200951784 九、發明說明: 【發明所屬之技術領域】 且特別是有關於一種光學 本發明是有關於一種操控裝置, 式操控裝置。 【先前技術】 隨者平_示技術的進步,愈來愈多的電子產品皆具有榮 中有許多電子產品的操作方式是藉由移動螢 f中的游標(贈。0來進行操作。絲軸游標的操控裝置 φ f許多種,常見的有電阻式操控裝置及電容式操控裝置。電阻 式巧控裝置有靈敏度不高的缺點,所以容易因使用者施力過大 而知壞。電容式操控裝置則有價格昂貴、容易因靜電或座度等 因素造成誤動作的缺點。 另一方面,用來操控電動遊戲(videogame)之操控裝置 ^ 了可為傳統的搖桿(j〇yStiek)外,近來發展出—種能讓玩 豕用腳來操控的操控裝置。玩家可將雙贼置於此操控裝置 上,而此操控裝置會感測玩家的雙腳所施加的壓力之變化,以 ^遊戲肖色作出相對應的動作。然:而,此種操控裝置仍屬於電 各式操控裝置或是電阻式操控裝置。 【發明内容】 本發明提供一種光學式操控裝置,其具有良好的可靠度以 及多種操控模式。 一 為達上述優點,本發明提出一種光學式操控裝置,其包括 一顯示面板、一透光支撐板、一形變單元、一光源、一影像感 娜%組、一功能選擇模組以及一處理模組。透光支撐板是配置 於顯示面板下方,而形變單元是配置於透光支撐板與顯示面板 之間’且具有一圖案結構。當使用者施壓於顯示面板時,形變 6 200951784 單70產生形變’而當使用者停止施壓於顯示面板時,形變 恢復原狀。光源是用以提供—縣錢光讀板與形變單元。 影像感測模組是配置於從形變單元反射的光束之傳遞路徑 上’且影像感測模組的感測視野涵蓋整個形變單元。功 ^ 模組是配置於顯示面板旁,且功能選擇模組具有多個功能 鍵’以供使用者選取—預定功能。處理模組是電顧一 面板、功能選擇模組、影像感測模組以及光源。此處理模= 於使顯不面板顯示對應此預定功能的一預定畫面。 ❹· S本發月之例中’上述之形變單元的材質為彈性材 質。 之網例中’上述之圓案結構包括-預設規則 之網狀結構或多個條狀結構。 * 明之—實施射,上述之影佩賴組配置於透光 叉得板下方。 在本發明之一實施例中,上述之光學式操控裝置更 導光板’配置於透光域板與影像感賴組 鲁 置於導光板之-人光面旁。 而先源疋配 在本發明之-實施例中,上述之顯示面板為—點陣式液晶 dot-matrix liquid crystal display panel) 〇 曰 在本發一明之一實施例中’上述之處理模組包括一處理器、 顯不早兀、一功能單元(function unit)以及一多工 。處理器是電性連接至影像感測模組斑光源 :肩不„性連接至處理器與顯示面板,功能單元是電 接至处ff,❹4是紐連接至魏選擇馳、顯示單元 :及功J單元。此外’處理模組可更包括一無線模組,1 連接至處理器。 八电『玍 7 200951784 -第之—實施射,上述之處理模組包括—處理器、 、、一第一多工器以及-圖形產生器(pattern Γ是雜連接至影像感戦組、絲、功能 遠接至顧及第—多工器’而_產生器是電性 =至顯不面板與第二多玉器。此外,處理模組可更包括一無 線模組,其電性連接至處理器。 …、200951784 IX. INSTRUCTIONS: [Technical field to which the invention pertains] and particularly related to an optical body The present invention relates to a steering device, a type of operating device. [Prior Art] With the advancement of technology, more and more electronic products have the operation mode of many electronic products in the glory. The operation is performed by moving the cursor in the firefly f. There are many kinds of cursor control devices φ f, common with resistive control devices and capacitive control devices. Resistive smart control devices have the disadvantage of low sensitivity, so it is easy to be damaged due to excessive user force. Capacitive control device On the other hand, the control device used to control the videogame is a traditional joystick (j〇yStiek) A control device that allows the user to play with the foot. The player can place the double thief on the control device, and the control device senses the change of the pressure exerted by the player's feet to the game. Corresponding actions are made. However, such a control device still belongs to various electric control devices or resistive control devices. SUMMARY OF THE INVENTION The present invention provides an optical control device. The invention provides an optical control device, which comprises a display panel, a transparent support plate, a deformation unit, a light source, and an image sensing group. a function selection module and a processing module. The transparent support plate is disposed under the display panel, and the deformation unit is disposed between the transparent support plate and the display panel and has a pattern structure. When the display panel is used, the deformation of the single layer is changed. When the user stops pressing the display panel, the deformation is restored. The light source is used to provide the county-level reading board and the deformation unit. The image sensing module is It is disposed on the transmission path of the light beam reflected from the deformation unit and the sensing field of the image sensing module covers the entire deformation unit. The power module is disposed beside the display panel, and the function selection module has multiple function keys. For the user to select - the predetermined function. The processing module is a panel, a function selection module, an image sensing module, and a light source. The panel does not display a predetermined screen corresponding to the predetermined function. In the example of the present month, the material of the above-mentioned deformation unit is an elastic material. In the example of the network, the above-mentioned round structure includes a mesh of preset rules. The structure or the plurality of strip structures. * The light-reflecting group is disposed below the light-transmissive fork plate. In an embodiment of the invention, the optical control device is further disposed on the light guide plate The light-transmissive domain plate and the image sensing group are disposed beside the human light surface of the light guide plate. In the embodiment of the present invention, the display panel is a dot matrix liquid crystal dot-matrix liquid crystal. Display panel) In one embodiment of the present invention, the processing module includes a processor, a display unit, a function unit, and a multiplex. The processor is electrically connected to the image sensing module spot light source: the shoulder is not connected to the processor and the display panel, the functional unit is electrically connected to the ff, and the ❹4 is connected to the Wei selected, the display unit: J unit. In addition, the 'processing module can further include a wireless module, 1 is connected to the processor. Eight electric power "玍7 200951784 - the first - implementation of the shooting, the above processing module includes - processor,,, a first The multiplexer and the graphics generator (pattern Γ is a miscellaneous connection to the image sensing group, the wire, the function is far to the multiplexer) and the generator is electrically = to the display panel and the second multi-jade In addition, the processing module may further include a wireless module electrically connected to the processor.
光學式操辟置因絲的方絲感測壓力 的變化’不會因靜電或濕度等因素造成誤動作。而且,由於影 像感測模組不會受到壓力,所以不容易損壞。因此,本發明之 光學式操控裝置具有良好的可靠度。此外,本發明之光學式操 控裝置因具有功能選賴組’所以可具❹觀控模式。 +為讓本發明之上述和其他目的、特徵和優點能更明顯易 懂,下文特舉較佳實施例’並配合所附圖式,作詳細說明如下。 【實施方式】 圖1是本發明一實施例之一種光學式操控裝置的示意 圖’圖2是圖1之光學式操控裝置的上視圖,而圖3是圖i中 形I單元的立體圖。請參照圖1至圖3,本實施例之光學式操 控裝置200可連接至一電子裝置,如電腦、電視、遊戲機…等。 此光學式操控裝置200包括一顯示面板210、一透光支撐板 220、一形變單元230、一光源240、至少一影像感測模組25〇、 一功能選擇模組260以及一處理模組270。透光支撐板220是 配置於顯示面板210下方,而形變單元230是配置於透光支撐 板220與顯示面板210之間,且具有一圖案結構(如圖3所示 之具有一預設規則之網狀結構)。當使用者施壓於顯示面板 210時形變單元230產生形變,而當使用者停止施壓於顯示 面板210時,形變單元230恢復原狀。光源240是用以提供一 8 200951784 光束242至透光支撐板220與形變單元230。影像感測模組250 是配置於從形變單元230反射的光束243之傳遞路徑上,且影 像感測模組250的感測視野(即感測範圍)是涵蓋整個形變單 元〇此外’功此選擇模組260是配置於顯示面板210旁, 且功能選擇模組260具有多個功能選擇鍵262,以供使用者選 取一預疋功能。處理模組27〇是電性連接至顯示面板21〇、功 月b選擇模組260、影像感測模組250以及光源240。此處理模 組270適於使顯示面板21〇顯示對應此預定功能的一預定晝 φ 面,並處理使用者於預定晝面上的操控動作。此外,處理模組 270還可根據影像感測模組25〇感測到的該預定晝面的亮度來 調整光源240的發光強度。 上述之光學式操控裝置200中’影像感測模組250例如是 配置於透光支撐板220下方。影像感測模組250可包括一互補 式金屬氧化物半導體影像感測元件(CM0S image sensor)或 一電何麵合元件(charge coupled device,CCD)。此外,光學 式操控裝置200可更包括一殼體280。顯示面板210、透光支 撑板220、形變單元230、光源240、影像感測模組250、功能 ® 選擇模組260以及處理模組270是配置於殼體280内,且殼體 280暴露出顯示面板210與功能選擇模組260。另外,光源240 可為發光二極體(light emitting diode, LED)或雷射二極體 (laser diode,LD) ’其中發光二極體例如是紅外光發光二極 體(infrared LED)。顯示面板210例如是點陣式液晶顯示面 板,但不以此為限。透光支撐板220的材質可為玻璃、壓克力、 樹脂、橡膠或熱塑性彈性體等,而形變單元230的材質可為彈 性材質’如矽膠、乳膠、海綿、橡皮、橡膠或熱塑性彈性體 (thermoplastic elastomer,TPE )等。 9 200951784 在本實施例中,光學式操控裝置200之功能選擇模組26〇 具有多個功能選擇鍵262,當使用者按壓不同的功能選擇鍵 262時’處理模組270會控制顯示面板21〇顯示出不同的晝面。 舉例來說,當使用者按壓其中一功能選擇鍵262以選取一預定 功能(如繪圖板功能)時,處理模組27〇會控制顯示面板21〇 顯不出一空白晝面(如圖2所示)。此時,使用者可將光學式 操控裝置200當作一緣圖板使用。 承上述,由於形變單元230是抵靠於顯示面板210與透光 Ο 支撐板220,所以當使用者施壓於顯示面板210時,顯示面板 210與形變單元230會產生形變。此外,被形變單元23〇反射 的光束243會傳遞至影像感測模組250。影像感測模組250則 可將被形變單元230反射的光束243轉換成影像資料,並藉由 比對影像資料來判斷形變單元23〇是否產生形變以及產生形 變的位置,以使光學式操控裝置200所連接的電子裝置之螢幕 顯示出使用者於顯示面板210上所繪示的圖形。更詳細地說, 影像感測模組250可感測形變單元23〇在不同時間的形變位置 (含形變單元230之X軸及Y軸的形變位置),而處理模組 270可根據形變位置的移動執跡,而使光學式操控裝置2㈧所 連接的電子裝置之螢幕顯示出相對應的圖形。The change in the sensed pressure of the optical wire of the wire is not caused by static electricity or humidity. Moreover, since the image sensing module is not subjected to pressure, it is not easily damaged. Therefore, the optical manipulation device of the present invention has good reliability. Further, the optical operation device of the present invention can have a control mode because it has a function selection group. The above and other objects, features, and advantages of the present invention will become more apparent from the aspects of the appended claims. 1 is a schematic view of an optical control device according to an embodiment of the present invention. FIG. 2 is a top view of the optical control device of FIG. 1, and FIG. 3 is a perspective view of the I-shaped unit of FIG. Referring to Figures 1 to 3, the optical control device 200 of the present embodiment can be connected to an electronic device such as a computer, a television, a game machine, or the like. The optical control device 200 includes a display panel 210 , a transparent support plate 220 , a deformation unit 230 , a light source 240 , at least one image sensing module 25 , a function selection module 260 , and a processing module 270 . . The transparent support plate 220 is disposed under the display panel 210, and the deformation unit 230 is disposed between the transparent support plate 220 and the display panel 210, and has a pattern structure (as shown in FIG. grid). When the user presses the display panel 210, the deformation unit 230 is deformed, and when the user stops applying pressure to the display panel 210, the deformation unit 230 returns to the original state. The light source 240 is used to provide an 8 200951784 light beam 242 to the light transmissive support plate 220 and the deformation unit 230. The image sensing module 250 is disposed on the transmission path of the light beam 243 reflected from the deformation unit 230, and the sensing field of view (ie, the sensing range) of the image sensing module 250 covers the entire deformation unit. The module 260 is disposed adjacent to the display panel 210, and the function selection module 260 has a plurality of function selection keys 262 for the user to select a preview function. The processing module 27 is electrically connected to the display panel 21, the power month b selection module 260, the image sensing module 250, and the light source 240. The processing module 270 is adapted to cause the display panel 21 to display a predetermined 昼 φ face corresponding to the predetermined function and to handle the user's manipulation action on the predetermined face. In addition, the processing module 270 can also adjust the illumination intensity of the light source 240 according to the brightness of the predetermined pupil surface sensed by the image sensing module 25A. The image sensing module 250 of the above-described optical control device 200 is disposed, for example, under the light-transmitting support plate 220. The image sensing module 250 can include a complementary CMOS image sensor or a charge coupled device (CCD). Additionally, the optical manipulation device 200 can further include a housing 280. The display panel 210, the light-transmitting support plate 220, the deformation unit 230, the light source 240, the image sensing module 250, the function® selection module 260, and the processing module 270 are disposed in the housing 280, and the housing 280 is exposed. The panel 210 and the function selection module 260. In addition, the light source 240 may be a light emitting diode (LED) or a laser diode (LD), wherein the light emitting diode is, for example, an infrared light emitting diode. The display panel 210 is, for example, a dot matrix liquid crystal display panel, but is not limited thereto. The material of the transparent support plate 220 may be glass, acrylic, resin, rubber or thermoplastic elastomer, etc., and the material of the deformation unit 230 may be an elastic material such as silicone, latex, sponge, rubber, rubber or thermoplastic elastomer ( Thermoplastic elastomer, TPE), etc. In the present embodiment, the function selection module 26 of the optical control device 200 has a plurality of function selection keys 262. When the user presses the different function selection keys 262, the processing module 270 controls the display panel 21〇. Show different faces. For example, when the user presses one of the function selection keys 262 to select a predetermined function (such as a tablet function), the processing module 27 controls the display panel 21 to display a blank surface (as shown in FIG. 2). ). At this time, the user can use the optical manipulation device 200 as a marginal plate. In the above, since the deformation unit 230 is abutted against the display panel 210 and the light-transmissive support plate 220, when the user presses the display panel 210, the display panel 210 and the deformation unit 230 are deformed. In addition, the light beam 243 reflected by the deformation unit 23 is transmitted to the image sensing module 250. The image sensing module 250 converts the light beam 243 reflected by the deformation unit 230 into image data, and determines whether the deformation unit 23 is deformed or deformed by comparing the image data to make the optical control device 200. The screen of the connected electronic device displays the graphic drawn by the user on the display panel 210. In more detail, the image sensing module 250 can sense the deformation position of the deformation unit 23 at different times (including the deformation positions of the X-axis and the Y-axis of the deformation unit 230), and the processing module 270 can be based on the deformation position. The display is moved, and the screen of the electronic device connected to the optical control device 2 (eight) displays the corresponding graphic.
At在,實施例中,光學式操控裝置210除了可具有繪圖板功 月b外,還可具有觸控板功能(含滑鼠板功能)、電腦鍵盤功能、 琴鍵盤功能…等。當使用者按壓另一功能選擇鍵262來選取另 一預定功能(如觸控板功能、電腦鍵盤功能或琴鍵盤功能)時, 處理模組270會控制顯示面板21〇顯示出一空白畫面(如圖2 所示)、一電腦鍵盤晝面(如圖4A所示)或是一琴鍵盤畫面 (如圖4B所示)。需注意的是,以上提及的功能僅是舉&之 200951784 用’並非用以限定本發明之光學式操控裝置200可具有的功 能。此外’功能選擇模組260可具有一重設(reset)鍵264, 以讓使用者能重新設定光學式操控裝置200的功能。 由於本實施例之光學式操控裝置200具有功能選擇模組 260,所以可具有多種操控模式。換言之,本實施例之光學式 操控裝置200可取代多種操控裝置。此外,本實施例之光學式 操控裝置200因採用光學的方式來感測壓力的變化,不會因靜 電或濕度等因素造成誤動作。而且,由於影像感測模組25〇不 ❹ 會受到壓力,所以不容易損壞。因此,本實施例之光學式操控 裝置200具有良好的可靠度。 需注意的是,在本發明中,形變單元230的圖案結構並不 侷限於網狀結構。以下將再舉一種形變單元的實施例,但所屬 技術領域中具有通常知識者在參照本發明之後當可對形變單 元的形狀作適當的修改,惟其仍應屬本發明之範疇。圖5是本 發明另一實施例之形變單元的上視圖。請參照圖5,形變單元 230’的圖案結構包括多個條狀結構232。 _ 圖6是圖1之光學式操控裝置的方塊圖。請參照圖6,在 本實施例光學式操控裝置2〇〇中,處理模組27〇包括一處理器 272。、一顯示單元274、—功能單元276以及一多工器278。▲ 理器272是電性連接至影像感測模組25〇肖光源24〇,顯示單 = 274是電性連接至處理器272與顯示面板21〇,功能單元 疋電性連接至處理器272,而多工器278是電性連接至功能 擇模組260、顯示單元274以及功能單元276。此外,處理器 272可電性連接至一電子裝置3⑼,如電腦。 當使用者透過魏轉模組26G選取-預定魏時,多工 器278會傳送訊號至顯示單元別與功能單元挪。之後,顯 200951784 示單元274會根據使用者所選取的預定功能控制顯示面板2i〇 顯^對應此預定功能的-預定晝面,而功能單元別會傳送另 -訊號至處理器272,以讓處理器272根據使用者所選取的預 疋功此來做相對應的處理。 圖7是本發明另-實施例之光學式操控裝置的方塊圖。請 參照圖7,本實施例之光學式操控裝置2〇〇a與圖6之光學式 操控裝置的差異處在於光學式操控裝置篇之處理模組 270a更包括一無線模組279,其電性連接至處理器272,而光 ❿學式操控裝置2GGa是透過無線模組279而以無線的方式連接 至一外部電子裝置300。 圖8是本發明另-實施例之光學式操控裝置的方塊圖。請 參照圖8,本實施例之光學式操控裝置2〇〇b與與圖6之光學 式操控裝置200的差異處在於處理模組。更詳細地說,本實施 例之光學式操控裝置200b的處理模組270b包括-處理器 2^2、一第一多工器273、一第二多工器2乃以及一圖形產生 器277。處理器272是電性連接至影像感測模組25〇、光源24〇、 功能選擇模組260、第一多工器273以及第二多工器275,而 圖形產生器277是電性連接至顯示面板21〇與第二多工器2乃。 當使用者透過功能選擇模組26〇選取一預定功能時,第一 多工器273會傳送訊號至處理_奶,以讓處理器272根據使 用者所選取的預定功能來做相對應的處理,而第二多工器275 則會傳送sfl號至圖形產生器277,以讓圖形產生器277產生對 應此預定功能的一晝面資料。之後,内建有顯示單元的顯示面 板210會根據此畫面資料顯示一預定晝面。此外,第一多工器 273與第二多工器275可整合至處理器272。另外,處理模組 270b可更包括一無線模組279,其電性連接至處理器272,而 12 200951784 光學式操控裝置200b是透過無線模組279而以無線的方式連 接至外部電子裝置3〇〇。 圖9是本發明另一實施例之一種光學式操控裝置的示意 圖。請參照圖9 ’相較於圖1之光學式操控裝置2〇〇,本實施 例之光學式操控裝置200c更包括一導光板290,其配置於透 光支樓板220與影像感測模組250之間,而光源240是配置於 導光板290之一入光面292旁。導光板290可將光源240所提 供的光束243均勻地導引至形變單元230。此導光板290不僅 ❻不會降低影像感測模組250所擷取的形變單元230的影像之品 質,還能有利於影像感測模組250判斷形變單元230的形變位 置及形變量。 圖10是本發明另一實施例之一種光學式操控裝置的示意 圖。請參照圖10,相較於圖1之光學式操控裝置2〇〇,本實施 例之光學式操控裝置200d更包括一透鏡295,其配置於影像 感測模組250之前。此透鏡295具有較大視角(viewing angle), 所以增設透鏡295可使影像感測模組250與形變單元230之間 的距離能夠縮短,進而降低光學式操控裝置2〇%的厚度。 綜上所述,本發明之光學式操控裝置至少具有下列優點: 1. 本發明之光學式操控裝置因採用光學的方式來感測使 用者所施加的壓力,所以不會因靜電或濕度等因素造成誤動 作。 2. 由於壓力不是施加於影像感測模組,所以影像感測模組 不容易損壞。因此,本發明之光學式操控裝置具有良好的可靠 度0 3·本發明之光學式操控裝置因具有功能選擇模組,所以可 具有多種操控模式,如此可取代多種操控裝置。 13 200951784 雖然本發明已以較佳實施例揭露如上,然 本,’任何《此技藝者’在不脫離本發明之= 内’當可作些許之更動_飾,因此本發明之保護 附之申請專利範圍所界定者為準。 田視 【圖式簡單說明】 圖1是本發明-實施例之-種光學式操控裝置的示意圖。 圖2是圖1之光學式操控裝置的上視圖。 圖3是圖1中形變單元的立體圖。In the embodiment, the optical control device 210 can have a touch panel function (including a mouse keyboard function), a computer keyboard function, a piano keyboard function, and the like in addition to the drawing board power b. When the user presses another function selection button 262 to select another predetermined function (such as a touchpad function, a computer keyboard function or a piano keyboard function), the processing module 270 controls the display panel 21 to display a blank screen (eg, Figure 2 shows a computer keyboard (shown in Figure 4A) or a keyboard screen (shown in Figure 4B). It is to be noted that the above-mentioned functions are merely those of the optical control device 200 which is not used to define the present invention. In addition, the function selection module 260 can have a reset button 264 to allow the user to reset the function of the optical manipulation device 200. Since the optical manipulation device 200 of the present embodiment has the function selection module 260, it can have various manipulation modes. In other words, the optical manipulation device 200 of the present embodiment can replace a variety of manipulation devices. In addition, the optical control device 200 of the present embodiment senses the change of the pressure in an optical manner, and does not cause malfunction due to factors such as static electricity or humidity. Moreover, since the image sensing module 25 is not subject to pressure, it is not easily damaged. Therefore, the optical manipulation device 200 of the present embodiment has good reliability. It is to be noted that, in the present invention, the pattern structure of the deformation unit 230 is not limited to the mesh structure. An embodiment of a deformation unit will be given below, but those skilled in the art can appropriately modify the shape of the deformation unit after referring to the present invention, but it should still fall within the scope of the present invention. Figure 5 is a top plan view of a deformation unit in accordance with another embodiment of the present invention. Referring to Figure 5, the pattern structure of the deformation unit 230' includes a plurality of strip structures 232. Figure 6 is a block diagram of the optical control device of Figure 1. Referring to FIG. 6, in the optical control device 2 of the embodiment, the processing module 27 includes a processor 272. A display unit 274, a functional unit 276, and a multiplexer 278. The 272 is electrically connected to the image sensing module 25, and the display unit 274 is electrically connected to the processor 272 and the display panel 21, and the functional unit is electrically connected to the processor 272. The multiplexer 278 is electrically connected to the function selection module 260, the display unit 274, and the function unit 276. In addition, the processor 272 can be electrically connected to an electronic device 3 (9), such as a computer. When the user selects - predetermined Wei through the Wei switch module 26G, the multiplexer 278 transmits a signal to the display unit and the function unit. After that, the display unit 274 will control the display panel 2i to display the predetermined surface corresponding to the predetermined function according to the predetermined function selected by the user, and the function unit will transmit another signal to the processor 272 for processing. The device 272 performs corresponding processing according to the pre-selected work selected by the user. Figure 7 is a block diagram of an optical manipulation device in accordance with another embodiment of the present invention. Referring to FIG. 7, the difference between the optical control device 2A of the present embodiment and the optical control device of FIG. 6 is that the processing module 270a of the optical control device further includes a wireless module 279, which is electrically Connected to the processor 272, the optical learning device 2GGa is wirelessly coupled to an external electronic device 300 via the wireless module 279. Figure 8 is a block diagram of an optical manipulation device in accordance with another embodiment of the present invention. Referring to Fig. 8, the difference between the optical control device 2b of the present embodiment and the optical control device 200 of Fig. 6 lies in the processing module. In more detail, the processing module 270b of the optical control device 200b of the present embodiment includes a processor 2^2, a first multiplexer 273, a second multiplexer 2, and a graphics generator 277. The processor 272 is electrically connected to the image sensing module 25, the light source 24, the function selection module 260, the first multiplexer 273, and the second multiplexer 275, and the graphics generator 277 is electrically connected to The display panel 21A and the second multiplexer 2 are. When the user selects a predetermined function through the function selection module 26, the first multiplexer 273 transmits a signal to the processing_milk to cause the processor 272 to perform corresponding processing according to the predetermined function selected by the user. The second multiplexer 275 transmits the sfl number to the graphics generator 277 to cause the graphics generator 277 to generate a facet data corresponding to the predetermined function. Thereafter, the display panel 210 having the built-in display unit displays a predetermined face based on the screen material. Additionally, first multiplexer 273 and second multiplexer 275 can be integrated into processor 272. In addition, the processing module 270b may further include a wireless module 279 electrically connected to the processor 272, and the 12 200951784 optical control device 200b is wirelessly connected to the external electronic device through the wireless module 279. Hey. Fig. 9 is a schematic view of an optical manipulation device according to another embodiment of the present invention. The optical control device 200c of the present embodiment further includes a light guide plate 290 disposed on the light transmission support floor 220 and the image sensing module 250. The light source 240 is disposed adjacent to the light incident surface 292 of one of the light guide plates 290. The light guide plate 290 can uniformly guide the light beam 243 provided by the light source 240 to the deformation unit 230. The light guide plate 290 not only reduces the quality of the image of the deformation unit 230 captured by the image sensing module 250, but also facilitates the image sensing module 250 to determine the deformation position and the deformation of the deformation unit 230. Figure 10 is a schematic illustration of an optical manipulation device in accordance with another embodiment of the present invention. Referring to FIG. 10, the optical control device 200d of the present embodiment further includes a lens 295 disposed in front of the image sensing module 250. The lens 295 has a larger viewing angle. Therefore, the additional lens 295 can shorten the distance between the image sensing module 250 and the deformation unit 230, thereby reducing the thickness of the optical control device by 2%. In summary, the optical control device of the present invention has at least the following advantages: 1. The optical control device of the present invention senses the pressure applied by the user in an optical manner, so that it does not cause factors such as static electricity or humidity. Caused a malfunction. 2. Since the pressure is not applied to the image sensing module, the image sensing module is not easily damaged. Therefore, the optical control device of the present invention has good reliability. 3. The optical control device of the present invention has a plurality of control modes because of its function selection module, so that it can replace a plurality of control devices. 13 200951784 Although the present invention has been disclosed in the above preferred embodiments, it is intended that the present invention may be modified as a matter of course, without departing from the invention. The scope defined by the patent scope shall prevail. [Simultaneous Description of the Drawings] Fig. 1 is a schematic view of an optical manipulation device of the present invention. Figure 2 is a top plan view of the optical manipulation device of Figure 1. Figure 3 is a perspective view of the deformation unit of Figure 1.
圖4A與圖4B是圖1之光學式操控裝置在不同模式下的 上視圖。 ' 圖5是本發明另一實施例之形變單元的上視圖。 圖6是圖1之光學式操控裝置的方塊圖。 圖7疋本發明另一實施例之光學式操控裝置的方塊圖。 圖8是本發明另一實施例之光學式操控裝置的方塊圖。 圖9是本發明另一實施例之一種光學式操控裝置的乔意 圖。 圖10是本發明另一實施例之一種光學式操控裝置的米意 圖。 【主要元件符號說明】 200、200a、200b、200c、200d :光學式操控裝置 210 :顯示面板 220 :透光支撐板 230、230’ ··形變單元 232 :條狀結構 240 :光源 242、243 :光束 200951784 250 :影像感測模組 260 :功能選擇模組 262 :功能選擇鍵 264 :重設鍵 270、270a、270b :處理模組 272 :處理器 273 ··第一多工器 274 :顯示單元4A and 4B are top views of the optical manipulation device of Fig. 1 in different modes. Figure 5 is a top plan view of a deformation unit of another embodiment of the present invention. Figure 6 is a block diagram of the optical manipulation device of Figure 1. Figure 7 is a block diagram of an optical manipulation device according to another embodiment of the present invention. Figure 8 is a block diagram of an optical manipulation device in accordance with another embodiment of the present invention. Figure 9 is a perspective view of an optical manipulation device in accordance with another embodiment of the present invention. Figure 10 is a schematic view of an optical manipulation device according to another embodiment of the present invention. [Description of main component symbols] 200, 200a, 200b, 200c, 200d: Optical manipulation device 210: Display panel 220: Light-transmitting support plate 230, 230' · Deformation unit 232: Strip structure 240: Light sources 242, 243: Light beam 200951784 250 : image sensing module 260 : function selection module 262 : function selection key 264 : reset key 270 , 270a , 270b : processing module 272 : processor 273 · · first multiplexer 274 : display unit
275 :第二多工器 276 :功能單元 277 :圖形產生器 278 :多工器 279 :無線模組 280 :殼體 290 :導光板 292 :入光面 295 :透鏡 300 :電子裝置 15275: second multiplexer 276: functional unit 277: graphics generator 278: multiplexer 279: wireless module 280: housing 290: light guide 292: light incident surface 295: lens 300: electronic device 15