M407576 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種燈具及其控制模組,尤其是,一種 可產生情境光源之燈具及其控制模組。 【先前技術】 隨著生活水準提高,現代人對於燈具之需求已由照明 . 擴大為情境光源營造,例如:庭園造景、水舞演出或室内 • 空間之情境效果營造等。再者,由於發光二極體(LightM407576 V. New Description: [New Technology Field] This creation is about a luminaire and its control module, especially a luminaire that can generate a situational light source and its control module. [Prior Art] With the improvement of living standards, the demand for lamps for modern people has been illuminated by lighting. It has been expanded to create a situational light source, such as garden landscape, water dance performance or indoor space. Furthermore, due to the light-emitting diode (Light
Emitting Diode ’ LED)具有壽命長、耗電量低及色彩變化 性高等優點,因此,發光二極體逐漸被採用為情境燈具之 發光源。 請參照第1圖所示’如中華民國公告第3^36〇982號「發 光二極體燈具」新型專利案,揭示一種習知燈具9,其係 包含-燈罩9卜-有色透光蓋92、一導光件%及一發光 .=極體料。該燈罩91具有-容置槽911 ;該有色透光蓋 ’、有開口 921且覆蓋該容置槽911;該導光件%配置 =該容置槽9丨1内,且該導光件93部分透過該開口 921暴 =該有色透光蓋92外;該發光二極體94配置於該容置 價内且對應於該導光件93。 該習知燈具9於使用時,係由該發光二極體94發出 叢二’該光源經由該導光件93傳導,而透射於該有色透光 ,以&使該光源具有該有色透光蓋92之顏色。藉此,該 ^具9可替換不同顏色之有色透錄%,而產生不同 ^之光源,以符合不同情境之需求。 —3 — M407576 惟,該有色透光蓋92的顏色為固定,且該有色透光 蓋92的顏色數量有限’無法呈現任意色階之光源,因此, 該習知燈具9無法產生各種顏色之光源。再者,由於該有 色透光蓋92係結合於該燈罩91,欲改變光源顏色時,僅 能以人力替換該有色透光蓋92,因此,該習知燈具9不僅 無法自動改變光源顏色,且該習知燈具9也無法自動紀錄 不同情境所需之光源變化。 基於上述原因,有必要進一步改良上述習知燈具9, 以提供一種可產生各種顏色之光源、可自動改變光源之顏 色及可自動記錄光源變化之燈具。 【新型内容】 本創作之目的乃改良上述缺點,係提供一種燈具,該 燈具係由可調光色之發光元件產生各種顏色之光源 本創作之次一目的,係提供一種燈具,該燈具係由程 式控制而自動改變光源之顏色。 該燈具係可儲 係包含一控制 本創作之再一目的,係提供一種燈具 存光源變化設定值,以自動記錄光源變^匕 #為達到前述創作目的,本創作之燈具 ^ 系又至夕—測距單元各輸出一距離訊號,一處理單 接該顺單元並輸人該距離訊號,該處理單元執 輪出數個控制訊號’該控制模組另設一控制 ㈣連接該處理單元並傳輸該控制訊號,及一控制 連接㈣距單元、鱗理單元及該控制耗接 光模組’係設一發光耦接件耦接上述控制模組 之控編接件並電性連接—發光單元,該發_ 上述控制件之控制訊號至該發光單元,及 ^ 埠電性連接該發光耦接件及該發光單元。 x尤電减 本創作燈具之控制模組,ς包含:至少一測距單元, ΪΓ:距:訊號;—處理單元,係電性連接該測距單 號控::::元::控制程式並輪㈣ 制耦接件,係電性連接該處理單升 ^輸及-控制電源淳,係電性連接該測: 早7°、該處理早錢該控_接件;其中,該至少一控制 輕接件各為-電性連接埠或—無線傳輸收發器。二 【實施方式】 為讓本創作之上述及其他目的、特徵及優點 易懂’下文特舉本創作之較佳實施例,並配合所附圖式: 作詳細說明如下: 本創作以下所述之「麵接」係指電性訊號載體之有線 電性連接方核無線電轉輸方式,係熟悉簡藝者可以 理解。 本創作以下所述之「色光三原色」係指紅(㈣、綠 (G麵)、藍(Blue)三原色,係熟悉該技藝者可以理解。 请參照第2圖所示’其係本創作之較佳實施例,本創 作燈具係包含—㈣模組1及-發光模組2 ,該控制模組1 係輕接該發光模組2。藉此,該控侧組丨可控制該發光 模組2’以產生不同情境所需之光源。 該控制模組1係包含至少一測距單元η、-處理單元 M407576 12、至少一控制耦接件13及一控制電源埠14。該至少一 測距單元11係各為具有距離感測功能之裝置,例如:紅外 線感測器、超音波感測器或雷射測距儀等,各該測距單元 11係用以偵測物體距離並輸出一距離訊號。在此實施例中 ,該測距單元π為一紅外線放大模組,該紅外線放大模組 設有依序串接的一紅外線感測器、一放大器及一類比數位 轉換器(ADC)’其中該紅外線感測器輸出一距離感測訊號 並由該放大器放大,再由該類比數位轉換器轉換為數位訊 號’用以表示物體距離值。 該處理單元12係為具有數值運算及儲存功能之裝置 ,例如·可程式邏輯控制器(pr〇grammabie Logic Controller ’ PLC)、數位訊號處理器(Digital Signal Processor,DSP )、系統單晶片(System on a Chip,SoC )、微處理器( Microcontroller)或工業型電腦等。該處理單元12係可預 先儲存控制程式及設定值’且該處理單元〗2係電性連接該 測距單元11,以輸入該距離訊號,詳言之,該處理單元12 係依據該距離訊號及該設定值執行該控制程式,並輸出數 個控制訊號。在此實施例中,該處理單元丨2係選擇可程式 邏輯控制器作為實施態樣;該控制訊號為三個脈波寬度調 變(Pulse Width Modulation,PWM)訊號,以分別控制可 調光色之發光元件的色光三原色之值,該色光三原色之不 同比例值可使上述發光元件產生成任意色階之光源 ,且可 調整上述發光元件之發光亮度。 該至少一控制耦接件13係各為一電性連接槔或一無 線傳輸收發器,該電性連接埠為各種可供電性訊號傳輸之 —6 — M407576 習知電性連接埠,在此容不贅述;該無線傳輸收發器所採 用之無線傳輸技術係如:無線射頻辨識系統(Radi〇 Frequency Identification ’ RFID)、無線通用序列匯流排(The Emitting Diode ’ LED has the advantages of long life, low power consumption and high color variability. Therefore, the LED is gradually adopted as the light source of the situational luminaire. Please refer to the new patent case of "Light Emitting Diode Lamps" in the Republic of China Announcement No. 3^36〇982, as shown in Figure 1, which discloses a conventional lamp 9 comprising a lampshade 9-colored transparent cover 92 , a light guide % and a light. = pole body material. The lamp cover 91 has a receiving groove 911; the colored transparent cover ′ has an opening 921 and covers the receiving groove 911; the light guide is disposed in the accommodating groove 9丨1, and the light guiding member 93 The portion of the light-emitting diode 92 is disposed outside the colored light-transmitting cover 92; and the light-emitting diode 94 is disposed in the accommodating price and corresponds to the light guide 93. When the lamp 9 is in use, the light emitting diode 94 emits a bundle 2'. The light source is conducted through the light guiding member 93, and is transmitted through the colored light to enable the light source to have the colored light. The color of the cover 92. Thereby, the tool 9 can replace the colored transmissive % of different colors, and generate different light sources to meet the needs of different situations. —3 — M407576 However, the color of the colored transparent cover 92 is fixed, and the number of colors of the colored transparent cover 92 is limited, and the light source of any color gradation cannot be presented. Therefore, the conventional lamp 9 cannot generate light sources of various colors. . Moreover, since the colored transparent cover 92 is coupled to the lamp cover 91, when the color of the light source is to be changed, the colored transparent cover 92 can only be replaced by human power. Therefore, the conventional lamp 9 can not only automatically change the color of the light source, and The conventional luminaire 9 also does not automatically record the changes in the light source required for different situations. For the above reasons, it is necessary to further improve the above-described conventional luminaire 9 to provide a luminaire capable of generating a light source of various colors, automatically changing the color of the light source, and automatically recording the change of the light source. [New content] The purpose of this creation is to improve the above-mentioned shortcomings, and to provide a luminaire which is a light source for producing various colors from a light-emitting element of a dimmable color, and provides a luminaire which is provided by a luminaire Program control automatically changes the color of the light source. The luminaire system can include a control object for the purpose of the creation, and provides a set value of the light source change of the lamp to automatically record the light source change 匕# for the purpose of the above creation, the lamp of the creation is further up-- Each of the ranging units outputs a distance signal, and the processing unit is connected to the unit and inputs the distance signal, and the processing unit performs a plurality of control signals. The control module further sets a control (4) to connect the processing unit and transmit the signal. a control signal, and a control connection (4) distance unit, a scale unit, and the control light-receiving module are configured to couple an illumination coupling member to the control module of the control module and electrically connect the light-emitting unit. The control signal of the control unit is connected to the light-emitting unit, and the light-emitting coupling and the light-emitting unit are electrically connected. x special power reduction control module of the creation lamp, including: at least one ranging unit, ΪΓ: distance: signal; - processing unit, electrically connected to the ranging single number control:::: yuan:: control program The parallel wheel (4) is coupled to the device, and is electrically connected to the processing unit, and the control power source is electrically connected to the test: 7 degrees early, the processing is early, and the control is connected; wherein, the at least one The control light fittings are each an electrical connection or a wireless transmission transceiver. [Embodiment] The above and other objects, features and advantages of the present invention are readily understood. The following detailed description of the preferred embodiment of the present invention, together with the accompanying drawings, is described in detail below: "Face" refers to the wired and electrical connection of the electrical signal carrier. The radio transmission method is familiar to the simple artist. The "color primary colors" described below in this creation refer to the three primary colors of red ((4), green (G-face), and blue (Blue), which are familiar to those skilled in the art. Please refer to Figure 2 for the comparison of the creations. In a preferred embodiment, the luminaire comprises: (4) a module 1 and a illuminating module 2, wherein the control module 1 is connected to the illuminating module 2. The control group 2 can control the illuminating module 2 The control module 1 comprises at least one ranging unit η, a processing unit M407576 12, at least one control coupling 13 and a control power supply 埠 14. The at least one ranging unit Each of the 11 series is a device having a distance sensing function, such as an infrared sensor, an ultrasonic sensor, or a laser range finder. Each of the ranging units 11 is configured to detect an object distance and output a distance signal. In this embodiment, the ranging unit π is an infrared amplifying module, and the infrared amplifying module is provided with an infrared sensor, an amplifier and an analog-to-digital converter (ADC) sequentially connected in series. The infrared sensor outputs a distance sensing signal and is The amplifier is amplified, and then converted into a digital signal by the analog-to-digital converter to represent the object distance value. The processing unit 12 is a device having numerical operation and storage functions, for example, a programmable logic controller (pr〇grammabie Logic) Controller 'PLC', Digital Signal Processor (DSP), System on a Chip (SoC), Microcontroller or industrial computer, etc. The processing unit 12 can be pre-stored and controlled. The program and the set value 'and the processing unit> 2 are electrically connected to the ranging unit 11 to input the distance signal. In detail, the processing unit 12 executes the control program according to the distance signal and the set value, and The control unit 选择2 selects a programmable logic controller as an implementation aspect; the control signal is three pulse width modulation (PWM) signals, Separatingly controlling the values of the three primary colors of the light-emitting elements of the dimmable color, the different ratios of the three primary colors of the color light can generate the light-emitting elements a light source of any color gradation, and the brightness of the light-emitting elements can be adjusted. The at least one control coupling 13 is each an electrical connection or a wireless transmission transceiver, and the electrical connection is a variety of power supply signals. Transmission - 6 - M407576 The conventional electrical connection is not described here; the wireless transmission technology used by the wireless transmission transceiver is such as: Radio Frequency Identification (RFID), wireless universal sequence convergence row(
Wireless Universal Serial Bus,Wireless USB )、藍芽(Wireless Universal Serial Bus, Wireless USB ), Bluetooth (
Bluet00th)或超寬頻技術(Ultra wideband,UWB)等傳輪 訊號之技術。各該控制耦接件13電性連接該處理單元 ,用以供該處理單元12輸入或輸出訊號,例如:傳輸該處 理單元所輸出之控制訊號,以利控制該發光模組2,或收 送其他電子裝置之訊號,用以擴充本創作燈具之功能。在 此實施例巾’馳_W+13係·連糾作為實施 態樣,·該處理單元之㈣訊號係由雜難 該發光模組2。 鞠至 :電源料輸控Bluet00th) or ultra wideband technology (UWB) and other technologies for transmitting signals. Each of the control couplings 13 is electrically connected to the processing unit for inputting or outputting a signal to the processing unit 12, for example, transmitting a control signal output by the processing unit to facilitate control of the lighting module 2, or receiving Signals from other electronic devices to expand the functionality of the created luminaire. In this embodiment, the "Whike_W+13" system is used as an implementation aspect, and the (four) signal of the processing unit is caused by the light-emitting module 2.鞠到 : Power material control
=-T13,用以供直流電輪入該測距單= »處理早7C 12及/或該控制柄接件13。在 控制=璋14係選擇直流電接頭作為實施態樣。以 出單==组=設-輸八單〜輸 例如:鍵盤),該輸入h輸入資料之元件或裝置( 制耗接件13/ _接於該控制模址1之控 控制參數。該輸出模組1之 如:液晶營幕;),該輪出 科之几件或裝置(例 控制輕接们3 顯_凡6係趣接於該控制模組i之 ,該輪入單元 早兀16亦可進一步作整合,共 =由觸控瑩幕(Touchpanel)構成,並以RS 485訊號線 連接=該控制模組1之控·接件13。在此實施例中 該輸入單70 15及該輸出單元16係選擇觸控榮幕作為實-施態樣。 另,該控制模組1還可另設一感測組件17,該感測組 2 17係耦接該控制模組1之控制耦接件13,用以量測環 境參數,以作為該處理單元12產生該控制訊號之參考,或· 顯=於輸出單元16,進—步擴大本創作燈具之功能及其適. 用圍。在此實施例中,係以該感測組件口具有一溫度感鲁 測器:—含氧量感測器及—酸驗值感測器作為實施態樣, 用以量測氣體或液體之相關特性參數。 該發光模組2係設有一發光耦接件21、一發光單元 22及發光電源埠23 ’該發光麵接件21為對應該控制搞 接件13之電性連接埠或無線傳輸收發器,該發光耦接件 21係輕接於該控制模組1之控制減件13,用以接收該控 制輕接件所傳輸之控制訊號,且該發光減件21係電性連 接該發光單元22,用以傳輸該控制訊號至該發光單元22 φ ⑽或將已接收之控制訊號回傳至該處理單元12,供該處理 單元12之控制程式檢測故障之用。在此實施例中,該發光 輕接件21係選擇電性連接埠作為實施態樣。 該發光單元22為具有可發出各種色光之發光元件或 裝置,例如:三色發光二極體(RGBLED)或三色發光二 極體陣列(RGB LED Array),該發光單元22係電性連接· 該發光搞接件2卜受該控制訊號控制而發光。在此實施例· 中’该發光單元22係選擇三色發光二極體陣列作為實施態 樣,其中,該發光單元22係由該三pwM訊號控制其色光 三原色之值’以調整該發光單元22之發光顏色及發光亮度 〇 該發光電源埠23與該控制模組1之控制電源埠14所 揭不之功能及構造大致相同,在此容不贅述。該發光電源 埠23係電性連接該發光耦接件21及/或該發光單元用 以供直流電輸入該發光耦接件21及/或該發光單元22。 另,為了使本創作燈具可採用預先蓄電方式供電,該 控制模組1還可另設—蓄電單元3,該蓄電單元3係設有 個或多個蓄電元件,該蓄電元件為習知充電電池,用以 儲存直流電’且該蓄電單元3係設有一輸人端31及一輸出 端32,該輸入端31係供輸入直流電並儲存於該蓄電元件 該輸出鳊32係電性連接於該控制模組丨之控制電源埠 14及該發光模組2之發光電源埠23 ’以將該蓄電元件之直 流電輸出至該控制模組丨及該發光模組2。 再者,為了使本創作燈具可直接使用交流電供電,該 控=組1還可另設—整流單元4’該整流單元4係設有 一父流端41及一直流端42分別電性連接至一整流電路( 圖未、e示,例如.橋式電路)。該交流端41係可輸入交流 電’由該整流電路轉換為直流電,並輸出至該直流端42。 該f流,42係電性連接該蓄電單元3,用以儲存直流電於 該蓄電單元3 ;或者,該直流端42係電性連接於該控制模 組j之控制電科14及該發光模組2之發光電源淳^,、 以提供該控制模組1及該發光模組2所f之直流電。在本 實施例中’該整流單元4健擇全波整流橋式電路作為實 M407576 施態樣。 本創作之燈具使用時,係可設置於需情境光源之環境 (例如:室内空間或室外造景等),其中,該至少一測距單 元π係可設於室内外之人員動線或出入口;該處理單元 12係已預先儲存數種情境核式(例如.客應模式、臥^室模 式、書房模式或室外模式等),且該處理單元12還可以供 使用者自定情境模式(例如:電影院模式、用餐模式或省 電模式等)或經由該輸入單元15更改各情境模式之設定值 (例如:光源顏色、光源亮度、光源變換時間或啟動距離 值等),各該情境模式之設定值係可顯示於該輸出單元16 〇 藉此,當人員或動物等物體接近該測距單元u時,該 測距單元11係偵測該物體之距離,並輸出該距離訊號至該 處理單元12,若該距離訊號符合該燈具之啟動條件(例如 :該距離訊號之值小於一啟動距離值),則該處理單元12 依據设定之情境模式輸出該控制訊號(即該三pWM訊號 ),且該控制訊號由該控制模組1之控制輕接件13傳輸至 該發光模組2之發光耗接件21,而使該發光單元22發出 該情境模式所需光源。 =其中,該處理單元12可產生不同控制訊號,以調整 該發光單το 22之色光三原色的值,而使該發光單元22產 生各種顏色之光源。再者,該處理單元12藉由該控制程式 依序調整該控制職,使該發光料Μ之&光三原色的比 2值改變’而令該發光單元22自動產生不·光顏色、發 光亮度及發光時間的辆、。另,各铺境模式之光源設定 ~ 10 — M407576 值逛可以自動儲存於錢 重覆蓋生各種情境模式所需=,使該發光單元22可 式之光源需求。此外,卷"、變化,以符合各種情境模 發光模組2之發光叙接^創作燈具故障而不發光時,該 經由該控_接件13傳“^^字所接收之控制訊號, 作為故障檢敎用。轉理早m難值比對,以 ^ ·* 施態樣說日^中,該_此=燈具設於水族箱作為實 的移動距離,使該處理可依據人員或水中生物 ⑽m 發出不同控制訊號,而改變 早凡22之光源,·且感測組件π可偵測水中物質的 特性參數(⑽:溫度、含氧㈣紐值等),使該處理 元12發出不同控制訊號及/或顯示於該輸出單元16。因 此,由於該需情境光源之裝置設有本創作燈具,而進一步 提升該裝置的觀賞價值及附加價值。本創作之燈具,係= 該處理單元12產生不同控制訊號,以調整該發光單元22 之色光三原色之值,而使該發光單元22產生 色,因此,本創作之燈具具有產生各種顏色光顏 本創作之燈具’係由該處理單元12執行控制程式而 依序調整該控制訊號’使該發光單元22之色光三原色的比 例值改變’而令該發光單元22自動產生不同發光顏色、發 光亮度及發光時間的光源’因此’本創作之燈具可達成自 動改變光源顏色之功效。 本創作之燈具,係由該處理單元12自動儲存各該情 境模式之光源設定值’使該發光單元22可重覆產生各種情 —11 — M407576 =¼式所需光源變化,以符合各種情境模式之光源需求, 本創作之燈具具有自動記憶不同情境所需光源之功 效。 〜雖然本創作已利用上述較佳實施例揭示,然其並非用 限疋本創作,任何熟習此技藝者在不脫離本創作之精神和 fc圍之内’相對上述實闕進行各種更動與修改仍屬本創 作所保護之技術射,因此梢作之保護顧當視後附之 申請專利範圍所界定者為準。 【圖式簡單說明】 苐1圖:習知燈具之組合立體圖。 第2圖:本創作燈具較佳實施例之系統方塊圖。 【主要元件符號說明】 〔本創作〕 1 控制模組 11 測距單元 12 處理單元 13 控制耦接件 14 控制電源埠 15 輸入單元 16 輸出單元 17 感測組件 2 發光模組 21 發光耦接件 22 發光單元 23 發光電源埠 3 蓄電單元 M407576 31 輸入端 32 輸出端 4 整流單元 41 交流端 42 直流端 〔習知〕 9 習知燈具 91 燈罩 911 容置槽 92 有色透光蓋 921 開口 93 導光件 94 發光二極體=-T13, for DC power to enter the ranging unit = » processing early 7C 12 and / or the handle handle 13 . In the control = 璋 14 series, a DC connector is selected as an implementation. To output the component ================================================================================================== Module 1 such as: LCD screen;), the wheel of a few pieces or devices (such as control light connection 3 display _ 凡6 series fun connected to the control module i, the wheel-in unit early 兀 16 It can be further integrated, a total of = touchpanel, and connected by RS 485 signal line = control and connector 13 of the control module 1. In this embodiment, the input sheet 70 15 and the The output unit 16 is configured to select a touch screen as a real-mode aspect. In addition, the control module 1 can further be provided with a sensing component 17 , and the sensing group 2 17 is coupled to the control coupling of the control module 1 . The connector 13 is configured to measure the environmental parameter as a reference for the processing unit 12 to generate the control signal, or to display the function of the creative lamp and the appropriate use. In this embodiment, the sensing component port has a temperature sensing detector: an oxygen sensor and an acid value sensor as an implementation aspect, The illuminating module 2 is provided with an illuminating coupling member 21, an illuminating unit 22, and an illuminating power source 埠23'. The illuminating surface connector 21 is adapted to control the electrical property of the splicing member 13. Connected to the wireless transmission transceiver, the light-emitting coupling 21 is lightly connected to the control minus member 13 of the control module 1 for receiving the control signal transmitted by the control light-connecting member, and the light-emitting reducing member 21 is The illuminating unit 22 is electrically connected to the illuminating unit 22 φ (10) or transmits the received control signal to the processing unit 12 for the control program of the processing unit 12 to detect the fault. In this embodiment, the light-emitting connector 21 is an electrical connection port. The light-emitting unit 22 is a light-emitting element or device capable of emitting various color lights, for example, a three-color light emitting diode (RGBLED) or The RGB LED Array is electrically connected to the illuminating unit 22, and the illuminating unit 2 is controlled by the control signal to emit light. In this embodiment, the illuminating unit 22 is selected. Three-color LED As an embodiment, the light-emitting unit 22 controls the value of the three primary colors of the color light by the three pwM signals to adjust the light-emitting color and the light-emitting brightness of the light-emitting unit 22, and the light-emitting power source 23 and the control module 1 The functions and structures of the control power supply 14 are substantially the same, and are not described here. The light-emitting power supply 23 is electrically connected to the light-emitting coupling 21 and/or the light-emitting unit for direct current input. The device 21 and/or the light-emitting unit 22. In addition, in order to enable the present lamp to be powered by a pre-storage method, the control module 1 may additionally be provided with a power storage unit 3, which is provided with one or more power storage devices. The power storage device is a conventional rechargeable battery for storing DC power and the power storage unit 3 is provided with an input end 31 and an output end 32. The input end 31 is for inputting DC power and is stored in the storage element. The 鳊32 is electrically connected to the control power supply 埠14 of the control module and the illuminating power supply 埠23' of the illuminating module 2 to output the DC power of the storage element to the control module 丨 and the illuminating module 2. Furthermore, in order to enable the luminaire to be directly powered by the alternating current, the control unit 1 can be additionally provided with a rectifying unit 4'. The rectifying unit 4 is provided with a parent terminal 41 and a direct current terminal 42 electrically connected to one. Rectifier circuit (not shown, e, for example, bridge circuit). The AC terminal 41 is capable of inputting an alternating current 'converted to direct current by the rectifier circuit and outputted to the DC terminal 42. The f-stream is electrically connected to the power storage unit 3 for storing the direct current to the power storage unit 3; or the DC terminal 42 is electrically connected to the control circuit 14 of the control module j and the light-emitting module The illuminating power supply of the illuminating power supply of the control module 1 and the illuminating module 2 is provided. In the present embodiment, the rectifying unit 4 selects a full-wave rectifying bridge circuit as a real M407576. When the luminaire of the present invention is used, it can be set in an environment where the ambient light source is required (for example, indoor space or outdoor landscaping, etc.), wherein the at least one ranging unit π can be set at a moving line or an entrance of the person indoors and outdoors; The processing unit 12 has pre-stored several situational cores (for example, a guest mode, a bedroom mode, a study mode, an outdoor mode, etc.), and the processing unit 12 can also be used by the user to customize the context mode (for example: a movie theater mode, a meal mode, a power saving mode, or the like) or changing a setting value of each context mode (for example, a light source color, a light source brightness, a light source changing time, or a starting distance value, etc.) via the input unit 15, and setting values of each of the situation modes The distance measuring unit 11 detects the distance of the object and outputs the distance signal to the processing unit 12 when the object or the animal approaches the distance measuring unit u. If the distance signal meets the starting condition of the luminaire (for example, the value of the distance signal is less than a starting distance value), the processing unit 12 outputs the modality according to the set context mode. And the control signal is transmitted from the control light connector 13 of the control module 1 to the light-emitting connector 21 of the light-emitting module 2, so that the light-emitting unit 22 emits the situation mode. The required light source. Wherein, the processing unit 12 can generate different control signals to adjust the values of the three primary colors of the color light of the light-emitting sheet το 22, so that the light-emitting unit 22 generates light sources of various colors. Furthermore, the processing unit 12 sequentially adjusts the control position by the control program to change the ratio of the two primary colors of the illuminant to the light source unit, and the light-emitting unit 22 automatically generates the light color and the light-emitting brightness. And the vehicle that emits time. In addition, the light source setting of each paving mode ~ 10 - M407576 value shopping can be automatically stored in the money to cover the various situation mode required =, so that the lighting unit 22 can be used as a light source. In addition, the volume ", change, in order to meet the lighting of the various situational mode lighting module 2 to create a lamp failure without lighting, the control signal received by the "^^ word" via the control connector 13 The fault detection is used. It is difficult to compare the value of the early m, and the ^^* is said to be in the middle of the day, the _this = the luminaire is set in the aquarium as the actual moving distance, so that the treatment can be based on personnel or aquatic organisms. (10)m sends different control signals, and changes the light source of the 22nd, and the sensing component π can detect the characteristic parameters of the substance in the water ((10): temperature, oxygen (4) value, etc.), so that the processing element 12 sends different control signals And/or displayed on the output unit 16. Therefore, since the device for the ambient light source is provided with the creative lamp, the ornamental value and the added value of the device are further enhanced. The lamp of the present invention is different from the processing unit 12 Controlling the signal to adjust the values of the three primary colors of the color light of the light-emitting unit 22, so that the light-emitting unit 22 generates a color. Therefore, the lamp of the present invention has a light-emitting device for producing various colors, and is executed by the processing unit 12. The control unit sequentially adjusts the control signal 'changes the ratio of the three primary colors of the color light of the light-emitting unit 22' to the light source unit 22 to automatically generate different light-emitting colors, light-emitting brightness, and light-emitting time. Therefore, the lamp of the present invention can be The effect of automatically changing the color of the light source is achieved. The lamp of the present invention is automatically stored by the processing unit 12 for the light source setting value of each of the situation modes, so that the light-emitting unit 22 can repeatedly generate various situations - 11 - M407576 = 1⁄4 The light source is changed to meet the light source requirements of various situational modes. The luminaire of the present invention has the effect of automatically memorizing the light source required for different situations. 〜 Although this creation has been disclosed by the above preferred embodiment, it is not limited to the creation, any Those skilled in the art will not be divorced from the spirit of this creation and within the scope of fc. 'The various changes and modifications relative to the above-mentioned implementations are still the technical shots protected by this creation. Therefore, the protection of the tippings is attached to the patent application scope. The defined ones shall prevail. [Simple diagram of the diagram] 苐1 diagram: a combination of the familiar lamps. Figure 2: The lamp System block diagram of the preferred embodiment. [Main component symbol description] [This creation] 1 Control module 11 Ranging unit 12 Processing unit 13 Control coupling 14 Control power supply 输入 15 Input unit 16 Output unit 17 Sensing component 2 Light-emitting module 21 Light-emitting coupling 22 Light-emitting unit 23 Light-emitting power supply 埠3 Power storage unit M407576 31 Input terminal 32 Output terminal 4 Rectifier unit 41 AC terminal 42 DC terminal [General] 9 Conventional lamp 91 Lampshade 911 accommodating groove 92 Colored light-transmissive cover 921 opening 93 light guide 94 light-emitting diode
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