201035821 六、發明說明: 【發明所屬之技術領域】 本發明係應用於電子裴置之技術領域,尤指一 具3D顯不功能的電子裝置。 【先前技術】 〇 ❹ 般I知具有觸控輸入功能之電子掌置 行動電話或筆記型電腦等電子裝置,係直接將 面板設置於一具顯示螢幕之主機表面,以形 二 勞幕之電子裝置,而供使用者能直接於顯示之表面^ 入相關訊息或選項’做為與顯示螢幕互動的方:』 此類觸控輸入之電子裝置’在一般需要輸入文 使用者習慣利用鍵盤之輸入方式時,則不方便使用: ί η知具有觸控輸入功能之電子裝置所顯示的通 二為2D的平面顯示效果,#使用者想要看見抑立 組頦不效果時,往往無法滿足使用者的需求。 【發明内容】 ::明之主要目的係為提供一種電子裝置,此電 二,合顯示裴置、觸控面版以及設置在觸控面板 能。面上的夕數透鏡,以提供2D/3D切換的顯示功 中描^ 了可達到前述的發明目的,於本發明—實施例 板G、::r裝置’其係包含:一本體、-觸控面 /、數個透鏡。本體具有一平面顯示裝置以提供一 3 201035821 顯示面,而觸控面板的雙面中至少有一表面是具有感 測觸控位置的功能,且於此觸控面板的其中一表面上 設置有多數的透鏡。當觸控面板疊置於平面顯示裝置 之顯示面上時,觸控面板上的透鏡搭配平面顯示裝置 一起提供使用者看見一個3D (3_dimenti〇n)立體影 .像(3D image)。反之,當觸控面板沒有疊置於平面 顯不裝置之顯示面上時,使用者僅由平面顯示裝置看 ' 見一個2 D影像。 ο ★於本發明一實施例中,設置於觸控面板上的多數 处鏡組成一體成形的-透鏡光學片⑴仙― optical plate)。盆中,读错也風μ a "匕 或是透明塑膠材質透鏡先學片的材質可為玻璃 的顯於明一實施例中’透鏡可直接設於顯示裝置 的顯示面上。鏡先學片的型態設於顯示裝置 ❹ 於本發明一實施例中,可以是先 二2將觸控面板形成於透鏡光學片相對透 表面上。例如,觸控面板具有一第 另 板的雙基板結構(未圖弋) ^ 一弟一基 -基板或是第二η光學透鏡片可以為第 透鏡於置於觸控面板上的各個 向係相互平行排列 有透鏡的長軸方 觸控面板的側邊可以是相互4透==向與該 角度。 直或疋夾一預設 4 201035821 於本發明另一實施例中提供一種電子裝置,更包 含一外殼與一樞接裝置,其中外殼藉由一導引裝置與 本體相連接,此導引裝置可以使外殼貼靠於本體之其 中一表面。此外,觸控面板為可透光之雙面觸控面 板’且藉由一樞接裝置樞接觸控面板與本體,使觸控 面板可以旋轉並貼靠於本體具有顯示面之一面。再 者’外殼朝向本體之一面設有一圖文,並藉由導引裝 置以導引外殼具圖文之一面貼靠於觸控面板。 【實施方式】 請同時參考第一圖至第三圖以及第七圖,第一圖 至第三圖顯示本發明之一實施例,第七圖顯示 學片疊置於觸控面板上。本實施例提供一種電子裝 置,包含:一本體10、一觸控面板2〇、一樞接裝 置3 0以及多數透鏡62。201035821 VI. Description of the Invention: [Technical Field] The present invention is applied to the technical field of electronic devices, and more particularly to an electronic device having a 3D display function. [Prior Art] 般 I know that an electronic device such as an electronic mobile phone with a touch input function, such as a mobile phone or a notebook computer, directly sets the panel on the surface of a main body of the display screen to form an electronic device. For the user to directly enter the relevant information or option 'as the side that interacts with the display screen:' The electronic device of such touch input is generally required to input the text user's habit of using the keyboard input method. When it is inconvenient to use: ί η know that the electronic device with touch input function displays the 2D flat display effect, and #users often cannot satisfy the user when they want to see the inhibitory group. demand. SUMMARY OF THE INVENTION The main purpose of the invention is to provide an electronic device, a display device, a touch panel, and a touch panel. The illuminating lens on the surface can be used to provide the 2D/3D switching display function, and the invention can be achieved. In the present invention, the embodiment board G:::r device includes: an ontology, a touch Control surface /, several lenses. The main body has a flat display device to provide a 3 201035821 display surface, and at least one surface of the touch panel has a function of sensing a touch position, and a plurality of surfaces are disposed on one surface of the touch panel. lens. When the touch panel is stacked on the display surface of the flat display device, the lens on the touch panel together with the flat display device provides the user with a 3D (3D image) image. On the other hand, when the touch panel is not stacked on the display surface of the flat display device, the user only sees a 2D image by the flat display device. In an embodiment of the invention, the plurality of mirrors disposed on the touch panel constitute an integrally formed lens optical sheet (1). In the basin, the error is also the wind μ a "匕 or the material of the transparent plastic lens. The material of the film can be glass. The lens can be directly disposed on the display surface of the display device. The shape of the mirror is set on the display device. In an embodiment of the invention, the touch panel may be formed on the opposite surface of the lens optical sheet. For example, the touch panel has a double-substrate structure of a second board (not shown). The first-substrate-substrate or the second n-optic optical lens sheet can be the mutual orientation of the first lens on the touch panel. The sides of the long-axis side touch panel in which the lenses are arranged in parallel may be mutually transmissive == direction and angle. In the other embodiment of the present invention, an electronic device further includes a housing and a pivoting device, wherein the housing is connected to the body by a guiding device, and the guiding device can be The outer casing is placed against one of the surfaces of the body. In addition, the touch panel is a light-transmissive double-sided touch panel ′, and the control panel and the body are pivotally contacted by a pivoting device, so that the touch panel can rotate and abut against the body having one side of the display surface. Furthermore, the outer casing is provided with a graphic on one side of the main body, and the guiding device is used to guide the outer surface of the outer casing against the touch panel. [Embodiment] Referring to the first to third and seventh figures, the first to third figures show an embodiment of the present invention, and the seventh figure shows that the picture is superimposed on the touch panel. The embodiment provides an electronic device comprising: a body 10, a touch panel 2A, a pivoting device 30, and a plurality of lenses 62.
本體10具有一平面顯示裝置以提供一 1 1,且本體1 0可為任意之電子設備,例如^于動 電話、筆記型電腦、衛星導航裝置等;而平面顯 置可以是液晶顯示裝置(LCD)、有機激發光二極髀 顯示器(0LED)、電泳式顯示器(EPD) 體 觸控面板2 0可為透光之單面或雙面 板,以ffl面所舉示例為雙面之觸控面才反,亦 面板的雙面都具有感測功能,雙面都可以作為 : 的操作介面。觸控面板2 〇藉由一槐接 體1〇。框接裝置例如可為一萬向接頭裝;一= 5 201035821 ^如圖中舉例所示的枢接襄置30為-個轉軸結構。 -中,樞接裝置3 0包含設置於本體工〇上的一凹样 31,以及設置於觸控面板2〇上的一樞軸32 由樞軸3 2樞穿於凹槽3 u,可供觸控面板: 對於本體1 0進行旋轉。 ❹ 〇 此外,觸控面板2 〇上還設有多數透鏡6 2,這 些透鏡62可以是直接形成在觸控面板2〇的其中— 個表面上,例如觸控面板2 〇的一表面設有一硬化保 護層(hard coat),透鏡6 2係由硬化保護層所形 成的表面微結構。透鏡62可以以先以一體成形的方 式形成一透鏡光學片(lenticular 〇ptical plate), 例如第七圖所示的透鏡光學片6 〇,再以貼合的方式 α又置在觸控面板2 〇的一表面上。其中,設置於觸控 面板2 0上的每一個透鏡6 2的透鏡表面6 2 2,係 具有部分柱狀的外形,且所有透鏡6 2的長軸方向係 相互平行排列。並且,透鏡光學片的材質可以是透明 塑膠材質或是玻璃。透明塑膠材質又可以例如是壓克 力(ΡΜΜΑ)、聚碳酸酯(pc)、聚對苯二甲酸乙二醇酯 (PET)…等其中之一種。 0 此外,另一種實施方式也可以是先製作透鏡光學 片6 0 ’再將觸控面板形成於該透鏡光.學片相對透鏡 6 2的另一表面上,在此不予以限定。舉例來說,觸 控面板具有一第一基板與一第二基板的雙基板結構 (未圖式),而光學透鏡片6 0可以為第一基板或是 弟二基板其中之一。 6 201035821 利用上述的實知例,當觸控面 轉並疊置於顯示面上時,觫枷l 丁囬硝不為旋 觸控面板上的透鏡|艾配朵 顯示裝置上書辛,讜你土立兄彳。配干面The body 10 has a flat display device to provide a 1 1 , and the body 10 can be any electronic device, such as a mobile phone, a notebook computer, a satellite navigation device, etc.; and the flat display can be a liquid crystal display device (LCD) ), organic excitation light diode display (0LED), electrophoretic display (EPD) body touch panel 20 can be light-transparent single-sided or double-panel, with the example of the ffl surface as the double-sided touch surface Both sides of the panel also have a sensing function, and both sides can be used as: the operation interface. The touch panel 2 is connected by a splicing body. The frame connection device can be, for example, a universal joint; a = 5 201035821 ^ The pivoting device 30 shown in the figure is a shaft structure. The pivoting device 30 includes a concave 31 disposed on the body workpiece, and a pivot 32 disposed on the touch panel 2 is pivoted by the pivot 3 2 to the recess 3 u. Touch panel: Rotates the body 10. In addition, a plurality of lenses 62 are disposed on the touch panel 2, and the lenses 62 may be directly formed on one surface of the touch panel 2, for example, a surface of the touch panel 2 is hardened. A hard coat, the lens 62 is a surface microstructure formed by a hardened protective layer. The lens 62 may be formed by integrally forming a lens lenticular plate, such as the lens optical sheet 6 第七 shown in FIG. 7 , and then placed on the touch panel 2 in a conforming manner. On the surface. The lens surface 62 2 of each lens 6 2 disposed on the touch panel 20 has a partial columnar shape, and the long axis directions of all the lenses 6 2 are arranged in parallel with each other. Moreover, the material of the lens optical sheet may be a transparent plastic material or a glass. The transparent plastic material may be, for example, one of acrylic (ΡΜΜΑ), polycarbonate (pc), polyethylene terephthalate (PET), and the like. In addition, in another embodiment, the lens optical sheet 60 is formed first, and then the touch panel is formed on the other surface of the lens light relative to the lens 62, which is not limited herein. For example, the touch panel has a dual substrate structure (not shown) of a first substrate and a second substrate, and the optical lens sheet 60 may be one of the first substrate or the second substrate. 6 201035821 Using the above-mentioned practical example, when the touch surface is turned and stacked on the display surface, the lens is not rotated on the touch panel of the touch panel. Native brothers. Dry noodles
—京讓使用者看見一個3D 觸=ΓΛ 體影像(3Di—)。反之,: 觸控面板沒有疊置於平面顯 田 用者僅由平面顯示襄置看見一個2D影像。上述的二 施例僅為舉例說明,樞接I置3 0並不㈣為一個轉 Ο 轴、、°構’只要是可以達成讓觸控面板2 0遠離或是貼 近平面顯示器之顯示面u的設計, 明 概念中。 月 士上述的實施例進一步包含有一外殼4 0與一導 引裝置50。外殼4〇,可貼靠於觸控面板2〇表 面,且外殼40朝觸控面板2〇之一面設有一圖文4 1,该圖文4 1可依使用者之需要印製所需之花紋或 文字,例如仿鍵盤的按鍵圖像(ic〇n)等。導引裝置5 0 ’於該本體1 〇之兩側分別凹入設有一第一軌道5 1,且配合於外殼4 〇之兩内侧分別突設有一導柱5 2 ’以供兩導柱5 2可於本體1 0之兩第一軌道5 1 内滑動或翻轉;藉由上述之結構’以完成本發明的電 子裝置。 當使用時,使用者能依本身所需或習慣之使用方 式調整本發明之電子裝置,如第二圖所示。當使用者 需要直接在顯示面1 1表面以觸控方式輸入資料 時’只需將外殼4 0經由導引裝置5 ◦翻掀開,並將 觸控面板2 〇貼靠於本體1 〇之顯示面1 1,即可提 7 201035821 供使用者直接經由觸控面板2 〇進行觸控輸入訊阜 或續'圖。 〜 當使用者習慣經由鍵盤輸入相關訊息的方式 也可以如第二圖所示,以本實施例之另一種使用狀能 J行操作。外殼4 0可經由導引裝置5 0展開至 胃的角度’且藉由柩接裝置3 〇將觸控面板2 〇 _ f疊置於外殼40之表面。由於觸控面板2 0係為可 ,光’因此可以供使用者透過觸控面板2〇看到外殼 4 0之圖文4 1。此時’觸控面板2 0可以例如切換 至=種操作模式,例如觸控面板2 〇會對應圖文4 1 =義出多個區塊,每一個區塊内的任一位置被感測 =吩,代表對應到圖文4丄的功能將被執行。亦即, 田觸控面板2 0搭配圖文4 1 ’可提供使用者一個類 似鍵盤的操作環境,讓使用者清楚瞭解所觸控的位置 。、子應到圖文4 1上的按鍵圖像(jc〇n)的功能為 〇 何,免樣便能於觸控面板2 0上營造若鍵盤作用之使 用方式。 猎由上述實施例之結構可知,本發明之電子裝 置,能依使用者之使用習慣變換觸控面板2 〇之使用 7式,藉由僅僅一片觸控面板,不但可直接於顯示面 r 1表面使用’也可以營造出類似鍵盤的操作方式, ♦達到不需額外設置鍵盤,就能具有擁有類似於以鍵 ,來輸θ入資料的使用環境。故,能有效減少產品的厚 X、重量,同時降低成本,並能減少鍵盤的使用材料, 進而更兼具有環保之功效。此外,上述實施例中的樞 8 201035821 接裝置3 〇也可以θ ^•人t 搭配一個單面理(未圖示),並且 至面對使用者:二面:以依據使用者需要而旋轉 卜# 4 、置。亦即,操作介面無論是疊置於 之圖文41上或是疊置於顯示面Η表面 土’都面對使用者以供使用者方便操作。並餘盘Ϊ: 實施例原理相同部分,不予費述。 〃餘,、上述 Ο 〇 之另考第四圖與第七圖,第四圖其係本發明 數個1&第"^圖顯示觸控面板2 0上設有多 係4二】;前述實施例不同之處在於外殼42 = 導引裝置”於該術 _,、、 5又有—長形之第二執道54,且第 :二::沿本體1 2之側邊設置,以供外殼4 2之 沿著兩側的第二軌道“滑動,而由本 月豆1 2異於顯示面1 ?夕— ^ ^ p 丄3之一面岣出,並於該本體12 :::1 觸控面板21樞轉疊置於外殼4 二’、可使觸控面板2 1搭配外殼42 -同形成 :鍵=:與操作環境’以方便使用者使用;另 外不需要仿鍵盤的操作環境時,只需將該 _/又 貼罪於該本體1 2異於顯示面! 3之 面’且將該觸控面板21貼靠於該顯示面13表 二以觸控榮幕21的操作介面方便使用。 ”餘人上述貫施例原理相同部分,不予贅述。 。月同時參考第五圖、第六圖以及第七圖,第五圖 與弟六圖係本發明之又_杳 月之又貫施例圖,第七圖顯示觸控 9 201035821 3 2〇上設有多數個透鏡62。與前述實施例不同之 處在於導引裝置5 6係為一莖a妹之 ..^ v 為萬向接頭,且此萬向接頭 之兩^分別固設有外殼4 3及本體i 4 :頭係為-般習知的萬向接頭形式,故不詳=向 虽Γ般收合狀態時,外殼43可靠合於本體14里於 顯示面1 5之一面(如第圓张-、 、、 “圖所不)’或可蓋合於觸 " 2 2之表面,以形成防護觸控面板2 2之作用- Beijing allows the user to see a 3D touch image (3Di-). Conversely, the touch panel is not superimposed on the flat display. Only a 2D image is seen by the flat display. The above two embodiments are merely illustrative. The pivoting I is set to 30, and the (four) is a turning axis, and the structure is as long as the touch panel 20 is far away or close to the display surface u of the flat display. Design, in the concept of Ming. The above embodiment of the moon further includes a housing 40 and a guiding device 50. The outer casing 4 is disposed on the surface of the touch panel 2, and the outer casing 40 is provided with a graphic 4 1 on one side of the touch panel 2, and the graphic can be printed according to the needs of the user. Or text, such as a button image (ic〇n) of a keyboard. The guiding device 50 0 is respectively recessed and provided with a first rail 51 on both sides of the body 1 , and a guiding post 52 2 ′ is respectively protruded from the inner side of the casing 4 for the two guiding pillars 5 2 . The electronic device of the present invention can be completed by sliding or flipping in the first track 5 1 of the body 10; When in use, the user can adjust the electronic device of the present invention in accordance with the manner in which it is required or customary, as shown in the second figure. When the user needs to directly input data on the surface of the display surface 1 1 by touch, simply flip the outer casing 40 through the guiding device 5 and place the touch panel 2 〇 against the display of the body 1 Face 1 1, you can mention 7 201035821 for the user to directly touch input through the touch panel 2 阜 or continue to 'picture. ~ When the user is accustomed to input related information via the keyboard, as shown in the second figure, another type of use of the embodiment can be operated. The outer casing 40 can be deployed to the angle of the stomach via the guiding device 50 and the touch panel 2 〇 _ f is superposed on the surface of the outer casing 40 by the splicing device 3 。. Since the touch panel 20 is configurable, the light can be seen by the user through the touch panel 2 to see the graphic 4 of the outer casing 40. At this time, the touch panel 20 can be switched to, for example, a mode of operation. For example, the touch panel 2 对应 corresponds to the image 4 1 = multiple blocks are sensed, and any position in each block is sensed = It is said that the function corresponding to the graphic text will be executed. That is to say, the field touch panel 20 with the graphic 4 1 ' can provide the user with a keyboard-like operating environment, so that the user can clearly understand the position of the touch. The function of the button image (jc〇n) on the text of the text can be created on the touch panel 20 to create a keyboard function. According to the structure of the above embodiment, the electronic device of the present invention can change the touch panel 2 according to the user's usage habits. With only one touch panel, not only can the surface of the display surface r 1 be directly Use 'can also create a keyboard-like operation, ♦ to achieve the use of a similar environment with a key to input data without the need for additional keyboard settings. Therefore, the thickness and weight of the product can be effectively reduced, and the cost can be reduced, and the use of the keyboard can be reduced, thereby further improving the environmental protection effect. In addition, the pivot 8 201035821 in the above embodiment can also be connected to the device 3 θ • ^ 人 t with a single-sided (not shown), and to face the user: two sides: to rotate according to the needs of the user # 4 , set. That is, the operation interface faces the user on either the overlay 41 or the surface of the display panel for user convenience. And the remaining part of the principle: the same part of the principle of the embodiment, no mention. In addition, the above-mentioned Ο 〇 另 另 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四 第四The embodiment differs in that the outer casing 42 = guiding device "in the operation _,,, 5, and the second elongated path 54 of the elongated shape, and the second::: along the side of the body 12, for The second track along the two sides of the outer casing 42 is "sliding, and the one side of the moon 1 2 is different from the display surface 1 ? - ^ ^ p 丄 3, and the body 12 :::1 touch The panel 21 is pivotally stacked on the outer casing 4', and the touch panel 2 1 can be formed together with the outer casing 42. The key=: and the operating environment are convenient for the user; and the operating environment of the keyboard is not required. It is necessary to blame the _/ on the body 1 2 different from the display surface! The surface of the touch panel 21 is placed on the display surface 13 and is conveniently used by the operation interface of the touch screen 21. The rest of the principles of the above-mentioned embodiments are not repeated. The month also refers to the fifth, sixth and seventh figures. The fifth and the sixth figures are the re-introduction of the invention. For example, the seventh figure shows that the touch lens 9 201035821 3 2 is provided with a plurality of lenses 62. The difference from the previous embodiment is that the guiding device 56 is a stem and a sister.. ^ v is a universal joint And the two sides of the universal joint are respectively fixed with the outer casing 43 and the main body i 4 : the head system is a conventionally known universal joint form, so that the outer casing 43 is reliably combined when the state is folded. In the body 14 on one side of the display surface 15 (such as the first circle -, ,, "not shown") or can be attached to the surface of the touch "2" to form a protective touch panel 2 2
(^中未不);當形成若鍵盤之使用狀態時,係可將 外^ 4 3 α萬向接頭為軸心、,旋轉18〇度後,再調整 外"又4 3與本體1 4之角度,並配合將觸控面板2 2 ,轉至疊置於外殼4 31,以形成類似鍵盤之使用狀 恶。亦可為如第六圖所示,外殼4 3可靠合於該本體 異於該顯示面1 5之一面,而將觸控面板2 2貼 罪於本體1 4之顯示面1 5,以形成觸控式之顯示面 1 5,而方便使用者直接觸控操作。其餘與上述實施 例原理相同部分,不予贅述。 請參考第八圖’此係本發明另一實施例之俯視 。"、員示透知光學片7 0、觸控面板7 4與平面顯示 哭 7 〇 一 00 b二者之間的相對位置關係。此外,透鏡光學片 7 〇也可以設置在觸控面板7 4與平面顯示器7 6 之間。同樣地’每一個透鏡7 2例如具有部分柱狀的 夕卜开弧形結構),且所有透鏡的長軸方向係相互平 4丁 # Μ °再者,7 2透鏡的長軸方向與觸控面板7 4 的側邊可以是相互平行、垂直或是夾一預設角度Θ。 其中㊀可以介於3〇度〜9〇度。每一個透鏡7 2的間 201035821 距(pitch) P可以是介於5〇微米至1〇〇〇微米的範 圍内。此外,其他種衍生的實施方式可以例如是透鏡 7 2也直接設於顯示裝置的顯示面上,或是以透鏡光 學片7 0的型態設於顯示裝置的顯示面上,在此不予 以限制。 明參考第九圖,此係本發明一實施例之立體圖。 第九圖顯示透鏡光學片9 〇藉由一樞接裝置94與 連接於本體1〇上,使透鏡光學片g 〇可以相對本體 j 〇進行位移動作,例如圖中所示的旋轉動作。樞接 裝置9 4係可選擇性地固定在本體i 〇上或是可從 本體10拆卸分,並不予以限定。 舉例來說,若是樞接裝置9 4係固定在本體^ 〇上, 則透鏡光學片9 〇可以與樞接裝置9 4是分開的兩 個物件。視使用需求可以選擇性將透鏡光學片9 〇拆 卸下來I另一種實施方式是透鏡光學片9 0與樞接裝 置9 4是一體成形的。使用者亦可視使用需求可以選 擇性將透鏡光學片9 〇拆卸下來。 . 透鏡9 2具有部分柱狀的外形,該些透鏡的長軸 方向係相互平行排列,透鏡的長軸方向與該觸控面板 的側邊失一預設角度。 ^虽透鏡光學片9 〇藉由樞接裝置9 4旋轉後遠 離平面顯示裝置之顯示面η時,平面顯示裝置之顯 二=11提供一 2D影像(2D image),反之,當透鏡 光f片90藉由樞接裝置94旋轉後貼近顯示面u 上時,上述的2D影像藉由透鏡9 2轉換呈現出一 3]) 11 201035821 立體影像(3D image )。其餘與前述實施例相同之處, 不再予以贅述。 以上所述僅為舉例性’而非為限制性者。任何未 脫離本發明之精神與範疇,而對其進行之等效修改哎 變更’均應包含於後附之申請專利範圍中,而非限定 於上述之實施例。 ' 【圖式簡單說明】 〇 (一)圖式部分 第一圖係本發明一實施例之元件立體分解圖。 第一圖係依據本發明第一圖之元件立體組合示 意圖。 第三圖係依據本發明一實施例之其中一種使用 狀態立體示意圖。 第四圖係本發明之另一實施例之立體動作示意 〇 圖。 心 第五圖係本發明之又一實施例之立體動作示意 圖 〇 第六圖係第五圖其中一種之使用狀態立體示意 圖 ° 第七圖係本發明一實施例之立體圖’顯示透鏡光 學片疊置於觸控面板上。 第八圖係本發明另一實施例之俯視圖’顯示透鏡 光學片、觸控面板與平面顯示器三者之間的相對關 12 201035821 係。 第九圖係本發明一實施例之立體圖,顯示透鏡光 學片與本體藉由一樞接裝置連接在一起。 (二)元件代表符號 1 0、1 2、1 4 本體 11、13、15顯示面 - 20、21、22、74觸控面板 〇 3 0、9 4樞接裝置 3 1凹槽 3 2樞軸 40、42、43外殼 4 1圖文 50、56導引裝置 5 1第一執道 ' 5 2、5 5導柱 〇 5 4第二執道 6 0、7 0、9 0透鏡光學片 6 2、7 2、9 2 透鏡 6 2 2 透鏡表面 7 6 平面顯示器 13(^^ is not in); when forming the state of use of the keyboard, the external ^4 3 α universal joint can be used as the axis, after rotating 18 degrees, then adjust the outer " and 4 3 and the body 1 4 The angle, and in conjunction with the touch panel 22, is transferred to the outer casing 4 31 to form a keyboard-like use. Alternatively, as shown in the sixth figure, the outer casing 43 is reliably attached to one side of the display surface 15 , and the touch panel 22 is affixed to the display surface 15 of the main body 14 to form a touch. The display surface of the control type is 5 5, which is convenient for the user to directly touch the operation. The rest of the same principles as the above embodiment are not described again. Please refer to the eighth figure, which is a plan view of another embodiment of the present invention. ", the member shows the relative positional relationship between the optical sheet 70, the touch panel 74 and the flat display crying 7 〇 00 b. In addition, the lens optical sheet 7 can also be disposed between the touch panel 74 and the flat panel display 76. Similarly, 'each lens 7 2 has, for example, a partial columnar open-arc structure, and the long-axis directions of all the lenses are flat with each other. 4 再 ° Further, the long-axis direction and touch of the 7 2 lens The sides of the panel 724 may be parallel, perpendicular or sandwiched by a predetermined angle Θ. One of them can range from 3 degrees to 9 degrees. The distance between each of the lenses 7 2 201035821 may be in the range of 5 〇 micrometers to 1 〇〇〇 micrometers. In addition, other embodiments may be provided, for example, that the lens 7 2 is also directly disposed on the display surface of the display device, or is disposed on the display surface of the display device in the form of the lens optical sheet 70, which is not limited herein. . Referring to the ninth drawing, there is shown a perspective view of an embodiment of the present invention. The ninth diagram shows that the lens optical sheet 9 is coupled to the body 1 by a pivoting device 94 so that the lens optical sheet g 〇 can be displaced relative to the body j ,, such as the rotating motion shown in the drawing. The pivoting device 94 can be selectively fixed to the body i 或是 or can be detached from the body 10 and is not limited. For example, if the pivoting device 94 is fixed to the body, the lens optical sheet 9 can be separated from the pivoting device 94 by two objects. The lens optical sheet 9 can be selectively removed and removed depending on the use requirements. Alternatively, the lens optical sheet 90 is integrally formed with the pivoting device 94. The lens optical sheet 9 can also be selectively removed by the user depending on the needs of the user. The lens 92 has a partial columnar shape, and the long axis directions of the lenses are arranged in parallel with each other, and the long axis direction of the lens is offset from the side of the touch panel by a predetermined angle. ^When the lens optical sheet 9 is rotated away from the display surface η of the flat display device by the pivoting device 94, the display device 2 displays a 2D image (2D image), and vice versa. When the pivoting device 94 rotates and is close to the display surface u, the 2D image is converted by the lens 92 to present a 3]) 11 201035821 stereo image (3D image ). The rest of the same as the previous embodiment will not be described again. The above is intended to be illustrative only and not limiting. Any equivalent modifications and alterations to the spirit and scope of the present invention are intended to be included in the scope of the appended claims and not limited to the embodiments described above. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective exploded view of an element according to an embodiment of the present invention. The first drawing is a schematic view of the components in accordance with the first embodiment of the present invention. The third figure is a perspective view of one of the use states according to an embodiment of the present invention. The fourth figure is a schematic diagram of a three-dimensional motion of another embodiment of the present invention. 5 is a perspective view of a further embodiment of the present invention. FIG. 6 is a perspective view showing a state of use of one of the fifth figures. FIG. 7 is a perspective view of an embodiment of the present invention. On the touch panel. The eighth drawing is a top view of another embodiment of the present invention, showing the relative relationship between the lens optical sheet, the touch panel and the flat panel display 12 201035821. Figure 9 is a perspective view of an embodiment of the present invention showing that the lens optics are connected to the body by a pivoting device. (2) Component symbol 1 0, 1, 2, 1 4 Body 11, 13, 15 display surface - 20, 21, 22, 74 touch panel 〇 3 0, 9 4 pivoting device 3 1 groove 3 2 pivot 40, 42, 43 outer casing 4 1 graphic 50, 56 guiding device 5 1 first obedient ' 5 2, 5 5 guiding column 〇 5 4 second obedient 6 0, 7 0, 90 lens optics 6 2 , 7, 2, 9 2 lens 6 2 2 lens surface 7 6 flat panel display 13