201240520 六、發明說明: 【發明所屬之技術領域】 本發明為一種家庭照明燈具管理系統,特別是一種通過 網路平台控制照明燈具設備的系統。 【先前技術】 一般白熾燈泡每瓦耗電能產生光通量10流明,而發光二 極體製造商宣稱發光二極體燈具每瓦最高可達到160流明。 然而’實際產品中,受外形和最高工作溫度的局限,使得發 光二極體燈具難以發揮全部潛力。目前市面上性能最好的發201240520 VI. Description of the Invention: [Technical Field of the Invention] The present invention is a home lighting management system, and more particularly, a system for controlling lighting fixtures through a network platform. [Prior Art] Generally, incandescent bulbs generate 10 lumens of light per watt of power, and LED manufacturers claim that LEDs can reach up to 160 lumens per watt. However, in actual products, due to the limitations of the shape and the maximum operating temperature, it is difficult for the illuminating diode lamp to exert its full potential. The best performance on the market today
光二極體燈具,效率通常可達到每瓦8〇_1〇〇流明。對比CFL 燈,效率範圍為每瓦60-70流明,且改進潛力有限,並且其 原材料會對環境造成危害;可見,發光二極體燈具在效率標 準方面對比CFL燈具已經更為出色,而在綠色環保方面則超 出CFL燈甚多。隨著人們對全球變暖和氣候變化等環境問題 的意識不斷提高,節約資源和能源的理念正成為很多市場行 銷策略的要點。 可見,發光二極體所具備的優勢非常符合公眾對安全、 節能和環保照明解決方案的熱切期盼。發光二極冑還有許多 其他優點,如較冑關錢力、較長的使料朴較小的外 形尺寸,在外形、顏色、哥命和成本方面打開了方便之門。 採用在機械、光、電和熱等各方面都相容的發光二極體照明 解決方案替代傳統的照_ ($光燈、GFL節能燈、鹵素燈 201240520 u 或其他白熾燈)是一場正在發生的工業變革。 目前’商務、辦公和住宅照明市場都令籲高品質的發光 二極體改良燈具,綜合起來說,需要的改進除了最主要二降 低成本的問題外,還包括以下一系列技術問題: 現在網路技術發展—日千里,各式各樣的電子產。都可 以透過網路來驗,現在的家庭燈具同樣可以藉由網:系^ 來調控’ ϋ此可以預見的是家庭燈具結合網㈣統 未來的必然趨勢。 疋 .一般來說發光二極體燈具制上的問題包括:發光強度 (Hght intensity)、色溫(c— temperature)、發光角度 (beamangie)、發光方向(directi〇n)、單點/多點操控以及 線;L故障診斷等;如何對這些技術關鍵進行較好的控制,是 發光-極體燈具是否能更為便利的為使用者服務的關鍵。 根據上述情況’針對如何通過網路來對家紐具進行控 制,進而對發光二極體燈具各項指標進行控制 明詨計了—套方案。 个 【發明内容】 —的目的在於提供一種能夠用遙控終端經網路平臺 2 \内’、、、明系統’其將室内發光二極體照明燈具串接形 批固,域網路,使用遙控器,可對該區域網路内每一燈具 工1,貫現燈具各項指標性能的調整。 ,201240520 一種基於網路操控的室内照明系統,包括: 至少一發光二極體燈具,該發光二極體燈具至少一發光 二極體模組· ’一供發光二極體模組透光的透鏡,一控制發光 二極體模纟且與透鏡距離的角度調控裝置,一控制燈具方向的 方向調控裝置,以及一中控的微處理器;該發光二極體模組 包括RGB三基色發光二極體光源; 一具備無線網路連接功能的遙控器’作為系統控制終端; 一設備控制單元’具備有線和/或無線網路連接功能,並 連接所述至少一發光二極體燈具,所述設備控制單元能夠經 ί | , 匕’、用路接收所述遙控器的控制信號,並根據控制信號,傳遞 ,'’·《發光二極體燈具,進而控制發光二極體燈具實現至少 以下動作: (1)發光強度調整:通過控制發光二極體模組供電電路 ^的驅動f流’使其增加或減少,以實現發光二極體燈具發 光*強度的無級調整; 、(2)色溫調整:分別控制發光二極體模組中三基色 發光-極體光源各自的驅動電流,以調整發光二極體燈具 光線色溫; 且、、Light diode lamps, the efficiency can usually reach 8 〇 1 每 lumens per watt. Compared to CFL lamps, the efficiency range is 60-70 lumens per watt, and the improvement potential is limited, and the raw materials will cause harm to the environment; it can be seen that the LED lamps have better performance standards than CFL lamps, but in green Environmental protection is much more than CFL lights. As people's awareness of environmental issues such as global warming and climate change continues to increase, the concept of saving resources and energy is becoming a key point in many marketing strategies. It can be seen that the advantages of the LEDs are in line with the public's eager anticipation for safety, energy saving and environmentally friendly lighting solutions. There are many other advantages to the light-emitting diodes, such as the relatively small amount of money and the long outer dimensions of the material, which opens the door to convenience in terms of shape, color, life and cost. Replacing traditional photos with light-emitting diode lighting solutions that are compatible in all aspects of mechanics, light, electricity and heat _ ($ light, GFL energy saving lamps, halogen lamps 201240520 u or other incandescent lamps) is happening Industrial change. At present, the 'business, office and residential lighting markets are all calling for high-quality LED-improved luminaires. In summary, the improvements required include the following two major cost reduction issues: Technological development - thousands of miles, a variety of electronic products. All can be tested through the Internet. Nowadays, home lighting can also be controlled by the network: system ^. This is foreseeable is the inevitable trend of the future of home lighting combined with the network (4).疋. Generally speaking, the problems in the manufacture of light-emitting diode lamps include: Hght intensity, color temperature (c-temperature), luminous angle (beamangie), luminous direction (directi〇n), single-point/multi-point control And line; L fault diagnosis, etc.; how to better control these key technologies is the key to whether the illuminating-polar luminaire can be more convenient for users. According to the above situation, how to control the home fixtures through the network, and then control the indicators of the LEDs. The purpose of the invention is to provide a remote control terminal through the network platform 2 \, ',, Ming system', which will serialize the indoor lighting diode lighting fixtures, domain network, remote control The device can adjust the performance of each indicator of the lamp in each network of the area. , 201240520 A network-based indoor lighting system, comprising: at least one light-emitting diode lamp, the light-emitting diode lamp at least one light-emitting diode module · 'a light-transmitting lens for the light-emitting diode module An angle control device for controlling the distance between the LED and the lens, a direction control device for controlling the direction of the lamp, and a centrally controlled microprocessor; the LED module includes RGB three primary color light emitting diodes a body light source; a remote controller having a wireless network connection function as a system control terminal; a device control unit having a wired and/or wireless network connection function and connecting the at least one light emitting diode lamp, the device The control unit is capable of receiving the control signal of the remote controller via the ί, , 匕', and transmitting, according to the control signal, the light-emitting diode lamp, and then controlling the LED lamp to achieve at least the following actions: (1) Luminous intensity adjustment: by controlling the driving f flow of the LED module power supply circuit ^ to increase or decrease it, so as to realize the illumination of the LED lamp Stepless adjustment;, (2) Color Temperature: control the light-emitting diode in the tricolor light emitting module - diode drive current of each light source, the light emitting diode to adjust the color temperature of light fixtures; ,, and
(3)發光角度娜:,_方向難裝置,調整透鏡與發 〜極體模組之間的距離,以調整發光角度; X —(4)發光方向婦:驅動角度糖褒置,調整發光二極 體燈具的照射的方向,以調整發光方向。 201240520 本發射發光二極體燈具可為裝於室内任意 燈,通過集中連接於設備控制單元,實現網路連接,用;通 過作為網路終端的遙控器,實現發光二極體燈具各項功能指 標的輕易控制。 上述的遙控器為掌上型裝置或手機或電腦。用戶可通過 在遙控器内下載系統專用軟體,或輸入系統的特定控制代 碼’來操控系統内的發光二極體燈具。 其中,設備控制單元包括一主要處理器及一 HUB/Ap,該 主要處理器通過HUB/ΑΡ連接所述發光二極體燈具,實現有線 或無線連接。 關於發光二極體燈具的發光強度調控,可以採用一調光 驅動電路,位於發光二極體模組的供電端’實現對發光二極 體模組的電流大小控制,在微處理器接收調光指令後,調光 驅動電路可呈線性調控輸入給發光二極體模組電流的大小, 以使發光二極體模組的發光強度連續增強或減弱。 關於發光二極體燈具色溫的調控,可採用分別對應三基 色的RED發光二極體、GREEN發光二極體、BLUE發光二極 體的二個色溫驅動電路,各自位於RGB發光二極體的供電 端,實現分別對RGB發光二極體電流大小的控制,在微處理(3) illuminating angle Na:, _ direction is difficult to install, adjust the distance between the lens and the hair-body module to adjust the illuminating angle; X — (4) illuminating direction: driving angle 褒 setting, adjusting illuminating two The direction of illumination of the polar body luminaire to adjust the direction of illumination. 201240520 The emitted light-emitting diode lamp can be installed in any indoor light, and is connected to the device control unit through centralized connection to realize network connection. The remote control device as a network terminal realizes various function indexes of the light-emitting diode lamp. Easy to control. The above remote controller is a palm-sized device or a mobile phone or a computer. The user can control the LEDs in the system by downloading the system-specific software in the remote control or by entering the system's specific control code. The device control unit includes a main processor and a HUB/Ap, and the main processor connects the LEDs through the HUB/ΑΡ to realize wired or wireless connection. Regarding the illumination intensity control of the light-emitting diode lamp, a dimming driving circuit can be used, and the current level of the light-emitting diode module is controlled at the power supply end of the light-emitting diode module, and the dimming is received at the microprocessor. After the command, the dimming driving circuit can linearly regulate the current input to the LED module, so that the luminous intensity of the LED module is continuously enhanced or weakened. Regarding the control of the color temperature of the light-emitting diode lamp, two color temperature driving circuits respectively corresponding to the three primary colors of the RED light emitting diode, the GREEN light emitting diode, and the BLUE light emitting diode can be used, and each is located in the power supply of the RGB light emitting diode. End, to achieve the control of the current size of the RGB light-emitting diode, in the micro-processing
V1 V 器接k色溫調整指令後,通過色溫驅動電路分別調控輸入給 RGB發光二極體的電流大小,以調整發光二極體模組的色溫。 關於角度調整的方案,角度調控裝置可採用馬達及傳動 .201240520 '元件,馬達通過傳動元件控制透鏡或發光二極體模組的相對 離由透鏡所折射光線的焦點變化,可達到發光二極體 光照角度的變化’微處㈣接收驗調整指令後,控制馬達 動作,通過傳動元件即實難鏡與發光二極體模組的距 離,所照射出的光線角度範圍則產生變化。 關於方向調整的方案,方向調控裝置可採用方向馬達組 及角度傳動it件的組合’方向馬達組結合角度傳動組件實現 ,三,向的運動,微處理器接收方向調整指令後,控制馬達組 •動作通過傳動元件控制發光二極體燈具達到需要的照射方 向。 上述遙控器能夠控制一個或多個發光二極體燈具的動 作,實現單點控制或多點控制,如果室内一個發光二極體燈 具需要動作,則由遙控器單獨控制該發光二極體燈具,實現 該發光二極體燈具的相關功能;如果室内多個發光二極體燈 具需要同時動作,則可由遙控器選擇需要操控的發光二極體 燈具集合(set),并選擇相關的控制命令來控制該多個發光 二極體燈具,實現統一控制,使用十分方便。 作為上述方案的進一步改進,發光二極體燈具可包括一 故障診斷模組,與發光二極體燈具各部件連接,偵測各部件 的工作情況,在燈具故障時能及時回饋給設備控制單元,以 發送短信或E-mail給用戶。 丨 »* 此外作為進一步的改進,發光二極體燈具可包括一偵測 201240520 感測器,通過監測發光二極體燈具所照射環境内人的數目, 回饋錄處理n,由微處理器自動發光二極體模組的發光強 度’貫現發光強度的自動調整。 ”統一的,發光二極體燈且瓦h 立具可包括一溫度感測器,通過監 測環境溫度變化,回饋給微處理器,由微處理器自動調整發 光二極體模組的色溫,實現色溫的自動調整。 本發明的有益效果是:本發明可藉由—遙控器,借助現 有網路,傳遞控制錢給設備控制單元,由⑽控制單元輸 出相應指令來對系統㈣-個❹個燈具進行絲強度、色 /皿、产照角度及*照方向的控制,其控制功能齊全、方便, 便於用戶對照明系統的統—管理,可以說,本發明結合了現 有罔路平$的便利及發;^二極體技術的發展趨勢,使得發光 二極體管理更為直觀及人性化,為用戶帶來了更為優秀的體 驗;另外做配合的發光強度及色溫自動調整,使用更為人性 化,並利於節省能源。 【實施方式】 夯發明所提供的基於網路操控的室内照明系統,為針對 室内使用發光二極體燈具的聯網設計,通常室内具備一個戋 多個燈具,並且位於不同位置,現有技術至多僅為針對單獨 一個燈具的控制方案,使用繁瑣,且浪費資源,不符合居家 便利及節能減排的理念,本發明則為此做出了改進。 ^ 如第1 圖所示’本發明所提供的室内照明系統,其物理結構包括· .201240520 • 至少一發光二極體燈具100,設置於室内,該發光二極 體燈具100包括有至少一發光二極體模組110,一供發光二 極體模組透光的透鏡120,一控制發光二極體模組110與透 鏡120距離的角度調控裝置130,一控制燈具方向的方向調 控裝置140 ’以及一中控的微處理器ι5〇 ;其中,該發光二極 體模組110由三基色的RED發光二極體光源111、GREEN發 光二極體光源112、BLUE發光二極體光源113組成; 一具備無線網路連接功能的遙控器200,作為系統控制 終端,該遙控器200可以為手機、掌上型裝置,如PDA,或 是其他類型的電腦,如PC、netbook、平板電腦等,用戶可 通過下載本發明系統專用軟體,並通過輸入特定的控制代碼 或是其他特定的註冊方式,實現與對應照明系統的配對,如 此用戶可在作為終端的遙控器2〇〇上,輸入指令來控制室内 發光二極體燈具; 一設備控制單元300,具備有線和/或無線網路連接功 能,並連接到系統的發光二極體燈具丨〇〇,設備控制單元3〇〇 最典型的方案為一主要處理器301如臺式電腦或工控電腦, 以及一 HUB/ΑΡ設備302,主要處理器301通過HUB/ΑΡ設備 302可以有線或無線方式連接到系統的各發光二極體燈具 100 ’實現資訊傳輸以實現功能操控。 本發明中,用戶通過遙控器200可輸入各種命令,命令 通過目前的網路,如手機網路的GSM、GPRS、3G,或是互聯 •201240520 •網化,由稍控制單元接收,並根據該控制信號,發出 相應的指令信號’給對應的發光二極體燈具1GG,由發光二 極體燈具_的微處理器150解析,可控制發光二極體燈具 100進行相應的功能變化。 本發明通過其硬體擴展,遙控器2⑻可控制系統内的一 個或多個發光二極體燈具謂’並且可以分別控制,或者設 置為-組同時進行控制;如室内僅—個發光二極體燈具需要 動作’則由遙控器單獨選擇對該發光二極體燈具進行控制, 實現僅針對該發光二極體燈具的相M功能;如果室内多個發 光二極體燈具需要同時動作’則可由遙控器選擇需要操控的 發光二極體燈具集合(set),并選擇相關的控制命令來控制 該多個發光二極體燈具,實現統一控制。 基於本發明所提供的系統方案,可實現的控制功能可包 括:, ·<> f 一、發光強度調整: 由用戶的遙控器200控制發光二極體燈具的發光強 度,貫現無級調整,如第2圖所示,作為一種實施例,發光 一極體燈具100具有一調光驅動電路,較為理想的實現 方案,為直接調控發光二極體模組11〇的驅動電流,在原理 上可位於發光二極體模組110的輸入端,並連接微處理器15〇 而受檄處理器150控制,在用戶通過遙控器2〇〇輸入相應命 令(如增亮或變暗命令,可直觀反應在遙控器2〇〇的介面 201240520 上),設備控制單元300接收相應信號並傳輸給發光二極體燈 具100的微處理器150相應指令時,微處理器150識別該指 令後/發出正確的信號給調光驅動電路160,如第3圖所示’ 由於發光二極體光源和輸入的工作電流的線性關係可知’由 鉗制於發光二極體模組110前端的調光驅動電路160可呈線 性無級的調整電流大小,進而可實現發光二極體模組110發 光強度的連續增強或減弱。 二、色溫調整: ‘由用戶的遙控器200控制發光二極體燈具1〇〇的色溫’ 其基本原理在於發光二極體模組110中的三基色發光二極體 光源,即RED發光二極體光源ill、GREEN發光二極體光源 112、BLUE發光二極體光源113的各自光譜波長不同的混 合’得到發光二極體模組110的最終色溫,而每一基色的發 光二極體光源的色溫,則和其亮度有關,因此本發明的實施 方案汀通過控制三基色發光二極體光源的各自亮度,最終有 發光二極體模組110混光’體現出不同的色溫;如第4圖所 示’在本發明的優選實施例中,三基色發光二極體光源的各 自亮在«輸色溫的驅動電路 m’通過調m'g'b三基色發光#體光源各自驅動電路 U4的輸出電流’以得到不同亮度的基色光線,混光後得到 發光二極體模組110不同色溫的光線。 201240520 例如,在本發明的一種實施例中,RED發光二極體光源 ill的波長可取615〜620nm,GREEN發光二極體光源Π2波長 可取530〜540nm,BLUE發光二極體光源113的波長可取 460〜470mn,用戶在遙控器2〇〇輸入相應指令,如將色溫調 低通過網路發送給設備控制單元3〇〇,由設備控制單元3〇〇 發出給指定發光二極體燈具1〇〇的微處理器15〇相應指令, 可提高RED發光二極體光源lu的亮度,或降低乩证發光 二極體光源113的亮度,進而可達到調低色溫的效果。 三、發光角度調整: ^發明中所提及的發光角度,為發光二極體燈具1〇〇所 照射出光線的角度,體現在照射環境内即為光線的覆蓋面 積,本發明所採用的方案’為由一角度調控裝置13〇進行控 制,參考第5圖〜第7圖,典型的角度控制裳置13〇可採用馬 達131及傳動元件132的組合,傳動元件132可控制透鏡⑵ 或發光二極體模組11Q的動作,調控兩者的㈣距離,由於 發光二極體模組11()發出的光線經由m折射後照射到環境 中,透鏡120相對發光二極體模組11()的距離,則關係到了 =折射出的光線角度的大小,因此通過調控兩者距離,即可 實現最終的發光角度調整;用戶在遙控器2〇〇輸入相應指 ^ 如要增大對應發光二極體燈具⑽的發光角度,控制信 號丄稱由„又備控制單凡3〇〇#收,並相應發送指令到對應 .201240520 «,w • 發光二極體燈具loo,由微處理器150控制該角度調控裝置 130的馬達131正向動作或反向動作,如第7圖所示經由傳 動組件132控制透鏡120或發光二極體模組110的相對靠 近,進而可增大發光二極體模組11〇的光線經過透鏡12〇後 的光照角度’從而增加了發光二極體燈具}〇〇的發光角度, 採用該結構,同樣可方便的實現無級調控,便於用於自由控 制光锒角度。 四、發光方向調整: 本發明中發光方向可經由一方向調控裝置14〇控制,如 第8圖〜第9圖所示方向調控裝置14〇典型的可包括一提供動 力的馬達組141及角度傳動元件142,發光二極體燈具1〇〇 、( 專動’、、件14 2 固定住,為實現廣角度的方向 调控,角度傳動組件142至少包含了豎向角度及橫向角度的 連動結構’相應的馬達組141至少包括了驅動登向角度及橫 向角度的組件;用戶在遙控H 輸人相應指令,如要控制 對應對應發光二極體燈具咖朝指定方_動,控制信號經 網路由5又備控制單元獅接收,並相應發送指令到對應發光 一極體燈具1GG,由微處理器15G控制該方向調控裝置14〇 •馬達’、且141朝需要的方向動作,傳動於角度傳動組件Μ〗 上即體現為帶動發光二極體燈具⑽的主體朝指定的方向轉 動k樣就實現了發光方向的調整,同樣該結構可方便的實 13 .201240520 ♦ 現無級調控,便於用於自由控制光照方向。 五、故障診斷: 本發明的祕方案,是—種㈣戶終端到發光二極體終 端的雙向聯動’因此除了上述由用戶主動控制發光二極體燈 具100進行動作外,還可增設由發光二極體燈具刚回饋資 訊給用戶的功能設置;如第10圖所示,本發明可於發光二極 .贿具1GG的電路結構上增設故障診_組17G,體現于原 ▲理上可接於供電側以及每_部件上,並連接微處理器⑽, 在供電不正常、某部分出現輯時,能夠及時侧到,並將 結果回饋給設備控制單元300,由設備控制單元綱經公共 ,、周路’發送短#、識別資訊或是E_mail給用戶,提醒用戶對 故障進行處理。 六:户動調整發光強度: 、如第1圖所示’本發明可在發光二極體燈具100設置一 連接微處理器15G的偵測感測器,測感測器18()可以為 紅外線感測器或圖像感測器’掃摇發光二極體燈具咖的照 射區域’當該區域人增多,如超過3人時,回饋給微處理器 5〇由微處理器150控制調光驅動電路16〇增大輸入電流, 提高發光二極體燈具剛的亮度;而在人過少如無人時,由 V处里器150控制調光驅動電路16〇 ;咸小輸入電济l,降低發 14 201240520 光一極體燈具100的亮度,或是休眠;如此即可以實現智慧 的光線自動婦’同時還可以將調光結果回饋給客戶的遙控 器 200。 七、色溫自動調整: 同樣如第10圖中所示,本發明還可在發光二極體燈具 100 β又置一連接微處理器15〇的溫度感測器19〇,用於監測環 兄/凰度在環境溫度有變化,如溫度降低時,回饋給微處理 器150,由微處理器15〇控制RGB三基色發光二極體的驅動 電路114 s周整輪入電如增加RED發光二極體光源ill的 電机使其增加壳度,最終體現在發光二極體模組110上, P為降低了色溫’另環境光線呈暖色調,使人感覺舒適。 田」’上述僅僅只是公開了本發明最為常見的幾種實施 方案1¾於至内照明燈具體環境及使用情況的差異,在基於 本發明的系統構架的前提下,控制方案將會有著很多的變 匕p此*發明H統根據不同的使用情況是可編程的, 作人員可根據實際情況對系統進行編程,更新系統功能, 以和實際硬件情況相適配’相對的1戶可把更新的系統程 序下載到遙控11 、設備㈣單元_,如此料與使用環 境相適配’而且㈣達^為豐富的功能擴展。 由本發明的純可延伸出更為多樣,功能更豐富的室内 15 201240520 :=式因:,應注意的是,上述只是閣述7本發明較優 工因此並不視為本發明唯—的保護範圍 =二不脫離本發明的保護範圍内,對於 :: :中具有通常知識者而言,仍得有許多變化及修改。= =制於所揭露的實施例,而是,要求的保護範ί _為准,即不偏離本發明申請專利範圍所為 : 修飾,應仍屬本發明之涵蓋範圍。 匕與 【圖式簡單說明】 下面結合附圖和具體實施方式作進一步說明: 第1圖為本發明的系統拓撲結構示意圖; 第2圖為本發明一種實施例中發光二極體燈具的電 理方框圖; 略原 第3圖為發光二極體光源的電流值與發光強度的關係 電路原 」 第4圖為本發明一種實施例中發光二極體燈具的 理方框圖;After the V1 V is connected to the k color temperature adjustment command, the color temperature driving circuit is used to adjust the current input to the RGB light emitting diode to adjust the color temperature of the LED module. Regarding the angle adjustment scheme, the angle control device can adopt a motor and a transmission. 201240520 'The component, the motor controls the lens or the light-emitting diode module through the transmission component to change the focus of the light refracted by the lens, and the light-emitting diode can be achieved. The change of the illumination angle 'micro (4) After receiving the adjustment command, the motor is controlled to move, and the distance of the illuminating angle of the light is changed by the distance between the transmission element and the hard-to-light diode module. Regarding the direction adjustment scheme, the direction control device can be realized by a combination of a directional motor group and an angular transmission unit, a directional motor group combined with an angular transmission component, a three-way motion, and a microprocessor receiving direction adjustment command to control the motor group. The action controls the illuminating diode lamp to achieve the desired illumination direction through the transmission element. The remote controller can control the action of one or more light-emitting diode lamps to realize single-point control or multi-point control. If a light-emitting diode lamp in the room needs to be operated, the light-emitting diode lamp is separately controlled by the remote controller. Realizing the related functions of the light-emitting diode lamp; if multiple indoor light-emitting diode lamps need to operate at the same time, the remote control device can select the set of light-emitting diode lamps to be controlled, and select relevant control commands to control The plurality of light-emitting diode lamps realize unified control and are very convenient to use. As a further improvement of the above solution, the LED lamp can include a fault diagnosis module, and is connected with each component of the LED lamp to detect the working condition of each component, and can timely feed back to the device control unit when the lamp fails. Send a text message or E-mail to the user.丨»* In addition, as a further improvement, the LED lamp can include a detector 201240520 sensor, which monitors the number of people in the environment illuminated by the LED lamp, and returns the recording process n, which is automatically illuminated by the microprocessor. The luminous intensity of the diode module is automatically adjusted for the luminous intensity. "Uniform, light-emitting diode lamp and tile h stand can include a temperature sensor, by monitoring the ambient temperature change, feedback to the microprocessor, the microprocessor automatically adjusts the color temperature of the LED module to achieve Automatic adjustment of color temperature. The invention has the beneficial effects that: the invention can transmit control money to the equipment control unit by means of a remote controller, and the (10) control unit outputs corresponding commands to the system (four)-one luminaire by means of the existing network. Controlling the strength of the silk, the color/dish, the angle of production, and the direction of the illumination, the control function is complete and convenient, and it is convenient for the user to manage the lighting system. It can be said that the present invention combines the convenience of the existing 罔路平$ The development trend of the diode technology makes the management of the LEDs more intuitive and user-friendly, and brings a better experience to the users. In addition, the luminous intensity and color temperature of the matching are automatically adjusted, and the use is more human. The invention is based on the network control-based indoor lighting system provided by the invention, and is a networking device for indoor use of the light-emitting diode lamp. Usually, there are more than one luminaire in the room, and they are located at different positions. The prior art is at most only a control scheme for a single luminaire. The use is cumbersome and wastes resources, and does not conform to the concept of home convenience and energy saving and emission reduction. Improvements have been made to this. ^ As shown in Fig. 1, the indoor lighting system provided by the present invention has a physical structure including .201240520. At least one light-emitting diode lamp 100 is disposed indoors, and the light-emitting diode is provided. The luminaire 100 includes at least one illuminating diode module 110, a lens 120 for transmitting light from the illuminating diode module, an angle adjusting device 130 for controlling the distance between the illuminating diode module 110 and the lens 120, and a control illuminator. Directional direction regulating device 140' and a centrally controlled microprocessor ι5〇; wherein the LED module 110 is illuminated by three primary color RED light emitting diode light sources 111, GREEN light emitting diode light sources 112, and BLUE The diode light source 113 is composed of a remote controller 200 having a wireless network connection function as a system control terminal, and the remote controller 200 can be a mobile phone or a palm-sized device such as a PDA. Or other types of computers, such as PCs, netbooks, tablets, etc., users can download the system-specific software of the invention, and input specific control codes or other specific registration methods to achieve matching with the corresponding lighting system, The user can input an instruction to control the indoor light-emitting diode lamp on the remote controller 2 as a terminal; a device control unit 300 having a wired and/or wireless network connection function and connected to the system LED The main unit of the equipment control unit 3 is a main processor 301 such as a desktop computer or an industrial computer, and a HUB/ΑΡ device 302. The main processor 301 can be wired or connected through the HUB/ΑΡ device 302. Each of the LED luminaires 100' that are wirelessly connected to the system implements information transmission for functional control. In the present invention, the user can input various commands through the remote controller 200, and the commands are received through the current network, such as GSM, GPRS, 3G, or Internet 201240520 of the mobile phone network, and are received by the slightly control unit, and according to the The control signal sends a corresponding command signal 'to the corresponding LED luminaire 1GG, which is analyzed by the microprocessor 150 of the illuminating diode lamp _, and can control the illuminating diode lamp 100 to perform corresponding function changes. The invention is extended by its hardware, and the remote controller 2 (8) can control one or more LED luminaires in the system and can be controlled separately or set to - group simultaneously; for example, only one LED in the room The luminaire needs to be operated', and the illuminating diode lamp is separately controlled by the remote controller to realize the phase M function only for the illuminating diode lamp; if the indoor illuminating diode lamp needs to be simultaneously operated, then the remote control can be remotely controlled. The device selects a set of light-emitting diode lamps to be manipulated, and selects relevant control commands to control the plurality of light-emitting diode lamps to achieve unified control. Based on the system solution provided by the present invention, the achievable control functions may include: • <> f I. Illumination intensity adjustment: The illumination intensity of the LED lamp is controlled by the user's remote controller 200, and the steplessness is achieved. Adjustment, as shown in FIG. 2, as an embodiment, the light-emitting one-pole lamp 100 has a dimming driving circuit, and an ideal implementation scheme is to directly control the driving current of the LED module 11〇, in principle The upper end of the LED module 110 can be connected to the microprocessor 15 and controlled by the processor 150. When the user inputs a corresponding command through the remote controller 2 (such as a brightening or darkening command, Intuitively reacted on the interface of the remote controller 2201240520), when the device control unit 300 receives the corresponding signal and transmits the corresponding command to the microprocessor 150 of the LED device 100, the microprocessor 150 recognizes the command/issue correctly The signal is applied to the dimming driving circuit 160, as shown in FIG. 3, because of the linear relationship between the operating current of the LED and the input current, it is known to be clamped to the front end of the LED module 110. The dimming driving circuit 160 can adjust the current level in a linear stepless manner, thereby continuously increasing or weakening the light intensity of the LED module 110. Second, the color temperature adjustment: 'The color temperature of the light-emitting diode lamp is controlled by the user's remote controller 200'. The basic principle is that the three-primary light-emitting diode light source in the light-emitting diode module 110, that is, the RED light-emitting diode The mixture of the respective source wavelengths of the body light source ill, the GREEN light emitting diode light source 112, and the BLUE light emitting diode light source 113 is different from the final color temperature of the light emitting diode module 110, and the light emitting diode light source of each primary color is obtained. The color temperature is related to its brightness. Therefore, the embodiment of the present invention controls the respective brightness of the three primary color light emitting diode light sources, and finally the light emitting diode module 110 mixes light to reflect different color temperatures; In the preferred embodiment of the present invention, the driving circuits m' of the three primary color light emitting diodes each having a brightness of the color temperature are modulated by the m'g'b three primary colors. The current 'to obtain the primary color light of different brightness, and to obtain the light of different color temperatures of the light emitting diode module 110 after being mixed. 201240520 For example, in one embodiment of the present invention, the wavelength of the RED light emitting diode light source ill may be 615 to 620 nm, the wavelength of the GREEN light emitting diode light source Π2 may be 530 to 540 nm, and the wavelength of the BLUE light emitting diode light source 113 may be 460. ~470mn, the user inputs the corresponding command in the remote control 2〇〇, for example, the color temperature is lowered and sent to the device control unit 3〇〇 through the network, and the device control unit 3 sends out the specified light-emitting diode lamp 1〇〇. The microprocessor 15 can accordingly increase the brightness of the RED light-emitting diode light source lu or reduce the brightness of the light-emitting diode light source 113, thereby achieving the effect of lowering the color temperature. Third, the illumination angle adjustment: ^ The illumination angle mentioned in the invention is the angle of the light emitted by the illumination diode lamp, which is reflected in the illumination environment, which is the coverage area of the light, and the scheme adopted by the invention 'For control by an angle control device 13 ,, referring to FIG. 5 to FIG. 7 , a typical angle control skirt 13 can be a combination of a motor 131 and a transmission element 132, and the transmission element 132 can control the lens (2) or the illumination 2 The action of the polar body module 11Q regulates the distance between the two (4). Since the light emitted by the light-emitting diode module 11 () is refracted by m and irradiated into the environment, the lens 120 is opposite to the light-emitting diode module 11 (). The distance is related to the angle of the refracted ray. Therefore, by adjusting the distance between the two, the final illuminating angle adjustment can be realized. The user inputs the corresponding finger in the remote control 2 如 to increase the corresponding illuminating diode. The illuminating angle of the luminaire (10), the control signal nickname is received by „ 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 The motor 131 of the degree adjusting device 130 is forwardly or reversely operated, and the relative proximity of the lens 120 or the LED module 110 is controlled via the transmission component 132 as shown in FIG. 7, thereby increasing the LED module. The illumination angle of the 11-inch light passing through the lens 12 increases the illumination angle of the light-emitting diode lamp. With this structure, it is also convenient to realize stepless regulation, which is convenient for freely controlling the pupil angle. 4. Illumination direction adjustment: In the present invention, the illumination direction can be controlled by a directional control device 14 ,, as shown in FIGS. 8 to 9 , the directional control device 14 〇 can typically include a powered motor group 141 and an angular drive The component 142, the light-emitting diode lamp 1〇〇, (the special action ', the piece 14 2 is fixed, in order to achieve the wide-angle direction regulation, the angle transmission component 142 at least includes the vertical angle and the lateral angle of the interlocking structure' corresponding The motor group 141 includes at least components for driving the angle of arrival and the lateral angle; the user inputs the corresponding command in the remote control H, and if the corresponding corresponding LED lamp is to be controlled, _ move, the control signal is routed through the network 5 and is controlled by the control unit lion, and correspondingly sends a command to the corresponding light-emitting one-pole lamp 1GG, and the microprocessor 15G controls the direction control device 14〇·motor', and 141 toward the required The direction action, the transmission on the angle transmission component Μ 〗 〖 shows that the main body of the illuminating diode lamp (10) is rotated in the specified direction to achieve the adjustment of the illuminating direction, and the structure can be conveniently implemented. 13.201240520 ♦ Stepless regulation, easy to use for free control of the direction of illumination. V. Fault diagnosis: The secret solution of the invention is the bidirectional linkage of the (four) household terminal to the LED terminal. Therefore, in addition to the above, the user actively controls the light-emitting diode. In addition to the action of the luminaire 100, a function setting of the feedback information from the illuminating diode lamp to the user can be added; as shown in FIG. 10, the invention can add a fault diagnosis to the circuit structure of the illuminating dipole. Group 17G, embodied in the original ▲ can be connected to the power supply side and each _ component, and connected to the microprocessor (10), in the case of abnormal power supply, a certain part of the series, can be timely To the result back to the device control unit 300 'via a common transmission # ,, short circumferential outline control means passage by the apparatus, user identification information or E_mail to remind the user of the failure processing. Six: Household adjustment luminous intensity: As shown in Fig. 1 'The invention can be provided with a detection sensor connected to the microprocessor 15G in the LED lamp 100, and the sensor 18 () can be infrared The sensor or image sensor 'sweeping the illumination area of the light-emitting diode lamp' when the area is increased, such as more than 3 people, feedback to the microprocessor 5 is controlled by the microprocessor 150 to control the dimming drive The circuit 16 increases the input current, and improves the brightness of the light-emitting diode lamp; and when the number of people is too small, the dimming drive circuit 16 is controlled by the V at 150; the small input power is reduced, and the hair is lowered 14 201240520 The brightness of the light-pole lamp 100, or sleep; so that the intelligent light can be realized, and the dimming result can be fed back to the remote controller 200 of the customer. VII. Automatic adjustment of color temperature: As also shown in FIG. 10, the present invention can also be used in the temperature sensor 19〇 connected to the microprocessor 15〇 in the light-emitting diode lamp 100β for monitoring the ring brother/ The phoenix changes in the ambient temperature. If the temperature is lowered, it is fed back to the microprocessor 150. The microprocessor 15 controls the driving circuit of the RGB three primary color light emitting diodes. The whole round of power is input. If the RED light emitting diode is added. The motor of the light source ill increases the shell degree, and finally is embodied on the LED module 110, P is to reduce the color temperature, and the ambient light is warm tones, which makes people feel comfortable. "The above" merely discloses the differences between the specific environment and the use situation of the most common embodiments of the present invention. Under the premise of the system architecture based on the present invention, the control scheme will have many changes.匕pThis*Invented H system is programmable according to different usage conditions. The staff can program the system according to the actual situation, update the system function, and adapt to the actual hardware situation. The relative one can update the system. The program is downloaded to the remote control 11 and the device (4) unit _, so that it is compatible with the use environment' and (4) is a rich function extension. From the pureness of the present invention, it can be extended to more diverse and more functional indoors. 15 201240520 := 式因: It should be noted that the above is only a good work of the invention, and therefore is not regarded as the protection of the present invention. Range = 2 does not depart from the scope of protection of the present invention, and there are still many variations and modifications to those of ordinary knowledge in:::. The invention is based on the disclosed embodiments, and the claimed invention is not limited to the scope of the invention as claimed: the modifications are still within the scope of the invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of a system topology of the present invention; FIG. 2 is a diagram showing the electrical structure of a light-emitting diode lamp according to an embodiment of the present invention; Block diagram; abbreviated Fig. 3 is a circuit diagram of the relationship between the current value and the luminous intensity of the light-emitting diode light source. Fig. 4 is a block diagram showing the light-emitting diode lamp in an embodiment of the present invention;
第5 圖為本發明一種實施例中角度調控裝 置的原理方樞 圖為本發明一種實施例中發光二極體燈具結構 示意 第7圖為第6圖另一種狀態的結構示意圖; 201240520 第8圖為本發明一種實施例中方向調控裝置的原理方框 〇 ·? f 圖, 第9圖為本發明一種實施例中帶方向調控裝置的發光二 極體燈具結構示意圖; 第10圖為本發明發光二極體燈具增設故障診斷模組實 施例的原理方框圖; 第11圖為本發明發光二極體燈具增設偵測感測器及溫 度感測器實施例的原理方框圖。 s 【主要元件符號說明】 100 發光二極體燈具 110 發光二極體模組 111 RED發光二極體模組 112 GREEN發光二極體模組 113 , BLUE發光二極體模組 114 驅動電路 120 透鏡 130 角度調控裝置 131 馬達 132 傳動組件 140 方向調控裝置 141 馬達組 17 201240520 142 角傳動組件 150 微處理器 160 調光驅動電路 170 故障診斷模組 180 偵測傳感器 190 溫度傳感器 200 遙控器 300 設備控制单元 301 主要處理器 302 HUB/ΑΡ設備5 is a schematic structural view of an angle adjusting device according to an embodiment of the present invention. FIG. 7 is a schematic structural view of a light emitting diode lamp according to an embodiment of the present invention; FIG. The present invention is a schematic diagram of a directional control device in an embodiment of the present invention. FIG. 9 is a schematic structural view of a illuminating diode lamp with a directional control device according to an embodiment of the present invention; A schematic block diagram of an embodiment of a fault diagnosis module for a diode lamp is added; FIG. 11 is a schematic block diagram of an embodiment of the invention for adding a detection sensor and a temperature sensor to the LED lamp of the present invention. s [Main component symbol description] 100 LED lamp 110 LED module 111 RED LED module 112 GREEN LED module 113, BLUE LED module 114 Driver circuit 120 lens 130 Angle Control Device 131 Motor 132 Drive Assembly 140 Direction Control Device 141 Motor Set 17 201240520 142 Angle Drive Assembly 150 Microprocessor 160 Dimming Drive Circuit 170 Fault Diagnosis Module 180 Detection Sensor 190 Temperature Sensor 200 Remote Control 300 Equipment Control Unit 301 main processor 302 HUB/ΑΡ device