JP3123496U - Lighting system that controls light environment via communication line - Google Patents
Lighting system that controls light environment via communication line Download PDFInfo
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- JP3123496U JP3123496U JP2006003632U JP2006003632U JP3123496U JP 3123496 U JP3123496 U JP 3123496U JP 2006003632 U JP2006003632 U JP 2006003632U JP 2006003632 U JP2006003632 U JP 2006003632U JP 3123496 U JP3123496 U JP 3123496U
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Abstract
【課題】照明光源の取替え、変更をすることなく、照明器具の色調、光環境の制御、管理を容易に行うことを可能にする。
【解決手段】発光色の異なる複数の固体半導体発光デバイスと、発光色毎に独立して発光光束を変更するための制御回路を有し、インターネットや携帯電話、また携帯端末等を使用した通信回線を通じて供給されるプログラムにより発光光束を制御する機構を具備する、光環境制御照明システム
【選択図】図1The present invention makes it possible to easily control and manage the color tone of a lighting fixture and the light environment without replacing or changing the illumination light source.
A communication line having a plurality of solid-state semiconductor light-emitting devices having different emission colors and a control circuit for changing a luminous flux independently for each emission color, and using the Internet, a mobile phone, a mobile terminal, or the like Lighting environment control lighting system equipped with a mechanism for controlling the luminous flux according to the program supplied through [Selection] Fig. 1
Description
本考案は、インターネットや携帯電話、また携帯端末等を使用した通信回線により光環境制御を行うための照明装置、システムに関する。The present invention relates to a lighting device and system for performing light environment control through a communication line using the Internet, a mobile phone, a mobile terminal, or the like.
現在の照明器具を代表する蛍光灯照明器具は、その搭載する蛍光ランプの発光色を相関色温度[単位:K(ケルビン)]により区分している。蛍光ランプにおける相関色温度による区分例としては、昼光色(6500K)、昼白色(5000K)、白色(4200K)、温白色(3500K)、電球色(3000K)[( )内は相関色温度]等がある。蛍光ランプは、一度製作されてしまうと、その発光色(相関色温度)を容易に変更することが出来ない。照明器具設置後にその光環境の相関色温度を変更したい場合には、蛍光ランプそのものを交換する必要があり、簡便に行うことが困難であった。A fluorescent lamp luminaire representing a current luminaire classifies the emission color of the fluorescent lamp mounted on the lamp by a correlated color temperature [unit: K (Kelvin)]. Examples of classification by correlated color temperature in a fluorescent lamp include daylight color (6500K), daylight white color (5000K), white color (4200K), warm white color (3500K), light bulb color (3000K) [inside () is correlated color temperature]. is there. Once a fluorescent lamp is manufactured, its emission color (correlated color temperature) cannot be easily changed. When it is desired to change the correlated color temperature of the light environment after installing the luminaire, it is necessary to replace the fluorescent lamp itself, which is difficult to carry out easily.
近年発光ダイオード(Light Emitting Diode=LED)を光源とした一般照明用LED器具が開発されている。LEDは1光源素子(LEDチップ)当りの光束が小さいため、一般の環境照明用として使用するには、その対象としている場に複数の同一色LEDチップを設備する必要があった。個々のLEDチップは、一度製作されてしまうとそのチップの発光色を容易に変更することは出来ない。しかし、1つの場に複数の異なる発光色のLEDチップを設備する(1つの器具に複数の異なる発光色のLEDチップを搭載する)のであれば、それらのチップの発光光束を個別に(或いは同一発光色毎にまとめて)調整・制御することにより、LED光源を差替えること無く、異なる発光色の光を得ることが出来る。In recent years, general lighting LED fixtures using light emitting diodes (Light Emitting Diodes = LEDs) as light sources have been developed. Since an LED has a small luminous flux per light source element (LED chip), in order to use it for general environmental lighting, it is necessary to provide a plurality of LED chips of the same color in the target field. Once an individual LED chip is manufactured, the emission color of the chip cannot be easily changed. However, if a plurality of LED chips with different light emission colors are installed in one field (a plurality of LED chips with different light emission colors are mounted on one instrument), the light emission light fluxes of these chips are individually (or the same). By adjusting and controlling (collectively for each emission color), light of different emission colors can be obtained without replacing the LED light source.
近年の通信技術・機器・システムの発達、光回線等を用いたブロードバンド化、また詳細な地域環境情報の管理、発信等から、インターネットや携帯電話、携帯端末等を使用した通信回線を介した双方向のデータ伝送、通信制御が可能である。Recent developments in communication technology / equipment / system, broadband using optical lines, etc., management and transmission of detailed regional environmental information, etc., both via communication lines using the Internet, mobile phones, mobile terminals, etc. Data transmission and communication control.
照明光源の取替え、変更をすることなく、照明器具の色調、光環境の制御、管理を容易に行うことを可能にする。It is possible to easily control and manage the color tone of the lighting fixture and the light environment without changing or changing the illumination light source.
発光色の異なる複数の固体半導体発光デバイスと、発光色毎に独立して発光光束を変更するための制御回路を有し、インターネットや携帯電話、また携帯端末等を使用した通信回線を通じて供給されるプログラムにより発光光束を制御する機構を具備する、光環境制御照明システムIt has a plurality of solid-state semiconductor light emitting devices with different emission colors and a control circuit for changing the luminous flux independently for each emission color, and is supplied through a communication line using the Internet, a cellular phone, a portable terminal, etc. Lighting environment control lighting system having a mechanism for controlling luminous flux by a program
少なくとも2つ以上の別個に調整可能な発光光源アレイまたはモジュールの各色光束量を変動することにより、照明光源の色調を制御する。2つ以上の別個に調整可能な発光光源とは、例えば青系LEDデバイスと黄色系LEDデバイスの2つ、光の3原色赤、緑、青の3つのLEDデバイス、または光の3原色赤、緑、青LEDにオレンジ色LED等を加えたもの等である。各発光光源は、少なくとも1組の固体半導体デバイスを使用するものとし、レーザー・ダイオードなどのLED以外の固体半導体デバイスを用いることも可能である。The color tone of the illumination light source is controlled by varying the amount of each color beam of at least two or more separately adjustable light emitting light source arrays or modules. Two or more separately adjustable light sources include, for example, two blue and yellow LED devices, three primary red light, three green, blue LED devices, or three primary red light. A green or blue LED plus an orange LED or the like. Each light-emitting light source uses at least one set of solid-state semiconductor devices, and solid-state semiconductor devices other than LEDs, such as laser diodes, can also be used.
光の3原色赤、緑、青の固体半導体デバイスを使用した照明光源では、構成される各色発光光源の光束量を調整することにより、CIE色度図上において、各3色を頂点とする三角形内部の任意の色調を発色することができる。黒体の温度を現す黒体放射線はこの3角形内にあることから、本照明光源は、一般に蛍光灯照明器具の発色を区分する各相関色温度点、また任意の相関色温度点を発色することが可能である。In an illumination light source that uses solid semiconductor devices of the three primary colors red, green, and blue, the triangles with the three colors as vertices on the CIE chromaticity diagram can be obtained by adjusting the amount of luminous flux of each color light source. Any internal color tone can be developed. Since the black body radiation representing the temperature of the black body is within this triangle, the illumination light source generally develops each correlated color temperature point that distinguishes the color development of the fluorescent lamp luminaire, and any correlated color temperature point. It is possible.
色調調整可能な照明光源を、通信回線を介してプログラムに接続し、光環境制御を行う。照明光源・器具が通信回線接続されている地点の位置情報を、天候等のローカル環境情報に変換してプログラムへ伝送する。プログラムでは、季節、時間等の情報も加味して、最適な光環境を構築するための制御情報、または任意の制御情報を照明光源・器具へ伝送し、色調調整、光環境制御・管理を行う。An illumination light source capable of adjusting color tone is connected to a program via a communication line to control the light environment. The position information of the point where the illumination light source / appliance is connected to the communication line is converted into local environment information such as weather and transmitted to the program. The program takes into account information such as season and time, and transmits control information for constructing an optimal light environment or arbitrary control information to the illumination light source / appliance for color adjustment, light environment control and management. .
照明器具、照明光源の変更、取替えをすることなく、照明の色調、相関色温度の調整が可能であり、光環境制御、管理を行うことができる。通信回線を介したプログラム制御により自動で光環境を管理することにより、使用者は居ながらにして最適な照明環境を享受できる。感情や気分情報に対応する制御プログラムを作成することにより、使用者の状況に応じた光環境調整も可能である。It is possible to adjust the color tone of the illumination and the correlated color temperature without changing or replacing the luminaire and the illumination light source, and it is possible to control and manage the light environment. By managing the light environment automatically by program control via a communication line, the user can enjoy the optimum lighting environment while staying there. By creating a control program corresponding to emotion and mood information, it is possible to adjust the light environment according to the user's situation.
通信回線による双方向データ伝送が可能で、照明光源・器具を設置、または利用できること。Bidirectional data transmission via communication lines is possible, and illumination light sources and equipment can be installed or used.
パーソナルコンピューター(パソコン)利用時のデスクライトに使用して、照明器具の色調または相関色温度を調整、管理し、利用者の生体リズム補正を行う。Used as a desk light when using a personal computer (personal computer), adjusts and manages the color tone or correlated color temperature of the luminaire, and corrects the user's biological rhythm.
通信回線を介して提供される制御情報を、ローカルエリアネットワーク(LAN)システム等により複数の照明光源・器具に伝送し、室内または、建物内の全ての光環境を一括制御、管理する。Control information provided via a communication line is transmitted to a plurality of illumination light sources / appliances by a local area network (LAN) system or the like, and all light environments in a room or a building are collectively controlled and managed.
遠隔地からの光線治療や、複数の異なる地点間での光環境の共有が可能である。Phototherapy from a remote location and sharing of the light environment between multiple different points is possible.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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JP2016536742A (en) * | 2013-10-03 | 2016-11-24 | フィリップス ライティング ホールディング ビー ヴィ | Device and associated method for linking selective illumination of a light source with an input |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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JP2016536742A (en) * | 2013-10-03 | 2016-11-24 | フィリップス ライティング ホールディング ビー ヴィ | Device and associated method for linking selective illumination of a light source with an input |
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