JP2004259564A - Lighting control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To facilitate setting of a target illuminance even if a number of devices in need of setting the target illuminance exist, by controlling light outputs of a lighting fixture so as to keep an illuminance on a working face at the target illuminance. <P>SOLUTION: The system is provided with the lighting fixture changing light outputs according to light-control signals inputted from outside, and a controller 12 equipped with a function of detecting a working-face illuminance within a range lit by the lighting fixture 1 and generating light-control signals to the lighting fixture so that the working-face illuminance may maintain the preset target illuminance. The controller 12 is connected to a transmission unit 10 making data transmission by a time division multiplex transmission system through signal wires Ls. A light-control switch 11 is connected to the signal wires Ls, and the target illuminance is stored at a data memory part consisting of a nonvolatile memory fitted to the controller 12 by operation of an up-operating part Su and a down-operating part Sd of the light-control switch. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

【００３９】
各目標照度は第１実施形態において説明した調光スイッチ１１を用いて調節することができる。ここに、各目標照度に対応付けられるアドレスが異なるから、１台の調光スイッチ１１で複数個の目標照度を調節可能とするには、１台の調光スイッチ１１に対して複数個のアドレスをグループ制御（またはパターン制御）と同様に対応付け、１台の調光スイッチ１１の操作により複数個の目標照度を一括して変化させるのが望ましい。ただし、照度センサ付調光制御端末器１２では複数個の目標照度を同時に用いることはできないから、複数個の目標照度の中から有効なものが択一的に選択される。つまり、各時点では複数個のアドレスの中の１個のみが有効になる。どのアドレスを有効にするかは、たとえば第２実施形態において説明したタイムスイッチと同様にタイムスケジュールに従って割込信号Ｖｉを発生する操作端末器を用いるようにすればよい。
【００４０】
表１の最下段である「照度設定」は、第２実施形態のように夜間などであって外光が生じていないときに照明設計に基づく照度の情報を用いて目標照度を設定する際に、信号処理部２０において設定処理の動作を起動するために設けたアドレスである。目標照度１と目標照度２とは、「照度設定」により求めた目標照度に対する相対値として設定される。要するに、「照度設定」により求めた机上面の目標照度を基準とし、執務時間中の目標照度である目標照度１と休憩時間中の目標照度である目標照度２とは基準に対して規定値を加算または減算することによって設定する。「照度設定」のアドレスは、目標照度の設定中にのみ有効になり、設定終了時に自動的に無効になる。また、表１の最上段である「強制制御」は、このアドレスが指定されたときに、照度検知回路２４による検出照度とは無関係に照明器具１の光出力を規定した値に設定する。つまり、このアドレスに対応する操作端末器がオンになると、規定した光出力の調光信号が出力される。
【００４１】
表１に示す４個のアドレスは、各別の操作端末器に対応付けておけばよいが、上述のように、一部あるいは全部のアドレスを１台の操作端末器に対応付けることも可能である。いずれか複数のアドレスが異なる操作端末器に対応付けられているときには、１つのアドレスが選択されているときに他のアドレスが選択される可能性があるが、この場合には最後に操作された操作端末器に対応するアドレスを有効にするように処理すればよい。
【００４２】
ところで、本実施形態では、照度を複数段階（「強制制御」「目標照度１」「目標照度２」の３段階）から選択可能としているから、照度の段階を切り換える際には照度が大きく変化する可能性がある。たとえば、執務時間中においては「目標照度１」を採用して１５００ｌｘ程度の作業面照度（机上面照度）が得られるように照明器具１の光出力をフィードバック制御し、昼休みには「強制制御」を採用して照明器具１の光出力を１０％（作業面照度が７００ｌｘ程度）に固定するものとする。この場合、午前の執務時間から昼休みになった時点あるいは昼休みから午後の執務時間になった時点において、照明器具１の光出力が急に変化することになるから、急な明るさの変化に目が慣れず、周囲が見えにくくなる可能性がある。そこで、本実施形態では、照度の段階が切り換えられたときには、信号処理部２０において時間の経過とともに光出力を徐々に増減させるフェード制御を行うようにしてある。つまり、信号処理部２０は、照度の段階が切り換えられると照度の変化が増加方向か減少方向かを判断し、照明器具１に与える調光信号を時間経過とともに徐々に増加または減少させる。
【００４３】
いま、図１０に示すように、午前の執務時間である９：００〜１２：００の時間帯は「目標照度１」が採用され、昼休みである１２：００〜１３：００の時間帯は「強制制御」（光出力１０％）が採用され、午後の執務時間である１３：００〜１８：００の時間帯は「目標照度１」が採用されているものとする。この場合、１２：００において「目標照度１」から「強制制御」に変化させる場合には、１２：００になると時間経過に伴って光出力を徐々に減少させるフェード制御を行い、１３：００において「強制制御」から「目標照度１」に変化させる場合には、１３：００になると時間経過に伴って光出力を徐々に増加させるフェード制御を行うのである。このように照度の段階を変化させるときにフェード制御を挟む制御を採用することにより、明るさの急な変化を防止することが可能になる。フェード制御を行う期間はあらかじめ設定することができ、切換前の光出力と切換後の光出力との差およびフェード制御を行う期間によって光出力の変化速度が決定される。また、変化速度をあらかじめ設定しておきフェード制御を開始してから切換後の光出力に到達するとフェード制御を終了する構成としてもよい。また、フェード制御の要否を選択可能としておくのが望ましい。
【００４４】
なお、本実施形態では照度が３段階に切換可能になっているが、１段階の目標照度と強制制御との組合せや、２段階の目標照度の組合せのように照度を２段階に切り換える場合でも本実施形態の構成を採用することができ、また照度が４段階以上に切換可能な場合にも本実施形態の構成を採用することが可能である。さらに、図１０に示した例のように目標照度でのフィードバック制御を行う期間と強制制御を行う期間との切換を行う場合に、フィードバック制御を行う期間には目標照度を確保する必要があるから、強制制御からフィードバック制御への移行の際に強制制御の期間においてフェード制御を行うようにすれば、フィードバック制御の期間には目標照度を確実に確保することが可能になる。他の構成および動作は第１実施形態と同様である。
【００４５】
【発明の効果】
請求項１の発明は、外部から入力される調光信号に従って光出力を変化させる照明器具と、照明器具により照明される範囲内の作業面照度を検出する機能を有し検出した作業面照度があらかじめ設定された目標照度を保つように照明器具への調光信号を生成するコントローラと、コントローラとは信号線を介して接続され信号線に時分割多重伝送方式によるデータ伝送を行うための多重伝送信号を送出する伝送ユニットと、信号線に接続され多重伝送信号を用いてコントローラに伝送するデータを操作部の操作に応じて生成する調光スイッチとを備え、コントローラおよび調光スイッチはそれぞれアドレスを有するとともに伝送ユニットとの間で多重伝送信号を用いてデータを授受し、伝送ユニットにおいてアドレスの対応関係を設定した関係データにより調光スイッチの操作がコントローラの動作に対応付けられ、コントローラでは不揮発性メモリからなるデータ記憶部に目標照度が記憶されるとともにあらかじめコントローラに設定されているアドレスに一致するアドレスを含む多重伝送信号を受信すると当該多重伝送信号に含まれる目標照度をデータ記憶部に格納し、調光スイッチは目標照度を指定するデータを生成する調光操作部を備えるものであり、時分割多重伝送方式によるデータ伝送を行ってコントローラに設定された目標照度を変更可能としているから、コントローラとは別に設けられ信号線に接続されている調光スイッチを操作することで目標照度を変更することができ、作業面照度を自動的に一定照度に保つ制御を行いながらも、照明器具の光出力を必要に応じて増減させることが可能になる。また、コントローラは作業面照度を検出するために一般に高所である天井に取り付けられているが、高所作業を行ったりワイヤレス式のリモコン装置を用いたりすることなく、信号線に接続され壁に取付可能である調光スイッチによって目標照度を容易に調節することができる。しかも、調光スイッチとのアドレスの対応関係によって目標照度を設定するから、１台の調光スイッチに複数台のコントローラを対応付けておけば、複数台のコントローラの目標照度を一括して調節することが可能になる。
【００４６】
請求項２の発明では、請求項１の発明において、調光スイッチは操作部として照明器具の点灯と消灯とを指示するオンオフ操作部を備え、コントローラはオンオフ操作部により消灯が指示されると照明器具に光出力がゼロになる調光信号を与えるものであり、オンオフ操作部による消灯の指示に際して照明器具への電源供給を開閉するためのリレーを用いることなく、照明器具の光出力をゼロにして実質的に消灯させることができ、リレーを用いる場合に比較すると配線施工の手間が低減され、またリレーを用いる場合に比較すると故障発生率が低減する。
【００４７】
請求項３の発明では、請求項１または請求項２の発明において、コントローラは、照明器具を規定した光出力で点灯させるとともに照明器具が安定に点灯している状態での作業面照度を検出するとともに、検出した照度を目標照度の基準値としてデータ記憶部に格納した後に照明器具を消灯させる補正動作が可能であって、さらに補正動作を起動する専用のアドレスが設定されているものであり、作業面照度の基準値を設定する補正動作が選択可能であるから、作業面照度の基準値に基づいて目標照度を容易に設定することができる。
【００４８】
請求項４の発明では、請求項３の発明において、補正動作を起動する起動スイッチを備え信号線に接続される操作端末器が付加され、操作端末器には補正動作の動作中に点灯する表示灯が設けられているものであり、補正動作の起動をコントローラの外部から行うことができ、アドレスの設定によって１台の操作端末器によって複数台のコントローラについて補正動作を一斉に行わせることが可能になる。また、表示灯によって補正動作中か否かを確認することが可能になる。操作端末器としてタイムスケジュールに従ってデータを発生するものを用いれば、夜間などの適宜の時間帯に補正動作を自動的に起動することが可能になる。
【００４９】
請求項５の発明では、請求項１の発明において、コントローラは、複数段階の照度を択一的に選択することができ、照度の各段階ごとに対応付けたアドレスを用いて照度が選択されるものであり、オフィスなどにおいて、たとえば執務時間中と休憩時間中とで照度を変化させることが可能になる。
【００５０】
請求項６の発明では、請求項５の発明において、コントローラは、照度を変更するときに時間経過に伴って光出力を徐々に増減させるフェード制御が選択可能であり、照度を変更する際に明るさが急に変化することによって周囲が見えにくくなる現象を防止することができる。
【図面の簡単な説明】
【図１】本発明の第１実施形態を示す概略構成図である。
【図２】同上に用いるコントローラを示すブロック図である。
【図３】同上の動作説明図である。
【図４】同上に用いるコントローラの斜視図である。
【図５】同上に用いるコントローラの下面図である。
【図６】同上の動作説明図である。
【図７】同上に対する比較例を示す概略構成図である。
【図８】本発明の第２実施形態を示す概略構成図である。
【図９】同上の動作説明図である。
【図１０】本発明の第３実施形態を示す動作説明図である。
【図１１】従来例を示す概略構成図である。
【符号の説明】
１ 照明器具
１０ 伝送ユニット
１１ 調光スイッチ
１２ コントローラ
１６ 操作端末器
２０ 信号処理部
２１ 多重伝送信号送受信回路
２２ データ記憶部
２３ アドレス設定信号送受信回路
２４ 照度検知回路
２５ 調光信号出力回路
２６ 照度設定信号送受信回路
Ｌｓ 信号線
Ｓｄ ダウン操作部
Ｓｆ オンオフ操作部
Ｓｇ オンオフ操作部
Ｓｕ アップ操作部[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a lighting control system in which a multiplex transmission signal is transmitted to a signal line by a time division multiplex transmission method, and a switch operation is associated with a control of a lighting load using the multiplex transmission signal.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, there has been provided a lighting apparatus capable of dimming light output by a dimming signal given separately. On the other hand, for lighting equipment used in offices, etc., dimming the light output of the lighting equipment so that the work surface is kept at a constant illuminance, for the purpose of saving energy by preventing the illuminance of the work surface from becoming unnecessarily high, etc. Has been proposed. Therefore, as shown in FIG. 11, an illuminating device 1 that receives a dimming signal and dims light output, and an illuminance sensor 2 that detects illuminance on a work surface are provided. It has been considered that a dimming signal is generated so as to be maintained at the set target illuminance, and the dimming signal generated by the illuminance sensor 2 is given to the lighting fixture 1 so that the work surface illuminance is maintained at the target illuminance. (For example, see Patent Document 1). In the illustrated example, the lighting fixture 1 and the illuminance sensor 2 are connected to a power supply line Lp for supplying commercial power, and the lighting fixture 1 and the illuminance sensor 2 are connected to each other to provide a dimming signal from the illuminance sensor 2 to the lighting fixture 1. They are connected via a light control line Ld.
[0003]
In this type of illuminance sensor 2 shown in FIG. 11, the amount of light received from reflected light from a work surface (desk surface or floor) is detected as illuminance, and the illuminance is detected at each prescribed capture cycle. . Therefore, the illuminance sensor 2 compares the illuminance detected in each capture cycle with the target illuminance in advance, and when the detected illuminance is higher (bright) than the target illuminance, reduces the light output of the lighting fixture by a specified amount, and conversely detects the illuminance. When the illuminance is lower (dark) than the target illuminance, the light output of the luminaire is increased by a specified amount, and the operation is performed so as to maintain the dimming signal at the time when the detected illuminance becomes substantially equal to the target illuminance. That is, the change in the light output for each capture cycle is a stepwise change in the width of the specified amount described above. If the detected illuminance does not reach the target illuminance in one change of the light output, the change in the light output Is repeated several times.
[0004]
[Patent Document 1]
JP-A-2002-203688 (paragraph 0002-0007, FIG. 4)
[0005]
[Problems to be solved by the invention]
By the way, in the above configuration, since the light output of the lighting fixture 1 is controlled so as to be the target illuminance set by the illuminance sensor 2, it is necessary to reset the target illuminance unless the work surface illuminance is the desired illuminance. Become. However, since the illuminance sensor is generally mounted on the ceiling, there is a problem in that setting the target illuminance is performed at a high place and involves danger.
[0006]
In order to set the target illuminance, it has been proposed to use a remote control device for transmitting and receiving a wireless signal using infrared light or the like as a signal medium. That is, the illuminance sensor 2 is provided with a remote control transmission / reception unit that transmits and receives wireless signals, and the target illuminance can be set using a remote control device provided separately from the illuminance sensor 2.
[0007]
However, in the configuration in which the target illuminance is set by using the remote control device, the target illuminance must be set for each of the illuminance sensors 2. Problem occurs. In particular, since a system in which the lighting fixture 1 and the illuminance sensor 2 are combined as described above is often adopted in an office or the like, a large number of the lighting fixtures 1 and the illuminance sensor 2 are provided, and a remote controller is provided. If the target illuminance of the illuminance sensor 2 is individually set using the device, an enormous amount of time is required for the setting operation.
[0008]
The present invention has been made in view of the above circumstances, and an object of the present invention is to control the light output of a lighting fixture so that the work surface illuminance is adjusted to the target illuminance, and there are many devices for setting the target illuminance. It is an object of the present invention to provide a lighting control system that facilitates setting work of a target illuminance even when there are tables.
[0009]
[Means for Solving the Problems]
The invention according to claim 1 is a lighting fixture that changes the light output in accordance with a dimming signal input from the outside, and has a function of detecting a work plane illuminance within a range illuminated by the lighting fixture. A controller that generates a dimming signal to the lighting equipment so as to maintain a preset target illuminance, and multiplex transmission for performing data transmission by a time-division multiplex transmission method to the signal line connected to the controller via the signal line A transmission unit for transmitting a signal, and a dimming switch connected to the signal line and generating data to be transmitted to the controller using the multiplex transmission signal in accordance with an operation of the operation unit, wherein the controller and the dimming switch each have an address. Data transmission / reception using a multiplex transmission signal with the transmission unit, and setting the correspondence of addresses in the transmission unit. The operation of the dimming switch is associated with the operation of the controller by the data, and the controller stores the target illuminance in a data storage unit composed of a non-volatile memory and multiplex transmission including an address corresponding to an address preset in the controller. Upon receiving the signal, the target illuminance included in the multiplex transmission signal is stored in a data storage unit, and the dimming switch includes a dimming operation unit that generates data specifying the target illuminance.
[0010]
According to a second aspect of the present invention, in the first aspect of the present invention, the dimming switch includes an on / off switch for instructing turning on and off of the lighting device as the operation unit, and the controller instructs turning off by the on / off switch. And providing a dimming signal with a light output of zero to the lighting fixture.
[0011]
According to a third aspect of the present invention, in the first or second aspect of the present invention, the controller turns on the lighting fixture with a prescribed light output and adjusts the work surface illuminance in a state where the lighting fixture is stably turned on. It is possible to perform a correction operation for turning off the lighting equipment after detecting and storing the detected illuminance in the data storage unit as a reference value of the target illuminance, and that a dedicated address for starting the correction operation is set. Features.
[0012]
According to a fourth aspect of the present invention, in the third aspect of the present invention, an operation terminal connected to the signal line and including a start switch for activating the correction operation is added, and the operation terminal is turned on during the operation of the correction operation. An indicator light is provided.
[0013]
According to a fifth aspect of the present invention, in the first aspect of the present invention, the controller can alternatively select a plurality of levels of illuminance, and the illuminance is selected using an address associated with each level of illuminance. It is characterized by that.
[0014]
According to a sixth aspect of the present invention, in the fifth aspect of the invention, the controller is capable of selecting fade control for gradually increasing or decreasing the light output with time when changing the illuminance.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
(1st Embodiment)
First, the overall configuration of the present invention will be described. As shown in FIG. 1, a dimming switch 11 is connected as an operation terminal and a controller 12 is connected as a control terminal to a two-wire signal line Ls connected to the transmission unit 10. The operation terminal and the control terminal are multi-drop connected to the signal line Ls, and individual addresses are set for each, and the transmission unit 10 individually separates the operation terminal and the control terminal using those addresses. recognize. The dimming switch 11 includes an up operation unit Su and a down operation unit Sd as dimming operation units, and an on / off operation unit Sf. The up operation unit Su, the down operation unit Sd, and the on / off operation unit Sf can all be pressed, and the up operation unit Su and the down operation unit Sd change the dimming level stepwise during the pressing operation. Further, the on / off operation unit Sf generates on / off data for each pressing operation. The lighting apparatus 1 is configured to supply power to a fluorescent lamp as a light source from a lighting circuit using an inverter, and the inverter receives a dimming signal for instructing a dimming amount by a duty from the outside, and changes an optical output of the fluorescent lamp. It is configured to adjust. That is, the inverter functions as a dimmer. The dimming signal is given from the illuminance sensor 2 connected via a two-wire dimming control line Ld. The configuration of the illuminance sensor 2 will be described later.
[0016]
Next, a basic operation related to signal transmission will be described. The signal line Ls can be connected to not only the dimming switch 11 and the controller 12 but also various types of operation terminals or control terminals, and the transmission unit 10 is connected to the signal line Ls as shown in FIG. A format multiplex transmission signal Vs is transmitted. That is, the synchronization signal SY indicating the start of signal transmission, the mode data MD indicating the mode of the multiplex transmission signal Vs, the address data AD for individually calling the operation terminal and the control terminal, and the instruction to the operation terminal and the control terminal. , A control data CD for providing a transmission error, a checksum data CS for detecting a transmission error, a bipolar (±) comprising a signal return period WT which is a time slot for receiving a return signal (monitoring data) from an operation terminal or a control terminal. 24V), and data is transmitted by pulse width modulation (FIG. 3B). In each operation terminal and each control terminal, when the address transmitted as the address data AD of the multiplex transmission signal Vs received via the signal line Ls matches the preset address, the control data is transmitted from the multiplex transmission signal Vs. When there is monitoring data to be fetched from the CD and there is monitoring data to be transmitted, the monitoring data is used as a current mode signal (a signal transmitted by short-circuiting the signal line Ls via an appropriate low impedance) during the signal return period WT of the multiplex transmission signal Vs. I will send it back.
[0017]
When data is transmitted from the transmission unit 10 to a desired operation terminal or control terminal, a multiplex transmission signal Vs having mode data MD as a control mode and an address of the operation terminal or control terminal as address data AD is used. If the multiplexed transmission signal Vs is sent out to the signal line Ls, the operation terminal or control terminal corresponding to the address receives the control data CD and returns the monitoring data during the signal return period WT. The transmission unit 10 confirms that the control data CD has been transmitted to the desired operation terminal or control terminal based on the relationship between the transmitted control data CD and the monitoring data received during the signal return period WT. The control terminal instructs the operation of the relay or the change of the dimming signal in accordance with the received control data CD, and the operation terminal outputs a monitoring signal for confirming the operation in accordance with the received control data CD.
[0018]
On the other hand, the transmission unit 10 normally transmits the multiplex transmission signal Vs in which the mode data MD is in the dummy mode at regular time intervals (constant polling), and the operation terminal tries to transmit some information to the transmission unit 10. In this case, an interrupt signal as shown in FIG. 3C is generated in synchronization with the synchronization signal SY of the multiplex transmission signal Vs in the dummy mode. At this time, the operation terminal sets the interrupt flag to prepare for the subsequent information exchange with the transmission unit 10. Upon receiving the interrupt signal, the transmission unit 10 sets the mode data MD to the interrupt polling mode, and sends out the multiplex transmission signal while sequentially increasing the upper half of the address (the upper 4 bits if the address is 8 bits). When the upper 4 bits of the address of the multiplex transmission signal in the interrupt polling mode match the upper 4 bits of the address set in the operation terminal, the operation terminal that has generated the interrupt signal returns the signal return period. The lower half bits of the address are returned to the transmission unit 10 to the WT. As described above, the transmission unit 10 collectively searches for 16 operation terminals that have generated the interrupt signal, so that the operation terminals can be found in a relatively short time.
[0019]
When the transmission unit 10 obtains the address of the operating terminal that has generated the interrupt signal, the mode data MD is set to the monitoring mode, and the multiplex transmission signal having the obtained address is transmitted to the signal line Ls. In response, the operation terminal returns information to be transmitted in the signal return period WT. Finally, the transmission unit 10 sends a signal for instructing an interrupt reset to the operation terminal that has generated the interrupt signal, and releases the interrupt flag of the operation terminal. As described above, information transmission from the operation terminal to the transmission unit 10 is performed by four signal transmissions (dummy mode, interrupt polling mode, monitoring mode, interrupt reset) from the transmission unit 10 to the operation terminal. Complete. When the transmission unit 10 wants to know the desired operation state of the control terminal, it is only necessary to transmit a multiplex transmission signal using the mode data MD as monitoring data.
[0020]
When the input data is generated in response to the operation of the operation unit provided in the operation terminal by the operation as described above, the monitoring data corresponding to the input data is returned from the operation terminal to the transmission unit 10, and the transmission unit 10 is controlled. When the control data CD is transmitted to the terminal, the control terminal performs control based on the control data CD. Further, the transmission unit 10 has a relation table in which the operation terminal device and the control terminal device are associated with each other by an address relationship. When input data is generated in the operation terminal device, the control terminal associated with the relation table is used. The control data CD is transmitted to the device.
[0021]
As is apparent from the above operation, if the correspondence between addresses of the operation terminal and the control terminal is set to one-to-many in the relation table in the transmission unit 10, it is only necessary to operate the operation unit of one operation terminal. The lighting fixture 1 as a load connected to a plurality of control terminals can be controlled collectively. This type of control is referred to as collective control, and when the same control is collectively instructed to a plurality of lighting fixtures 1 in a range specified in advance by the related data in the collective control (for example, all lighting within the specified range) The case where the lighting device 1 is turned on) is called group control, and the case where the control is individually instructed to a plurality of lighting devices 1 in a specified range (for example, the light output is individually controlled for each lighting device 1 within the specified range). This is called pattern control.
[0022]
Next, the configuration of the dimming control terminal with sensor 12 will be described with reference to FIG. The dimming control terminal with sensor 12 includes a multiplex transmission signal transmission / reception circuit 21 connected to the signal line Ls. The multiplex transmission signal transmission / reception circuit 21 converts the above-mentioned bipolar multiplex transmission signal Vs into a TTL level signal. It has a function to be provided to the signal processing unit 20 and a function to convert a signal transmitted from the signal processing unit 20 to the signal line Ls to a current mode signal. The signal processing unit 20 has a microcomputer as its main configuration, and uses an address stored in a data storage unit 22 composed of a non-volatile memory such as an EEPROM, which retains storage contents even when power is not supplied. When the address included in the multiplex transmission signal Vs received through the multiplex transmission signal transmission / reception circuit 21 matches the address stored in the data storage unit 22, the signal processing unit 20 receives the control data CD of the multiplex transmission signal Vs, Operate according to the CD. Further, the reception of the multiplex transmission signal Vs is transmitted to the signal line Ls through the multiplex transmission signal transmission / reception circuit 21. Further, the signal processing unit 20 compares the work surface illuminance detected by the illuminance detection circuit 24 with the target illuminance stored in the data storage unit 22, and generates a dimming signal in a direction that brings the work surface illuminance closer to the target illuminance. To the dimming signal output circuit 25. The illuminance detection circuit 24 includes an illuminance sensor such as a photodiode, and provides the signal processing unit 20 with an analog signal obtained by amplifying a signal corresponding to brightness output from the illuminance sensor. Therefore, the signal processing unit 20 converts the analog signal output from the illuminance detection circuit 24 into a digital signal by the built-in A / D converter.
[0023]
The address stored in the data storage unit 22 can be set, changed, and confirmed by using a separately provided setting device (not shown). The setting device can transmit and receive an address using a wireless signal using infrared rays as a signal medium. To transmit and receive the wireless signal, the signal processing section 20 is provided with an address setting signal transmitting and receiving circuit 23. On the other hand, the target illuminance stored in the data storage unit 22 can be set, changed, and confirmed by using a separately provided remote control device X (see FIG. 1). The remote control device X can transmit and receive the target illuminance by using a wireless signal using infrared rays as a signal medium. The signal processing unit 20 is provided with an illuminance setting signal transmitting / receiving circuit 26 for transmitting and receiving the wireless signal. When the target illuminance is changed using the remote control device X, the signal processing unit 20 generates an interrupt signal Vi to notify the transmission unit 10 that the target illuminance has changed.
[0024]
The power of the signal processing unit 20 is obtained by full-wave rectifying and stabilizing the multiplex transmission signal Vs transmitted through the signal line Ls in the power circuit 27, and the power of the dimming signal output circuit 25 is supplied through the power line Lp. The power is supplied from a dimming signal power supply circuit 28 that converts supplied commercial power into a DC voltage of 10 V. Note that as the dimming signal output from the dimming signal output circuit 25, a signal obtained by replacing the dimming level with the duty is used.
[0025]
Incidentally, the target illuminance stored in the data storage unit 22 can be rewritten not only by the remote control device X using a wireless signal but also by a multiplex transmission signal transmitted through the signal line Ls. The dimming control terminal with illuminance sensor 12 generates a dimming signal by performing feedback control so that the work surface illuminance detected by the illuminance detection circuit 24 is maintained at the target illuminance. Since the optical signal is not directly instructed using the multiplex transmission signal Vs, the relationship between the address of the dimming switch 11 and the dimming control terminal 12 with the illuminance sensor is determined by the up operation unit Su and the down operation. The unit Sd is not associated with the lighting fixture 1, and the up operation unit Su and the down operation unit Sd are associated with a storage area of the target illuminance in the data storage unit 22. That is, if the up operation unit Su or the down operation unit Sd provided on the light control switch 11 is pressed, the interrupt signal Vi is periodically generated during the press operation, and the light control is performed every time the interrupt signal Vi is generated. The multiplex transmission signal Vs including the control data CD whose level is increased or decreased stepwise is transmitted to the dimming control terminal 12 with the illuminance sensor. However, the dimming switch 11 only instructs an increase or decrease of the dimming level, and when the dimming level is instructed by operating the dimming switch 11, the dimming control terminal with illuminance sensor 12 is instructed. The dimming level to be transmitted is generated by increasing or decreasing the dimming level stored in the transmission unit 10. In the dimming control terminal with illuminance sensor 12, the dimming level read by the signal processing unit 20 is written to the data storage unit 22 as the target illuminance. Here, if the target illuminance is written in the data storage unit 22 every time the multiplex transmission signal Vs is received, the light output of the lighting fixture 1 changes with the change of the target illuminance. It is possible to set the target illuminance while checking.
[0026]
With the above-described configuration, for example, if the user feels a little dark when the target illuminance is set by the remote control device X so that the light output of the lighting fixture 1 becomes 50% of the maximum output, the wall switch may be used. By pressing the up operation part Su of the light control switch 11 provided as above, the target illuminance can be increased, and the light output can be adjusted to a level that the user does not feel dark. Conversely, if the user feels that the light is too bright, the target illuminance can be lowered by pressing the down operation unit Sd of the light control switch 11 provided as a wall switch. The light output can be adjusted to a level that does not feel too bright.
[0027]
The dimming switch 11 is provided with an on / off operating unit Sf. When a lighting instruction is given by the on / off operating unit Sf, a dimming signal generated so that the illuminance detected by the illuminance sensor is maintained at the target illuminance. The feedback control described above is performed. On the other hand, when the light-off instruction is given by the on / off operation unit Sf, the signal processing unit 20 does not perform the feedback control using the output of the illuminance detection circuit 24, and makes the light output of the lighting fixture 1 zero. From the dimming signal output circuit 25. In short, the signal processing unit 20 selects whether or not to perform the feedback control for the operation of the on / off operation unit Sf, and adjusts the dimming signal for setting the light output of the lighting apparatus 1 to zero when the feedback control is not performed. The light is output from the optical signal output circuit 25.
[0028]
The dimming control terminal 12 with an illuminance sensor described above is mounted with the ceiling surface as a construction surface. As shown in FIGS. 4 and 5, the body 30 of the dimming control terminal 12 with the illuminance sensor is provided integrally with a main body 31 inserted into a mounting hole formed in a ceiling plate and at a lower end of the main body 31. And a flange 32 having a circular outer periphery that is in contact with the lower surface of the ceiling plate. The circuit shown in FIG. 2 is housed in the main body 31. A power supply terminal Tp (see FIG. 2) for connecting the power supply line Lp, a signal terminal Ts (see FIG. 2) for connecting the signal line Ls, and a light control for connecting a light control line Ld are provided on the upper surface of the main body 31. A terminal block 33 having a terminal Td (see FIG. 2) is provided. Further, a pair of mounting bases 34 for mounting mounting brackets (not shown) and direct mounting holes 35 for inserting wood screws to be screwed to the ceiling plate are provided on the periphery of the flange 32. . The mounting base 34 includes a screw hole 34 a penetrating through the front and back of the flange 32, and mounting holes 34 b formed on both sides of the screw hole 34 a in the circumferential direction of the flange 32. The mounting bracket has a prismatic column having a lower end fitted into the mounting hole 34b and having an open side surface. A tightening screw is inserted into the column in the up-down direction. It has a configuration in which one end of a sandwiching plate projecting from the opened side is screwed. The head, which is the lower end of the tightening screw, is exposed from the screw hole 34a. After the main body 31 is inserted into the mounting hole of the ceiling plate with the sandwiching plate positioned near the upper end of the support, the tightening screw is rotated. When the holding plate is moved downward, the ceiling plate is held between the flange portion 32 and the holding plate, whereby the container 30 is fixed to the ceiling plate. The configuration of this type of mounting bracket is well known. It is not always necessary to fix the mounting bracket to the mounting base 34. When a box such as a switch box is embedded in the construction surface, a box screw screwed into the box is inserted into the screw hole 34a. The body 30 can also be fixed to the construction surface.
[0029]
As shown in FIG. 5, a detection window 36 for taking in light to an illuminance sensor provided in the illuminance detection circuit 24 is provided in the center of the lower surface of the container 30. The detection window 36 is not designed to capture ambient light into the illuminance sensor, but is provided to capture light from the work surface (desk surface) by the illuminance sensor. Therefore, the detection window 36 is designed to have a relatively narrow viewing angle. I have. Around the detection window 36, two transmission / reception windows 37 and 38 for transmitting / receiving a wireless signal in the address setting signal transmission / reception circuit 23 and the illuminance setting signal transmission / reception circuit 26 are provided.
[0030]
The dimming signal is a rectangular wave signal output at a constant period A as shown in FIG. 6A. The ratio of the ON period B to one period A is duty B / A. As shown, the duty B / A and the light output are associated so that the light output increases as the duty B / A increases. In the illustrated example, the light output is set to 100% (that is, rated lighting) when the duty B / A = 1, and the light output is reduced to the lower limit of the dimmable range D1 of the lighting fixture 1 (5% in the illustrated example). It is proportional to B / A. In the lighting fixture 1, even if an attempt is made to reduce the light output below the lower limit of the dimmable range D <b> 1, no light output is obtained due to the light source going out or the like. Therefore, if the light output of the lighting fixture 1 is set to zero by making the light output smaller than the lower limit of the light controllable range D1, the timing of turning off the lighting fixture 1 will vary. Therefore, the duty B / A is continuously changed in a range where the variation does not occur, and the duty B / A is set so that the light output of the lighting fixture 1 becomes zero as a turning-off range D2 separately from the dimmable range D1. Set A. In the illustrated example, an extinguishing range D2 with a duty B / A ≒ 0 is set as a dimming signal for reducing the light output to zero. In this way, by setting the light controllable range D1 and the light-off range D2 discontinuously, the lighting fixture 1 can be reliably turned off in the light-off range D2.
[0031]
When remotely controlling the lighting fixture 1 capable of dimming control, a configuration using a control terminal 14 with a built-in relay for turning on and off the lighting fixture 1 as shown in FIG. With such a configuration, an extra control terminal 14 is required. On the other hand, by generating the dimming signal for setting the dimming level to zero as described above, the operation of the inverter built in the lighting fixture 1 is stopped to set the lighting fixture 1 to a pseudo off state, thereby controlling The light output of the lighting fixture 1 can be reduced to zero without using the terminal device 14. FIG. 7 exemplifies an operation terminal 15 including an on / off operation unit Sf ′ for performing only on / off of the control terminal 14.
[0032]
In the configuration of the present embodiment, when setting the target illuminance to the dimming control terminal 12 with an illuminance sensor, when there are a plurality of dimming control terminals 12 with an illuminance sensor, a remote controller is used to individually set the target illuminance. The target illuminance may be set using the device X, and when the target illuminance of the plurality of dimming control terminals with illuminance sensors 12 is to be set collectively, the dimming control terminal with illuminance sensor to be set collectively is set. It is sufficient that the light control device 12 is made to correspond to the light control switch 13 in the group control setting, and the operation of one light control switch 13 collectively sets the target illuminances of the plurality of light control terminals 12 with illuminance sensors. Can be set. Further, even when the dimming switch 13 is associated with the dimming control terminal device 12 with the illuminance sensor in the individual control setting, the target illuminance can be set without using the remote control device X. With the dimming switch 13 arranged as a switch, the target illuminance can be changed without the remote control device X, and the convenience is improved.
[0033]
(2nd Embodiment)
In the first embodiment, the technique of adjusting the target illuminance has been described. However, if a reference value is set for the target illuminance and the target illuminance can be set as a relative value to the reference value, the convenience is improved. Therefore, in the present embodiment, when the light output of the lighting fixture 1 is set to 70% in a state where there is no light around in the lighting design, the illuminance of the work surface (desk top surface) is designed to be 1000 lx. Taking advantage of this, the illuminance detected by the illuminance sensor when the lighting fixture 1 is turned on 70% at night is regarded as 1000 lx, and the detected illuminance at this time is set as a reference value of a target illuminance (hereinafter, referred to as “reference illuminance”). The data is stored in the data storage unit 22.
[0034]
It is the signal processing unit 20 of the dimming control terminal device with illuminance sensor 12 that executes the above-described operation. In the signal processing unit 20, the above operation is associated with a specific address, and the address is used. When the activation of the above operation is instructed, a dimming signal is generated so that the light output of the lighting fixture 1 is set to 70%, and the illuminance detected by the illuminance detection circuit 24 is set in the data storage unit 22 as the reference illuminance. You do it. Here, immediately after the lighting fixture 1 is turned on, since the tube wall temperature of the light source is low and the light output is unstable, when setting the reference illuminance, the drift period (light output is stable after turning on). The illuminance detected by the illuminance detection circuit 24 after elapse of, for example, 10 seconds) is employed. If the reference illuminance setting is stopped when the operation is performed again before the drift period elapses, the reference illuminance can be set or stopped by, for example, pressing only one push button switch. become. In addition, the setting of the reference illuminance in the present embodiment is performed at night or the like when the surroundings are dark and no people are present, and it is not necessary to keep the lighting apparatus 1 turned on after setting the reference illuminance. Then, after setting the reference illuminance, the lighting device 1 operates to turn off the light.
[0035]
That is, at time t0 as shown in FIG. 9A, when the operation terminal device that associates the address with the operation of setting the reference illuminance is operated, the operation terminal device sets the reference illuminance as shown in FIG. 9B. An indicator light indicating that the operation has started is turned on. Further, in the dimming control terminal device with illuminance sensor 12, an operation for setting the reference illuminance is started as shown in FIG. 9C. The dimming control terminal 12 with an illuminance sensor outputs a dimming signal so as to light the luminaire 1 with a light output of 70%, and the luminaire 1 is output by the dimming signal as shown in FIG. Light. When the drift period T1 elapses from the time t0, the output of the illuminance detection circuit 24 at this time is taken as the reference illuminance, and the data storage unit 22 stores the reference illuminance. As described above, when the reference illuminance can be stored in the data storage unit 22, at time t1, the lighting device 1 is turned off and the correction operation for setting the reference illuminance is ended, and the reference illuminance is set in the operation terminal device. Notify that was successful. With this notification, the indicator light of the operation control unit is turned off as shown in FIG. When the control terminal is operated again in the drift period T1, the setting of the reference illuminance is forcibly stopped. When the setting of the reference illuminance has failed, the failure is notified by a display on the operation terminal device. In short, the success or failure of the setting of the reference illuminance can be known from the lighting and extinguishing states of the indicator lamp of the operation terminal device.
[0036]
In general, in an office or the like, a plurality of lighting devices 1 are arranged, and a plurality of dimming control terminals 12 with illuminance sensors are also provided. Therefore, the reference illuminance is set simultaneously for a plurality of dimming control terminals 12 with illuminance sensors. It is desirable. Therefore, as shown in FIG. 8, a pattern switch 16 (or group switch) for performing pattern control as an operation terminal device is connected to the signal line Ls, and the reference illuminance in the plurality of dimming control terminals 12 with illuminance sensors is set. If the correction operation to be performed is subjected to pattern control (or group control) and an address is associated with the pattern switch 16 (or group switch), a single operation can be performed on a plurality of dimming control terminals 12 with illuminance sensors. It is possible to set the reference illuminance. In the illustrated example, the pattern switch 16 including the on / off operation unit Sg, and when the on / off operation unit Sg is pressed, the setting of the reference illuminance and the stop of the reference illuminance setting operation can be selected. That is, the on / off operation unit Sg functions as a start switch that starts the correction operation. Further, in the above-described example, the pattern switch 16 is operated. However, if a time switch configured to generate the same type of transmission signal Vs as the pattern switch 16 according to the time schedule is used, the reference signal can be used when no one is present at night. The illuminance can be automatically set. The time switch is a kind of operation terminal, and is configured to generate an interrupt signal Vi according to a time schedule. Other configurations and operations are the same as those of the first embodiment.
[0037]
(Third embodiment)
In each of the above-described embodiments, an example has been described in which one target illuminance can be set to one dimming control terminal 12 with an illuminance sensor. A configuration for setting the number of target illuminances may be adopted. For example, in offices, energy saving may be achieved by lowering the illuminance during a break time (lunch break, etc.) than during work hours. In order to enable such control, a plurality of areas for setting the target illuminance are provided in the data storage unit 22, and different addresses are associated with each area, and the target illuminance of which area is used is determined by the address. It is desirable to be selectable. Table 1 shows an example in which two target illuminances are set.
[0038]
[Table 1]

[0039]
Each target illuminance can be adjusted using the light control switch 11 described in the first embodiment. Here, since the addresses associated with the respective target illuminances are different, a plurality of addresses can be assigned to one dimmer switch 11 so that a single dimmer switch 11 can adjust a plurality of target illuminances. In the same manner as group control (or pattern control), it is desirable to change a plurality of target illuminances collectively by operating one light control switch 11. However, in the dimming control terminal 12 with an illuminance sensor, a plurality of target illuminances cannot be used at the same time, and an effective one is selected from a plurality of target illuminances. That is, at each point in time, only one of the addresses becomes valid. Which address is valid may be determined, for example, by using an operation terminal that generates an interrupt signal Vi according to a time schedule in the same manner as the time switch described in the second embodiment.
[0040]
“Illuminance setting” at the bottom of Table 1 is used when setting the target illuminance using the illuminance information based on the illumination design when no external light occurs at night or the like as in the second embodiment. , An address provided for activating the setting processing operation in the signal processing unit 20. The target illuminance 1 and the target illuminance 2 are set as relative values to the target illuminance obtained by “illumination setting”. In short, based on the target illuminance on the desk surface obtained by “illumination setting”, the target illuminance 1 that is the target illuminance during the working hours and the target illuminance 2 that is the target illuminance during the break time are specified values with respect to the reference. Set by adding or subtracting. The address of “illuminance setting” is valid only during the setting of the target illuminance, and is automatically invalidated when the setting is completed. In addition, the "forced control" at the top of Table 1 sets the light output of the lighting fixture 1 to a specified value regardless of the illuminance detected by the illuminance detection circuit 24 when this address is specified. That is, when the operation terminal corresponding to this address is turned on, a dimming signal having a specified light output is output.
[0041]
The four addresses shown in Table 1 may be associated with different operation terminals, but as described above, some or all of the addresses may be associated with one operation terminal. . When any one of a plurality of addresses is associated with a different operation terminal device, another address may be selected when one address is selected, but in this case, the last operation was performed. What is necessary is just to process so that the address corresponding to an operation terminal device may be made effective.
[0042]
By the way, in the present embodiment, the illuminance can be selected from a plurality of levels (three steps of “forced control”, “target illuminance 1”, and “target illuminance 2”). there is a possibility. For example, during working hours, the “target illuminance 1” is adopted and the light output of the luminaire 1 is feedback-controlled so that a work surface illuminance (desktop illuminance) of about 1500 lx is obtained. And the light output of the lighting fixture 1 is fixed to 10% (the illuminance on the work surface is about 700 lx). In this case, the light output of the luminaire 1 suddenly changes at the time of the lunch break from the morning work time or at the time of the afternoon work time from the lunch break. May not be used, and the surroundings may be difficult to see. Therefore, in the present embodiment, when the illuminance stage is switched, the signal processing unit 20 performs fade control for gradually increasing or decreasing the light output over time. That is, when the illuminance level is switched, the signal processing unit 20 determines whether the change in the illuminance is in the increasing direction or the decreasing direction, and gradually increases or decreases the dimming signal applied to the lighting fixture 1 over time.
[0043]
Now, as shown in FIG. 10, “target illuminance 1” is adopted in the time zone of 9:00 to 12:00, which is the morning working time, and “12:00 to 13:00, which is the lunch break, is“ It is assumed that “forced control” (light output 10%) is adopted, and “target illuminance 1” is adopted in a time zone of 13:00 to 18:00, which is the working time in the afternoon. In this case, when changing from “target illuminance 1” to “forced control” at 12:00, fade control is performed to gradually reduce the light output with time at 12:00. When changing from “forced control” to “target illuminance 1”, fade control is performed at 13:00 to gradually increase the light output over time. By employing the control including the fade control when changing the illuminance level in this manner, it is possible to prevent a sudden change in brightness. The period for performing the fade control can be set in advance, and the change speed of the optical output is determined by the difference between the optical output before switching and the optical output after switching and the period for performing the fade control. Further, a configuration may be adopted in which the changing speed is set in advance, and after the fade control is started, the fade control is terminated when the light output after switching is reached. Further, it is desirable that the necessity of the fade control can be selected.
[0044]
In the present embodiment, the illuminance can be switched to three levels. However, even when the illuminance is switched to two levels, such as a combination of a one-step target illuminance and a forcible control, or a combination of a two-step target illuminance. The configuration of the present embodiment can be adopted, and the configuration of the present embodiment can be adopted even when the illuminance can be switched in four or more steps. Further, when switching between the period in which the feedback control is performed at the target illuminance and the period in which the forced control is performed as in the example shown in FIG. 10, it is necessary to secure the target illuminance during the period in which the feedback control is performed. If the fade control is performed during the period of the forced control during the transition from the forced control to the feedback control, the target illuminance can be reliably ensured during the period of the feedback control. Other configurations and operations are the same as those of the first embodiment.
[0045]
【The invention's effect】
The invention according to claim 1 is a lighting fixture that changes the light output in accordance with a dimming signal input from the outside, and has a function of detecting a work plane illuminance within a range illuminated by the lighting fixture. A controller that generates a dimming signal to the lighting equipment so as to maintain a preset target illuminance, and multiplex transmission for performing data transmission by a time-division multiplex transmission method to the signal line connected to the controller via the signal line A transmission unit for transmitting a signal, and a dimming switch connected to the signal line and generating data to be transmitted to the controller using the multiplex transmission signal in accordance with an operation of the operation unit, wherein the controller and the dimming switch each have an address. Data transmission / reception using a multiplex transmission signal with the transmission unit, and setting the correspondence of addresses in the transmission unit. The operation of the dimming switch is associated with the operation of the controller by the data, and the controller stores the target illuminance in a data storage unit composed of a non-volatile memory and multiplex transmission including an address corresponding to an address preset in the controller. Upon receiving the signal, the target illuminance included in the multiplexed transmission signal is stored in the data storage unit, and the dimming switch includes a dimming operation unit that generates data specifying the target illuminance. Since the target illuminance set in the controller can be changed by performing data transmission, the target illuminance can be changed by operating the dimmer switch provided separately from the controller and connected to the signal line, While controlling to automatically maintain the surface illumination at a constant level, the light output of the lighting It is possible to increase or decrease Te. In addition, the controller is generally mounted on the ceiling, which is a high place to detect the illuminance on the work surface.However, the controller is connected to the signal line and mounted on the wall without performing work at a high place or using a wireless remote control device. The target illuminance can be easily adjusted by the dimmable switch that can be attached. In addition, since the target illuminance is set according to the correspondence between the address and the dimmer switch, if a plurality of controllers are associated with one dimmer switch, the target illuminance of the plurality of controllers is adjusted collectively. It becomes possible.
[0046]
According to a second aspect of the present invention, in the first aspect of the present invention, the dimming switch includes an on / off operation unit for instructing turning on and off of the luminaire as an operation unit, and the controller illuminates when the off operation is instructed by the on / off operation unit. The dimming signal that gives the light output zero is given to the equipment, and the light output of the lighting equipment is reduced to zero without using a relay for opening and closing the power supply to the lighting equipment when turning off the light by the on / off operation unit. As a result, the time and labor required for wiring are reduced as compared with the case where a relay is used, and the failure rate is reduced as compared with the case where a relay is used.
[0047]
According to a third aspect of the present invention, in the first or second aspect of the present invention, the controller turns on the lighting fixture with a specified light output and detects the work surface illuminance in a state where the lighting fixture is stably turned on. Along with the detected illuminance is stored in the data storage unit as a reference value of the target illuminance, a correction operation for turning off the lighting device is possible, and a dedicated address for starting the correction operation is set, Since the correction operation for setting the reference value of the work surface illuminance can be selected, the target illuminance can be easily set based on the reference value of the work surface illuminance.
[0048]
According to a fourth aspect of the present invention, in the third aspect of the present invention, an operation terminal which is provided with a start switch for activating the correction operation and is connected to the signal line is added, and the operation terminal is turned on during the operation of the correction operation. Lights are provided, so that the correction operation can be started from outside the controller, and the correction operation can be performed simultaneously for multiple controllers by one operation terminal device by setting the address. become. In addition, it is possible to confirm whether or not the correction operation is being performed by the indicator light. If an operation terminal that generates data in accordance with a time schedule is used, the correction operation can be automatically started in an appropriate time zone such as at night.
[0049]
According to a fifth aspect of the present invention, in the first aspect of the invention, the controller can alternatively select a plurality of levels of illuminance, and the illuminance is selected using an address associated with each level of the illuminance. In an office or the like, for example, it is possible to change the illuminance between a work time and a break time.
[0050]
According to a sixth aspect of the present invention, in the fifth aspect of the present invention, the controller can select a fade control for gradually increasing or decreasing the light output with time when changing the illuminance. It is possible to prevent a phenomenon in which the surroundings are difficult to see due to a sudden change in the distance.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram showing a first embodiment of the present invention.
FIG. 2 is a block diagram showing a controller used in the embodiment.
FIG. 3 is an operation explanatory diagram of the above.
FIG. 4 is a perspective view of a controller used in the embodiment.
FIG. 5 is a bottom view of the controller used in the embodiment.
FIG. 6 is an operation explanatory view of the above.
FIG. 7 is a schematic configuration diagram showing a comparative example with respect to the above.
FIG. 8 is a schematic configuration diagram showing a second embodiment of the present invention.
FIG. 9 is an operation explanatory view of the above.
FIG. 10 is an operation explanatory view showing a third embodiment of the present invention.
FIG. 11 is a schematic configuration diagram showing a conventional example.
[Explanation of symbols]
1 lighting equipment
10 Transmission unit
11 Light control switch
12 Controller
16 Operation terminal
20 signal processing unit
21 Multiplex signal transmission / reception circuit
22 Data storage unit
23 Address setting signal transmission / reception circuit
24 Illuminance detection circuit
25 Dimming signal output circuit
26 Illuminance setting signal transmission / reception circuit
Ls signal line
Sd down operation section
Sf on / off operation section
Sg ON / OFF operation unit
Su up operation unit

Claims (6)

A lighting fixture that changes the light output according to a dimming signal input from the outside, and a function that detects a work plane illumination within a range illuminated by the lighting fixture, and the detected work plane illumination has a preset target illumination. A controller for generating a dimming signal to the lighting apparatus so as to maintain the controller, a controller connected to the controller via a signal line, and transmitting a multiplex transmission signal for performing data transmission by a time division multiplex transmission method to the signal line; A dimming switch connected to the signal line and generating data to be transmitted to the controller using the multiplex transmission signal in accordance with the operation of the operation unit, wherein the controller and the dimming switch each have an address and are connected to the transmission unit. Data is transmitted and received using multiplexed transmission signals in the unit, and dimming is performed based on the relation data that sets the correspondence of addresses in the transmission unit. When the switch operation is associated with the operation of the controller, the controller stores the target illuminance in a data storage unit composed of a non-volatile memory and receives a multiplex transmission signal including an address that matches an address set in the controller in advance. A lighting control system, wherein a target illuminance included in the multiplex transmission signal is stored in a data storage unit, and the dimming switch includes a dimming operation unit that generates data specifying the target illuminance. The dimming switch includes an on / off switch that instructs lighting and extinguishing of the lighting fixture as the operation unit, and the controller sets a dimming signal that causes the lighting fixture to have a zero light output when instructed to turn off by the on / off switch. The lighting control system according to claim 1, wherein: The controller detects the work surface illuminance in a state where the lighting fixture is lit with a specified light output and the lighting fixture is stably turned on, and the detected illuminance is used as a reference value of the target illuminance in the data storage unit. 3. The lighting control system according to claim 1, wherein a correction operation for turning off the lighting fixture after the storage is performed, and a dedicated address for starting the correction operation is set. An operation terminal device having a start switch for starting the correction operation and connected to the signal line is added, and the operation terminal device is provided with an indicator light that lights up during the operation of the correction operation. Item 3. The lighting control system according to Item 3. 2. The illumination control system according to claim 1, wherein the controller can select one of a plurality of levels of illuminance, and the illuminance is selected using an address associated with each level of illuminance. . 6. The lighting control system according to claim 5, wherein the controller is capable of selecting fade control for gradually increasing or decreasing the light output with time when changing the illuminance.

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