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JPH11307280A - Emergency lighting system - Google Patents

Emergency lighting system

Info

Publication number
JPH11307280A
JPH11307280A JP11393798A JP11393798A JPH11307280A JP H11307280 A JPH11307280 A JP H11307280A JP 11393798 A JP11393798 A JP 11393798A JP 11393798 A JP11393798 A JP 11393798A JP H11307280 A JPH11307280 A JP H11307280A
Authority
JP
Japan
Prior art keywords
circuit
emergency
load
emergency lighting
power failure
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP11393798A
Other languages
Japanese (ja)
Inventor
Jun Matsuzaki
純 松▲崎▼
Yasunori Kawase
靖憲 河瀬
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Panasonic Electric Works Co Ltd
Original Assignee
Matsushita Electric Works Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Matsushita Electric Works Ltd filed Critical Matsushita Electric Works Ltd
Priority to JP11393798A priority Critical patent/JPH11307280A/en
Publication of JPH11307280A publication Critical patent/JPH11307280A/en
Pending legal-status Critical Current

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Abstract

PROBLEM TO BE SOLVED: To provide a compact and inexpensive emergency lighting system capable of reliably detecting a load condition such as no load condition and a condition at the end of its life, at normal times and in case of emergency. SOLUTION: This emergency lighting system consists of a normal lighting circuit 2 to light a fluorescent lamp FL with a commercial power supply 1 as a power source, an emergency lighting circuit 5 to light the fluorescent lamp FL in a modulated light condition in case of emergency with a secondary battery 4 as a power source, a power failure detecting circuit 6 to detect whether the commercial power supply 1 fails or not, and a switching circuit 7 to switch the fluorescent lamp FL to the emergency lighting circuit 2 and the emergency lighting circuit 5 by the output of the power failure detecting circuit 6. A detecting circuit 8 to detect an abnormal condition of a load is connected to the load side of the switching circuit 7, a discriminating circuit 9 to judge if the load is in an abnormal condition by the output of the detecting circuit 8 is provided on the emergency lighting circuit 5 side, and the threshold of the discriminating circuit 9 is switched by the output of the power failure detecting circuit 6 depending on normal times and an emergency.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】本発明は、常時は商用電源に
より点灯し、停電等の非常時には二次電池により点灯す
る非常用照明装置に関するものである。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an emergency lighting device which is always lit by a commercial power supply and lit by a secondary battery in an emergency such as a power failure.

【0002】[0002]

【従来の技術】従来、停電などの非常時に蛍光ランプを
点灯させる非常用照明装置としては、図12のような構
成が用いられている。常時は商用電源1から充電回路3
を介して二次電池4を充電するとともに、商用電源1を
電源とする常用点灯回路2で蛍光ランプFLを高周波で
点灯し、停電などの非常時には停電検出回路6が停電を
検出し、切替回路7により負荷である蛍光ランプFLを
非常点灯回路5側に切り替えて、二次電池4を電源とす
る非常点灯回路5で蛍光ランプFLを最低限の明るさを
確保出来るように光出力を落とした調光状態で高周波で
点灯させるような構成である。
2. Description of the Related Art Conventionally, a structure as shown in FIG. 12 is used as an emergency lighting device for turning on a fluorescent lamp in an emergency such as a power failure. Always from commercial power supply 1 to charging circuit 3
, The fluorescent lamp FL is lit at a high frequency by a regular lighting circuit 2 using a commercial power supply 1 as a power source, and in the event of an emergency such as a power failure, a power failure detection circuit 6 detects the power failure and a switching circuit. 7, the fluorescent lamp FL, which is a load, is switched to the emergency lighting circuit 5 side, and the light output is reduced so that the emergency lighting circuit 5 using the secondary battery 4 as a power source can secure the minimum brightness of the fluorescent lamp FL. It is configured to be lit at a high frequency in the dimming state.

【0003】蛍光ランプFLは寿命末期にフィラメント
に塗布されていた熱電子放出物質であるエミッタが無く
なり、負荷のインピーダンスが変化するという特徴があ
る。このような蛍光ランプの寿命末期や無負荷状態(ラ
ンプが外れた状態)等の負荷が異常状態のときに、負荷
状態を検出して点灯装置の発振を停止させたり間欠的に
発振させて出力部やソケットに無負荷時の高電圧が印加
されることや、ランプの寿命末期に過負荷状態になり点
灯装置の温度が異常に上昇することを防ぐことは従来か
ら一般的によく行われている。
[0003] The fluorescent lamp FL is characterized in that the emitter, which is a thermionic emission material, applied to the filament at the end of its life is eliminated, and the impedance of the load changes. When the load is abnormal, such as at the end of the life of the fluorescent lamp or in a no-load state (a state in which the lamp is disconnected), the load state is detected and the oscillation of the lighting device is stopped or intermittently oscillated to output. Conventionally, it is common practice to apply high voltage when no load is applied to parts and sockets, and to prevent overheating at the end of lamp life and abnormal rise in lighting device temperature. I have.

【0004】その検出回路の例として、図13のように
高周波のランプ電圧をトランスT1で降圧し全波整流し
た電圧を平滑し直流に変換した電圧を検出する方法や、
図14のようにランプ電流をカレントトランスCT1で
検出する方法等が用いられている。これらは寿命末期の
ランプのインピーダンスが変化し、ランプ電圧またはラ
ンプ電流がある一定値以上になると、判別回路によりラ
ンプが寿命であると判断し、発振停止などの制御を行う
ものである。
As an example of the detection circuit, as shown in FIG. 13, a method of detecting a voltage obtained by stepping down a high-frequency lamp voltage by a transformer T1, smoothing a full-wave rectified voltage and converting the voltage into a direct current,
As shown in FIG. 14, a method of detecting a lamp current with a current transformer CT1 or the like is used. In these methods, when the impedance of the lamp at the end of its life changes and the lamp voltage or the lamp current exceeds a certain value, the discrimination circuit judges that the lamp has reached the end of its life and performs control such as stopping oscillation.

【0005】[0005]

【発明が解決しようとする課題】しかし、非常用照明装
置では、図12のように商用電源1を電源とする点灯回
路2と非常時に二次電池4を電源として光出力を落とし
た調光状態で点灯する点灯回路5が異なるために、検出
回路8a,8bと判別回路9a,9bを常用点灯回路
2、非常点灯回路5のそれぞれに設けなければならず、
そのために部品点数が多くなるため、点灯装置が大きく
なり、また、コストも高くなるという問題があった。
However, in the emergency lighting device, as shown in FIG. 12, a lighting circuit 2 using a commercial power supply 1 as a power supply and a dimming state in which the light output is reduced using a secondary battery 4 as a power supply in an emergency. Since the lighting circuits 5 that are lit by the lighting circuit 5 are different, the detection circuits 8a and 8b and the discriminating circuits 9a and 9b must be provided in the normal lighting circuit 2 and the emergency lighting circuit 5, respectively.
As a result, the number of components is increased, so that there is a problem that the lighting device is increased and the cost is increased.

【0006】本発明はこのような点に鑑みてなされたも
のであり、その目的とするところは、常時及び非常時に
無負荷や寿命末期等の負荷状態を確実に検出することが
でき、かつ小型、低コストの非常用照明装置を提供する
ことにある。
SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and an object of the present invention is to enable a load state such as no load or end of life to be reliably detected at all times and in an emergency. And a low-cost emergency lighting device.

【0007】[0007]

【課題を解決するための手段】本発明によれば、上記の
課題を解決するために、図1に示すように、商用電源1
を電源として蛍光ランプFLを点灯する常用点灯回路2
と、常用点灯回路2と並列に接続された充電回路3によ
り常時は二次電池4を充電し、非常時には二次電池4を
電源として常時よりも光出力を低下させた調光状態で蛍
光ランプFLを点灯する非常点灯回路5と、停電などの
非常時に商用電源1が通電しているか停電しているかを
検出する停電検出回路6と、停電検出回路6の出力によ
り蛍光ランプFLを常用点灯回路2と非常点灯回路5に
切り替える切替回路7とからなる非常用照明装置におい
て、負荷の異常を検出する検出回路8を切替回路7の負
荷側に接続し、検出回路8の出力により負荷の異常を判
断する判別回路9を非常点灯回路5側に設け、停電検出
回路6の出力により判別回路9のしきい値を常時と非常
時で切り替えることを特徴とするものである。
According to the present invention, in order to solve the above-mentioned problems, as shown in FIG.
Lighting circuit 2 for lighting the fluorescent lamp FL using the power supply
And a charging circuit 3 connected in parallel with the regular lighting circuit 2 to always charge the secondary battery 4 and use the secondary battery 4 as a power source in an emergency to reduce the light output from the fluorescent lamp in a dimmed state. An emergency lighting circuit 5 for lighting the FL; a power failure detection circuit 6 for detecting whether the commercial power supply 1 is energized or a power failure in the event of an emergency such as a power failure; 2 and a switching circuit 7 for switching to an emergency lighting circuit 5, a detection circuit 8 for detecting a load abnormality is connected to the load side of the switching circuit 7, and the output of the detection circuit 8 detects a load abnormality. A judgment circuit 9 for judging is provided on the emergency lighting circuit 5 side, and the threshold value of the judgment circuit 9 is switched between the normal state and the emergency state by the output of the power failure detection circuit 6.

【0008】[0008]

【発明の実施の形態】(実施例1)図1は本発明の実施
例1の全体構成を示すブロック図である。商用電源1と
並列に常用点灯回路2と充電回路3が接続され、常用点
灯回路2の出力は切替回路7を介して蛍光ランプFLに
接続され、商用電源1が通電している常時においては常
用点灯回路2で蛍光ランプFLは点灯する。充電回路3
は常時は二次電池4を充電している。停電検出回路6は
商用電源1の有無を検出し、停電などの非常時に非常点
灯回路5を動作させるとともに切替回路7を動作させ、
蛍光ランプFLを非常点灯回路5側に切り替える。非常
点灯回路5は二次電池4を電源とし出力は切替回路7を
介して常用時と同じ蛍光ランプFLに接続され、停電な
どの非常時には停電検出回路6の信号により動作して、
蛍光ランプFLを調光状態で点灯する。
(Embodiment 1) FIG. 1 is a block diagram showing the overall configuration of Embodiment 1 of the present invention. The commercial lighting circuit 2 and the charging circuit 3 are connected in parallel with the commercial power supply 1, and the output of the regular lighting circuit 2 is connected to the fluorescent lamp FL via the switching circuit 7, and is normally used when the commercial power supply 1 is energized. The lighting circuit 2 turns on the fluorescent lamp FL. Charge circuit 3
Always charges the secondary battery 4. The power failure detection circuit 6 detects the presence or absence of the commercial power supply 1 and operates the emergency lighting circuit 5 and the switching circuit 7 in an emergency such as a power failure.
The fluorescent lamp FL is switched to the emergency lighting circuit 5 side. The emergency lighting circuit 5 uses the rechargeable battery 4 as a power source, and the output is connected via the switching circuit 7 to the same fluorescent lamp FL as in normal use. In an emergency such as a power failure, the emergency lighting circuit 5 operates according to the signal of the power failure detection circuit 6,
The fluorescent lamp FL is turned on in a dimming state.

【0009】負荷状態を検出する検出回路8は切替回路
7の負荷側に接続される。例えば図13のように蛍光ラ
ンプFLと並列に接続しランプ電圧を検出するような回
路である。検出回路8の出力信号は判別回路9に入力さ
れ、判別回路9により負荷状態が正常か異常かを判別
し、常用点灯回路2と非常点灯回路5に信号を出力し、
異常時には各点灯回路2,5を停止させる。
A detection circuit 8 for detecting a load state is connected to the switching circuit 7 on the load side. For example, as shown in FIG. 13, the circuit is connected in parallel with the fluorescent lamp FL and detects the lamp voltage. The output signal of the detection circuit 8 is input to a discrimination circuit 9, which discriminates whether the load state is normal or abnormal, and outputs a signal to the regular lighting circuit 2 and the emergency lighting circuit 5,
When an abnormality occurs, the lighting circuits 2 and 5 are stopped.

【0010】本実施例の具体的な回路構成を図2〜図4
に示す。常用点灯回路2は図2に示されるように、トラ
ンジスタQ1,Q2からなるハーフブリッジ構成の点灯
回路で、整流回路21と平滑回路22により商用電源1
を整流・平滑し、制御回路23によりトランジスタQ
1,Q2を高周波で交互にオンさせて、蛍光ランプFL
を高周波で点灯する。C1は直流カット用コンデンサ、
C2は予熱用コンデンサ、L1はバラストチョークであ
る。常用点灯回路2の出力はリレー等で構成される切替
回路71〜74を介して蛍光ランプFLに接続される。
切替回路71〜74の端子a,b及びdには図3に示さ
れる非常点灯回路の出力a,b及びdがそれぞれ接続さ
れている。なお、切替回路75は切替回路71〜74と
連動しており、停電時には二次電池4を非常点灯回路に
接続すると共に、検出回路に電源電圧Vccを供給す
る。
FIGS. 2 to 4 show specific circuit configurations of this embodiment.
Shown in As shown in FIG. 2, the regular lighting circuit 2 is a lighting circuit having a half-bridge configuration including transistors Q1 and Q2.
Is rectified and smoothed, and the transistor Q
1 and Q2 are alternately turned on at a high frequency, and the fluorescent lamp FL
Is turned on at high frequency. C1 is a DC cut capacitor,
C2 is a preheating capacitor, and L1 is a ballast choke. The output of the regular lighting circuit 2 is connected to the fluorescent lamp FL via switching circuits 71 to 74 including relays and the like.
Outputs a, b and d of the emergency lighting circuit shown in FIG. 3 are connected to terminals a, b and d of the switching circuits 71 to 74, respectively. The switching circuit 75 is linked to the switching circuits 71 to 74, and connects the secondary battery 4 to the emergency lighting circuit and supplies the power supply voltage Vcc to the detection circuit in the event of a power failure.

【0011】次に、検出回路の構成について説明する。
図2の蛍光ランプFLと並列にトランスT1が接続さ
れ、ランプ電圧を降圧し全波整流した電圧が端子e,G
間に得られる。この端子e,G間には、図4に示される
コンデンサC6が接続されており、コンデンサC6の両
端には平滑された直流電圧が得られる。この直流電圧を
抵抗R2,R3で分圧した電圧Vsと基準電圧Vrとを
比較器CP1で比較する。常時は停電検出回路6の信号
AはHighレベルであり、トランジスタQ6はオンす
る。その結果、基準電圧Vrは抵抗R5とR6の並列抵
抗と抵抗R4により分圧した電圧となる。
Next, the configuration of the detection circuit will be described.
A transformer T1 is connected in parallel with the fluorescent lamp FL of FIG. 2, and a voltage obtained by stepping down the lamp voltage and performing full-wave rectification is supplied to terminals e and G.
Obtained in between. A capacitor C6 shown in FIG. 4 is connected between the terminals e and G, and a smoothed DC voltage is obtained at both ends of the capacitor C6. A voltage CP obtained by dividing the DC voltage by the resistors R2 and R3 is compared with a reference voltage Vr by a comparator CP1. Normally, the signal A of the power failure detection circuit 6 is at the high level, and the transistor Q6 is turned on. As a result, the reference voltage Vr becomes a voltage divided by the parallel resistance of the resistors R5 and R6 and the resistor R4.

【0012】負荷が寿命末期などの異常状態になったと
き、ランプ電圧が高くなるのと比例して検出電圧Vsが
上昇する。検出電圧Vsが基準電圧Vrより高くなる
と、比較器CP1の出力はLowレベルからHighレ
ベルに変化し、トランジスタQ5がオンして発光ダイオ
ードPD1に電流が流れ、フォトトランジスタPT1が
オンし、常用点灯回路2のトランジスタQ1,Q2のゲ
ート・ソース間を短絡するから、常用点灯回路2の発振
は停止する。
When the load enters an abnormal state such as the end of life, the detection voltage Vs increases in proportion to the increase in the lamp voltage. When the detection voltage Vs becomes higher than the reference voltage Vr, the output of the comparator CP1 changes from the Low level to the High level, the transistor Q5 is turned on, the current flows through the light emitting diode PD1, the phototransistor PT1 is turned on, and the ordinary lighting circuit is turned on. Since the gates and sources of the two transistors Q1 and Q2 are short-circuited, the oscillation of the ordinary lighting circuit 2 stops.

【0013】非常点灯回路は図3のようなトランジスタ
Q3,Q4からなるプッシュプル構成の点灯回路で、L
2は定電流用インダクタ、R1はバイアス抵抗、T2は
リーケ一ジトランス、C3は共振用コンデンサ、C4は
限流用コンデンサ、C5は予熱用コンデンサである。共
振用コンデンサC3とリーケ一ジトランスT2の1次巻
線N1との共振電流により、帰還巻線N4を介してトラ
ンジスタQ3,Q4を高周波で発振させ、常時よりも光
出力を落とした調光状態で点灯している。2次巻線N2
と予熱巻線N3の出力は切替回路71〜74の端子a,
b及びdを介して蛍光ランプFLに接続されている。ト
ランジスタQ3のベース電位は端子hからダイオードD
1を介してトランジスタQ5のコレクタに接続されてお
り、トランジスタQ5がオンされると、トランジスタQ
3がオフとなり、非常点灯回路は停止する。
The emergency lighting circuit is a push-pull lighting circuit composed of transistors Q3 and Q4 as shown in FIG.
2 is a constant current inductor, R1 is a bias resistor, T2 is a leakage transformer, C3 is a resonance capacitor, C4 is a current limiting capacitor, and C5 is a preheating capacitor. The transistors Q3 and Q4 oscillate at a high frequency through the feedback winding N4 due to the resonance current between the resonance capacitor C3 and the primary winding N1 of the leakage transformer T2, and in a dimming state where the optical output is lower than usual. It is lit. Secondary winding N2
And the output of the preheating winding N3 are the terminals a of the switching circuits 71 to 74,
It is connected to the fluorescent lamp FL via b and d. The base potential of the transistor Q3 is supplied from the terminal h to the diode D
1 is connected to the collector of the transistor Q5. When the transistor Q5 is turned on, the transistor Q5 is turned on.
3 is turned off, and the emergency lighting circuit stops.

【0014】非常時に負荷が寿命末期等の異常状態にな
ったとき、ランプ電圧は上昇するが、非常時には調光点
灯しているために、正常時のランプ電圧が図5のように
調光レべルに比例して高くなっており、寿命末期のラン
プFLでも正常時に比べてランプ電圧は高くなっている
ので、検出のしきい値を上げる必要がある。本実施例で
は、非常時には停電検出回路6の信号AはLowレベル
に反転しており、トランジスタQ6はオフしている。従
って、基準電圧Vrは抵抗R4,R6の分圧となり、常
時より高くなるので、検出のしきい値レべルが高くな
り、確実に検出することが可能である。
When the load becomes abnormal at the end of life or the like in an emergency, the lamp voltage rises. However, in an emergency, the lamp is lit and dimmed. Since the lamp voltage is higher in proportion to the level of the lamp and the lamp voltage of the lamp FL at the end of its life is higher than that in the normal state, it is necessary to increase the detection threshold. In this embodiment, in an emergency, the signal A of the power failure detection circuit 6 is inverted to Low level, and the transistor Q6 is off. Therefore, the reference voltage Vr is a partial voltage of the resistors R4 and R6 and is higher than usual, so that the threshold level of detection is increased, and it is possible to detect the voltage reliably.

【0015】負荷の状態を検出する方法として、図14
のようにランプ電流をカレントトランスCT1で検出す
る方法等もある。ランプ電流を検出する場合には、調光
レべルに対してランプ電流は図6のように変化する。し
たがって、この場合は常時の検出レべルを非常時より高
くする必要がある。そこで、停電検出回路6の信号Aを
常時と非常時で反転させ、基準電圧Vrが常時の方が非
常時より高くなるようにする。これにより、検出レべル
のしきい値は常時の方が高くなる。
FIG. 14 shows a method for detecting the load state.
As described above, there is a method of detecting the lamp current with the current transformer CT1. When the lamp current is detected, the lamp current changes as shown in FIG. 6 with respect to the dimming level. Therefore, in this case, the detection level at all times needs to be higher than in an emergency. Therefore, the signal A of the power failure detection circuit 6 is inverted at all times and in an emergency so that the reference voltage Vr is always higher than in an emergency. Thus, the threshold of the detection level is always higher.

【0016】また、図7のように、トランジスタQ7、
抵抗R10〜R13、ダイオードD2,D3からなるラ
ッチ回路を付加した場合には、負荷が異常状態の時に上
述のように検出回路が動作すると、比較器CP1の出力
がHighレベルとなり、トランジスタQ5がオンし、
上記と同様に、常時点灯回路2、非常点灯回路5の発振
を停止させるとともに、トランジスタQ7がオンし、ト
ランジスタQ5のべース電流を供給し続けるので、トラ
ンジスタQ5はオンし続け、各点灯回路2,5は発振停
止を継続する。ラッチを解除するにはランプFLを交換
するときに、同時に二次電池4の接続を外すことで解除
することができる。
As shown in FIG. 7, transistors Q7,
When a latch circuit including resistors R10 to R13 and diodes D2 and D3 is added, if the detection circuit operates as described above when the load is in an abnormal state, the output of the comparator CP1 goes high and the transistor Q5 turns on. And
Similarly to the above, the oscillation of the constant lighting circuit 2 and the emergency lighting circuit 5 is stopped, and the transistor Q7 is turned on and the base current of the transistor Q5 is continuously supplied. 2, 5 continue the oscillation stop. The latch can be released by replacing the lamp FL at the same time that the secondary battery 4 is disconnected.

【0017】以上のように本発明では検出回路8を共用
化することができ、また、常時も非常時も確実に負荷の
状態を検出することが可能である。
As described above, according to the present invention, the detection circuit 8 can be shared, and the state of the load can be reliably detected always and in an emergency.

【0018】(実施例2)図8は本発明の実施例2の要
部回路構成を示す。他の部分の構成は実施例1の図2及
び図3と同じである。常時に負荷異常を検出し、トラン
ジスタQ7、Q12からなるラッチ回路が動作している
ときに電源をオン・オフすると、停電検出回路6の信号
Aは反転する。すなわち図9に示すように、通電時は信
号AはLowレベルとなり、トランジスタQ10はオン
し、トランジスタQ11はオフし、トランジスタQ8は
オフしている。
(Embodiment 2) FIG. 8 shows a main circuit configuration of Embodiment 2 of the present invention. The configuration of the other parts is the same as in FIGS. 2 and 3 of the first embodiment. When a load abnormality is constantly detected and the power is turned on / off while the latch circuit including the transistors Q7 and Q12 is operating, the signal A of the power failure detection circuit 6 is inverted. That is, as shown in FIG. 9, when current is supplied, the signal A is at the low level, the transistor Q10 is turned on, the transistor Q11 is turned off, and the transistor Q8 is turned off.

【0019】負荷が異常であり比較器CP1の出力がH
ighレベルになると、トランジスタQ5はオンし、発
光ダイオードPD1に電流が流れ、トランジスタQ1,
Q2はオフし、常用点灯回路2の発振が停止するととも
に、ラッチ回路のトランジスタQ7もオンし、トランジ
スタQ5はオンを継続するので、発振停止が保持されて
いる。この状態で商用電源1をオフすると、停電検出回
路6の信号AはHighレベルになり、トランジスタQ
8がオンしてトランジスタQ5はオフ、トランジスタQ
7もオフするのでラッチは解除される。
If the load is abnormal and the output of comparator CP1 is H
When the transistor goes to the high level, the transistor Q5 turns on, a current flows through the light emitting diode PD1, and the transistor Q1,
Q2 is turned off, the oscillation of the ordinary lighting circuit 2 is stopped, and the transistor Q7 of the latch circuit is also turned on, so that the transistor Q5 continues to be turned on, so that the oscillation stop is maintained. When the commercial power supply 1 is turned off in this state, the signal A of the power failure detection circuit 6 goes high and the transistor Q
8 is turned on, transistor Q5 is turned off, and transistor Q5 is turned off.
Since 7 is also turned off, the latch is released.

【0020】非常時も同様に停電検出回路6の信号Aは
Highレベルであり、トランジスタQ9がオンし、ト
ランジスタQ10はオフしている。負荷異常を検出し、
比較器CP1の出力がHighレベルになると、トラン
ジスタQ11がオンし、トランジスタQ3,Q4がオフ
して非常点灯回路5の発振が停止すると共にトランジス
タQ12によるラッチ回路が動作し、発振停止が保持さ
れる。復電時に停電検出回路6の信号AがLowレベル
になると、トランジスタQ10がオンし、トランジスタ
Q11がオフするためにラッチは解除される。
Similarly, in an emergency, the signal A of the power failure detection circuit 6 is at the high level, the transistor Q9 is turned on, and the transistor Q10 is turned off. Detects load abnormalities,
When the output of the comparator CP1 becomes High level, the transistor Q11 turns on, the transistors Q3 and Q4 turn off, the oscillation of the emergency lighting circuit 5 stops, and the latch circuit by the transistor Q12 operates, and the oscillation stop is maintained. . When the signal A of the power failure detection circuit 6 goes low during power recovery, the transistor Q10 is turned on and the transistor Q11 is turned off, so that the latch is released.

【0021】以上のように、本実施例では、常時及び非
常時について共通の検出回路を使用してそれぞれ個別に
負荷異常を検出することが出来ると共に、負荷異常を検
出して発振停止保持状態となったものを非常時には電源
の復帰により解除することができ、常時は商用電源のオ
ン・オフで解除することが可能となる。
As described above, in this embodiment, the load abnormality can be individually detected at all times by using the common detection circuit for the normal operation and the emergency operation. In the event of an emergency, the power can be released by restoring the power, and can be released by turning on / off the commercial power at all times.

【0022】(実施例3)図10に本発明の実施例3を
示す。常用点灯回路2の入力電源に壁スイッチ10を設
け、商用電源1が通電されている常時において蛍光ラン
プFLを任意に点滅可能にした場合、蛍光ランプFLが
無負荷で消灯されているのか、壁スイッチ10により消
灯されているのかを判別することはできない。そこで、
本実施例では壁スイッチ10により消灯しているかを判
別する消灯検出回路11を追加し、壁スイッチ10によ
る消灯時には検出回路8が動作しないようにする。
Third Embodiment FIG. 10 shows a third embodiment of the present invention. When the wall switch 10 is provided to the input power supply of the regular lighting circuit 2 and the fluorescent lamp FL can be arbitrarily blinked at all times when the commercial power supply 1 is energized, whether the fluorescent lamp FL is extinguished with no load or whether the wall is The switch 10 cannot determine whether the light is turned off. Therefore,
In this embodiment, a light-off detection circuit 11 for determining whether the light is turned off by the wall switch 10 is added, and the detection circuit 8 does not operate when the light is turned off by the wall switch 10.

【0023】具体的には図11のように壁スイッチ10
の接点と並列に抵抗と発光ダイオードPD2の直列回路
を接続する。壁スイッチ10の接点が開路されていると
き、常用点灯回路2には電源が供給されないので蛍光ラ
ンプFLは消灯する。このとき、商用電源1が通電され
ていれば、発光ダイオードPD2には電流が流れ、フォ
トトランジスタPT2がオンするので検出電圧Vsが短
絡状態になり、検出回路8が動作しない状態になる。ま
た、ラッチ回路のトランジスタQ7により発振停止が保
持されている状態でも、検出電圧Vsが略0Vとなるた
めに比較器CP1の出力はLowレベルになり、トラン
ジスタQ5がオフしてラッチは解除される。
Specifically, as shown in FIG.
And a series circuit of a light-emitting diode PD2 is connected in parallel with the contact. When the contact of the wall switch 10 is open, no power is supplied to the regular lighting circuit 2 and the fluorescent lamp FL is turned off. At this time, if the commercial power supply 1 is energized, a current flows through the light emitting diode PD2 and the phototransistor PT2 is turned on, so that the detection voltage Vs is short-circuited, and the detection circuit 8 does not operate. Further, even when the oscillation stop is held by the transistor Q7 of the latch circuit, the output of the comparator CP1 becomes Low level because the detection voltage Vs becomes substantially 0 V, the transistor Q5 turns off and the latch is released. .

【0024】壁スイッチ10の接点が閉路されていると
き、常用点灯回路2には電源が供給されるので、蛍光ラ
ンプFLは点灯する。このとき、発光ダイオードPD2
には電流が流れないので、フォトトランジスタPT2は
オフしており、検出が可能な状態となる。また、非常時
には壁スイッチ10の状態がどのような状態であっても
発光ダイオードPD2に電流が流れないので、検出回路
8は動作可能な状態となる。なお、他の部分の構成は実
施例1の図2及び図3と同様である。
When the contact of the wall switch 10 is closed, power is supplied to the ordinary lighting circuit 2, so that the fluorescent lamp FL is turned on. At this time, the light emitting diode PD2
Since no current flows through the photo transistor PT2, the phototransistor PT2 is turned off, and the phototransistor PT2 can be detected. Also, in an emergency, no current flows through the light emitting diode PD2 regardless of the state of the wall switch 10, so that the detection circuit 8 becomes operable. The configuration of the other parts is the same as in FIGS. 2 and 3 of the first embodiment.

【0025】以上のように、本実施例では常時のランプ
FLの消灯状態を検出することで負荷の状態が無負荷で
あるか消灯であるかを判別可能であるとともに、常時の
ラッチの解除を壁スイッチ10で行うことができる。
As described above, in this embodiment, it is possible to determine whether the load state is no load or off by detecting the off state of the lamp FL at all times, and to release the latch at all times. This can be done with the wall switch 10.

【0026】[0026]

【発明の効果】請求項1の発明によれば、負荷異常時の
検出回路を常用点灯回路と非常用点灯回路とで共用化す
ることができるので、非常用照明装置の小型化、コスト
ダウンが可能であると共に、常時と非常時とで確実に負
荷の異常を検出することができるという効果がある。
According to the first aspect of the present invention, the load abnormality detection circuit can be shared by the normal lighting circuit and the emergency lighting circuit, so that the size and cost of the emergency lighting device can be reduced. In addition to this, there is an effect that the abnormality of the load can be reliably detected always and in an emergency.

【0027】また、請求項2の発明によれば、負荷異常
を検出して発振停止保持状態となったものを非常時には
電源の復帰により解除することができ、常時は商用電源
のオン・オフで解除することが可能となる。
According to the second aspect of the present invention, the state in which the oscillation is stopped and held when the load abnormality is detected can be released by returning the power in an emergency, and the commercial power supply is normally turned on and off. It can be released.

【0028】さらに、請求項3の発明によれば、常時の
ランプの消灯状態を検出することで負荷の状態が無負荷
であるか消灯であるかを判別可能であるとともに、常時
の発振停止保持状態の解除を壁スイッチで行うことがで
きるという効果がある。
Further, according to the third aspect of the present invention, it is possible to determine whether the load is in a no-load state or a non-light-off state by detecting the lamp-off state at all times, and to always hold the oscillation stop. There is an effect that the state can be released by the wall switch.

【図面の簡単な説明】[Brief description of the drawings]

【図1】本発明の実施例1の全体構成を示すブロック図
である。
FIG. 1 is a block diagram illustrating an overall configuration of a first embodiment of the present invention.

【図2】本発明の実施例1〜3の常用点灯回路とその周
辺回路の回路図である。
FIG. 2 is a circuit diagram of a regular lighting circuit and its peripheral circuits according to Embodiments 1 to 3 of the present invention.

【図3】本発明の実施例1〜3の非常用点灯回路とその
周辺回路の回路図である。
FIG. 3 is a circuit diagram of an emergency lighting circuit and peripheral circuits according to the first to third embodiments of the present invention.

【図4】本発明の実施例1の検出回路と判別回路の回路
図である。
FIG. 4 is a circuit diagram of a detection circuit and a determination circuit according to the first embodiment of the present invention.

【図5】本発明に用いる負荷のランプ電圧と光束比の関
係を示す特性図である。
FIG. 5 is a characteristic diagram showing a relationship between a lamp voltage of a load used in the present invention and a luminous flux ratio.

【図6】本発明に用いる負荷のランプ電流と光束比の関
係を示す特性図である。
FIG. 6 is a characteristic diagram showing a relationship between a lamp current of a load used in the present invention and a luminous flux ratio.

【図7】本発明の実施例1の検出回路と判別回路の一変
形例の回路図である。
FIG. 7 is a circuit diagram of a modification of the detection circuit and the determination circuit according to the first embodiment of the present invention.

【図8】本発明の実施例2の検出回路と判別回路の回路
図である。
FIG. 8 is a circuit diagram of a detection circuit and a determination circuit according to a second embodiment of the present invention.

【図9】本発明の実施例2の動作説明図である。FIG. 9 is an operation explanatory diagram of the second embodiment of the present invention.

【図10】本発明の実施例3の全体構成を示すブロック
図である。
FIG. 10 is a block diagram illustrating an entire configuration of a third embodiment of the present invention.

【図11】本発明の実施例3の検出回路と判別回路の回
路図である。
FIG. 11 is a circuit diagram of a detection circuit and a determination circuit according to a third embodiment of the present invention.

【図12】従来の非常用照明装置の構成を示すブロック
回路図である。
FIG. 12 is a block circuit diagram showing a configuration of a conventional emergency lighting device.

【図13】従来のランプ電圧検出回路の構成を示す回路
図である。
FIG. 13 is a circuit diagram showing a configuration of a conventional lamp voltage detection circuit.

【図14】従来のランプ電流検出回路の構成を示す回路
図である。
FIG. 14 is a circuit diagram showing a configuration of a conventional lamp current detection circuit.

【符号の説明】[Explanation of symbols]

1 商用電源 2 常用点灯回路 3 充電回路 4 二次電池 5 非常点灯回路 6 停電検出回路 7 切替回路 8 検出回路 9 判別回路 DESCRIPTION OF SYMBOLS 1 Commercial power supply 2 Regular lighting circuit 3 Charging circuit 4 Secondary battery 5 Emergency lighting circuit 6 Power failure detection circuit 7 Switching circuit 8 Detection circuit 9 Discrimination circuit

Claims (3)

【特許請求の範囲】[Claims] 【請求項1】 商用電源を電源として蛍光ランプを点
灯する常用点灯回路と、 常用点灯回路と並列に接続された充電回路により常時は
二次電池を充電し、非常時には二次電池を電源として常
時よりも光出力を低下させた調光状態で蛍光ランプを点
灯する非常点灯回路と、 停電などの非常時に商用電源が通電しているか停電して
いるかを検出する停電検出回路と、 停電検出回路の出力により蛍光ランプを常用点灯回路と
非常点灯回路に切り替える切替回路とからなる非常用照
明装置において、 負荷の異常を検出する検出回路を切替回路の負荷側に接
続し、検出回路の出力により負荷の異常を判断する判別
回路を非常点灯回路側に設け、停電検出回路の出力によ
り判別回路のしきい値を常時と非常時で切り替えること
を特徴とする非常用照明装置。
An ordinary lighting circuit for lighting a fluorescent lamp using a commercial power supply as a power supply, and a charging circuit connected in parallel with the ordinary lighting circuit always charges the secondary battery, and always uses the secondary battery as a power supply in an emergency. An emergency lighting circuit that lights the fluorescent lamp in a dimmed state with a lower light output than that of a power failure detection circuit that detects whether the commercial power supply is energized or a power failure occurs in an emergency such as a power failure, and a power failure detection circuit In an emergency lighting system consisting of a switching circuit that switches a fluorescent lamp between a regular lighting circuit and an emergency lighting circuit according to the output, a detection circuit that detects an abnormality in the load is connected to the load side of the switching circuit, and the load of the load is detected by the output of the detection circuit. An emergency lighting device characterized in that a judgment circuit for judging an abnormality is provided on an emergency lighting circuit side, and a threshold value of the judgment circuit is switched between a normal state and an emergency state by an output of a power failure detection circuit. .
【請求項2】 請求項1において、判別回路を停電検
出回路の出力によりリセットすることを特徴とする非常
用照明装置。
2. The emergency lighting device according to claim 1, wherein the determination circuit is reset by an output of the power failure detection circuit.
【請求項3】 請求項2において、電源を3線とし常
時に壁スイッチで常用点灯回路を点滅可能とした非常用
照明装置であって、壁スイッチのオン・オフを検出する
消灯検出回路を設け、消灯時に判別回路をリセットする
ことを特徴とする非常用点灯装置。
3. The emergency lighting device according to claim 2, wherein the power supply is made of three wires, and the common lighting circuit can be turned on and off by a wall switch at all times, and a turn-off detection circuit for detecting on / off of the wall switch is provided. An emergency lighting device characterized in that the judgment circuit is reset when the light is turned off.
JP11393798A 1998-04-23 1998-04-23 Emergency lighting system Pending JPH11307280A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP11393798A JPH11307280A (en) 1998-04-23 1998-04-23 Emergency lighting system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP11393798A JPH11307280A (en) 1998-04-23 1998-04-23 Emergency lighting system

Publications (1)

Publication Number Publication Date
JPH11307280A true JPH11307280A (en) 1999-11-05

Family

ID=14624950

Family Applications (1)

Application Number Title Priority Date Filing Date
JP11393798A Pending JPH11307280A (en) 1998-04-23 1998-04-23 Emergency lighting system

Country Status (1)

Country Link
JP (1) JPH11307280A (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR20000063467A (en) * 2000-07-14 2000-11-06 손태한 Ballast Circuit for Emergency Lighting
JP2006286339A (en) * 2005-03-31 2006-10-19 Mitsubishi Electric Corp Guide lamp lighting device
JP2009146713A (en) * 2007-12-13 2009-07-02 Toshiba Lighting & Technology Corp Lighting-up device for disaster prevention illumination, and illuminating device for disaster prevention illumination instrument
JP2010277966A (en) * 2009-06-01 2010-12-09 Mitsubishi Electric Corp Discharge lamp lighting device

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR20000063467A (en) * 2000-07-14 2000-11-06 손태한 Ballast Circuit for Emergency Lighting
JP2006286339A (en) * 2005-03-31 2006-10-19 Mitsubishi Electric Corp Guide lamp lighting device
JP2009146713A (en) * 2007-12-13 2009-07-02 Toshiba Lighting & Technology Corp Lighting-up device for disaster prevention illumination, and illuminating device for disaster prevention illumination instrument
JP2010277966A (en) * 2009-06-01 2010-12-09 Mitsubishi Electric Corp Discharge lamp lighting device

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