M349514 八、新型說明: 【新型所屬之技術領域】 -種功能控制器’係應用於裝設於現有的 電力系統中,以交流電控制發光二極體裝置, 本創作尤指一種利用交流電載送電性訊號以達 成控制發光二極體的控制器。 【先前技術】 ’ 有鑒於目前可用能源逐漸短缺,開發新的替 代性旎源,已成為目前非常重要的研究發展方 向,例如太陽能、風力發電等應用,都是朝著開 發替代性能源進行,而另一方面,如何減緩現有 能源的損耗,則是另一個重要的面向,近幾年, 有關電力的節能,除了替代性能源的開發,如何 使電力的使用降低,亦是目前相關電子裳置設計 ,的重要目標之一,例如發光二極體被大量的應用 於光源裝置中,即是其中的一種,發光二極體的 一個重要的特性’即在於其耗電量低,且目前發 光二極體的成品’係朝高功率的方向進行開發及 設計’期能有朝一曰可以取代目前傳統式的照明 燈具及光源裝置;就目前而言,已經有部份照明 用的燈具或情境需求的光源裝置,已採用發光二 極體作為發光源,其係均採模組化之設計,可配 合目前現在規格的燈座或電力接線裝置,唯,此 5 M349514 類型的光源裝置若要進行調變的控制,則需 行架設一組線路(常見的為利用網路線或若 電子訊號的訊號線),以供連結至一操作及 的開關,再者,其係單一光源裝置即需要一 變開關的設計,在組裝上相當不便,且其成 相當的高;請參閱「第1圖」,圖中所示係 種習知的光源裝置之電路配置不意圖,如圖 示,其係為可供進行光色變化調變的光源裝 大多應用於情境光源,例如建築物外牆或大 部的情境燈等,此類型的光源裝置其電力佈 主要配置即如圖中所示,其係包括一組功能 裝置11、一組以上的光源裝置1 2所組構而 利用功能控制裝置11以電力線1 3連接到現 力佈設中的一電力供應裝置1 0,再以一網 1 4與光源裝置1 2完成資訊連結,用以控制 源的裝置1 2的作動,又,光源裝置1 2係可 有的電力供應裝置10或另一電力供應裝置 完成電性連結,以提供其所需要的電力,又 佈設有多組的光源裝置1 2,則網路規劃的部 則需進一步連接一分享裝置1 5,並透過位址 等程序後完成連結,再請參閱圖中所不’功 制裝置11係連結至一操作裝置1 6,操作者 於此操作裝置16進行操作;如上,此類型 現有已知的光源裝置之佈設,其係利用發光 要另 傳遞 調變 組調 本亦 為一 中所 置, 樓内 設的 控制 成, 有電 路線 此光 與原 10, ,若 份, 設定 能控 即可 即為 二極 6 M349514 :作為光源’而其電路佈設主要仍依循傳統的架 ^電力的供應由電力線的連結達成,而 功能控制的部份,貝,丨由網路的連結達成,其在操 作上’雖無太大的問題,然m,在佈設時,卻會 衍生許多的不m列如饰設時的接線,一般的 扒電程人員僅能完成電力線的佈設及連結,而 有關網路的部份,則另需有關資訊的人員方可完 成佈設及連結,如此一來,其所耗費的人工成本 必定增加,其佈設時間亦相對增加,對於較大型 的照明或情境光源佈設工矛呈而言,確係、大幅提昇 其建置難度的門楹,此亦為至今,發光二極體應 用仍未能有效普及的原因之一;再者,若此類型 的光源欲應用於一般家庭生活的環境中,則勢必 需經由專業的人進行安裝’方可達成,如此一 來,普及化應用的理想將遙不可及。 【新型内容】 有鑒於上述的問題’本創作者係針對發光二 極體的電性進行研究及分析,並針對以發光二極 體為光源的裝置進行設計,期能簡化係建置時的 施工過程,以使發光二極體能確實被大量的應 用’本創作的主要目的在於提供一種可組設於現 有的電力系統中’以現有的電力線及交流電載送 電子訊號’達成控制發光二極體的功能控制器, 7 M349514 利用現有的電力佈設架構 光二極體光源,且安農後 體光源進行有效的調控。 即可快速完成安 操作者可對發光M349514 VIII. New description: [New technology field] - A kind of function controller is applied to the existing power system to control the LED device with AC power. This creation especially refers to the use of AC power transmission. Signal to achieve a controller that controls the light-emitting diode. [Prior Art] 'In view of the current shortage of available energy, the development of new alternative sources of resources has become a very important research and development direction, such as solar energy, wind power generation and other applications, are all towards the development of alternative energy sources, and On the other hand, how to reduce the loss of existing energy is another important aspect. In recent years, regarding the energy conservation of electricity, in addition to the development of alternative energy, how to reduce the use of electricity is also the current design of related electronic skirts. One of the important goals, such as the use of a large number of light-emitting diodes in a light source device, is one of them. An important characteristic of a light-emitting diode is that its power consumption is low, and the current light-emitting diode The finished product of the body is developed and designed in the direction of high power. It can replace the current traditional lighting fixtures and light source devices. For the moment, there are some lighting fixtures or lighting sources for the situation. The device has adopted the light-emitting diode as the light source, and the system is designed to be modularized, which can match the current specifications. Lamp holder or power wiring device, only if the 5 M349514 type light source device is to be modulated, it is necessary to set up a set of lines (commonly using the network route or the signal line of the electronic signal) for connection. To the operation and the switch, in addition, it is a single light source device that requires a variable switch design, which is quite inconvenient to assemble and is quite high; please refer to "Figure 1", the series shown in the figure The circuit configuration of the conventional light source device is not intended. As shown in the figure, the light source package for adjusting the color of the light color is mostly applied to a situation light source, such as a building exterior wall or a majority of situation lights, etc. The main arrangement of the power source device is as shown in the figure, which comprises a set of functional devices 11, a group of light source devices 12, and is connected to the current power line by the function control device 11 with the power line 13 One of the power supply devices 10 is connected to the light source device 12 by a network 14 to control the operation of the source device 12, and the light source device 12 is available to the power supply device 10 or Another electric The supply device is electrically connected to provide the required power, and a plurality of sets of light source devices 12 are disposed. The network planning department needs to further connect a sharing device 15 and complete the program through the address and the like. For the connection, please refer to the figure that the power device 11 is connected to an operating device 16. The operator operates the device 16; as in the above, the prior art light source device is arranged to use the light source. It is also necessary to transfer the modulation group to the one set. The control set in the building is such that there is a circuit line and the original 10, if it is, the control can be set as the two poles 6 M349514: as the light source' The circuit layout is still mainly based on the traditional frame power supply is achieved by the connection of the power line, and the part of the function control, the shell and the 丨 are achieved by the network connection, and its operation is not too much problem, m, when it is laid out, it will generate a lot of non-m columns such as the wiring when it is decorated. The general 扒 electrician can only complete the layout and connection of the power line, and the relevant part of the network needs information. people In order to complete the layout and connection, the labor cost will be increased and the deployment time will be relatively increased. For larger lighting or situational light sources, the construction of the spear will be greatly improved. The threshold of difficulty is also one of the reasons why the application of LEDs has not been effectively popularized. Moreover, if this type of light source is to be used in the environment of ordinary family life, it is necessary to pass a professional person. The installation can't be achieved, so the ideal of universal application will be out of reach. [New content] In view of the above problems, the creator has studied and analyzed the electrical properties of the light-emitting diodes, and designed the device with the light-emitting diode as the light source, which can simplify the construction of the system. The process, so that the light-emitting diode can be used in a large number of applications. The main purpose of this creation is to provide a control system for the control of the light-emitting diodes by using the existing power lines and alternating current-carrying electronic signals. The function controller, 7 M349514 utilizes the existing power layout to structure the light diode source, and the Annon rear body light source is effectively regulated. Can be completed quickly, the operator can shine
本創作所稱的功能 調頻率或電壓之訊號傳 線作為載波的途經,使 態’被快速的傳遞到光 作動而產生光色、明暗 訊號可為類比調頻,調 碼等類型,再以特定頻 數位訊號等方式,直接 行再加裝網路傳輸模組 力線之佈設的架構即可 的_不便性。 控制器中,係組設有 遞模組,藉由現有的 '功能指令以電性訊 源裝置’以趨動光源 或特殊功能變化,此 頻解碼,調電壓,數 率載頻傳輸,特定頻 透過電力線傳輸,無 ’亦即’僅需以原來 達成,可大幅降低安The function called frequency modulation or frequency signal transmission line is used as a carrier path, so that the state is quickly transmitted to the light to generate light color, and the light and dark signals can be analog frequency modulation, code modulation, etc., and then specific frequency. Digital signal and other methods, directly add the architecture of the network transmission module line of wire can be inconvenient. In the controller, the system is provided with a hand-held module, and the existing 'function command is used to electrically change the source device to change the light source or special function. This frequency decoding, voltage adjustment, frequency rate carrier frequency transmission, specific frequency Through the power line transmission, no 'that is,' only need to be achieved by the original, which can greatly reduce the safety.
另外’本創作結合以發光二極體所製成 源裝置後,可依需求調控光源裝置如亮度 彩、色溫、㈣、自動節能、感應互動及感 化的照明調控功能’藉由現有的裝置設備, led照明,可增加多種的照明應用及情境功 其可應用的範圍包括:亮度及色彩控制,環 境控制,感應變化控制,如季節,晨昏,色 場所情境,海灘情境,公園情境,音響情境 情境,光能調理情境,溫度感應,環境光x感 互動式感應,自動節能控制等情境調光應用 裝發 二極 一可 電力 號型 裝置 電性 位編 率載 而乃 的電 裝時 的光 、色 應變 搭配 能, 境情 溫, ,PUB 應, 等, 8 M349514 且不而改變原有架構,可大幅降低安裝時的 性及換裝的成本。 更 及宜為使貴審查委員可確實明瞭本創作的組成 -效,兹以下列說明搭配圖*,請參照。 【實施方式】 請參閱「第2圖」,圖中所示係為本 成示意圖(一),如圖中所示的功能控制器20 :立 主要係由—功能控制模組2〇ι /、 組202所植摄而士、 & K傳遞模 斤、,且構而成’其中,功能控制模•且2 處理電子訊號及輸出電訊號’其係由複數 Π:單:封裝組構而成,又,功能控制模組如 -刼作裝置2〇3完成電性連結,此 置203約欢3 π u 展 約略呈可供實體操作的面板狀,可依實際 ;有的功能設置’例如、開、關、光色變化等, 才呆作者可藉由此操^ ^ ^ ^ ^ ^ ^ 乍裝置203進仃操控所連結的 ^ K本圖中尚切示),以使其依需求產生 Π。另,功能控制一成型有-電力輸入 二:與-電力輸出端2。12,供與電力系統的 2〇線接設」再請參閱圖中所示’訊號傳遞模組 糸與功能控制模組2〇2呈相互的電性連έ士, :主要係使功能控制模、组2〇1所輸出的電:訊 :二經過:號傳遞模組2〇2的處理,使電性訊號 '”、可受交流電載送的電性訊號,再經由電力輸 9 M349514 出端2012輸送至光源裝 且 双動先源裝置依 接收到的電性訊號產生相對應 明—電性訊號可為類比調頻動調;解:說 電屢調隻數位編碼等類型,再以杜a 寻頸i丹以特定頻率載頻 傳輸,特定頻率載數位訊號等方式。 :參閱「第3圖」,圖中所示係為本創作的組 成示意圖(二)’如圖中所示,本圖中進—步揭露In addition, 'this creation combined with the source device made of the light-emitting diode can adjust the light source device such as brightness color, color temperature, (4), automatic energy saving, inductive interaction and probabilistic lighting control function according to the demand' by the existing device equipment, Led lighting can add a variety of lighting applications and contextual applications. Applications include: brightness and color control, environmental control, inductive change control, such as season, morning faint, color scene, beach situation, park situation, audio situation, Light energy conditioning situation, temperature sensing, ambient light x sense interactive sensing, automatic energy saving control, etc. Situational dimming application, two-pole, one-power electric type device, electric bit rate, electric light, color Strain matching, ambient temperature, PUB should, etc., 8 M349514 and not change the original architecture, can greatly reduce the installation and the cost of replacement. It is better to let your review board confirm the composition of the creation - effect, please refer to the following description *, please refer to. [Embodiment] Please refer to "Fig. 2", which is a schematic diagram (1). The function controller 20 shown in the figure is mainly composed of - function control module 2〇ι /, Group 202 is planted by Shishi, & K, and is constructed as 'where the function control mode and 2 handles the electronic signal and the output signal'. The system consists of a plurality of: single: package structure Moreover, the function control module, such as the [2] device 2, completes the electrical connection, and the set 203 is about 3 π u, which is slightly visible for the physical operation of the panel, and can be set according to the actual; On, off, light color changes, etc., the author can use this to ^ ^ ^ ^ ^ ^ ^ 乍 device 203 into the control of the connected ^ K this picture is still shown), so that it generates according to demand . In addition, the function control has a molded-electric power input 2: and - power output terminal 2.12, which is connected to the power line of the power system." Please refer to the figure below for the signal transmission module and function control module. 2〇2 is a mutual electric gentleman, mainly: the function control mode, the output of the group 2〇1: News: 2: The processing of the number transfer module 2〇2, making the electrical signal '” The electrical signal that can be carried by the AC power is transmitted to the light source through the power transmission 9 M349514 outlet 2012, and the dual-action source device generates the corresponding electrical signal according to the received electrical signal. The analog signal can be analog frequency modulation. Tune; solution: say that the power is adjusted to only the digital code and other types, and then use Du a to find the neck of the i Dan to transmit at a specific frequency carrier frequency, the specific frequency carries the digital signal, etc.: See "Figure 3", the figure shows This is a schematic diagram of the composition of the creation (2). As shown in the figure, this figure reveals step by step.
了功能控制模組2()1的單元組成,以及訊號傳遞 模組202的單元組成,#圖中所示功能控制模組 201係由複數個功能單元(2〇13、2〇14... •)構 成’主要係可處理由操作裝置2〇3所輪入的指 令,例如開、關、光色變化等;再請參閱圖中所 示’訊號傳遞模組202則主要係由—訊號轉換單 元2021及一訊號輸出單元所組構成,其 ,^ 號轉換單元2021係於接收由其中一功能單元 (2 0 1 3、2 0 1 4 ··.)所輸出的一電性訊號後將 之轉換成可被交流電載送的處理後訊號,再由訊 號輸出早元輸出至電力輸出端2 0 1 2 ’ #由所迷$丄 的電力線輸出至光源裝置。 請參間「第4圖」’圖中所示係為本創作的實 施示意圖,如圖中所示本創作所稱的功能控制哭 20係可直接裝設於現有的電力系統中,利用既有 的交流電源的配線,使功能控制器20的電源輸 入端2011與其電源輸出端2012分別連結於電力 10 M349514 線3 01,甘— 亚元成電性導通的狀態,再請閱圖中所 不,光源裴置4〇係為一種以發光二極體4〇 1作 為發光源而製成的㉟具,其並至少具有__ 收模組4 〇 2 。I 接 U2 ’此光源裝置40可依需求裝設於商 的空間中,, 用 例如客廳或房間中,光源裝置4() * 與相同的雷^ J晃力系統之電源線3 0 1完成電性連結, 依此配置t ° i孑式,一般的水電工程人員即可完 工,無靈甘+来 X ^ _ 、匕專業人員配合,如此一來,其a處 用的普及柯收丄 又’々 4随將大幅提昇;再請參閱圖中所示, 作裝置203总π ^ 係可以配線的直接連接於功能控 ' 置2 0,例士n姐a x 々操作面板或開關等;如圖中所示, - 能控制3| n w & 1 盗20僅需與光源裝置4〇組設於同— 六 乐、、先 線’即可藉由既有的電力線,完成相互 連社,Jl T 的 °共不僅裝設簡單方便,且可大幅節省網路 鲁 系統建置的費用。 凊參閱「第5圖」,圖中所示係為本創作實施 ’動過程示意圖,如.圖中所示(請搭配參照「第 圖」及「第4圖」),其作動過程如下: (1) 操作指令輸入5 1 : —操作者於操作梦署 2〇3 ^ 依需求輪指入指令,例如按壓或旋轉開關 鍵、或光色明暗變化鍵等; (2) 功能電性訊號傳輸52 :功能控制模組 • 〇 1的功能控制單元2 〇丨3接收到指令後,依所對 應的功能輸出一電性訊號; 11 M349514 (3) 功能電性訊號處理53 :訊號傳 202的訊號轉換單元2021於接收到電 後,進行訊號轉換處理,將其轉換成可由 載送的一處理後訊號,此處理後訊號可為 頻、调頻解碼、電壓調變、數位編碼等類 以特定頻率载頻傳輸,特定頻率載數位郭 (4) 處理後訊號輸出54:經轉換後可 電載送的處理後訊號,係由訊號傳模組組 訊號輸出單元2022,藉由交流電的載送, 線輸出; (5) 致動光源裝置55:處理後訊號藉 經電力線輸出至一光源裝置4〇的接收端 源裝置40係藉由其内建的一訊號接收模 接收此處理後訊號,並於轉換後依相對應 動光源I置40產生作動,例如明暗的變 色的變化等。 如上’本創作功能控制裝置20可供直 光源裝置40的開關或功能變化控制,其 發光二極體製成的光源裝置,則可調控光 的亮度、色彩、色温、情境、自動節能、 動及感應變化的照明調控功能,藉由現有 設備,搭配發光二極體照明,可增加多種 應用及情境功能’將指令訊號轉換透過電 輸至照明裝置,調控照明光源裝置變化^ 遞模組 性訊號 交流電 類比調 型,再 .號等; 由交流 202的 經電力 交流電 ,此光 組4 0 2 功能致 化或光 接作為 搭配由 源裝置 感應互 的裝置 的照明 線傳 種功 12 M349514 能。 請參閱「第6圖」,圖中所示係為本創作的另 一較佳實施例(一),如圖中所示,本創作中所稱 的功能控制模組2 0 1係可進一步連結有一中央處 理器204,此中央處理器204可進行相關的運算 及分析,此實施例適用於多功能變化的光源裝置 之控制,請再參閱圖中所示,一個以上的感應器 205,係連結至中央處理器204,也可以另一感應 > 器205’直接連結至光源裝置40的訊號接收模 組4 02,此感應器205可為感應聲、光、溫度、 震動、氣流等其中一種或多種混合的變化,實際 需求依現場環境的設計而可有所選配;當感應器 2 05係連結於中央處理器204時,其實施之方法 係利用感應器205感應裝設現場的環境變化,將 所感應到的結果,以電子訊號傳輸至中央處理器 | 205,經運算及分析後,再傳遞至功能控制模 20 1,使其依預設的參數值再輸出另一電子訊號 至訊號傳遞模組202,並由訊號傳遞模組202將 電子訊號藉由交流電及電力線的載送,輸出至光 源裝置40,當光源裝置40的訊號接收模組402 接收後,即依收到的電子訊號致動發光二極體 40 1產生相對應的光源變化,此種類型的裝置方 式,適用於利用感應A地環境變化,使B地產生 相對應的光源變化,例如將感應器205裝設於戶 13 M349514 外,當天色因進入黃昏時段而變暗時,即致動房 屋内的燈開啟或漸亮;另一種實施的方法,則是 將感應器205’直接連結於光源裝置40,其亦利 用感應器205’感應光源裝置40所在位現場的 環境變化,將所感應的結果,直接以電子訊號傳 輸至光源裝置40的訊號接收模組402,使其直接 致動光源裝置40的發光二極體40ί產生光源變 化的作動,此種裝置類型則為感應器205 ’與光 ® 源裝置40組設於同一地,例如:將可感應聲音 變化的感應器205’與光源裝置40同樣裝設於 餐廳中,此光源裝置40係作為氣氛燈使用,當 感應器2 0 5 ’感應到現在音樂的起伏變化時,即 會送出一電子訊號,致動光源裝置40以使其轉 為符合現場氣氛的亮度;又,以上兩種實施方式 係可擇一裝置後進行,亦可依需求合併或搭配裝 鲁 置後進行。 請參閱「第7圖」’圖中所示,係為本創作的 另一種較佳實施例(二),如圖中所示,本創作可 同時自動控制多組的光源裝置(40、41、42),以 達到中央控制的需求,其係利用多組感應器 (2 05、215、225)連結至中央處理器2〇4,由中央 • 處理器204定義各感應器(205、215、225)的識別 碼’使各感應器(205、215、225)可依其功效產生 作動,並依中央處理器204的識別碼連結至相對 14 M349514 應的光源裝置,以致動光源裝置產生光源變化, ’ 例如,各感應器(205、215、225)係別對應各光源 — 裝置(40、41、42),且係成組分別組設於三個不 同的區域。 請參閱「第8圖」’圖中所示係為本創作的另 一較佳實施例(三),其係為本創作中所應用的發 光裝置之組成的另一實施例’其係可利用複數個 不同光色的發光二極,進行發光後的相互混色, ^ #圖中所示的發光裝置50,其係可以一訊號接收 模組501連接多個發光二極體(5 〇2、5〇3、5〇4), 如本實施例所揭,其係可直接以電壓等訊號直接 控制’由於此發光裝置50具有多個發光二極體 (502、503、504),例如分別應用r、〇、b三個 單色的發光二極體,使其發光後產生混色的效 果,經由混色的變化,可達到呈現全彩的發光, • 更適用於情境光源的需求;又,請參閱「第9圖」, 圖中所示係為本創作的另一較佳實施例(四),其 訊號接收模組5 0 1係連結至一中央處理器5 〇 5, 由此中央處理器505處理所接收的訊號,而訊號 接收模組50 1則可以電力線(交流電導通)連結至 如前述的功能控制器,以驅動前述的各發光二極 .體(5 02、503、504)產生相對應的光色變化。 • 綜上所述,本創作主要係利用現在的電力系 統之架構,以交流電電力線載波的方法,使電子 15 M349514 訊號可直接經由電力線作傳遞,如此,可不需再 另行組設一組線路,即可達到有效控制發光二極 體,其據以實施後,#實可達到提供一種可組設 於現有的電力系統中,以現有的電力線及交流電 載送電子訊號,達成控制發光二極體的功能控制 器之目的,利用現有的電力佈設架構,即可快速 完成安裝發光二極體光源,且安裝後,操作者可 對發光二極體光源進行有效的調控。The unit composition of the function control module 2()1 and the unit composition of the signal transmission module 202, the function control module 201 shown in the figure is composed of a plurality of functional units (2〇13, 2〇14... •) constitutes 'mainly can handle the instructions that are rotated by the operating device 2〇3, such as on, off, light color change, etc.; then please refer to the figure shown in the figure, the signal transmission module 202 is mainly by - signal conversion The unit 2021 and a signal output unit are grouped, and the number conversion unit 2021 is configured to receive an electrical signal output by one of the functional units (2 0 1 3, 2 0 1 4 ··.) It is converted into a processed signal that can be carried by the AC power, and then outputted by the signal output to the power output terminal 2 0 1 2 '. The power line is output to the light source device. Please refer to the "Fig. 4" diagram for the implementation of this creation. As shown in the figure, the function control crying 20 series can be directly installed in the existing power system, using the existing The wiring of the AC power supply is such that the power input terminal 2011 of the function controller 20 and its power output terminal 2012 are respectively connected to the power 10 M349514 line 3 01, and the Gan-Asian element is electrically turned on, and then please refer to the figure. The light source device 4 is a 35-piece light-emitting diode 4〇1 as a light-emitting source, and has at least a __receiving module 4 〇2. I Connect U2 'This light source device 40 can be installed in the space of the commerce according to the requirements. For example, in the living room or room, the light source device 4 () * and the power supply line 3 0 1 of the same lightning system can be completed. Sexual connection, according to this configuration t ° i孑 type, the general hydropower engineering personnel can be completed, no spirits + X ^ _, 匕 professional cooperation, so that the use of a popular use of Ke 丄 丄々4 will be greatly improved; please refer to the figure, the total π ^ system of the device 203 can be directly connected to the function control 'set 2 0, the case n sister ax 々 operation panel or switch; As shown, - can control 3| nw & 1 pirate 20 only need to be set up with the light source device 4 — - six music, first line 'can be completed by the existing power line, Jl T ° Not only is it easy to install, but it also saves the cost of network system construction.凊 Refer to “Picture 5”, which is a schematic diagram of the “moving process” for the creative implementation, as shown in the figure (please refer to “Graphic” and “4th”). The operation process is as follows: 1) Operation command input 5 1 : — The operator operates the dream unit 2〇3 ^ According to the demand wheel, the command is input, such as pressing or rotating the key, or the light color change key, etc.; (2) Functional electrical signal transmission 52 : Function control module • 功能1 function control unit 2 〇丨3 After receiving the command, it outputs an electrical signal according to the corresponding function; 11 M349514 (3) Functional electrical signal processing 53: Signal transmission of signal transmission 202 After receiving the power, the unit 2021 performs a signal conversion process to convert it into a processed signal that can be carried. The processed signal can be frequency-, FM-modulated, voltage-modulated, digital-coded, etc., at a specific frequency. Frequency transmission, specific frequency carrier number Guo (4) After processing signal output 54: After conversion, the post-processed signal can be electrically transmitted, which is transmitted by the signal transmission module group signal output unit 2022, by AC power, line output (5) Actuating the light source device 55: The receiving end source device 40 is outputted to the light source device 4 through the power line device. The source device 40 receives the processed signal through a built-in signal receiving mode, and is activated according to the corresponding moving light source I. For example, changes in light and dark discoloration, and the like. As described above, the creative function control device 20 can be used for the switching or function change control of the direct light source device 40, and the light source device made of the light emitting diode can regulate the brightness, color, color temperature, situation, automatic energy saving, and movement of the light. Inductively changing lighting control function, with existing equipment, with LED lighting, can add a variety of applications and contextual functions. 'Transform the command signal through the electricity to the lighting device, regulate the lighting source device changes ^ Transfer the modular signal AC Analog to type, re-number, etc.; by AC 202 power exchange, the light group 4 0 2 functionalization or optical connection as a lighting line with the source device sensing the mutual instrumentation work 12 M349514 can. Please refer to "FIG. 6", which is another preferred embodiment (1) of the present creation. As shown in the figure, the function control module 2 0 1 referred to in this creation can be further linked. There is a central processing unit 204, and the central processing unit 204 can perform related operations and analysis. This embodiment is applicable to the control of the multi-function changing light source device. Please refer to the figure, more than one sensor 205 is connected. To the central processing unit 204, another sensing device 205' may be directly connected to the signal receiving module 420 of the light source device 40, and the sensor 205 may be one of sensing sound, light, temperature, vibration, airflow or the like. A variety of mixed changes, the actual needs may be selected according to the design of the on-site environment; when the sensor 2 05 is connected to the central processing unit 204, the method implemented by the sensor 205 is used to sense the environmental changes of the installation site. The detected result is transmitted to the central processing unit 205 by electronic signal, and after being calculated and analyzed, it is transmitted to the function control module 201 to output another electronic signal to the signal according to the preset parameter value. The transmission module 202 transmits the electronic signal to the light source device 40 by the signal transmission module 202 through the alternating current and the power line. When the signal receiving module 402 of the light source device 40 receives the signal, the electronic signal is received. Actuating the light-emitting diode 40 1 produces a corresponding change in the light source. This type of device is suitable for utilizing the environmental change of the sense A to cause the corresponding light source to change, for example, the sensor 205 is installed in the household. 13 M349514, when the day color becomes dark due to entering the twilight time, that is, the light in the house is activated or turned on; another method is to directly connect the sensor 205' to the light source device 40, which also utilizes The sensor 205 ′ senses the environmental change of the location of the light source device 40 , and directly transmits the induced result to the signal receiving module 402 of the light source device 40 to directly actuate the light emitting diode of the light source device 40 . 40 ί generates a change in the light source. The type of device is that the sensor 205 ′ is disposed in the same place as the light source device 40 , for example, an inductor 205 that can sense a change in sound. The light source device 40 is installed in the restaurant, and the light source device 40 is used as an atmosphere lamp. When the sensor 2 0 5 ' senses the fluctuation of the current music, an electronic signal is sent, and the light source device 40 is actuated. It is converted to the brightness according to the on-site atmosphere; in addition, the above two implementations can be carried out after selecting a device, or can be combined or combined with the installation. Please refer to "Fig. 7", which is another preferred embodiment (2) of the present creation. As shown in the figure, the creation can simultaneously automatically control multiple sets of light source devices (40, 41, 42), in order to achieve the central control requirement, which is connected to the central processing unit 2〇4 by using a plurality of sets of sensors (2 05, 215, 225), and the sensors (205, 215, 225 are defined by the central processor 204). The identification code 'allows each sensor (205, 215, 225) to act according to its efficacy, and is coupled to the light source device corresponding to the 14 M349514 according to the identification code of the central processing unit 204 to actuate the light source device to generate a light source change, For example, each of the sensors (205, 215, 225) corresponds to each of the light sources - devices (40, 41, 42), and is grouped into three different regions. Please refer to FIG. 8 for another preferred embodiment (III) of the present invention, which is another embodiment of the composition of the light-emitting device applied in the present invention. A plurality of light-emitting diodes of different light colors are mixed with each other after illumination, and the light-emitting device 50 shown in the figure can be connected to a plurality of light-emitting diodes by a signal receiving module 501 (5 〇 2, 5) 〇3,5〇4), as disclosed in the embodiment, it can be directly controlled by voltage and the like. 'Because the illuminating device 50 has a plurality of illuminating diodes (502, 503, 504), for example, respectively, r Three 的 light-emitting diodes of 〇, 〇, b, which produce a mixed color effect after illuminating, and can achieve full-color illuminating through the change of color mixture. • It is more suitable for the needs of situational light sources; also, please refer to “ Figure 9 is a diagram showing another preferred embodiment (4) of the present invention. The signal receiving module 5 0 1 is coupled to a central processing unit 5 , 5, whereby the central processing unit 505 processes The received signal, and the signal receiving module 50 1 can be a power line (alternating current) Pass) linked to the function as the controller, the drive of each light emitting diode in. (5 02,503,504) generates light corresponding to the color change. • In summary, this creation mainly uses the current power system architecture to exchange the electric power line carrier so that the electronic 15 M349514 signal can be directly transmitted via the power line. Thus, there is no need to set up another set of lines. It can achieve effective control of the light-emitting diodes. After the implementation, it can be realized that it can be set up in the existing power system, and the existing power lines and alternating currents can be used to carry electronic signals to achieve the function of controlling the light-emitting diodes. For the purpose of the controller, the existing light-distributing structure can be used to quickly complete the installation of the light-emitting diode light source, and after installation, the operator can effectively control the light-emitting diode light source.
唯,以上所述者,僅為本創作之較佳之實施 例而已,並非用以限定本創作實施之範圍;任何 熟習此技藝者,在不脫離本創作之精神與範圍下 所作之均等變化與修飾,皆應涵蓋於本創作之專 利範圍内。 專利之申請要 鈞局提起新The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention; any person skilled in the art can make equal changes and modifications without departing from the spirit and scope of the present invention. , should be covered by the scope of this creation patent. The application for a patent must be filed by the bureau.
綜上所述’本創作係符合新型 件,申請人爰依專利法之規定,向 型專利之申请° 16 M349514 【圖式簡單說明】 第1圖,為一種習知的光源裝置之電路配置示意 圖。 第2圖,為本創作的組成示意圖(一)。 第3圖,為本創作的組成示意圖(二)。 第4圖,為本創作的實施示意圖。 第5圖,為本創作實施的作動過程示意圖。 第6圖,為本創作的另一較佳實施例(一)。 > 第7圖,為本創作的另一較佳實施例(二)。 第8圖,為本創作的另一較佳實施例(三)。 第9圖,為本創作的另一較佳實施例(四)。 :主要: 元件 符 號 >說明】 10 電 力 供 應 裝 置 10, 電 力 供 應 裝 置 11 功 能 控 制 裝 置 12 光 源 裝 置 13 電 力 線 14 網 路 線 15 分 享 裝 置 20 功 能 控 制 器 201 功 能 控 制 模 組 2011 電 力 ¥m 入 端 2012 電 力 出 端 17 M349514In summary, the author is in line with the new type, and the applicant applies for the patent application according to the provisions of the Patent Law. 16 M349514 [Simple Description of the Drawing] Figure 1 is a schematic diagram of the circuit configuration of a conventional light source device. . Figure 2 is a schematic diagram of the composition of the creation (1). Figure 3 is a schematic diagram of the composition of the creation (2). Figure 4 is a schematic diagram of the implementation of the creation. Figure 5 is a schematic diagram of the actuation process of the creation of the creation. Figure 6 is another preferred embodiment (1) of the present invention. > Fig. 7 is another preferred embodiment (2) of the present creation. Figure 8 is another preferred embodiment (3) of the present invention. Figure 9 is another preferred embodiment (4) of the present creation. : Main: Component Symbols > Description] 10 Power Supply Device 10, Power Supply Device 11 Function Control Device 12 Light Source Device 13 Power Line 14 Network Route 15 Sharing Device 20 Function Controller 201 Function Control Module 2011 Power ¥m Incoming Terminal Electricity Starting 17 M349514
2013 功 能 單 元 2014.. 功 能 單 元 202 訊 號 傳 遞 模 組 2 0 2 1 訊 號 轉 換 單 元 2 0 22 訊 號 輸 出 單 元 203 操 作 裝 置 204 中 央 處 理 器 205 感 應 器 2 0 5, 感 應 器 215 感 應 器 225 感 應 器 30 電 力 供 應 裝 置 40 光 源 裝 置 401 發 光 二 極 體 402 訊 號 接 收 模 組 41 光 源 裝 置 42 光 源 裝 置 50 光 源 裝 置 501 訊 號 接 收 模 組 502 發 光 二 極 體 503 發 光 二 極 體 504 發 光 二 極 體 505 中 央 處 理 器 51 操 作 指 令 輸 入 18 M349514 52 功能電性訊號傳輸 53 功能電性訊號處理 54 處理後訊號輸出 55 致動光源裝置2013 Function Unit 2014.. Function Unit 202 Signal Transmission Module 2 0 2 1 Signal Conversion Unit 2 0 22 Signal Output Unit 203 Operation Unit 204 Central Processor 205 Sensor 2 0 5, Sensor 215 Sensor 225 Sensor 30 Power Supply device 40 light source device 401 light emitting diode 402 signal receiving module 41 light source device 42 light source device 50 light source device 501 signal receiving module 502 light emitting diode 503 light emitting diode 504 light emitting diode 505 central processing unit 51 operation Command input 18 M349514 52 Functional electrical signal transmission 53 Functional electrical signal processing 54 Processing signal output 55 Actuating light source device
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