M425982 五、新型說明: 【新型所屬之技術領域】 尤其係關係一種可調控色溫之照明 本創作係一種照明裝置 裝置。M425982 V. New description: [New technical field] Especially related to lighting that can regulate color temperature This creation is a lighting device.
【先前技術】 發光二極體(Light Emittin。η.」 g 10 e; LED)近年來已廣泛地應用 於曰常生活當巾,因1 "八有即此名冤的好處與優勢,舉凡顯示器、 家電裝置、車用電子組件 /、_.·寻白疋發光二極體的應用 ㈣體作為發㈣之家用照明燈具為例,因其 具有暖燈時間快、反應速度快、體積小、壽命長、省電、对震、 污染程度低、高可靠度與適合量產的優點,使得傳統白熾燈泡與 曰光燈已有漸漸被取代的趨勢。 目月j見有以發光二極體作為發光源的照明裝置,大都僅具有 單-照明色溫的光源輸出’也就是說發光源的照明色溫將取決於 搭配於照明裝置上的發光二極體,但是’搭配於照明裝置上的發 光二極體通常是於製造完成之前即已被加入用以決定發光二極體 ί、有何種…、月色4之光源輸出的蟹光'粉,因此,除非使用者更換 拾配方、’…月逡置上的發光二極體,否則使用者不能在使用照明裝 M425982 置的過程中對所輸出光源的照明色溫進行調控β 然而,如上所述的照明裝置會造成使用者的不便,舉例來說, 右疋發光二極體所輸出之光源的色溫值偏高,就容易讓使用者感 見光’泉刺眼與&境尽冷’但使用者卻不能對發光源的照明 色溫進 行調控,因而造成視覺上的不適與傷害。[Prior Art] Light-emitting diode (Light Emittin. η." g 10 e; LED) has been widely used in recent years as a life towel, because of the advantages and advantages of this name, Display, home appliance, automotive electronic components /, _.· 寻 疋 疋 疋 疋 ( ( ( ( ( ( ( ( 寻 寻 寻 寻 寻 作为 作为 作为 作为 作为 作为 作为 家用 家用 家用 家用 家用 家用 家用 家用 家用 家用 家用 家用 家用 家用 家用 家用 家用 家用 家用 家用 家用 家用 家用 家用The advantages of long life, power saving, shock, low pollution, high reliability and suitable mass production have led to the trend of replacing traditional incandescent bulbs and neon lamps.目月 j see there is a lighting device with a light-emitting diode as the light source, most of which only have a single-illumination color temperature source output 'that is, the illumination color temperature of the light source will depend on the light-emitting diodes matched with the lighting device. However, 'the light-emitting diodes that are used in the lighting device are usually added before the manufacturing is completed to determine the light-emitting diodes, what kind of ..., the moonlight 4 light source output of the crab light powder, therefore, Unless the user replaces the light-emitting diode on the pick-up formula, '...monthly, the user cannot adjust the illumination color temperature of the output light source during the use of the illumination device M425982. However, the lighting device as described above It will cause inconvenience to the user. For example, the color temperature value of the light source output by the right-hand LED is too high, so that the user can easily see the light 'spring glare and & cold environment' but the user cannot The illumination color temperature of the illumination source is regulated, thereby causing visual discomfort and injury.
有m匕,現已有改善上述缺失的照明裝置被提出,亦已發 展:-些關於控制照明色溫的調變技術,其中,該些調變技術除 令使用者可經由手動調控照明裝置的照明色溫外,更能夠藉由 在如、明裝置上設置色溫感測器感測週遭環境的色溫值,以令照明 了 裝置依據色溫感測器所偵測的結果 色 ’其如台灣發明專利第20093%65號公開 而自動調控所輸出光源的照明 置 號所揭露之發光裝 特別說明的是,習知技術中所提出 的調變技術,絕大部分都是揭露如何令照 的照明裝置以及照明色溫 明裝置所輸出光源的照 Γ =川麵,#編糊+ _蝴所需求 V…、月色〉皿,缺而,矣阜 右疋針對自動控制的技術領域上,除了上述 色溫感測器所偵測而得之週遭環 光源的判斷依據外’現今幾乎沒有其 k置及其相關忮術被提出。 境的色溫值作為照明裝置輪出 它自動調控照明色溫的照明 【新型内容】 4 M425982 本創作之主要目的, ^ a . A ^ 在灰k供一種具有自動凋控照明色溫功 能的照明裝置,尤复# „μ '、ίτ、關於一種依據光感測器所偵測而得之週遭 環境亮度而自動調變所輸出照明色溫的照明裝置。 Λ it R %例中,本創作提供一種可調控色溫之照明裝 置匕括·—發光源,具有複數種照明色溫之光源輸出·,至少一 光感測疋件’用以感測-週遭環境亮度而產生-亮度訊號;以及 一驅動控制單元,^連接於該發光源以及該光感測元件之間, 用以接收該亮唐却狀 W ... °亚依據該亮度訊號而驅動該發光源輸出一 相對應之照明色溫。 於-較佳實施例中’該發光源至少包括一第一發光二極體單 兀以及弟—發光二極體單元,且該第一發光二極體單元具有一 第…、月色'皿之光源輪出’而該第二發光二極體單元具有一第二 照明色溫之光源輪出。 > 方:一較佳實施例中,該驅動控制單元係藉由僅調變該第—發 光二極體單元盥該筮_ 弟一發光二極體單元中之任一者的驅動功率, 而使該相對應之照明声,.B八 巳咖"於该弟—照明色溫與該第二照明色溫 之間。 於一較佳實施例令,該第一照明色溫之色溫值為_οκ’而 該第二照明色溫之色溫值為刪κ。 於一較佳實施你I Φ,A — ^ , 遭環 、 中 ® 5亥至少一光感測元件所感測之週 5 M42 ⑽ 2 境亮度降伋a± 照日7驅動控制單元增加該發光源所輸出該相對應之 古应'的色㈣’而當該至少—光感測元件所感測之週遭環境 冗度增加時,兮脏 兄 ”動控制單元降低該發光源所輸出該相對應之照 月色溫的色溫值。 ,卜—於:較佳實施例t ’該相對應之照明色溫的色溫值係與該至 乂先感測元件所感測之週遭環境亮度呈—線性反比關係。 於-較佳實施例I更包括一燈具主體,以供該發光源、該 驅動控制單元以及該至少—光感料件組皆設置於該燈具主體之 結構内或其周圍表面。 卜較佳實施例中,該至少H収件«過-無線傳輸 方式將該党度訊號傳輸至該驅動控制單元。 於-較佳實施例中,更包括—燈具主體,以供該發光源以及 該驅動控制單元皆設置於該燈具主體之結構内或其周圍表面,且 s亥至少一光感測元件以遠離該燈具主體之方式設置。 於-較佳實施例中,該至少一光感測元件係為一光敏電阻。 方’ m〜例中’該至少一光感測元件係為複數個光感測 元件’並分別設置於該照明裝置之不同方向的位置上,且該相對 應之照明色溫係依據該複數個光感測元件之感測結果而決定。 於-較佳實施例中,可調控色溫之照明裝置賴用於室内照 明’且該照明裝置係可為一家用照明燈、—商用照明燈、一梭燈 或一床頭燈。 於另一料實施例t,本創作提供—财調控色溫之照明裝 置’包括:一燈呈主興. '' s,一各光源,具有複數種照明色溫之光源 輸出,至少一光咸,,目丨丨;? /4· , 心“牛,用以感測一週遭環境亮度而產生一亮 度sFL 5虎,以及—驅動彳力^ @ _ — 助彳工制早兀,電性連接於該發光源以及該光感 測元件之間’用以接收兮哀 μ 7C度巩唬,亚依據該亮度訊號而驅動該 發光源輸出一相對應之照明色溫。 π於另一較佳實施例中,該燈具主體係供該發光源、該驅動控 制早疋以及该至少-光感測S件組皆設置於該燈具主體之結構内 或其周圍表面。 方;另一較佳實施例中,兮 5 φ 一止_ ^ 光感測元件係透過一無線傳 輸方式將該亮度訊號傳輸至該 才刊!王4也勁&制早兀,且該燈具主體係供 該發光源以及該驅動控制單亓匕机 二利早兀白叹置於該燈具主體之結構内或其There are m匕, lighting devices that have improved the above-mentioned deficiencies have been proposed, and have also been developed: some modulation techniques for controlling the color temperature of the illumination, wherein the modulation techniques allow the user to manually adjust the illumination of the illumination device. In addition to the color temperature, it is also possible to sense the color temperature value of the surrounding environment by setting a color temperature sensor on the device such that the device is illuminated according to the color detected by the color temperature sensor. The illuminating device disclosed in the illuminating and automatically regulating the output light source of the No. 65 is specially described. The modulation technology proposed in the prior art mostly discloses how to illuminate the lighting device and the illumination color temperature. The light source output of the device is 川 川 川 川 川 川 川 川 川 川 川 川 川 川 川 川 川 # # # # # # # # # # # # 需求 需求 需求 需求 需求 需求 需求 需求 需求 需求 需求 需求 需求 需求 需求 需求 需求 需求The judgment of the surrounding ring light source is based on the fact that there is almost no such thing as its current position and its related art. The color temperature value of the environment is used as a lighting device to turn it out to automatically adjust the illumination color temperature. [New content] 4 M425982 The main purpose of this creation, ^ a . A ^ In gray k for a lighting device with automatic control of the color temperature function, especially Complex # „μ ', ίτ, a lighting device that automatically modulates the color temperature of the output illumination according to the ambient brightness detected by the light sensor. Λ it R % In this example, the creation provides a tunable color temperature The illumination device comprises: a light source, a light source output having a plurality of illumination color temperatures, at least one light sensing element for sensing a ambient brightness and generating a brightness signal; and a driving control unit, Between the light source and the light sensing component, the light source is driven to output a corresponding illumination color temperature according to the brightness signal. The light source includes at least a first light-emitting diode unit and a light-emitting diode unit, and the first light-emitting diode unit has a light source of a ... second The light emitting diode unit has a second illumination color temperature light source. > In a preferred embodiment, the driving control unit is configured to modulate only the first light emitting diode unit a driving power of any one of the light emitting diode units, such that the corresponding lighting sound, .B 巳 巳 于 于 该 该 该 该 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明 照明In an embodiment, the color temperature value of the first illumination color temperature is _οκ' and the color temperature value of the second illumination color temperature is deleted κ. In a preferred implementation, you I Φ, A — ^ , the ring, the middle® 5 at least The circumference of a light sensing element is sensed. 5 M42 (10) 2 Ambient brightness drop ± a± according to the day 7 drive control unit increases the corresponding source of the color (4) of the illumination source and when the at least light sensing When the environmental sensation sensed by the component is increased, the dirty control unit reduces the color temperature value of the corresponding moon color temperature output by the illumination source. Preferably, the color temperature value of the corresponding illumination color temperature is linearly inversely proportional to the ambient brightness sensed by the prior sensing element. The preferred embodiment I further includes a luminaire body for the illumination source, the drive control unit, and the at least-light-sensing member set to be disposed within or around the structure of the luminaire body. In a preferred embodiment, the at least H-receiver «over-wireless transmission mode transmits the party signal to the drive control unit. In a preferred embodiment, the apparatus further includes a luminaire main body, wherein the illuminating source and the driving control unit are disposed in the structure of the luminaire main body or a surrounding surface thereof, and at least one light sensing component is away from the The way the main body of the lamp is set. In a preferred embodiment, the at least one photo sensing element is a photoresistor. In the example, the at least one light sensing element is a plurality of light sensing elements and is respectively disposed at different positions of the illumination device, and the corresponding illumination color temperature is based on the plurality of lights. The sensing result of the sensing element is determined. In a preferred embodiment, the illuminating device that modulates the color temperature is used for indoor lighting' and the lighting device can be a lighting fixture, a commercial lighting, a shuttle light or a bedside lamp. In another embodiment t, the creation provides a lighting device for controlling color temperature, including: a light is presented as a main light. '' s, a light source, having a plurality of illumination color temperature light source outputs, at least one light salt, Witness;? /4· , heart "cow, used to sense the ambient brightness of a week to produce a brightness sFL 5 tiger, and - drive force ^ @ _ - help the workmanship system early, electrically connected to the The light source and the light sensing component are configured to receive the illuminating color, and the light source is driven to output a corresponding illumination color temperature according to the brightness signal. π is in another preferred embodiment, The main system of the lamp is provided for the illumination source, the driving control early, and the at least-light sensing S component group are disposed in or around the structure of the lamp body. In another preferred embodiment, the crucible 5 φ一止_ ^ The light sensing component transmits the brightness signal to the magazine through a wireless transmission method! Wang 4 is also a precursor and the system is provided for the illumination source and the drive control unit. The second sigh of the machine is placed in the structure of the main body of the luminaire or
周圍表面,並使該至少„ 土 4 _ /iL 先感測儿件以遠離該燈具主體之方式設 置。 。又 【實施方式】 請參閱圖卜其為本創作之一較佳實施結構方塊示意圖。照明 裝置丨包括發光源丨丨、驅動控制單元]2、光感測元件組丨3以及 燈具主體丨4 ;其中,發光源丨丨、賊九^ ^ — 城11馬&動控制單元12以及光感測元 件元件組1 j皆设置於燈且主辦丨4夕& 且/、王版丨4之結構内或其周圍表面,且發 7 M425982 光,馬 11 、可輪出多種照明色溫的光源,光感測元件組u則用以感 ’則一週遭環境亮度’並㈣應產生—亮度訊號1而驅動控制單 凡12連接於發光源n與光感測元件組13之間,用以接收光感測 凡件,’且13所產生的亮度訊號S1,並依據亮度訊號S1而驅動發光 源丨丨輪出相對應的照明色溫。 田…垃具主體丨4之具體實施作法,係可為各式LED燈具 _、”。構’且此應為熟悉本技藝之人士所熟悉,在此不予贅述。 ’別。免明的疋,當使用者所在環境之光源的照明亮度保持不 女的情況下,色溫值較高的光線會令人感覺較為明亮’基此,於 本較隹實施例中,當照明裝置1的光感測元件組13所感測之週遭 匕尺減夕或過低時,光感測元件組丨3會輸出相對應的亮度訊 5虎至艇動控制單元12 ’進而令驅動控制單^ 12增加發光源η所 ‘出之I明色溫的色溫值’以使處於昏暗環境的使用者在照明色 馨溫之色溫值提高的情況下’能夠感受到所在環境更為明亮,視野 也更為清楚;相反的’當照明裝置丨的光感測元件組13所感測之 〇 ^加或過问時,光感測元件組丨3會輸出相對應的亮 度几波至驅動控制單元12,進而令驅動控制單元12減少發光源 ^ 出之照明色溫的色溫值’以降低使用者的不適感。較佳者, &光康11所輸出之照明色溫的色溫值係與光感測元件组13所感 測之週遭環境亮度呈—線性反比關係 ’其如圖2所示。 再者’於本較佳實施例中,發光源11係包括第-發光二極體 8 M425982 單元m以及第二發光二極體單^ 112,且第—發光二極體單元 η1具有第一照明色溫之光源輸出,而第二發光二極體單元丨以具 有第二照明色溫之光源輸出。®此,纟光源丨丨戶斤能夠冑出之照明 色溫的色溫值係介於第一照明色溫的色溫值與第二照明色溫的色 溫值之間。當然,發光源丨丨所包括之發光二極體單元的數量或色 溫的種類選擇,係可視實際的應用而定,並不以上述舉例為限。 較佳者,照明裝置丨的驅動控制單元丨2係藉由僅調變第一發 光一極體單元11丨與第二發光二極體單元】丨2中之任一者的驅動 功率,而使發光源丨丨所輸出之照明色溫的色溫值介於該第一照明 色溫的色溫值與第二照明色溫的色溫值之間。 以下以第一照明色溫的色溫值為6000κ,且第二照明色溫的 色溫值為3000Κ舉例說明’但不以此為限。當第—發光二極體單 元1丨丨以及第二發光二極體單元丨丨2皆被以丨〇〇q/。的功率驅動時’ 發光源1丨所輸出之照明色溫的色溫值為45〇〇κ ;當第一發光二極 體單元1 1 1恒保持被1 00%的功率驅動,而第二發光二極體單元112 被以由0%的功率驅動逐漸調升至被以丨〇〇%的功率驅動時,發光 源丨丨所輸出之照明色溫的色溫值則相對應由6000κ逐步降低至 4500Κ ;而當第一發光二極體單元丨丨丨被以由〇%的功率驅動逐漸 調升至被以1 00%的功率驅動,且第二發光二極體單元丨丨2恆保持 被100%的功率驅動時,發光源丨丨所輸出之照明色溫的色溫值則 相對應由3000Κ逐步增加至4500Κ。 M425982 於本較佳實施例中,照明裝置丨的光感測元件組丨3並非僅能包括 單-個光感測元件’且其設置位置也可視產品的實際環境而定; 亦即’於㈣裝置上,可安排設置複數個光感測元件,並且該些The surrounding surface is arranged such that the at least „ soil 4 _ /iL sensing component is disposed away from the main body of the luminaire. [Embodiment] Please refer to the schematic block diagram of a preferred embodiment of the present invention. The illuminating device 丨 includes a illuminating source 丨丨, a driving control unit 2、2, a light sensing component group 丨3, and a luminaire main body 丨4; wherein, the illuminating source 贼, the thief nine ^ ^ - city 11 horse & motion control unit 12 and The light sensing component component group 1 j is disposed on the lamp and is organized in or around the structure of the 丨4& and/or the king 丨4, and emits 7 M425982 light, and the horse 11 can turn out various illumination color temperatures. The light source, the light sensing component group u is used to sense 'the ambient brightness of one week' and (4) should be generated - the brightness signal 1 and the driving control unit 12 is connected between the light source n and the light sensing element group 13 for Receiving the light sensing device, the brightness signal S1 generated by the '13, and driving the illumination source according to the brightness signal S1 to rotate the corresponding illumination color temperature. The specific implementation of the main body of the device For all kinds of LED lamps _,". It should be familiar to those skilled in the art and will not be described here. 'do not. In the case of an unclear ambiguity, when the illumination brightness of the light source of the user's environment remains not female, the light with a higher color temperature value may feel brighter. In this embodiment, when the illumination device 1 The light sensing component group 会3 outputs a corresponding brightness signal when the sensing of the light sensing component group 13 is reduced or too low, and then the driving control unit 12 Increasing the color temperature value of the I bright color of the illuminating source η so that the user in a dim environment can feel the environment is brighter and the field of vision is clearer when the color temperature of the illuminating color is increased. Conversely, when the light sensing component group 13 of the illumination device senses or adds to the problem, the light sensing component group 3 outputs a corresponding brightness to the drive control unit 12, thereby driving The control unit 12 reduces the color temperature value ' of the illumination color temperature of the illumination source to reduce the user's discomfort. Preferably, the color temperature value of the illumination color temperature output by the & Guangkang 11 is linearly inversely proportional to the ambient brightness sensed by the light sensing element group 13' as shown in Fig. 2. In the preferred embodiment, the illuminating source 11 includes a first-emitting diode 8 M425982 unit m and a second illuminating diode unit 112, and the first illuminating diode unit η1 has a first illumination. The color temperature light source is output, and the second light emitting diode unit is outputted by the light source having the second illumination color temperature. ® This, the color temperature value of the color temperature is between the color temperature value of the first illumination color temperature and the color temperature value of the second illumination color temperature. Of course, the number of light-emitting diode units included in the light source source or the type of color temperature may be selected depending on the actual application, and is not limited to the above examples. Preferably, the driving control unit 丨2 of the illuminating device 藉 is configured to modulate only the driving power of any one of the first illuminating unit 112 丨 and the second illuminating diode unit 丨 2 The color temperature value of the illumination color temperature outputted by the light source is between the color temperature value of the first illumination color temperature and the color temperature value of the second illumination color temperature. Hereinafter, the color temperature value of the first illumination color temperature is 6000 κ, and the color temperature value of the second illumination color temperature is 3000 Κ exemplified 'but not limited thereto. When the first light-emitting diode unit 1丨丨 and the second light-emitting diode unit 丨丨2 are both 丨〇〇q/. When the power is driven, the color temperature value of the illumination color temperature output by the light source 1 is 45 〇〇 κ; when the first light-emitting diode unit 11 1 is constantly driven by 100% of the power, and the second light-emitting diode When the body unit 112 is gradually driven up to a power of 丨〇〇% by the power of 0%, the color temperature value of the illumination color temperature output by the illuminating source 相对 is gradually reduced from 6000 κ to 4500 Κ; The first light-emitting diode unit is gradually driven up to be driven by 100% power with a power of 〇%, and the second light-emitting diode unit 恒2 is constantly driven by 100% power. At the time, the color temperature value of the illumination color temperature output by the illumination source is gradually increased from 3000 4 to 4500 Κ. M425982 In the preferred embodiment, the light sensing component group 3 of the illumination device 并非 can not only include a single light sensing component ′ and its setting position can also be determined according to the actual environment of the product; that is, '(4) a plurality of light sensing elements can be arranged on the device, and the
光感測元件被分別設置於照明裝置!的不同方向上,原因在於避 免其中-個錢測元件處於非客觀的環境_而感測出非客觀的週 遭環境亮度’如設置於牆角臨近處的照明裝置,且其唯一的光感 測元件恰好面對牆角。因此’發光源"所輸出之照明色溫的色溫 值係綜合所有光感測 元件中至少兩個光感測元件的感測結果而 定,以獲得較準確的週遭環境亮度 任一光感測元件係可為一光敏電阻 感測元件的數量亦可由熟悉本技術 行設計。 。此外’光感測元件組]3中的 ,且照明裝置丨上所應配置光 之人士依據實際應用需求而進 平乂往貫施結構方塊 中’本實施例之照明裝置2大致邱 级頒似於本案前述較佳實施例中所 述者’在此即不再予以贅述。 本貫施例與前述實施例不同之虚 b Ν之愿在於,光感測元件組23並非 是以有線方式電性連接於驅動控制單 .π . ..·, 、, w早疋22,亚且光感測元件組23 並非設置於燈具主體24上。並中,止a , _ 光感測元件組2 3以及驅動控 22 過無線傳輸方式’以將光感H组23所產 生的党度訊號S2傳輸至驅動控制單元U,驅動控制_ Μ再依 據免度訊號S2而驅動發光源21輪出相對應的照明色溫。當然, 10 M425982 有關上線傳輸的實施技術,應為熟知此技藝人士所知悉,此 即不再予以贅述。The light sensing elements are separately arranged in the lighting device! In different directions, the reason is to avoid the fact that one of the money measuring components is in a non-objective environment _ while sensing the non-objective ambient brightness 'such as the lighting device placed near the corner of the wall, and its only light sensing component happens to be Facing the corner. Therefore, the color temperature value of the illumination color temperature output by the 'light source' is determined by integrating the sensing results of at least two of the light sensing elements to obtain a more accurate ambient environment brightness. The number of sensing elements that are a photoresistor can also be designed by those skilled in the art. . In addition, in the 'light sensing component group 3', and the person who should be configured with light on the lighting device, according to the actual application requirements, the lighting device 2 of the present embodiment is roughly in the same manner. The above description of the preferred embodiment of the present invention will not be repeated here. The present embodiment is different from the foregoing embodiment in that the optical sensing element group 23 is not electrically connected to the driving control unit by a wired method. π . . . , , , , w early 22 , Moreover, the photo sensing element group 23 is not disposed on the lamp main body 24. In the middle, the a, the _ light sensing component group 2 3 and the driving control 22 pass the wireless transmission mode 'to transmit the party signal S2 generated by the light sensing group H to the driving control unit U, and the driving control _ The illumination source 21 is driven to emit the corresponding illumination color temperature without the signal S2. Of course, 10 M425982 implementation techniques for on-line transmission should be known to those skilled in the art and will not be described again.
本碧丨作,¾明裝置的運用將更為彈性。舉例來說,使用 者厂依據貝際應用需求,而將光感測元件組」設置於遠離燈具主 -的也方並且使用者不需要為光感測元件組]與驅動控制 單元22之間的牽線作業帶來困擾。抑或如,將燈具主體24設置 於天花板,而將光感測元件組23設置於書桌附近,因此光感測元 件組2 3能夠更精確地獲得使用者在f桌上閱讀時的照明亮度。 由以上說明可知,本創作照明裝置是—種能夠自動調控照明 色溫的照明裝置’且本創作照明裝置適合應用於室内照明,如家 用照明燈、商㈣明燈、檯燈或床頭燈,但不以此偈限本案之應 用範疇This tourmaline, the use of 3⁄4 Ming device will be more flexible. For example, the user's factory sets the light sensing component group to be away from the lamp main body and the user does not need to be between the light sensing component group and the driving control unit 22 according to the needs of the interbay application. The matchmaking operation is troublesome. Or, for example, the luminaire main body 24 is disposed on the ceiling, and the photo sensing element group 23 is disposed near the desk, so that the light sensing element group 23 can more accurately obtain the illumination brightness when the user reads on the f table. It can be seen from the above description that the illuminating device of the present invention is a lighting device capable of automatically adjusting the color temperature of the illumination, and the illuminating device of the present invention is suitable for indoor lighting, such as household lighting, commercial lighting, table lamp or bedside lamp, but not This is limited to the application scope of this case.
以上所述僅為本創作之較佳實施例 亚非用以限定本創作之 申請專利範圍,因 之等效改變或修飾 此凡其它未脫離本創作所揭示之精神下所完成 ’均應包含於本案之申請專利範圍内。 圖式簡單說明】 圖h係為本創作之一較佳實施結構方塊示意圖。 元件組所感測之週遭環境亮度的關係示意 圖-’ίτ、為圖1所不之發光源所輪出之照明色溫之色溫值與光残則 圖 圖 :係為本創作之另一較佳實施結構方塊示意圖 【主要元件符號說明】 I、2照明裝置 11丨第一發光二極體單元 1 2驅動控制單元 13、23光感測元件組 21發光源 SI、S2亮度訊號 1 I發光源 112第·—發光二極體單元 丨4 ' 24燈具主體 22驅動控制單元 12The above description is only for the preferred embodiment of the present invention, and the scope of the patent application is limited to the scope of the patent application, and the equivalents of the present invention are not included in the spirit of the present disclosure. Within the scope of the patent application of this case. BRIEF DESCRIPTION OF THE DRAWINGS Figure h is a block diagram of a preferred embodiment of the present invention. The relationship between the ambient brightness sensed by the component group-'ίτ, the color temperature value and the photo-residual color of the illumination color temperature which is the illumination source of Figure 1 is another preferred implementation structure of the creation. Block diagram [Description of main component symbols] I, 2 illuminating device 11 丨 first illuminating diode unit 1 2 driving control unit 13, 23 light sensing element group 21 illuminating source SI, S2 brightness signal 1 I illuminating source 112 · - Light-emitting diode unit 丨 4 '24 luminaire body 22 drive control unit 12