M329865 七、指定代表圖: (一) 本案指定代表圖為:第(1)圖。 (二) 本代表圖之元件符號簡單說明: I :發光二極體裝置; II :發光二極體模組; III :發光二極體; 112 :驅動電路; 12 :控制模組;以及 13 :電源供應模組。 八、新型說明: 【新型所屬之技術領域】 本創作是有關於一種發光二極體裝置,特別是有關 於一種結合照明及指示功能之發光二極體裝置。 【先前技術】 目前發光二極體的技術已經發展的相當成熟,其應 用也越來越普遍,尤其是將發光二極體應用於照明領 域,由於發光二極體具有耗電量低的優點,因此使用發 光二極體來實現照明裝置可達到節省能源改善品質的 好處。而現在大樓裡大多會設置停電自動照明燈,在 電時,停電自動照明燈會發出亮度較低的紅光, 有足夠的光線可觀察四周的環境,再根據牆上的逃生ς 示標誌離開大樓。然而,目前建築物裡的照明 電自動照明燈和逃生指示標誌都是分開設置,^是逃^ M329865 百m佳,當意外發生時,民眾往往找不 亦有資源浪費之虞。 个偟不吴銳 之,二藝:各項問題,為了能夠兼顧解決 功能之發光二極體裝】:= σ上述缺點之實現方式與依據。 【新型内容】 I鑑於此,本創作之目的 不功能之發先二極趙裝置’《提高發光裝置 功铲述目的’依本創作之結合照明及指示 控‘模i及一二装置,其包含複數個發光二極體、-源原供應模組,電源供應模組係供應-電 指示模式。 二毛先一極體進行一照明模式或一 極體之亮度,以顯示 行指實= 一指示訊息。 M329865 顏色的對比以顯示一指示訊息。 再者’在本發明之另一實施例中,此發光二極體裝置 包^ 一射頻識別(RFID)讀取器,以提供以無線感應來判 斷是否進行照明之功能。此外,此發光二極體裝置亦可 以RFID讀取器進行以無線感應來進行照明模式及指示 模式之間的切換。 兹為使貴審查委員對本創作之技術特徵及所達到 之功效有更進一步之瞭解與認識,謹佐以較佳之實施例 及配合詳細之說明如後。 【實施方式】 以下將參照相關圖示,說明依本創作較佳實施例之 結合照明及指示功能之發光二極體裝置,為使便於理解, 下述實施例中之相同元件係以相同之符號標示來說明。 凊參閱第1圖,其繪示本創作之結合照明及指示功 旎之發光二極體裝置之方塊圖。圖中,發光二極體裝置工 包含發光二極體模組u、一控制模組12及一電源供應模 j U。發光二極體模組U具有複數個發光二極體lu及 厂驅動電路112,用以驅動此些發光二極體U1發光。電 jt、應杈組13供應一電源予發光二極體u及控制模組 。而控制模組12根據一判斷條件以切換發光二極體模 f 進行一照明模式或一指示模 <,以顯示一指示訊 心。扣不訊息係包含一文字、一箭頭圖示或一圖案。 M329865 甘十 氺-二雇二判斷條件係為當電源低於一門檻值時,則發 組11係=:111係進行指示模式,反之,發光二極體模 可包人^/丁^、明模式。此外,此發光二極體裝置視需要 元係^頻識別(RFID)讀取器及一儲存單元。儲存單 盘^ =、ι子至少一預設識別資料,而射頻識別讀取器係作 剌齡條件之觸發元件,用以讀取一射頻訊號,並 曰Μ 員汛號所包含之資料是否符合預設識別資料。若 判斷條件成立),則發光二極體模組係進行照明 菸# Λ ^供使用者照明,若否,則發光二極體模組停止 ^二^ ί此、/本創作之發光二極體裝置可具備節能的功 者,當此RFID偵測之判斷條件成立時,發光二極 士,、、且進打指示模式以提供使用者一提示訊息,藉此, 本創作之發光二極體裝置可具備智慧型指示的功效。 儲存單元更可包含複數個指示圖示資料及一查詢 表,用以紀錄多個預設識別資料與多個指示圖示資^之M329865 VII. Designated representative map: (1) The representative representative of the case is: (1). (2) A brief description of the component symbols of this representative diagram: I: LED device; II: LED module; III: LED; 112: driver circuit; 12: control module; Power supply module. VIII. New description: [New technical field] This creation is related to a light-emitting diode device, in particular to a light-emitting diode device combining illumination and indicating functions. [Prior Art] At present, the technology of the light-emitting diode has been developed quite mature, and its application is becoming more and more popular. Especially, the light-emitting diode is applied to the field of illumination, and since the light-emitting diode has the advantage of low power consumption, Therefore, the use of a light-emitting diode to achieve a lighting device can achieve the benefits of saving energy and improving quality. At present, most of the buildings will be equipped with automatic blackout lights. When the electricity is on, the automatic lights will emit red light with low brightness. There is enough light to observe the surrounding environment, and then leave the building according to the escape signs on the wall. However, the current lighting automatic lighting and escape signs in the building are separately set, ^ is to escape ^ M329865 hundred m good, when the accident occurs, people often find no resources to waste. I don't know Wu Rui, two art: various problems, in order to be able to take into account the function of the light-emitting diode installation]: = σ implementation of the above shortcomings and basis. [New content] I In view of this, the purpose of this creation is not to use the first two-pole Zhao device's "Improving the illuminating device to shovel the purpose" according to the combination of lighting and instruction control 'modulo i and one or two devices, including A plurality of light-emitting diodes, a source original supply module, and a power supply module are supplied in an electric indication mode. The second hair first body performs an illumination mode or the brightness of a polar body to display the line finger = an indication message. M329865 color contrast to display an indication message. Further, in another embodiment of the present invention, the light emitting diode device includes a radio frequency identification (RFID) reader to provide a function of determining whether or not to perform illumination by wireless sensing. In addition, the LED device can also perform switching between the illumination mode and the indication mode by wireless sensing using an RFID reader. In order to give your reviewers a better understanding and understanding of the technical features of the creation and the efficiencies achieved, please refer to the preferred examples and the detailed descriptions below. [Embodiment] Hereinafter, a light-emitting diode device incorporating a lighting and indicating function according to a preferred embodiment of the present invention will be described with reference to the related drawings. For ease of understanding, the same components in the following embodiments have the same symbols. Mark to illustrate. Referring to Figure 1, there is shown a block diagram of a light-emitting diode device incorporating illumination and indicating power of the present invention. In the figure, the LED device includes a light emitting diode module u, a control module 12 and a power supply module j U. The light-emitting diode module U has a plurality of light-emitting diodes lu and a factory driving circuit 112 for driving the light-emitting diodes U1 to emit light. The electric power jt and the 杈 group 13 supply a power supply to the light-emitting diode u and the control module. The control module 12 performs an illumination mode or an indication mode according to a determination condition to switch the LED module f to display an indication signal. The deduction message contains a text, an arrow icon or a pattern. M329865 Gan Shiyi-two hires two judgment conditions are when the power supply is lower than a threshold, then the group 11 system =: 111 system for indicating mode, otherwise, the light-emitting diode model can be packaged ^ / D; mode. In addition, the LED device is required to have a radio frequency identification (RFID) reader and a storage unit. The storage unit ^ =, ι is at least one preset identification data, and the RFID reader is used as a trigger component for the ageing condition to read an RF signal and whether the information contained in the nickname is consistent. Preset identification data. If the judgment condition is satisfied, the light-emitting diode module is used to illuminate the smoke # Λ ^ for the user to illuminate, and if not, the light-emitting diode module stops ^2^ ί, / the light-emitting diode of the present creation The device can be provided with an energy-saving function. When the judgment condition of the RFID detection is established, the LED is illuminated, and the indication mode is entered to provide a prompt message for the user, thereby creating the LED device of the present invention. Can have the power of intelligent instructions. The storage unit may further include a plurality of indication graphic materials and a query table for recording a plurality of preset identification materials and a plurality of indication icons.
間的對應關係,致使發光二極體模組可產生一對應預設 識別資料之提示訊息。 心叹The correspondence between the two causes the LED module to generate a prompt message corresponding to the preset identification data. Sigh
此發光二極體裝置更可包含一通訊模組,以有線或 無線的方式與一外部裝置進行資料傳輸。藉此,使用者 可於修改儲存單元内的資料以及更新控制模組12内的程 式碼。通訊模組可内建於控制模組12内或是獨立於栌制 模組12設置於發光二極體裝置中。通訊模組較佳的^一 有線網路通訊模組或一無線網路通訊模組,如GpRs模 組、WiFi模組或藍芽通訊模組。 K M329865 第2 H ’其纟會示本創作之發光二極體模組 之一範例,圖中’複數個發光二極们u係 =方式排列’在照明模式下,所有發光一體2ιι 指不模式下’則控制模組12㈣ij部份發光 :極減弱發光亮度,而其餘發光二極· 2111維持 ^度’藉此以顯示出-向右指示之箭頭圖於。 理,複數個發光二極體211亦可顯示其他圖示。 ” • =閱第3A圖及第邛圖,騎示本創作之發光 -極體松組之指示模式之另—範例。圖中,複數個發光 =極體311係由複數個第一發光二極體3in及複數個第 =發光一極體3112所組成。第一發光二極體與第二發光 一極體可為不同顏色之發光二極體,例如第一發光二極 體為白光發光二極體,第二發光二極體為紅光發光二極 體。在照明模式下,控制模組12控制所有第一發光二極 體3111發光,而在指示模式下,控制模組12控制部份 第一發光一極體3112發光,如第3B圖中,里色方塊表 •示發光之第二發光二極體3112,其顯示出一;= 不。在指不杈式下,第一發光二極體31n可打開(turn〇n) 或關掉(turn off),視使用者需要而定。 電源供應模組13可包含一電池或一市電電源插座, 用以接收市電以提供電源。控制模組12係為一微控制器 或一微處理器。驅動電路112係為一 pWM訊號產生電 路。發光二極體111可包含一紅光發光二極體、一綠光 發光一極體、一藍光發光二極體或一白光發光二極體。 M329865 請參閱第4圖,其繪示本創作之結合照明及指示功 能之發光二極體裝置之實施例之方塊圖。圖中,發光二 極體裝置4包含一發光二極體模組41、微控制器42、電 池431、市電電源插座432、RFID讀取器44及儲存模組 45。儲存模組45係儲存複數個預設識別資料451、複數 個指示圖示資料452及一查詢表453。發光二極體模組 41包含複數個發光二極體411及一 PWM訊號產生電路 412,用以驅動發光二極體411發光。微控制器42係用 以控制發光二極體411顯示出一指示圖示。微控制器42 • 内建一通訊模組421,可與外部進行資料傳輸。RFID讀 取器44用以讀取一射頻訊號,並判斷射頻訊號所包含之 資料是否符合預設識別資料451之其一。若是,則再從 查詢表453中找出所符合之預設識別資料451對應之指 示訊息,接著微控制器42控制PWM訊號產生電路412 分別驅動每一發光二極體411,以顯示出一對應之指示圖 示0 請續參閱第5A圖,其繪示發光二極體裝置4設置於 一電梯門口之應用示意題。發光二極體裝置4之查詢表 如表一所示: 第一研發部 右轉 會計部 左轉 第二研發部 右轉再右轉 總經理室 左轉再右轉 第三研發部 右轉再左轉 業務部 左轉再左轉 人力資源部 右轉再右轉 會議室 左轉再左轉 疏散出口 右轉再右轉 表一 M329865 發光二極體裝置4平常用以照明電梯口 RFID讀取器44用以偵測訪客識別證上的rfid資者 =客之目的地後’可分別給予具有對應‘ ^部之訪客識別證,當訪客到達電梯口,rfid讀取哭$ 偵測=訪客識別證之資料,經過比對後確 二=棘接著從表一中查出往業務部之指示訊息^ =轉再左轉」的指示圖示資料也,並控制發2 = ΪΪ41Γ^?「左轉再左轉」之箭頭圖示,如第5B圖 二Ξΐ 若訪客要拜訪第一研發部,給予配戴對 別=則發光二極體裝置4可顯示出「右轉」 發‘-桎:穿晉“5C圖所7F。待訪客離開偵測範圍後, I尤一極體裝置4便進行照明模式。 接電時’微控制器42偵測到市電電源插座432 —門檻值,則從表—中查出往疏散出口 4右轉再右轉」,則微控制器42控制發光 ^ 電池431如供發光二極體裝置4運作所 員再右轉」之箭頭圖示的發光顯示亦 仏人貝視見所需的光線,以利其移動。 昭明ίΐ述可知’本創作之發光二極體裝置可提供 “不功能’可兼顧魏性及美觀之目的。有曰^ M329865 離 更 以上所述僅為舉例性,㈣為限難者。任何未脫 本創作之精神與範疇,而對其進行之等效修改或變 ,均應包含於後附之申請專利範圍中。 【圖式簡單說明】 第1圖係繪示本創作之結合照明及指示功能之發光 二極體裝置之方塊圖; 第2圖係繪示本創作之發光二極體模組之指示模式 之一範例; 第3A圖及第3B圖係繪示本創作之發光二極體模組 之指示模式之另一範例; 第4圖係繪示本創作之結合照明及指示功能之發光 々 二極體裝置之實施例之方塊圖; 第5A圖係繪示本創作之結合照明及指示功能之發 ^ 光二極體裝置之應用示意圖;以及 苐5B圖及弟5C圖係綠示本創作之指示圖示之範 例。 【主要元件符號說明】 I :發光二極體裝置; II :發光二極體模組; :發光二極體; 112 :驅動電路; M329865 12 :控制模組; 13 :電源供應模組; 211、2111、2112 :發光二極體; 311 :發光二極體; 3111 :第一發光二極體; 3112 :第二發光二極體; 4:發光二極體裝置; 41 :發光二極體模組; 411 :發光二極體; 412 : PWM訊號產生電路; 42 :微控制器; 421 :通訊模組; 431 :電池; 432 :市電電源插座; 44 : RFID讀取器; 45 :儲存模組; 451 :預設識別資料; 452 :指示圖示資料;以及 453 :查詢表。The LED device further includes a communication module for data transmission with an external device in a wired or wireless manner. Thereby, the user can modify the data in the storage unit and update the program code in the control module 12. The communication module can be built into the control module 12 or can be disposed in the LED device independently of the clamp module 12. The communication module preferably has a wired network communication module or a wireless network communication module, such as a GpRs module, a WiFi module, or a Bluetooth communication module. K M329865 The 2nd H' 纟 纟 纟 之一 之一 之一 之一 之一 之一 之一 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本Next, the control module 12 (four) ij partial illumination: the luminance of the light is greatly weakened, and the remaining light-emitting diodes 2111 maintain the degree 'to thereby show the arrow indicating to the right. The plurality of LEDs 211 can also display other icons. • Read the 3A and 邛 diagrams, and ride the illuminating-the other part of the illuminating-polar body group's indication mode. In the figure, a plurality of illuminating bodies 311 are composed of a plurality of first illuminating dipoles. The body 3in and the plurality of the first light emitting body 3112 are formed. The first light emitting diode and the second light emitting body may be different color light emitting diodes, for example, the first light emitting diode is a white light emitting diode The second light emitting diode is a red light emitting diode. In the illumination mode, the control module 12 controls all the first light emitting diodes 3111 to emit light, and in the indicating mode, the control module 12 controls the part A light-emitting diode 3112 emits light, as shown in FIG. 3B, a second light-emitting diode 3112 showing the light-emitting second light-emitting diode 3112, which shows one; = No. In the case of the fingerless, the first light-emitting diode The body 31n can be turned on or turned off depending on the needs of the user. The power supply module 13 can include a battery or a mains power socket for receiving utility power to provide power. The 12 series is a microcontroller or a microprocessor. The drive circuit 112 is a pWM signal. The light emitting diode 111 may include a red light emitting diode, a green light emitting diode, a blue light emitting diode or a white light emitting diode. M329865 Please refer to FIG. 4, which illustrates A block diagram of an embodiment of a light-emitting diode device incorporating illumination and indicating functions. In the figure, the light-emitting diode device 4 includes a light-emitting diode module 41, a microcontroller 42, a battery 431, and a commercial power socket. 432. The RFID reader 44 and the storage module 45. The storage module 45 stores a plurality of preset identification materials 451, a plurality of indication graphic materials 452, and a lookup table 453. The LED module 41 includes a plurality of The LED 411 and a PWM signal generating circuit 412 are configured to drive the LED 411 to emit light. The microcontroller 42 is configured to control the LED 411 to display an indication icon. The microcontroller 42 is built in A communication module 421 can perform data transmission with the outside. The RFID reader 44 is configured to read an RF signal and determine whether the data included in the RF signal conforms to one of the preset identification data 451. If yes, then Find out what is found in the query table 453 Corresponding to the indication information corresponding to the preset identification data 451, the microcontroller 42 controls the PWM signal generation circuit 412 to drive each of the LEDs 411 to display a corresponding indication icon. Please continue to refer to FIG. 5A. It shows the application problem of the LED device 4 installed in an elevator door. The inquiry table of the LED device 4 is shown in Table 1: The first R&D department turns right and the accounting department turns left and the second R&D department turns right. Then turn right to the general manager's office, turn left and then turn right. The third R&D department turns right and then turns left. The business department turns left and then turns left. The human resources department turns right and then turns right. The conference room turns left and then turns left to evacuate the exit and turn right. A M329865 LED device 4 is commonly used to illuminate the elevator port RFID reader 44 for detecting the rfid on the visitor identification card = the destination of the customer's can be given a corresponding visitor identification certificate When the visitor arrives at the elevator, rfid reads the information of the crying = detection = visitor identification card, after the comparison, the second = the spine then finds the indication message from the first section to the business department ^ = turn left again Instruct the graphic information as well, and control the hair 2 = ΪΪ41Γ^? "Left turn and then left turn" arrow icon, as shown in Figure 5B. Ξΐ If the visitor wants to visit the first R&D department, give the pairing = the light-emitting diode device 4 can display "Right Turn " hair"-桎: wear Jin "5C map 7F. After the visitor leaves the detection range, the I-pole device 4 performs the illumination mode. When the power is turned on, the microcontroller 42 detects the mains power outlet 432 - the threshold value, and then detects from the table - the right exit to the evacuation exit 4 and then the right turn, then the microcontroller 42 controls the illumination ^ battery 431 for illumination The light-emitting display of the arrow diagram of the operating device of the diode device 4 is also turned to the desired light to facilitate its movement. Zhaoming ΐ 可 可 可 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 M M M M M M M M M M M The spirit and scope of the original creation, and the equivalent modifications or changes to it, shall be included in the scope of the patent application attached. [Simplified description of the drawing] Figure 1 shows the combined lighting and instructions of the creation. Block diagram of the function of the LED device; Figure 2 shows an example of the indication mode of the LED module of the present invention; Figures 3A and 3B show the LED of the present invention Another example of the indication mode of the module; FIG. 4 is a block diagram showing an embodiment of the illuminating diode device incorporating the illumination and indicating function of the present invention; FIG. 5A is a diagram showing the combined illumination of the creation and An example of the application of the light-emitting diode device of the indication function; and an example of the indication icon of the green display of the 苐5B diagram and the 55C diagram. [Main component symbol description] I: Light-emitting diode device; II: Illumination Diode module; Diode; 112: drive circuit; M329865 12: control module; 13: power supply module; 211, 2111, 2112: light-emitting diode; 311: light-emitting diode; 3111: first light-emitting diode; 3112: second light-emitting diode; 4: light-emitting diode device; 41: light-emitting diode module; 411: light-emitting diode; 412: PWM signal generating circuit; 42: microcontroller; 421: communication mode Group; 431: battery; 432: mains power outlet; 44: RFID reader; 45: storage module; 451: preset identification data; 452: indication graphic information; and 453: inquiry table.
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