CPU53、ベル制御回路54及び外部移報回路55を有している。電源回路51は、図示しない外部電源からの電源を変圧、整流等して災害感知回路52、CPU53、ベル制御回路54及び外部移報回路55に電源を供給する。CPU53は、災害感知回路52から受信する災害感知信号に基づいて、当該災害感知信号を外部移報回路55へ出力すると共に、ベル制御回路54へベル20の制御信号を出力する。 The receiving apparatus 50 includes a power supply circuit 51, a disaster detection circuit 52, a CPU 53, a bell control circuit 54, and an external transfer circuit 55. The power supply circuit 51 supplies power to the disaster detection circuit 52, the CPU 53, the bell control circuit 54, and the external transfer circuit 55 by transforming, rectifying, etc. power from an external power supply (not shown). Based on the disaster detection signal received from the disaster detection circuit 52, the CPU 53 outputs the disaster detection signal to the external transfer circuit 55 and outputs the control signal of the bell 20 to the bell control circuit 54.
災害感知回路52は、災害感知回線DLを介して、災害感知器10から出力される災害感知信号を受信する。また、災害感知回路52は、災害感知信号を受信した場合、当該災害感知信号あるいはこれに基づく信号をCPU53へ送信する。なお、災害感知器10が災害を感知した場合に、災害感知回路52が災害感知信号を検知し、CPU53へ送信する構成は従来同様とすることができる。また、災害感知回路52は、従来同様にして災害感知回線DLの断線や短絡等の接続障害を監視する。 The disaster detection circuit 52 receives a disaster detection signal output from the disaster detector 10 via the disaster detection line DL. When the disaster detection circuit 52 receives a disaster detection signal, the disaster detection circuit 52 transmits the disaster detection signal or a signal based on the disaster detection signal to the CPU 53. Note that when the disaster detector 10 detects a disaster, the configuration in which the disaster detection circuit 52 detects the disaster detection signal and transmits it to the CPU 53 can be the same as that of the prior art. Further, the disaster detection circuit 52 monitors connection failures such as disconnection or short circuit of the disaster detection line DL in the same manner as in the past.
ベル制御回路54は、ベル回線BLを介してベル20の断線や短絡等の接続障害を監視する。また、ベル制御回路54は、CPU53からベル20の制御信号を受信した場合、ベル20を鳴動させるためにベル回線BLに印加する電圧の極性を反転(転極)する。これにより、ベル回線BLに並列接続されるベル20は、鳴動を開始する。なお、ベル制御回路54がベル20の接続障害を監視する構成及びベル20を鳴動させる構成については、従来同様とすることができる。 The bell control circuit 54 monitors connection failures such as disconnection or short circuit of the bell 20 via the bell line BL. Further, when the bell control circuit 54 receives the control signal of the bell 20 from the CPU 53, the bell control circuit 54 reverses (inverts) the polarity of the voltage applied to the bell line BL in order to ring the bell 20. Thereby, the bell 20 connected in parallel to the bell line BL starts ringing. Note that the configuration in which the bell control circuit 54 monitors the connection failure of the bell 20 and the configuration in which the bell 20 rings are the same as in the prior art.
外部移報回路55は、災害感知信号に基づきCPU53から送信される信号に基づいて、照明設備管理部60及び総合監視盤4へ信号を出力する。外部移報回路55は、例えば、CPU53から災害感知信号を受信した場合、総合監視盤4へ当該災害感知信号を出力する。 The external transfer circuit 55 outputs a signal to the lighting equipment management unit 60 and the general monitoring panel 4 based on a signal transmitted from the CPU 53 based on the disaster detection signal. For example, when receiving the disaster detection signal from the CPU 53, the external transfer circuit 55 outputs the disaster detection signal to the general monitoring panel 4.
総合監視盤4は、外部移報回路55から出力される、例えば災害感知信号に基づいて、必要な処理を行なう。総合監視盤4は、例えば所定の管理領域で災害を感知した旨の報告
を光警報システム1の管理会社へ送信することができる。
The integrated monitoring board 4 performs necessary processing based on, for example, a disaster detection signal output from the external transfer circuit 55. The general monitoring board 4 can transmit a report indicating that a disaster has been detected in a predetermined management area, for example, to the management company of the light alarm system 1.
照明設備管理部60は、1以上の照明設備70の照明の調光を制御する。また、照明設備管理部60は、例えば上記の管理領域内に複数の照明設備70が含まれている場合、当該管理領域内の複数の照明設備70の調光制御を同期して行なう。 The lighting equipment management unit 60 controls the dimming of the lighting of one or more lighting equipments 70. For example, when a plurality of lighting facilities 70 are included in the management area, the lighting facility management unit 60 performs dimming control of the plurality of lighting facilities 70 in the management area in synchronization.
次に、光警報制御装置30、光警報装置40、及び照明設備管理部60の構成について図2乃至図5を参照しながら詳細に説明する。 Next, the configuration of the light alarm control device 30, the light alarm device 40, and the lighting equipment management unit 60 will be described in detail with reference to FIGS.
先ず、光警報制御装置30の構成について図2を参照して説明する。光警報制御装置30は、電源部31、電圧制御部32、同期パルス出力部33及び移報出力部34−1〜34−P(P:自然数)を有している。 First, the configuration of the light alarm control device 30 will be described with reference to FIG. The light alarm control device 30 includes a power supply unit 31, a voltage control unit 32, a synchronization pulse output unit 33, and message output units 34-1 to 34-P (P: natural number).
電源部31は、AC電源又は電池電源、又は(ベル回線BLを介し)受信装置50から電源の供給を受け、電圧制御部32、同期パルス出力部33及び移報出力部34−1〜34−Pへ電源を供給する。電圧制御部32は、ベル回線BLから制御信号が入力された場合、当該制御信号を同期パルス出力部33及び移報出力部341〜34Pへ出力する。同期パルス出力部33は、入力された制御信号と同期する制御信号(光警報制御信号)を光警報装置40へ出力する。移報出力部34−1〜34−Pは、例えば上記の管理領域に対応して設けられており、予め関連づけられた他設備等の出力先へ種々の信号を出力する。例えば、移報出力部34−1〜34−Pは、光警報装置40の光警報制御と照明設備70の調光制御とを連動させるための連動移報信号を、照明設備管理部60の当該管理領域に関連づけられた(割り当てられた)移報入力部63(後述する。)へ出力する。また、本実施の形態においては、移報出力部34−1〜34−Pは、管理領域と隣接する隣接管理領域と関連づけられる移報入力部63にも連動移報信号を出力する。 The power supply unit 31 is supplied with power from the AC power supply, the battery power supply, or the receiving device 50 (via the bell line BL), and receives the voltage control unit 32, the synchronization pulse output unit 33, and the message output units 34-1 to 34-34. Supply power to P. When a control signal is input from the bell line BL, the voltage control unit 32 outputs the control signal to the synchronization pulse output unit 33 and the message output units 341 to 34P. The synchronization pulse output unit 33 outputs a control signal (light warning control signal) synchronized with the input control signal to the light warning device 40. The transfer output units 34-1 to 34-P are provided, for example, corresponding to the above-described management areas, and output various signals to output destinations such as other facilities associated in advance. For example, the transfer output units 34-1 to 34-P send an interlocking transfer signal for interlocking the light alarm control of the light alarm device 40 and the dimming control of the lighting facility 70 to the lighting facility management unit 60. The information is output to a message input unit 63 (described later) associated with (assigned to) the management area. In the present embodiment, the transfer output units 34-1 to 34-P also output the interlocked transfer signal to the transfer input unit 63 associated with the adjacent management area adjacent to the management area.
連動移報信号は、図3に示すように、光警報制御装置30から出力される光警報を発光させる光警報制御信号(図3(a)参照)と連動して出力される連続出力信号(図3(b)参照:パラレル)であり、又は、光警報制御信号(図3(a)参照)の立ち上がり、及び立下りのタイミングを示す通信出力信号(図3(c)参照:シリアル)などである。 As shown in FIG. 3, the interlocking signal is a continuous output signal output in conjunction with a light alarm control signal (see FIG. 3A) for emitting a light alarm output from the light alarm control device 30. 3 (b): parallel), or a communication output signal (see FIG. 3 (c): serial) indicating the timing of rising and falling of the light alarm control signal (see FIG. 3 (a)), etc. It is.
図4は、光警報装置40の構成を示す図である。図4に示すように、光警報装置40は、電源部41、制御部42、発光部43及び移報出力部44−1〜44−Q(Q:自然数)を有している。 FIG. 4 is a diagram illustrating a configuration of the light alarm device 40. As illustrated in FIG. 4, the light alarm device 40 includes a power supply unit 41, a control unit 42, a light emitting unit 43, and message output units 44-1 to 44-Q (Q: natural number).
電源部41は、光警報制御装置30などから制御信号が入力される。また、電源部41は、AC電源、電池電源、又は光制御装置30などからの制御信号による電源の供給を受け、制御部42、発光部43及び移報出力部44−1〜44−Qにそれぞれ電源を供給する。制御部42は、光警報制御装置30から入力される光警報制御信号を受信した場合、当該制御信号に基づいて発光部43の発光を制御する。発光部43は、制御部42から入力される光警報制御信号に基づいて、光警報(フラッシュライト:発光部の発光)を行なう。移報出力部44−1〜44−Qは、例えば上記の管理領域に対応して設けられており、予め関連づけられた(割り当てられた)他設備等の出力先へ種々の信号を出力する。例えば、移報出力部441〜44Qは、上記の連動移報信号を光警報制御装置30と共に、又はこれに代えて照明設備管理部60へ出力するように構成しても良い。 The power supply unit 41 receives a control signal from the light alarm control device 30 or the like. In addition, the power supply unit 41 is supplied with power by a control signal from an AC power supply, a battery power supply, or the light control device 30, and the like, to the control unit 42, the light emitting unit 43, and the message output units 44-1 to 44-Q Supply power to each. When the control unit 42 receives a light warning control signal input from the light warning control device 30, the control unit 42 controls light emission of the light emitting unit 43 based on the control signal. The light emitting unit 43 performs a light alarm (flash light: light emission of the light emitting unit) based on the light alarm control signal input from the control unit 42. The transfer output units 44-1 to 44-Q are provided, for example, corresponding to the above-described management areas, and output various signals to an output destination such as other equipment associated in advance (allocated). For example, the transfer output units 441 to 44Q may be configured to output the interlocked transfer signal to the lighting equipment management unit 60 together with or instead of the light alarm control device 30.
次に、照明設備管理部60の構成について図5を参照して説明する。照明設備管理部60は、電源部61、制御部62、及び移報入力部63−1〜63−R(R:自然数)を有している。 Next, the configuration of the lighting equipment management unit 60 will be described with reference to FIG. The lighting equipment management unit 60 includes a power supply unit 61, a control unit 62, and transfer input units 63-1 to 63-R (R: natural number).
電源部61は、AC電源又は電池電源から電源の供給を受け、制御部62、移報入力部63−1〜63−Rへ電源を供給する。移報入力部63−1〜63−Rは、外部から種々の信号が入力される。例えば、移報入力部63−1〜63−Rは、上記の光警報制御装置30の移報出力部34−1〜34−Pと関連づけられており、報出力部34−1〜34−Pからの連動移報信号は、それぞれ関連づけ(割り当て)に従って移報入力部34−1〜34−Pへ入力される。制御部62は、移報入力部63−1〜63−Rに入力される連動移報信号に基づいて、管理領域M1〜MS(S:自然数)毎に設けられた各1以上の照明設備70の調光制御を行なう。例えば管理領域M1〜MS内それぞれに設置される1以上の照明設備70は制御部62から引き出される同一の制御線によって接続されており、制御部62は、当該制御線を介して同一管理領域内の照明設備70を同期して調光制御できる。 The power supply unit 61 receives power supply from an AC power supply or a battery power supply, and supplies power to the control unit 62 and the message input units 63-1 to 63-R. The message input units 63-1 to 63-R receive various signals from the outside. For example, the report input units 63-1 to 63-R are associated with the report output units 34-1 to 34-P of the light alarm control device 30, and the report output units 34-1 to 34-P. The linked message signals from are input to message input units 34-1 to 34-P in accordance with the association (assignment). The control unit 62 includes one or more lighting facilities 70 provided for each of the management areas M1 to MS (S: natural number) based on the interlocking transfer signal input to the transfer input units 63-1 to 63-R. Dimming control is performed. For example, one or more lighting equipments 70 installed in each of the management areas M1 to MS are connected by the same control line drawn from the control unit 62, and the control unit 62 is connected to the same management area via the control line. The dimming control of the lighting equipment 70 can be performed synchronously.
照明設備70の調光レベルは、例えば、図6に示すように、通常の照明を行なう調光レベルからn段階(n:自然数)に明るくなるように、また、m段階(m:自然数)に暗くなるように調整可能になっている。なお、n段階、m段階という調光レベルの段階数の設定は任意に設定可能であり、また、調光レベルは、m段階、n段階のように段階的な設定にしなくても、例えば図示の曲線Xのように、無段階に(アナログ的に)切り替えるように構成しても良い。 For example, as shown in FIG. 6, the dimming level of the lighting equipment 70 is brightened in n stages (n: natural number) from the dimming level at which normal illumination is performed, and in m stages (m: natural number). It can be adjusted to darken. In addition, the setting of the number of steps of the dimming level such as n steps and m steps can be arbitrarily set, and the dimming level can be set, for example, without using stepwise settings such as m steps and n steps. As shown by the curve X, it may be configured to switch in a stepless manner (in an analog manner).
次に、図7を用いて制御部62が実行する調光制御の調光パターンについて説明する。なお、図示における白抜多角形は、光警報装置40が光警報を行なっていることを示して
いる。光警報装置40による光警報が終了した場合、例えば制御部62は照明設備70が通常の照度となるように制御する。なお、調光パターンは、以下の図7(a)から図7(e)に示す調光パターンに限るものではない。
Next, a dimming pattern of dimming control executed by the control unit 62 will be described with reference to FIG. The white polygon in the figure indicates that the light alarm device 40 is performing a light alarm. When the light alarm by the light alarm device 40 is finished, for example, the control unit 62 controls the lighting equipment 70 to have normal illuminance. The dimming pattern is not limited to the dimming patterns shown in FIGS. 7A to 7E below.
図7(a)は、光警報装置40が光警報を開始してから終了するまでの間、制御部62が照明設備70の照明照度を変更(通常の照度より暗く又は明るく)する調光パターンを示す。制御部62は、例えば光警報制御装置30から受信する連動移報入力ON信号S11及び連動移報入力OFF信号S12に基づいて当該調光制御を行なう。 FIG. 7A shows a dimming pattern in which the control unit 62 changes the illumination illuminance of the lighting equipment 70 (darker or brighter than normal illuminance) from when the light alarm device 40 starts the light alarm to when it ends. Indicates. For example, the control unit 62 performs the dimming control based on the interlocking transfer input ON signal S11 and the interlocking transfer input OFF signal S12 received from the light alarm control device 30.
図7(b)は、光警報装置40が光警報を開始してから所定時間だけ、制御部62が照明設備70の照明照度を変更する調光パターンを示す。制御部62は、例えば、連動移報入力ON信号S13を受信した場合に照度の変更を開始し、当該開始から所定時間経過後に自動的に照度の変更を終了する。なお、自動的に照度の変更を終了する構成に代えて、図示のように、所定時間経過後に連動移報入力OFF信号S14を受信した場合に照度の変更を終了するように構成しても良い。また、図7(c)は、上記図7(a)又は(b)の制御を繰り返す調光パターンを示す。 FIG. 7B shows a dimming pattern in which the control unit 62 changes the illumination illuminance of the lighting equipment 70 only for a predetermined time after the light alarm device 40 starts the light alarm. For example, the control unit 62 starts changing the illuminance when the interlocking transfer input ON signal S13 is received, and automatically ends the change of illuminance after a predetermined time has elapsed from the start. Instead of automatically ending the change in illuminance, as shown in the figure, the change in illuminance may be ended when the interlocking transfer input OFF signal S14 is received after a predetermined time has elapsed. . Moreover, FIG.7 (c) shows the light control pattern which repeats the control of the said FIG.7 (a) or (b).
図7(d)は、予め設定されたタイムテーブルに基づいて制御部62が照明設備70の照度を変更する調光パターンを示す。例えば、連動移報入力ON信号S15を受信した場合、制御部62が照度の変更を開始し、照度を通常から暗く(又は明るく)する。そして、第1時間帯(例えば昼間)から第2時間帯(例えば夜間)に切り替わるタイミングになったとき、再度、制御部62が照度を明るく(又は暗く)する。その後、所定の時間帯に移行した場合に、照明設備70の照明は通常へ戻される。なお、制御部62が照度を変更するタイミングは、時間帯に基づくものに限られず、照明設備管理部60と管理領域毎に設置される照度測定装置(図示省略)とを直接あるいは間接的に接続し、当該照度測定装置の測定照度が所定の値に変化したタイミングで照度の変更を行なうようにしても良い。 FIG. 7D shows a dimming pattern in which the control unit 62 changes the illuminance of the lighting equipment 70 based on a preset time table. For example, when the interlocking transfer input ON signal S15 is received, the control unit 62 starts changing the illuminance and darkens (or brightens) the illuminance from normal. Then, when it is time to switch from the first time zone (for example, daytime) to the second time zone (for example, nighttime), the control unit 62 increases (or darkens) the illuminance again. Then, when it transfers to a predetermined time slot | zone, the illumination of the lighting installation 70 will be returned to normal. Note that the timing at which the control unit 62 changes the illuminance is not limited to that based on the time zone, and the illumination facility management unit 60 and an illuminance measurement device (not shown) installed in each management area are directly or indirectly connected. Then, the illuminance may be changed at the timing when the measured illuminance of the illuminance measuring apparatus changes to a predetermined value.
図7(e)は、初期状態で照明が消灯していた場合に制御部62が照明設備70の照度を変更する調光パターンを示す。例えば、連動移報入力ON信号S16を受信した場合、制御部62が照明設備70の照明を通常照度でONしてその後照明照度を通常に維持するかあるいは変更(暗く又は明るく)するように調光する。なお、この照度を暗く又は明るくした場合、所定時間経過後に照明設備70の照度を通常に戻すようにしても良い。 FIG. 7E shows a dimming pattern in which the control unit 62 changes the illuminance of the lighting equipment 70 when the illumination is turned off in the initial state. For example, when the interlocking transfer input ON signal S16 is received, the control unit 62 turns on the lighting of the lighting equipment 70 with the normal illuminance and then maintains the illumination illuminance to normal or changes (darker or brighter). Shine. In addition, when this illumination intensity is made dark or bright, you may make it return the illumination intensity of the lighting installation 70 to normal after progress for a predetermined time.
次に、光警報装置40の光警報制御と照明設備70の照明制御との連動制御について説明する。図8及び図9は、それぞれ連動制御の一例を示すフローチャートであり、当該制御は、受信装置50のCPU53が災害感知回線DLから災害感知信号を受信し、これに基づきCPU53がベル制御回路54に信号を送信し、これを受信したベル制御回路54がベル回線BLにベル20を鳴動させる制御信号を出力した場合に開始される。 Next, interlocking control between the light alarm control of the light alarm device 40 and the illumination control of the lighting equipment 70 will be described. FIG. 8 and FIG. 9 are flowcharts showing an example of the interlock control. In the control, the CPU 53 of the receiving device 50 receives the disaster detection signal from the disaster detection line DL, and the CPU 53 controls the bell control circuit 54 based on this. The process is started when the bell control circuit 54 that transmits the signal and receives the signal outputs a control signal for ringing the bell 20 to the bell line BL.
ベル制御回路54がベル回線BLに対してベル20の鳴動の制御信号を出力した場合、これを受けた光警報制御装置30から光警報回線KLへベル20を鳴動させる制御信号の
同期パルス(光警報制御信号)が出力される。この同期パルスに基づいて、光警報回線KLに接続される光警報装置40は光警報を開始する(ST101)。
When the bell control circuit 54 outputs a control signal for ringing the bell 20 to the bell line BL, the control signal synchronization pulse (light) for ringing the bell 20 from the light alarm control device 30 to the light alarm line KL is received. Alarm control signal) is output. Based on this synchronization pulse, the optical alarm device 40 connected to the optical alarm line KL starts an optical alarm (ST101).
光警報装置40が光警報を開始した場合、連動移報信号が、例えば移報出力部34−1から照明設備管理部60の移報入力部63−1へ送信される。ここで、例えば、移報出力部34−1と移報入力部63−1とは同一管理領域の制御を行なうように対応付けられている。このため照明設備管理部60は、移報入力部63−1に対応する管理領域内の照明設備70(照明設備M1〜MSのうち移報入力部63−1に対応するもの)の照明調光制御を当該連動移報信号に基づいて開始する(ST102)。これにより、当該管理領域内において、光警報の光警報制御と照明設備の照明調光制御が連動して行なわれる。 When the light alarm device 40 starts a light alarm, the interlocking relocation signal is transmitted from, for example, the relocation output unit 34-1 to the relocation input unit 63-1 of the lighting equipment management unit 60. Here, for example, the transfer output unit 34-1 and the transfer input unit 63-1 are associated with each other so as to control the same management area. For this reason, the illumination facility management unit 60 performs illumination dimming of the illumination facility 70 in the management area corresponding to the transfer input unit 63-1 (one corresponding to the transfer input unit 63-1 among the illumination facilities M1 to MS). Control is started based on the interlocking transmission signal (ST102). Thereby, in the said management area | region, the light alarm control of a light alarm and the illumination light control of a lighting installation are interlocked and performed.
このように連動制御を開始した後、CPU53は、光警報復旧条件を満たしたか否かを判定する(ST103)。この判定は、例えば光警報システム1を警報状態から通常状態に戻すために受信装置50に設けられる復旧ボタン(図示省略)が押下されたか否かに基づいて行なわれる。光警報復旧条件を満たしてないと判定した場合(ST103:NO)、CPU53は当該判定を行なう状態を継続する。 After starting the interlock control in this way, the CPU 53 determines whether or not the light alarm recovery condition is satisfied (ST103). This determination is made based on, for example, whether or not a recovery button (not shown) provided in the receiving device 50 is pressed to return the light alarm system 1 from the alarm state to the normal state. If it is determined that the light alarm recovery condition is not satisfied (ST103: NO), the CPU 53 continues the state in which the determination is performed.
一方、光警報復旧条件を満たしたと判定した場合(ST103:YES)、CPU53(ベル制御回路54)はベル20の鳴動制御を停止する。これにより、ベル20の鳴動が
停止すると共に当該ベル20と連動制御されている光警報が停止する(ST104)。
On the other hand, when it is determined that the light alarm recovery condition is satisfied (ST103: YES), the CPU 53 (bell control circuit 54) stops the ringing control of the bell 20. As a result, the ringing of the bell 20 stops and the light alarm controlled in conjunction with the bell 20 stops (ST104).
また、ベル20の鳴動制御の停止により光警報装制御置30は照明設備管理部60への連動移報信号の出力を停止する。このため照明設備管理部60は、連動移報信号に基づいて調光制御していた照明設備70の照明を初期の状態、例えば通常照度に変更する(ST105)。これにより、照明設備70の調光制御が終了する。 Further, the light alarm device controller 30 stops the output of the interlocking transfer signal to the lighting equipment management unit 60 by stopping the ringing control of the bell 20. For this reason, the lighting equipment management unit 60 changes the lighting of the lighting equipment 70 that has been dimming-controlled based on the interlocking transfer signal to an initial state, for example, normal illuminance (ST105). Thereby, the light control of the lighting equipment 70 is complete | finished.
なお、図8における処理の順序を異ならせることも可能である。例えば、図9のフローチャートに示すように、光警報開始(ST101)及び照明設備通調光開始(ST102)の処理を入れ替え、照明設備調光開始(ST201)、光警報開始(ST202)とし、光警報停止(S104)及び照明設備通常照度(S105)の処理を入れ替え、照明設備通常照度(ST204)、光警報停止(ST205)としても良い。 Note that the processing order in FIG. 8 can be varied. For example, as shown in the flowchart of FIG. 9, the light alarm start (ST101) and lighting equipment dimming start (ST102) processes are interchanged to obtain lighting equipment dimming start (ST201) and light alarm start (ST202). The processing of the alarm stop (S104) and the illumination facility normal illuminance (S105) may be exchanged to obtain the illumination facility normal illuminance (ST204) and the light alarm stop (ST205).
次に、図10に例示する光警報システム1の設置例を参照して連動制御の作用を説明する。図10に示すように、部屋Rは、部屋Rの一角を占有する小部屋(管理領域)R1と、小部屋R1に隣接する大部屋(隣接管理領域)R2とに区切られており、出入口Dを介して互いの部屋へ出入り可能になっている。なお、図10においては、上記の連動制御に着目した構成以外については図示を省略している。 Next, the operation of the interlock control will be described with reference to an installation example of the light alarm system 1 illustrated in FIG. As shown in FIG. 10, the room R is divided into a small room (management area) R1 that occupies a corner of the room R and a large room (adjacent management area) R2 that is adjacent to the small room R1. It is possible to enter and exit each other's room. In addition, in FIG. 10, illustration is abbreviate | omitted except the structure which paid its attention to said interlock control.
受信装置50から災害感知回線DL1が部屋R1内へ引き出されており、災害感知回線DL2が部屋R2内へ引き出されている。災害感知回線DL1及びDL2には、それぞれ災害感知器10が複数並列接続されている。また、光警報制御装置30から光警御回線KL1が部屋R1へ引き出されており、光警報回線KL2が部屋R2へ引き出されている。光警報回線KL1及びKL2には、それぞれ光警報装置40が複数並列接続されている。更に、照明設備管理部60から照明設備70の照明をON/OFFあるいは調光(以下、総称して「調光」という)する制御線L1が部屋R1へ、制御線L2が部屋R2へ引き出されている。制御線L1及びL2には、それぞれ1又は複数の照明設備70が接続されている。なお、複数の災害感知器10、複数の光警報装置40及び複数の照明設備70は、例えば、図10に示す位置と対応する小部屋R1、大部屋R2の天井面又は壁面に設置される。また、各光警報装置40の光警報領域と各照明設備70の照明領域とは一部又は全部が重なっている。つまり、管理領域R1と、小部屋R1に設けた照明設備の照明領域は、相互に一部又は全部が重複している。そして、隣接管理領域R2と、大部屋R2に設けた照明設備の照明領域は、相互に一部又は全部が重複している。 The disaster sensing line DL1 is drawn into the room R1 from the receiving device 50, and the disaster sensing line DL2 is drawn into the room R2. A plurality of disaster detectors 10 are connected in parallel to the disaster detection lines DL1 and DL2, respectively. Further, the light warning line KL1 is drawn from the light warning control device 30 to the room R1, and the light warning line KL2 is drawn to the room R2. A plurality of optical alarm devices 40 are connected in parallel to the optical alarm lines KL1 and KL2. Further, the control line L1 for turning on / off or dimming the light of the lighting equipment 70 from the lighting equipment management unit 60 (hereinafter collectively referred to as “light control”) is drawn to the room R1, and the control line L2 is drawn to the room R2. ing. One or a plurality of lighting facilities 70 are connected to the control lines L1 and L2, respectively. The plurality of disaster detectors 10, the plurality of light alarm devices 40, and the plurality of lighting facilities 70 are installed, for example, on the ceiling surface or wall surface of the small room R1 or the large room R2 corresponding to the position shown in FIG. Moreover, the light warning area | region of each light warning device 40 and the illumination area | region of each lighting installation 70 have overlapped a part or all. That is, the management area R1 and the lighting area of the lighting equipment provided in the small room R1 partially or entirely overlap each other. And the adjacent management area | region R2 and the illumination area | region of the lighting installation provided in the large room R2 have a part or all overlapping mutually.
さて、上記のように構成される光警報システム1において、小部屋R1内の災害感知器10(例えば、小部屋R1内の図示右上の斜線を施した災害感知器)が火災等の災害を検知した場合、受信装置50は災害感知回線DL1を介して災害感知信号を受信する。すると、受信装置50は、ベル回線BL(図示省略)及び光警報制御装置30を介して光警報回線KL1に接続される光警報装置40へ、ベル20の制御信号と連動する光警報制御信号を出力する。これにより、小部屋R1内の光警報装置70は、光警報を開始する。一方、光警報制御装置30の移報出力部34−1からは、光警報制御信号と連動する連動移報信号が照明設備管理部60の、対応する移報入力部64−1へ出力される。ここで、当該移報出力部34−1と当該移報入力部64−1とは、予め1対1に対応して関連づけられている。そして、両者は同一の管理領域に対応して設定されている。このため、照明設備管理部60は、小部屋R1内の照明設備70の照明を例えば暗く調光することができる。このように災害が感知された小部屋R1内の照明設備70の照明が光警報装置40の光警報の視認性が高くなるように調光制御される。 Now, in the light alarm system 1 configured as described above, the disaster detector 10 in the small room R1 (for example, the disaster sensor in the small room R1 with the diagonal line in the upper right in the figure) detects a disaster such as a fire. In this case, the receiving device 50 receives the disaster detection signal via the disaster detection line DL1. Then, the receiving device 50 sends an optical alarm control signal linked to the control signal of the bell 20 to the optical alarm device 40 connected to the optical alarm line KL1 via the bell line BL (not shown) and the optical alarm control device 30. Output. Thereby, the light alarm device 70 in the small room R1 starts a light alarm. On the other hand, from the transfer output unit 34-1 of the light warning control device 30, an interlocking transfer signal linked with the light warning control signal is output to the corresponding transfer input unit 64-1 of the lighting equipment management unit 60. . Here, the transfer output unit 34-1 and the transfer input unit 64-1 are associated in advance in a one-to-one correspondence. Both are set corresponding to the same management area. For this reason, the lighting installation management part 60 can dimm the illumination of the lighting installation 70 in the small room R1 darkly, for example. In this way, dimming control is performed so that the illumination of the lighting equipment 70 in the small room R1 where a disaster is detected becomes highly visible in the light alarm of the light alarm device 40.
また、受信装置50が災害感知回線DL1から災害感知信号を受信した場合、例えば光警報制御装置30は移報出力部64−2を介して照明設備管理部60へ連動移報信号を出力する。ここで、移報出力部64−2は、小部屋R1と隣接する大部屋R2と対応しており、照明設備管理部60は、当該連動移報信号に基づいて大部屋R2の照明設備70の照明を調光制御する。例えば大部屋R2内の照明設備70が消灯していた場合、照明設備管理部60は通常の明るさになるように当該照明設備70の照明を調光する。これにより、災害発生時に小部屋R1内の人が出入口Dを介して大部屋R2に移動し易くなる。 Further, when the receiving device 50 receives a disaster detection signal from the disaster detection line DL1, for example, the light alarm control device 30 outputs a linked transfer signal to the lighting equipment management unit 60 via the transfer output unit 64-2. Here, the transfer output unit 64-2 corresponds to the small room R1 and the large room R2 adjacent to the small room R1, and the lighting equipment management unit 60 determines the lighting equipment 70 of the large room R2 based on the interlocking transfer signal. Dimming control of lighting. For example, when the lighting equipment 70 in the large room R2 is turned off, the lighting equipment management unit 60 adjusts the lighting of the lighting equipment 70 so as to obtain normal brightness. This makes it easier for people in the small room R1 to move to the large room R2 via the entrance D when a disaster occurs.
以上のように光警報システム1は、災害感知回線DLから出力される災害発生信号に基づいて受信装置50が、この災害感知回線DLに対応する光警報回線KLについて光警報装置40の光警報制御を行なう。この場合、照明設備管理部60は、光警報制御装置30から光警報制御信号と連動する連動移報信号を受信し、当該受信した連動移報信号に基づいて、光警報の光警報領域と一部又は全ての領域が重なる照明領域を照明する照明設備70の照明に対し調光制御を行なうことができる。例えば、照明設備管理部60が照明設備70の照明を通常時の明るさより暗くなるように調光制御することにより、光警報の視認性を確保することができる。このため、光警報を行なう環境及び時間帯によって、光警報の視認性が低下するといった事態を回避することができる。 As described above, in the optical alarm system 1, the receiving device 50 controls the optical alarm of the optical alarm device 40 for the optical alarm line KL corresponding to the disaster detection line DL based on the disaster occurrence signal output from the disaster detection line DL. To do. In this case, the lighting equipment management unit 60 receives the interlocking signal that is interlocked with the light alarm control signal from the light alarm controller 30 and, based on the received interlocking signal, matches the light alarm region of the light alarm. Dimming control can be performed on the illumination of the illumination facility 70 that illuminates an illumination area in which some or all areas overlap. For example, the visibility of the light alarm can be ensured by the dimming control so that the lighting facility management unit 60 makes the lighting of the lighting facility 70 darker than the normal brightness. For this reason, the situation where the visibility of a light alarm falls by the environment and time zone which perform a light alarm can be avoided.
また、小部屋R1内の災害感知器10の災害感知に基づいて受信装置50が小部屋R1内の光警報装置40の光警報制御を行なう場合、連動移報信号に基づいて小部屋R1内の照明設備70の照明の調光制御が当該光警報装置40の光警報制御と同期される。このため、例えば、小部屋R1内のいずれの場所でも、光警報の視認性を確保することができる。 Further, when the receiving device 50 performs the light alarm control of the light alarm device 40 in the small room R1 based on the disaster detection of the disaster detector 10 in the small room R1, the inside of the small room R1 is based on the interlocking transmission signal. The dimming control of the lighting of the lighting equipment 70 is synchronized with the light alarm control of the light alarm device 40. For this reason, for example, the visibility of the light alarm can be ensured at any location in the small room R1.
更に、上記の光警報制御を行なう場合、照明設備管理部60は、連動移報信号に基づいて、大部屋R2内の照明設備70を、例えば明るく調光する。このため、災害が発生した小部屋R1からそれに隣接する大部屋R2へ、あるいは大部屋R2を通ってその外側へ避難する場合に、当該大部屋R2が暗くて避難路や避難場所が見え難いという状況を回避することができる。また、小部屋R1及び大部屋R2間の明るさの差を利用して部屋R1内の人に避難方向をより明確かつ効果的に示すことも可能になると共に、大部屋R2内が明るくなるため当該部屋内の環境を確認し易くなり、大部屋R2から更に安全な方向に迅速に避難することも可能になる。 Furthermore, when performing said light alarm control, the lighting installation management part 60 light-controls the lighting installation 70 in the large room R2, for example brightly based on an interlocking transmission signal. For this reason, when evacuating from the small room R1 where the disaster occurred to the large room R2 adjacent to it or through the large room R2, the large room R2 is dark and it is difficult to see the evacuation route or evacuation site. The situation can be avoided. Further, the difference in brightness between the small room R1 and the large room R2 can be used to show the evacuation direction more clearly and effectively to the people in the room R1, and the inside of the large room R2 becomes brighter. It becomes easy to check the environment in the room, and it is also possible to quickly evacuate from the large room R2 in a safer direction.
(第2の実施の形態)
次に、第2の実施形態について説明する。この第2の実施形態は、光警報装置40が光警報の発光光度を制御するようになっている点が既述の第1の実施形態と異なっている。したがって、以下では、この点について詳細に説明する。なお、先に説明した第1の実施形態と同一の構成には同一の符号を付し、同一の構成についての詳細な説明は省略する。
(Second Embodiment)
Next, a second embodiment will be described. The second embodiment is different from the first embodiment described above in that the light alarm device 40 controls the luminous intensity of the light alarm. Therefore, this point will be described in detail below. In addition, the same code | symbol is attached | subjected to the structure same as 1st Embodiment demonstrated previously, and detailed description about the same structure is abbreviate | omitted.
図11は、本第2の実施の形態における光警報装置40の構成を示す図である。図11に示すように、本実施形態の光警報装置40は、照度測定部45と発光パターン記録部46とを有しており、これらが制御部42と接続されている点が図4における光警報装置40と異なっている。照度測定部45は特許請求の範囲の照度測定装置に相当し、光警報装置40の光警報を行う領域の照度を測定する。発光パターン記録部46は、光警報を行なう光度(発光部の発光光度)の異なる複数の発光パターンを記憶する。制御部42は、照度測定部45の測定した照度に基づいて、発光パターン記録部46に記憶される発光パターンの1つを選択して、これに基づく光警報を行なう。制御部42の発光パターンの選択方法は、例えば、ある照度に対してはある光度の発光パターンというように一対一で発光パターンを選択する方法、又は、ある照度に対しては一定の光度以上の発光パターンから1つの発光パターンを任意に選択する方法等が考えられるが、これらに限るものではない。 FIG. 11 is a diagram showing a configuration of the light alarm device 40 in the second embodiment. As shown in FIG. 11, the light alarm device 40 of this embodiment has an illuminance measuring unit 45 and a light emission pattern recording unit 46, which are connected to the control unit 42 in the light in FIG. 4. Different from the alarm device 40. The illuminance measuring unit 45 corresponds to the illuminance measuring device in the claims, and measures the illuminance of the area where the light alarm of the light alarm device 40 is performed. The light emission pattern recording unit 46 stores a plurality of light emission patterns having different light intensity (light emission intensity of the light emission unit) for performing a light alarm. The control unit 42 selects one of the light emission patterns stored in the light emission pattern recording unit 46 based on the illuminance measured by the illuminance measurement unit 45, and performs a light alarm based on the selected light emission pattern. The light emission pattern selection method of the control unit 42 is, for example, a method of selecting a light emission pattern on a one-to-one basis such as a light emission pattern of a certain luminous intensity for a certain illuminance, or a certain luminous intensity or more A method of arbitrarily selecting one light emission pattern from the light emission patterns is conceivable, but is not limited thereto.
以上のように、本第2の実施の形態の光警報装置40は光警報発光照射領域の照度を測定する照度測定部45を備えており、そして、制御部42は照度測定部45で測定した照度に基づいて発光部43で発光する光の光度を変更することができるため、よりきめ細かく光警報の視認性を確保することができる。なお、光度の変更は、例えば光警報開始前に行なうか、又は照明設備70の照明を明るく調光制御する場合は、当該光警報開始前に加え、当該光警報前の照度(以下、「第1照度」という)と所定時間毎の照度(以下、「第2照度」という)とを比較し、第2照度から第1照度を引いた照度差が所定値以上でなくなった場合に行なうようにする。例えば所定時間毎に照度を比較する場合、煙等が発生して光警報が視認できなくなる可能性がある場合に、明設備70の照明の調光制御の状態に拘わらず光警報の光度を上げて視認性を確保することができるようになる。 As described above, the light alarm device 40 according to the second embodiment includes the illuminance measurement unit 45 that measures the illuminance of the light alarm emission region, and the control unit 42 measures the illuminance measurement unit 45. Since the luminous intensity of the light emitted from the light emitting unit 43 can be changed based on the illuminance, the visibility of the light alarm can be ensured more finely. For example, when the light intensity is changed before the start of the light alarm, or when the lighting of the lighting equipment 70 is controlled to be brightly dimmed, the illuminance before the light alarm (hereinafter referred to as “the first light alarm”) is added. 1 illuminance ”) and illuminance every predetermined time (hereinafter referred to as“ second illuminance ”), and when the illuminance difference obtained by subtracting the first illuminance from the second illuminance is not equal to or greater than a predetermined value, To do. For example, when comparing the illuminance every predetermined time, if there is a possibility that smoke or the like may be generated and the light alarm becomes invisible, the light intensity of the light alarm is increased regardless of the state of the dimming control of the lighting of the light equipment 70 Visibility can be ensured.
なお、上記各実施の形態では、光警報制御装置30は、受信装置50から引き出されるベル回線BLの終端に光警報制御装置30が接続される、つまり、光警報回線KLが受信装置50と間接的に接続される場合について説明したが、これに限るものではなく、受信装置50から光警報回線KLを直接引き出して構成しても良い。 In each of the above embodiments, the light warning control device 30 is connected to the terminal of the bell line BL drawn from the receiving device 50, that is, the light warning line KL is indirectly connected to the receiving device 50. However, the present invention is not limited to this, and the optical alarm line KL may be directly drawn out from the receiving device 50.
また、上記各実施の形態では、照明設備管理部60に入力される連動移報信号は、光警報制御装置30又は光警報装置40から出力される場合について説明したが、これに限らず、例えば受信装置50の外部移報回路55から出力されるように構成しても良い。つまり、連動移報信号は、光警報制御装置30、光警報装置40及び受信装置50の少なくともいずれか1つから照明設備管理部60に入力されるように構成すれば良い。 Moreover, in each said embodiment, although the interlocking transmission signal input into the lighting installation management part 60 demonstrated the case where it was output from the light alarm control apparatus 30 or the light alarm apparatus 40, it is not restricted to this, For example, You may comprise so that it may output from the external transmission circuit 55 of the receiver 50. FIG. That is, the interlocking transfer signal may be configured to be input to the lighting equipment management unit 60 from at least one of the light alarm control device 30, the light alarm device 40, and the reception device 50.
(変形例)
次に上記各実施の形態の変形例について説明する。この変形例は、連動移報信号が光警報装置40それぞれから照明設備管理部60へ出力されるように構成した場合である。また、各光警報装置40の光警報領域と照明設備70の照明領域とは、図12から図14に示すように、一部又は全てが重なるように構成されており、各管理領域内の光警報装置40は連動して光警報を行なうように構成される。図12から図14は、光警報装置40が照明設備70を連動制御する3つのパターンを示しており、当該3つのパターンは1台の光警報装置40が1台の照明設備70を連動制御するパターン(図12参照)、1台の光警報装置40が複数台の照明設備70を連動制御するパターン(図13参照)、及び複数台の光警報装置40が1台の照明設備70を連動制御するパターン(図14参照)である。図12から図14に示すように、光警報装置40(40a〜40c)が同期して光警報を行なうと共に光警報装置40からの連動移報信号によって照明設備管理部60が照明設備70(70a及び70b)を調光制御することにより管理領域内の全て光警報装置40及び照明設備70を連動制御できるようになっている。
(Modification)
Next, modifications of the above embodiments will be described. This modification is a case where it is constituted so that the interlocking transmission signal is output from each of the light alarm devices 40 to the lighting equipment management unit 60. Moreover, as shown in FIGS. 12 to 14, the light alarm area of each light alarm device 40 and the illumination area of the lighting equipment 70 are configured to partially or completely overlap each other, and light in each management area The alarm device 40 is configured to perform an optical alarm in conjunction with it. FIGS. 12 to 14 show three patterns in which the light alarm device 40 controls the lighting equipment 70 in conjunction with each other. In the three patterns, one light alarm device 40 controls the lighting equipment 70 in conjunction with each other. Pattern (see FIG. 12), a pattern in which one light alarm device 40 controls a plurality of lighting equipments 70 (see FIG. 13), and a plurality of light alarm devices 40 controls one lighting equipment 70 in conjunction. Pattern (see FIG. 14). As shown in FIGS. 12 to 14, the light alarm device 40 (40 a to 40 c) performs a light alarm synchronously, and the lighting equipment management unit 60 uses the interlocking transfer signal from the light alarm device 40 to turn on the lighting equipment 70 (70 a And 70b) can be controlled in conjunction with all the light alarm devices 40 and the lighting equipment 70 in the management area.
ここで、光警報装置40による連動制御の一例について説明する。例えば、図15に示すように、照明設備70a〜70eのうち例えば、照明設備70a〜70cは管理領域M1に、照明設備70d,70eは管理領域M1に隣接する隣接管理領域M2に設置されることとする。なお、図15において、「白丸」は、照明設備70の照明を通常より明るく制御する状態を示し、「黒丸」は照明設備70を通常より暗く制御する状態を示している。 Here, an example of the interlock control by the light alarm device 40 will be described. For example, as shown in FIG. 15, among the lighting facilities 70a to 70e, for example, the lighting facilities 70a to 70c are installed in the management area M1, and the lighting facilities 70d and 70e are installed in the adjacent management area M2 adjacent to the management area M1. And In FIG. 15, “white circle” indicates a state where the illumination of the lighting equipment 70 is controlled brighter than usual, and “black circle” indicates a state where the lighting equipment 70 is controlled darker than usual.
図15(a)は、管理領域M1が警報領域(災害が発生した管理領域)であるときに、連動移報信号S1からS3に基づいて当該管理領域M1の照明設備70a〜70cを連動
制御する場合を示している。連動移報信号S1からS3それぞれが対応する移報入力部63に入力されると、制御部62は、照明設備70a,70bを暗く調光すると共に照明設備70cを明るくする。これにより、管理領域M1の照明設備70a〜70cを連動制御できる。なお、照明設備70cを明るく調光するのは、例えば出入口近傍(又は避難方向)を災害発生時に管理領域M1内の人に示すためである。
FIG. 15A shows that when the management area M1 is an alarm area (a management area where a disaster has occurred), the lighting facilities 70a to 70c in the management area M1 are interlocked and controlled based on the interlocking transfer signals S1 to S3. Shows the case. When each of the interlocking transfer signals S1 to S3 is input to the corresponding transfer input unit 63, the control unit 62 dimmes the lighting facilities 70a and 70b and brightens the lighting facility 70c. Thereby, interlocking control of the lighting equipment 70a-70c of the management area | region M1 can be performed. The reason why the lighting equipment 70c is dimmed brightly is, for example, to indicate the vicinity of the entrance (or the evacuation direction) to people in the management area M1 when a disaster occurs.
また図15(b)は、管理領域がM1であるときに、入力される連動移報信号S4に基づいて当該管理領域M1及び隣接管理領域M2の照明設備70a〜70eを連動制御する場合を示している。連動移報信号S4が対応する移報入力部に入力されると、制御部62は、照明設備70a,70bを暗く調光すると共に照明設備70cの照明を明るく調光し、更に、照明設備70d,70eの照明を明るく調光する。 FIG. 15B shows a case where when the management area is M1, the lighting equipments 70a to 70e in the management area M1 and the adjacent management area M2 are interlocked and controlled based on the input interlocking message S4. ing. When the interlocking transfer signal S4 is input to the corresponding transfer input unit, the control unit 62 dimmes the illumination facilities 70a and 70b darkly, dimmes the illumination of the illumination facility 70c, and further controls the illumination facility 70d. , 70e are brightly dimmed.
この変形例のように構成した場合においても、上記第1及び第2の実施の形態と同様な効果を奏することができる。なお、連動移報信号と各照明設備70の照明との対応関係及び調光制御の設定は、図15の例に限るものでなく、任意に設定可能である。 Even when configured as in this modification, the same effects as those of the first and second embodiments can be obtained. Note that the correspondence between the interlocking transfer signal and the illumination of each lighting facility 70 and the setting of the light control are not limited to the example of FIG. 15 and can be arbitrarily set.
1・・・警報システム,10・・・災害感知器,20・・・ベル,30・・・光警報制御装置,32・・・電圧制御部,33・・・同期パルス出力部,40・・・光警報装置,42・・・制御部,43・・・発光部,45・・・照度測定部,46・・・発光パターン記録部,50・・・受信装置,60・・・照明設備管理部,62・・・制御部,70・・・照明設備,34−1〜34−P,44−1〜44−Q・・・移報出力部,63−1〜63
−R・・・移報入力部,DL・・・災害感知回線,BL・・・ベル回線,KL・・・光警報回線,M1〜Mn・・・管理領域,R1・・・小部屋,R2・・・大部屋
DESCRIPTION OF SYMBOLS 1 ... Alarm system, 10 ... Disaster detector, 20 ... Bell, 30 ... Light alarm control device, 32 ... Voltage control part, 33 ... Synchronous pulse output part, 40 ... Light alarm device, 42 ... control unit, 43 ... light emitting unit, 45 ... illuminance measuring unit, 46 ... light emission pattern recording unit, 50 ... receiving device, 60 ... lighting equipment management Part, 62 ... control part, 70 ... lighting equipment, 34-1 to 34-P, 44-1 to 44-Q ... message output part, 63-1 to 63
-R ... Transmission input part, DL ... Disaster detection line, BL ... Bell line, KL ... Optical alarm line, M1-Mn ... Management area, R1 ... Small room, R2 ... Large rooms
本発明の光警報システムの一態様は、火災感知器と直接または間接的に光警報制御装置が接続され、当該光警報制御装置から引き出された光警報回線に光警報装置が並列接続され、火災感知器の火災感知信号に基づく信号から光警報制御装置が出力する制御信号に基づいて光警報装置が光警報を行なう光警報システムであって、光警報装置が光警報を行なうことによって照明される第1領域と一部又は全てが重なる第2領域を照明する照明設備と、火災感知器、光警報制御装置及び光警報装置の少なくともいずれか1つから送信される制御信号と連動する連動移報信号に基づいて照明設備の調光制御を行なう照明設備管理部と、を備える。 One aspect of the optical alarm system of the present invention, the fire detector directly or indirectly supply the light alarm control unit is connected, the optical warning device is connected in parallel to an optical alarm line drawn from the optical alarm control device, fire A light alarm system in which a light alarm device performs a light alarm based on a control signal output from a signal based on a fire detection signal of a sensor, and is illuminated by the light alarm device performing a light alarm Interlocking relocation linked to a control signal transmitted from at least one of a lighting facility that illuminates a second region that partially or entirely overlaps with the first region, and a fire detector , a light alarm control device, and a light alarm device A lighting equipment management unit that performs dimming control of the lighting equipment based on the signal.
また、光警報システムにおいて、所定の管理領域内に複数の光警報装置及び1以上の照明設備を設け、受信装置が複数の光警報装置を制御信号に基づいて同期制御し、照明設備管理部が連動移報信号に基づいて1以上の照明設備を調光制御するようにしても良い。
Further, in the light alarm system, a plurality of light alarm devices and one or more lighting facilities are provided in a predetermined management area, and the receiving device synchronously controls the plurality of light alarm devices based on the control signal, and the lighting facility management unit Dimming control of one or more lighting facilities may be performed based on the interlocking transfer signal.
Claims (5)
前記光警報装置が光警報を行なうことによって照明される第1領域と一部又は全てが重なる第2領域を照明する照明設備と、
前記受信装置、前記光警報制御装置及び前記光警報装置の少なくともいずれか1つから送信される前記制御信号と連動する連動移報信号に基づいて前記照明設備の調光制御を行なう照明設備管理部と、
を備える、光警報システム。 A light warning control device is connected directly or indirectly to the receiving device, a light warning device is connected in parallel to a light warning line drawn from the light warning control device, and output from the receiving device via the light warning control device An optical alarm system in which the optical alarm device performs an optical alarm based on a control signal to be provided,
Illumination equipment that illuminates a second region partially or entirely overlapped with the first region illuminated by the light alarm device performing a light alarm;
A lighting equipment management unit that performs dimming control of the lighting equipment based on an interlocking transfer signal that is linked with the control signal transmitted from at least one of the receiving device, the light warning control device, and the light warning device When,
Comprising a light alarm system.
前記受信装置は前記1以上の光警報装置を前記制御信号に基づいて連動制御し、
前記照明設備管理部は前記連動移報信号に基づいて前記1以上の照明設備を調光制御する、請求項1又は2に記載の光警報システム。 One or more light alarm devices and one or more lighting facilities are provided in a predetermined management area,
The receiving device interlocks and controls the one or more light alarm devices based on the control signal,
The light alarm system according to claim 1 or 2, wherein the lighting facility management unit performs dimming control on the one or more lighting facilities based on the interlocking transfer signal.
前記照明設備管理部は前記連動移報信号に基づいて前記隣接管理領域内の1以上の照明設備を調光制御する、請求項3に記載の光警報システム。 One or more lighting facilities are provided in an adjacent management area adjacent to the predetermined management area,
The light alarm system according to claim 3, wherein the lighting equipment management unit performs dimming control of one or more lighting equipments in the adjacent management area based on the interlocking transfer signal.
前記制御信号に基づいて発光する発光部と、
前記発光部の発光により光を照射して光警報を行なう領域の照度を測定する照度測定装置と、
前記照度測定装置が測定する照度に基づいて前記発光部の発光光度を制御する制御部と、
を備える、請求項1乃至4のいずれか一項に記載の光警報システム。 The light alarm device is
A light emitting unit that emits light based on the control signal;
An illuminance measuring device that measures the illuminance of a region that emits light by emitting light from the light emitting unit and performs a light alarm;
A control unit for controlling the luminous intensity of the light emitting unit based on the illuminance measured by the illuminance measuring device;
The light alarm system according to claim 1, comprising:
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JP2017224354A (en) * | 2017-09-13 | 2017-12-21 | ホーチキ株式会社 | Optical alarm device |
JP2020091720A (en) * | 2018-12-06 | 2020-06-11 | 東京瓦斯株式会社 | Health hazard warning method, health hazard warning system and program |
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JP2007227100A (en) * | 2006-02-22 | 2007-09-06 | Toshiba Lighting & Technology Corp | Illumination control system |
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JP2017224354A (en) * | 2017-09-13 | 2017-12-21 | ホーチキ株式会社 | Optical alarm device |
JP2020091720A (en) * | 2018-12-06 | 2020-06-11 | 東京瓦斯株式会社 | Health hazard warning method, health hazard warning system and program |
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