201232352 六、發明說明: 【發明所屬之技術領域】 本發明係有關於一種可攜式3D觸控電子裝置,特別 是有關於一種具有雙液晶的可攜式3D觸控電子'"裝置。 【先前技術】201232352 VI. Description of the Invention: [Technical Field] The present invention relates to a portable 3D touch electronic device, and more particularly to a portable 3D touch electronic '" device having dual liquid crystals. [Prior Art]
所謂立體影像就是在除了平面的χ軸和γ軸之外,還 要有明顯的深度。一般所採用是利用人類左、右眼所視角 度略有不同,所接收影像有小幅差異的視差效果/在大腦 中自動相互補償融合而形成的立體影像,並且在靜止以: 移動的狀況下均能維持。也就是要能讓左、右眼 影像能有些許不同。 以目前的立體影像技術而言,可區分為眼鏡式(glasses type) 3D技術和裸視(bare eye type) 3D技術。眼鏡式3D技 術發展歷史悠久,早期3D立體電影是利用紅綠眼鏡來呈 現效果。然而,由於紅綠眼鏡技術僅能在灰階或是單調色 彩背景下呈現效果,目前已鮮少採用。 目前主流的商業化技術主要可分2種,分別是偏光眼 鏡式(polarizing glasses)和快門眼鏡(shutter glasses)式技 術’前者成本較低,故市場採用較為普及,但亮度及解析 度較差,後者可解決殘影問題,但成本偏高。 然而,無論如何戴著眼鏡才能享受3D立體影像還是 帶給使用者’相當的不便。 因此’裸眼3D技術的應用孕育而生,目前多半用在 手機等小尺寸螢幕上,以呈現的3D影像效果。但是,裸[ς:] 4 201232352 目艮3D的技術,雖然可以直接觀看,且不再需要佩帶偏光 眼鏡。然而,裸眼3D的技術主要是轉由視差屏障 _的方式’讓觀賞者的左右眼出現視差效果,以致於讓 :像看起來真的具有-定的立體感,例如採用附貼擔光柱 溥膜或採用鏡列式(lenticular lens)等方式達成 效 方面’裸式的效果’目前仍舊是比配戴偏光眼=效果 ^能有效地提升裸眼3D技術的觀賞品質,並降低 其生產成本’為業者所龜發展的方向。 【發明内容】 術由於傳統眼鏡式3D技 使得可攜弋電子穿置的W ^大幅推廣3D影像技術,更可以 了攜式電子裝置的3〇影像更為亮麗與逼真。 裝置,之一,係提供一種可攜式3D觸控電子 裝置其利用液晶可調整角度的特性,形成立體影像。 裝置,S = 目的,係提供一種可搞式3D觸控電子 一步降板與3D模組的上基板,以進 士了攜式觸控電子I置的生產成本。 裝置,^^之又目的,係提供一種可攜式3D觸控電子 部份m控制3D模組的部份區域’使3D觸控電子裝置 成3D影像,而其他部㈣呈現犯影像。 裝置,,係提供一種可攜式3D觸控電子 其可制可攜式3D觸控電子裝置的使用角度,以 201232352 胃整3D模組的液晶角度,使得可攜式3〇觸控電子裝置可 根據使用角度’呈現不同形狀的立體影像,例如是直 (portrait)或橫式(landscape)。 >The so-called stereo image is in addition to the plane of the χ and γ axes, but also has a significant depth. Generally, the angles of the human left and right eyes are slightly different, the parallax effect of the received images is slightly different, and the stereoscopic images formed by the mutual compensation in the brain are automatically compensated for each other, and are still at the time of: moving. Can be maintained. That is to make the left and right eye images slightly different. In the current stereoscopic image technology, it can be distinguished into a glasses type 3D technology and a bare eye type 3D technology. Eyeglass-type 3D technology has a long history of development. Early 3D stereoscopic movies used red and green glasses to show their effects. However, since the red-green glasses technology can only be rendered in a grayscale or single-tone background, it has rarely been used. At present, the mainstream commercialization technology can be divided into two types, namely, polarizing glasses and shutter glasses. The former has lower cost, so the market is more popular, but the brightness and resolution are poor. The problem of afterimage can be solved, but the cost is high. However, it is quite inconvenient to wear 3D stereoscopic images with glasses anyway. Therefore, the application of the naked-eye 3D technology has been born, and most of them are currently used on small-sized screens such as mobile phones to present 3D image effects. However, bare [ς:] 4 201232352 witnessed 3D technology, although it can be viewed directly, and no longer need to wear polarized glasses. However, the naked-eye 3D technology is mainly a way of turning the parallax barrier _ to make the parallax effect of the viewer's left and right eyes, so that: the image looks really has a certain stereoscopic effect, for example, using a tribute to the bolster Or use the lenticular lens to achieve the effect of 'naked effect' is still better than wearing polarized eye = effect ^ can effectively enhance the viewing quality of naked eye 3D technology, and reduce its production cost 'for the industry The direction in which the turtle develops. [Summary of the Invention] Due to the traditional glasses-type 3D technology, the portable electronic device can greatly promote the 3D image technology, and the 3-inch image of the portable electronic device can be more beautiful and vivid. One of the devices is a portable 3D touch electronic device that utilizes the characteristics of the liquid crystal to adjust the angle to form a stereoscopic image. The device, S = purpose, provides a high-performance 3D touch electronic step-down board and 3D module upper substrate for the production cost of the portable touch electronic I. The purpose of the device is to provide a portable 3D touch electronic portion to control a portion of the 3D module to make the 3D touch electronic device into a 3D image, while the other portions (4) present an image. The device provides a portable 3D touch electronic device with a portable 3D touch electronic device. The liquid crystal angle of the 201232352 stomach 3D module enables the portable 3 inch touch electronic device to be used. A stereoscopic image of a different shape is presented according to the angle of use, such as a portrait or a landscape. >
本發明之又再-目的,係提供一種可攜式3〇觸控電 子裝置,其可偵測使用者的瞳孔位置,以調整3〇模组的 液晶角度’使得可攜式3D觸控電子裝置可根據使用者的 位置,呈現出較佳的立體影像,其亦可以根據多個使用者 的瞳孔位置,以使多個使用者均可以觀賞較佳的立體影像。 _ 根據以上所述之目的,本發明係揭露一種可攜式3D 觸控電子裝置,包含有-觸控板、一 3D模組、一液晶模 組以及一行動裝置主結構。3D模組配置於觸控板的下方: 且3D模組至少包含一液晶層,並可根據電場的改變,以 改變液晶層的液晶角度。液晶模組則配置於3D模組的下 方,以用來顯示一畫面,而3D模組使此畫面的至少一部 份形成3D影像。行動裝置主結構,例如是一電子書、一 行動電話或一個人數位助理之主處理結構,較佳地配置於 鲁 液晶模組之一側。 在一實施例中,上述之觸控板包含有一第一基板、一 觸控電路與一第二基板,且觸控電路配置於第一基板與第 一基板之間。上述之3D模組則更包含有一第三基板與一 第四基板,液晶層形成於第三基板與第四基板之間。 在另一實施例中,上述之觸控板與3D模組,更包含 有一上基板、一觸控電路、一中間基板與一下基板,觸控 電路配置於上基板與中間基板之間,液晶層形成於中間基 板與下基板之間。本發明所揭露之可攜式3D觸控電子裝 201232352 置更可以包含有-控制電路,形成於3D模組或行動裝置 主結構之中,以使畫面之—部份形成3D影像,而畫面之 另-部伤形成2D影像。此外,此控制電路亦可控制上述 之3D模組,使晝面可根據可攜式3D觸控電子裝置的一使 用角度’以形成不同角度的3d影像。Still another object of the present invention is to provide a portable 3” touch electronic device capable of detecting a user's pupil position to adjust a liquid crystal angle of a 3” module to enable a portable 3D touch electronic device. According to the position of the user, a better stereoscopic image can be presented, which can also be based on the pupil positions of a plurality of users, so that a plurality of users can view a better stereoscopic image. According to the above, the present invention discloses a portable 3D touch electronic device including a touch panel, a 3D module, a liquid crystal module, and a mobile device main structure. The 3D module is disposed under the touch panel: and the 3D module includes at least one liquid crystal layer, and can change the liquid crystal angle of the liquid crystal layer according to the change of the electric field. The liquid crystal module is disposed below the 3D module for displaying a picture, and the 3D module causes at least a portion of the picture to form a 3D image. The main structure of the mobile device, such as an e-book, a mobile phone or a main processing structure of a number of assistants, is preferably disposed on one side of the LCD module. In one embodiment, the touch panel includes a first substrate, a touch circuit and a second substrate, and the touch circuit is disposed between the first substrate and the first substrate. The 3D module further includes a third substrate and a fourth substrate, and the liquid crystal layer is formed between the third substrate and the fourth substrate. In another embodiment, the touch panel and the 3D module further include an upper substrate, a touch circuit, an intermediate substrate and a lower substrate, and the touch circuit is disposed between the upper substrate and the intermediate substrate, and the liquid crystal layer Formed between the intermediate substrate and the lower substrate. The portable 3D touch electronic device 201232352 disclosed in the present invention may further comprise a control circuit formed in the main structure of the 3D module or the mobile device, so that part of the picture forms a 3D image, and the picture is Another-part injury forms a 2D image. In addition, the control circuit can also control the above-mentioned 3D module so that the face can be formed according to an angle of use of the portable 3D touch electronic device to form 3D images of different angles.
其中上述之控制電路’更可以利帛G_sens()r,以自動 判斷可攜4 3D觸控電子裝置的一使用角度,且控制電路 進而控制3D模組’使晝面可依可攜式3D觸控電子裝置的 使用角度,以形成不同角度的影像。 囚此,本發明所揭露之可攜式 ^碉投电于裝置利 液日曰3D鏡頭,可根據需求使畫面形成2〇或的影像。 其控制電路可依不同的區域調整液晶的角度,故可局部的 的影像,而在其他的地方形成2D的影像,以 增加影像的可讀性與多樣性。此外,本發明之可攜式3D 觸控電子裝置可以利用控制電路依不同 :面的:體例如是,當使用者以直式的方向觀看= 互面1夺’此時,控制電路將晝面形成直式的立體影像。反 ^ ’虽使用者以橫式的方向觀看顯示晝面時,此時,控制 =亦可將晝面形成橫式的立體影像。使用者可以更方便 式下,觀看3D的影像,而不會如習知 體心像僅此在早一的角度下形成3D的立體影像。 因此,本㈣之可攜式3D難電子裝置有效 SI曰二模組呈現3〇影像,且結合觸控面板,增加可攜 ,電子裝置的顯示性能與操雜能。此外, 式3〇觸控電子裝置並可藉由結合觸控面板的下基板與^ S] 7 201232352 模組的上基板,以進一步降低可攜式3D觸控電子裝置的 生產成本。本發明之控制電路更可以結合G-sensor,以自 動調整晝面與立體的角度,而G-sensor可安裝於3D模組 或行動裝置主結構之中。 【實施方式】 本發明係揭露一種可攜式3D觸控電子裝置,利用液 晶可調整角度的特性,形成所需的立體影像,且可以在顯 示器局部的區域顯示3D影像,而在其他區域顯示2D影 像。此外,當結合G-sensor等偵測裝置更可以自動根據使 用角度,呈現不同形狀的立體影像。本發明所揭露之可攜 式3D觸控電子裝置亦可以結合觸控面板的下基板與3D模 組的上基板,進一步降低可攜式3D觸控電子裝置的生產 成本。以下將以圖示及詳細說明清楚說明本發明之精神, 如熟悉此技術之人員在瞭解本發明之較佳實施例後,當可 由本發明所教示之技術,加以改變及修飾,其並不脫離本 發明之精神與範圍。The above control circuit can further benefit G_sens()r to automatically determine a use angle of the portable 4 3D touch electronic device, and the control circuit further controls the 3D module to enable the portable surface to be touched by the portable 3D. Control the angle of use of the electronic device to form images at different angles. In this case, the portable device disclosed in the present invention is powered by a device 3D lens, which can form an image of 2 inches or images according to requirements. The control circuit can adjust the angle of the liquid crystal according to different regions, so that the local image can be formed, and the 2D image is formed in other places to increase the readability and diversity of the image. In addition, the portable 3D touch electronic device of the present invention can utilize the control circuit according to different aspects: the body is, for example, when the user views in a straight direction = the mutual face 1 wins, at this time, the control circuit will face Form a straight stereo image. In contrast, when the user views the display face in a horizontal direction, at this time, the control = can also form a horizontal stereoscopic image of the face. The user can view the 3D image more conveniently, without forming a 3D stereoscopic image at an early angle as in the conventional body image. Therefore, the portable 3D hard-to-wire electronic device of the present (4) is effective for the SI 2 module to display 3 images, and combined with the touch panel, the display performance and the operating performance of the portable device are increased. In addition, the touch panel electronic device can further reduce the production cost of the portable 3D touch electronic device by combining the lower substrate of the touch panel with the upper substrate of the 201232352 module. The control circuit of the present invention can be combined with the G-sensor to automatically adjust the angle of the face and the stereo, and the G-sensor can be installed in the main structure of the 3D module or the mobile device. [Embodiment] The present invention discloses a portable 3D touch electronic device, which utilizes the characteristics of the liquid crystal to adjust the angle to form a desired stereoscopic image, and can display 3D images in a partial area of the display and display 2D in other areas. image. In addition, when combined with a detecting device such as a G-sensor, it is possible to automatically display stereoscopic images of different shapes according to the angle of use. The portable 3D touch electronic device disclosed in the present invention can also combine the lower substrate of the touch panel and the upper substrate of the 3D module to further reduce the production cost of the portable 3D touch electronic device. The spirit and scope of the present invention will be apparent from the following description of the preferred embodiments of the invention. The spirit and scope of the present invention.
參閱第1圖,其係繪示本發明之可攜式3D觸控電子 裝置之示意圖。本發明之可攜式3D觸控電子裝置,較佳 地包含有一觸控板110、一 3D模組120、一液晶顯示(liquid crystal display ; LCD)模組130與一行動裝置主結構140。 其中,3D模組120較佳地是由一液晶鏡頭所構成,3D模 組120可根據電場的改變,以控制一液晶層之液晶的角 度,進而形成所需的3D鏡頭,使得LCD模組130所顯示 的影像,經由3D模組120轉換,在使用者的眼睛呈現3D 201232352 的影像。 此外,由於本發明之可攜式3D觸控電子裝置更配備 有觸控板110,故使用者可以在3D的影像下,利用觸控板 110進行電子裝置的操作。其中,電動裝置主結構140可 以是電子書、行動電話或個人數位助理等可攜式電子裝置 的主處理結構,然本發明並不限定於此。值得注意的是, 行動裝置主結構140或3D模組120之中更可以包含有一 控制電路142,以控制3D模組120之液晶層的液晶角度, 使部份影像呈現3D影像,而另一部份影像呈現2D影像。 本發明之可攜式3D觸控電子裝置更可以利用控制電路 142,以控制3D模組120,以根據可攜式3D觸控電子裝置 的使用角度,以形成不同角度的3D影像,例如是一直式 3D影像或一橫式3D影像。此控制電路142更可以利用一 G-sensor 146,以判斷可攜式3D觸控電子裝置的使用角 度,並控制3D模組120,以形成不同角度的3D影像。 此外,本發明之可攜式3D觸控電子裝置更配備有攝 影鏡頭模組148電性連接控制電路142,利用攝影鏡頭模 組148拍攝使用者的瞳孔位置,以判斷使用者相對於可攜 式3D觸控電子裝置的位置,並將3D影像的最佳觀賞位置 調整至使用者的方向。當有多個使用者同時觀賞時,亦可 以配合不同使用者的位置調整3D影像觀賞的角度,使多 個使用者均可以同時觀賞本發明之可攜式3D觸控電子裝 置上的3D影像。 進一步參閱第2圖,其係繪示本發明之可攜式3D觸 控電子裝置之一較佳實施例示意圖。如圖所示,本發明之 201232352 可攜式3D觸控電子裝置較佳地包含有一觸控板21〇、一 3D模組220、一 LCD模組230與一行動裝置主結構240。 其中,觸控板210較佳地包含有第一基板212與第二 基板216,兩者之間配置有觸控電路214。而3D模組22〇 較佳地則配置有第三基板222與第四基板226,兩者之間 則配置有液晶層224。因此,加上lcd模組230的液晶層, 本發明所揭露之可攜式3D觸控電子裝置利用了兩個液晶 層,一個液晶層形成於LCD模組230之中,另一液晶層形 成於3D模組220之中。因此’本發明之可攜式3D觸控電 子裝置可以利用3D模組220將影像轉換為3D影像,而無 需如傳統之3D顯示裝置需要貼附擂光柱薄膜或採用鐃列 式(lenticular lens)等方式,降低影像品質,且不會如偏光眼 鏡式(polarizing glasses)和快門眼鏡(shutter glasses)式的 3D 技術,影響亮度及解析度。因此,本發明之可攜式3〇觸 控電子裝置可以利用3D模組220有效提升可攜式電子裝 置的影像品質’且增加3D影像的亮度與解析度。其中, 第一基板212、第二基板216、第三基板222與第四基板 226較佳地均為玻璃基板。觸控電路214則是由透明電路 所構成,例如是ITO、IZO等透明電路。 相同地’行動裝置主結構240或3D模組220之中更 可以包含有一控制電路242,以控制3D模組220之浪晶層 224的液晶角度,使部份影像呈現3D影像,而另〆部份影 像呈現2D影像。本發明之可攜式3D觸控電子裝置更<以 利用控制電路242,以控制3D模組220,根據可攜式31) 觸控電子装置的使用角度,以形成不同角度的3D影像, 201232352 例如是一直式3D影像或一橫式3D影像。此控制電路242 更可以利用一 G-sensor 246,以判斷可攜式3D觸控電子裝 置的使用角度,並控制3D模組220,以形成不同角度的 3D影像。 相同地,本發明之可攜式3D觸控電子裝置更配備有 攝影鏡頭模組248電性連接控制電路242,利用攝影鏡頭 模組248拍攝使用者的瞳孔位置,以判斷使用者相對於可 攜式3D觸控電子裝置的位置,並將3D影像的最佳觀賞位 置調整至使用者的方向。當有多個使用者同時觀賞時,亦 可以配合不同使用者的位置調整3D影像觀賞的角度,使 多個使用者均可以同時觀賞本發明之可攜式3D觸控電子 裝置上的3D影像。 進一步參閱第3圖,其係繪示本發明之可攜式3D觸 控電子裝置之另一較佳實施例示意圖。如圖所示,本發明 之可攜式3D觸控電子裝置較佳地包含有一觸控板310、一 3D模組320、一 LCD模組330與一行動裝置主結構340。 其中,觸控板310較佳地包含有一上基板312與一中間基 板316,而觸控電路314配置於其中。3D模組320較佳地 則共用觸控板310的中間基板316,使成為3D模組320的 上基板,其與下基板324共同形成3D模組320的上下基 板,並使液晶層322配置於其中。因此,在此實施例中, 觸控板310的下基板與3D模組320的上基板,只需利用 一中間基板316,故其可以有效地減少製造3D觸控螢幕的 生產成本,更進一步降低可攜式3D觸控電子裝置的生產 成本。其中,上基板312、中間基板316與下基板324較 201232352 佳地均為玻璃基板。故本發明之可攜式3D觸控電子裝置 可以利用三片玻璃基板即可完成3D觸控電子裝置的觸控 螢幕的觸控板與3D模組。觸控電路314則是由透明電路 所構成,例如是ITO、IZO等透明電路。 行動裝置主結構340或3D模組320之中更可以包含 有一控制電路342,以控制3D模組320之液晶層322的液 晶角度,使部份影像呈現3D影像,而另一部份影像呈現 2D影像。本發明之可攜式3D觸控電子裝置更可以利用控 制電路342,以控制3D模組320,以根據可攜式3D觸控 電子裝置的使用角度,以形成不同角度的3D影像,例如 是一直式3D影像或一橫式3D影像。此控制電路342更可 以利用一 G-sensor 346,以判斷可攜式3D觸控電子裝置的 使用角度,並控制3D模組320,以形成不同角度的3D影 像。 相同地,本發明之可攜式3D觸控電子裝置更配備有 攝影鏡頭模組348電性連接控制電路342,利用攝影鏡頭 模組348拍攝使用者的瞳孔位置,以判斷使用者相對於可 攜式3D觸控電子裝置的位置,並將3D影像的最佳觀賞位 置調整至使用者的方向。當有多個使用者同時觀賞時,亦 可以配合不同使用者的位置調整3D影像觀賞的角度,使 多個使用者均可以同時觀賞本發明之可攜式3D觸控電子 裝置上的3D影像。 又參閱第4圖,其係繪示本發明之可攜式3D觸控電 子裝置之又一較佳實施例示意圖。如圖所示,本發明之可 攜式3D觸控電子裝置較佳地包含有一 3D觸控模組、一 201232352 LCD模組430與一行動裝置主結構440。其中,3D觸控模 組較佳地包含有一上基板412、一觸控電路414、一絕緣層 416、一液晶電極418、一液晶層420與一下基板422所構 成。在此實施例中,觸控板與3D模組進一步地結合成3D 觸控模組,而僅需上基板412與下基板422即可將觸控電 路414、液晶電極418與液晶層420有效地結合。其中, 液晶電極418例如是3D觸控模組之液晶層420所需的共 通電極,而3D觸控模組之液晶層420所需的液晶薄膜電 晶體電極(TFT電極)則可設置於下基板422之上,反之 亦然,其均不脫離本發明之精神與範圍。此外,絕緣層416 可以是形成觸控電路414與液晶電極418製程中所加入之 透明介電材質所構成之一絕緣層。觸控電路414則是由透 明電路所構成,例如是ITO、IZO等透明電路。 因此’在此實施例中,觸控板與3D模組只需利用一 上基板412與下基板422即可構成所需的3D觸控模組, 故其可以有效地減少製造3D觸控螢幕的生產成本,更進 一步降低可攜式3D觸控電子襞置的生產成本。其中,上 基板412與下基板422較佳地均為玻璃基板。故本發明之 可攜式3D觸控電子裝置可以利用二片玻璃基板即可完成 3D觸控電子裝置的觸控螢幕的觸控板與3D模組。 行動裝置主結構440或3D模組420之中更可以包含 有一控制電路442,以控制3D模組420之液晶層420的液 晶角度’使部份影像呈現3D影像,而另一部份影像呈現 2D影像。本發明之可攜式3D觸控電子裝置更可以利用控 制電路442,以控制3D觸控模組,以根據可攜式3d觸控 m 13 201232352 電子裝置的使用角度,以形成不同角度的3D影像,例如 是-直式3D影像或一橫式3D影像。此控制電路更可 以利用一 G-Sensor 446 ’以判斷可攜式3D觸控電子裝置 使用角度,並控制3D觸控模組,以形成不同角度的犯影 像。 ’、 相同地,本發明之可攜式3D觸控電子裝置更配備有 攝影鏡頭模組448電性連接控制電路442, 模組448拍攝使用者的瞳孔位置,以_使用者相=可 攜式3D觸控電子裝置的位置,並將3D影像的最佳觀賞位 置調整至使用者的方向。當有多個使用者同時觀賞時,亦 了以配合不同使用者的位置調整3D影像觀賞的角度,使 均可以同時觀賞本發明之可攜式3d觸控電子 裝置上的3D影像。 因此,根據本發明所揭露之可攜式犯觸控電子裝置, 晶3D鏡頭’且其控制電路可依不同的區域調整 3^曰的Λ度’///以絲示的晝面上,局料地方形成 的可讀性與多樣性。 曰刀〜# I晋^值Γ主意的是’由於本發明之可攜式3d觸控電子 場調液i3D鏡頭’且利用控制電路可依不同的電 像的立’故其可以根據不同的使用角度調整影 =主角度。例如是’當使用者以直式的方向觀看顯示 :制電路將畫面形成直式的立體影像:反 1 叫式的方向觀看顯示畫面時,此時,控制 電路亦可將畫面形成橫式的立體影像。因此,使用者= S] 14 201232352 方便地在不同的晝面形式下,觀看3D的影像,而不會如 習知立體影像僅能在單一的角度下形成3D的立體影像。 本發明之可攜式3D觸控電子裝置,係利用液晶3D模 組呈現3D影像,且可結合觸控面板,增加可攜式電子裝 置的顯示性能與操作性能。本發明之可攜式3D觸控電子 裝置並可藉由結合觸控面板的下基板與3D模組的上基 板,以進一步降低可攜式3D觸控電子裝置的生產成本。 本發明之可攜式3D觸控電子裝置更可藉由將透明觸控電 路與液晶電極形成於上基板,其間利用透明絕緣層加以隔 ® 離,以進一步節省一玻璃基板的使用,故可以僅利用二片 玻璃基板即可構成所需的3D觸控模組,再一步降低可攜 式3D觸控電子裝置的生產成本。此外,本發明之種可攜 式3D觸控電子裝置,更可以透過3D模組的控制電路,以 局部顯示3D影像,進而依使用可攜式電子裝置的角度, 調整立體的方向。其中,控制電路可以形成於3D模組或 行動裝置主結構之中,其均不脫離本發明之精神與範圍。 此外,控制電路更可以結合G-sensor,以自動調整畫面與 ® 立體的角度,而G-sensor亦可安裝於3D模組或行動裝置 主結構之中,其亦不脫離本發明之精神與範圍。 如熟悉此技術之人員所瞭解的,以上所述僅為本發明 之較佳實施例而已,並非用以限定本發明之申請專利範 圍。凡其它未脫離本發明所揭示之精神下所完成之等效改 變或修飾,均應包含在下述之申請專利範圍内。 【圖式簡單說明】 201232352 為讓本發明之上述和其他目的、特徵、優點與實施例 能更明顯易懂,所附圖式之說明如下: 第1圖係為本發明之可攜式3D觸控電子裝置之示意 圖, 第2圖係為本發明之可攜式3D觸控電子裝置之一較 佳實施例示意圖; 第3圖係為本發明之可攜式3D觸控電子裝置之另一 較佳實施例示意圖;以及 $ 第4圖係為本發明之可攜式3D觸控電子裝置之又一 較佳實施例示意圖。 【主要元件符號說明】 110 :觸控板 314 :觸控電路 120 : 3D模組 316 :中間基板 130 : LCD模組 320 : 3D模組 140 : 行動裝置主結構 322 .液晶層 142 : 控制電路 324 :下基板 146 : G-sensor 330 : LCD 模組 148 : 攝影鏡頭模組 340 :行動裝置主結構 210 : 觸控板 342 :控制電路 212 : 第一基板 346 · G-sensor 214 : 觸控電路 348 :攝影鏡頭模組 216 : 第二基板 412 :上基板 220 : 3D模組 414 :觸控電路 222 : 第三基板 416 :絕緣層 [S] 16 201232352 224 : 液晶層 418 226 : 第四基板 420 230 : LCD模組 422 240 : 行動裝置主結構 430 242 : 控制電路 440 246 : G-sensor 442 248 : 攝影鏡頭模組 446 310 :觸控板 448 312 : 上基板 液晶電極 液晶層 下基板 LCD模組 行動裝置主結構 控制電路 G-sensor 攝影鏡頭模組Referring to Figure 1, there is shown a schematic diagram of a portable 3D touch electronic device of the present invention. The portable 3D touch electronic device of the present invention preferably includes a touch panel 110, a 3D module 120, a liquid crystal display (LCD) module 130, and a mobile device main structure 140. The 3D module 120 is preferably composed of a liquid crystal lens. The 3D module 120 can control the angle of the liquid crystal layer of the liquid crystal layer according to the change of the electric field, thereby forming a desired 3D lens, so that the LCD module 130 The displayed image is converted by the 3D module 120 to present an image of 3D 201232352 in the user's eyes. In addition, since the portable 3D touch electronic device of the present invention is further equipped with the touch panel 110, the user can operate the electronic device using the touch panel 110 under the 3D image. The electric device main structure 140 may be a main processing structure of a portable electronic device such as an e-book, a mobile phone, or a personal digital assistant, but the present invention is not limited thereto. It should be noted that the mobile device main structure 140 or the 3D module 120 may further include a control circuit 142 for controlling the liquid crystal angle of the liquid crystal layer of the 3D module 120 so that part of the image presents 3D images, and the other part The image is a 2D image. The portable 3D touch electronic device of the present invention can further utilize the control circuit 142 to control the 3D module 120 to form 3D images of different angles according to the use angle of the portable 3D touch electronic device, for example, 3D image or a horizontal 3D image. The control circuit 142 can further utilize a G-sensor 146 to determine the angle of use of the portable 3D touch electronic device and control the 3D module 120 to form 3D images of different angles. In addition, the portable 3D touch electronic device of the present invention is further equipped with a photographic lens module 148 electrically connected to the control circuit 142, and the photographic lens module 148 is used to capture the user's pupil position to determine the user's relative to the portable type. The position of the 3D touch electronic device and adjust the optimal viewing position of the 3D image to the direction of the user. When multiple users are watching at the same time, the viewing angle of the 3D image can be adjusted according to the position of different users, so that multiple users can simultaneously view the 3D image on the portable 3D touch electronic device of the present invention. Further, referring to Fig. 2, there is shown a schematic diagram of a preferred embodiment of the portable 3D touch control electronic device of the present invention. As shown in the figure, the 201232352 portable 3D touch electronic device of the present invention preferably includes a touch panel 21A, a 3D module 220, an LCD module 230, and a mobile device main structure 240. The touch panel 210 preferably includes a first substrate 212 and a second substrate 216, and a touch circuit 214 is disposed therebetween. The 3D module 22 is preferably provided with a third substrate 222 and a fourth substrate 226, and a liquid crystal layer 224 is disposed therebetween. Therefore, the portable 3D touch electronic device disclosed in the present invention utilizes two liquid crystal layers, one liquid crystal layer is formed in the LCD module 230, and the other liquid crystal layer is formed on the liquid crystal layer of the LCD module 230. Among the 3D modules 220. Therefore, the portable 3D touch electronic device of the present invention can convert the image into a 3D image by using the 3D module 220 without the need to attach a light column film or a lenticular lens as in a conventional 3D display device. This way, the image quality is reduced, and it does not affect the brightness and resolution as the 3D technology of polarizing glasses and shutter glasses. Therefore, the portable 3D touch control electronic device of the present invention can effectively improve the image quality of the portable electronic device by using the 3D module 220 and increase the brightness and resolution of the 3D image. The first substrate 212, the second substrate 216, the third substrate 222, and the fourth substrate 226 are preferably glass substrates. The touch circuit 214 is composed of a transparent circuit, such as a transparent circuit such as ITO or IZO. Similarly, the mobile device main structure 240 or the 3D module 220 may further include a control circuit 242 for controlling the liquid crystal angle of the wave layer 224 of the 3D module 220 so that part of the image is presented as a 3D image, and the other part is displayed. The image is a 2D image. The portable 3D touch electronic device of the present invention further utilizes the control circuit 242 to control the 3D module 220 to form 3D images of different angles according to the use angle of the portable 31) touch electronic device, 201232352 For example, a continuous 3D image or a horizontal 3D image. The control circuit 242 can further utilize a G-sensor 246 to determine the angle of use of the portable 3D touch electronic device and control the 3D module 220 to form 3D images of different angles. Similarly, the portable 3D touch electronic device of the present invention is further equipped with a photographic lens module 248 electrically connected to the control circuit 242, and the photographic lens module 248 is used to capture the user's pupil position to determine the user's relative portability. The position of the 3D touch electronic device adjusts the optimal viewing position of the 3D image to the direction of the user. When multiple users are watching at the same time, the viewing angle of the 3D image can be adjusted according to the position of different users, so that multiple users can simultaneously view the 3D image on the portable 3D touch electronic device of the present invention. Referring to FIG. 3, a schematic diagram of another preferred embodiment of the portable 3D touch control electronic device of the present invention is shown. As shown in the figure, the portable 3D touch electronic device of the present invention preferably includes a touch panel 310, a 3D module 320, an LCD module 330, and a mobile device main structure 340. The touch panel 310 preferably includes an upper substrate 312 and an intermediate substrate 316, and the touch circuit 314 is disposed therein. The 3D module 320 preferably shares the intermediate substrate 316 of the touch panel 310 to form an upper substrate of the 3D module 320. Together with the lower substrate 324, the upper and lower substrates of the 3D module 320 are formed, and the liquid crystal layer 322 is disposed. among them. Therefore, in this embodiment, the lower substrate of the touch panel 310 and the upper substrate of the 3D module 320 need only use an intermediate substrate 316, so that the production cost of manufacturing the 3D touch screen can be effectively reduced, and the lowering is further reduced. Production cost of portable 3D touch electronic devices. The upper substrate 312, the intermediate substrate 316, and the lower substrate 324 are preferably glass substrates in comparison with 201232352. Therefore, the portable 3D touch electronic device of the present invention can complete the touch screen and the 3D module of the touch screen of the 3D touch electronic device by using three glass substrates. The touch circuit 314 is composed of a transparent circuit, such as a transparent circuit such as ITO or IZO. The mobile device main structure 340 or the 3D module 320 may further include a control circuit 342 for controlling the liquid crystal angle of the liquid crystal layer 322 of the 3D module 320 so that part of the image presents 3D images, and another part of the image presents 2D. image. The portable 3D touch electronic device of the present invention can further utilize the control circuit 342 to control the 3D module 320 to form 3D images of different angles according to the use angle of the portable 3D touch electronic device, for example, 3D image or a horizontal 3D image. The control circuit 342 can further utilize a G-sensor 346 to determine the angle of use of the portable 3D touch electronic device and control the 3D module 320 to form 3D images of different angles. Similarly, the portable 3D touch electronic device of the present invention is further equipped with a photographic lens module 348 electrically connected to the control circuit 342, and the photographic lens module 348 is used to capture the user's pupil position to determine the user's relative portability. The position of the 3D touch electronic device adjusts the optimal viewing position of the 3D image to the direction of the user. When multiple users are watching at the same time, the viewing angle of the 3D image can be adjusted according to the position of different users, so that multiple users can simultaneously view the 3D image on the portable 3D touch electronic device of the present invention. Referring to FIG. 4, a schematic diagram of still another preferred embodiment of the portable 3D touch electronic device of the present invention is shown. As shown in the figure, the portable 3D touch electronic device of the present invention preferably includes a 3D touch module, a 201232352 LCD module 430, and a mobile device main structure 440. The 3D touch module preferably includes an upper substrate 412, a touch circuit 414, an insulating layer 416, a liquid crystal electrode 418, a liquid crystal layer 420 and a lower substrate 422. In this embodiment, the touch panel and the 3D module are further combined into a 3D touch module, and only the upper substrate 412 and the lower substrate 422 are needed to effectively touch the touch circuit 414, the liquid crystal electrode 418 and the liquid crystal layer 420. Combine. The liquid crystal electrode 418 is, for example, a common electrode required for the liquid crystal layer 420 of the 3D touch module, and the liquid crystal film transistor electrode (TFT electrode) required for the liquid crystal layer 420 of the 3D touch module can be disposed on the lower substrate. Above 422, and vice versa, without departing from the spirit and scope of the invention. In addition, the insulating layer 416 may be an insulating layer formed by the transparent dielectric material added in the process of forming the touch control circuit 414 and the liquid crystal electrode 418. The touch circuit 414 is composed of a transparent circuit, such as a transparent circuit such as ITO or IZO. Therefore, in this embodiment, the touch panel and the 3D module can form a desired 3D touch module by using only one upper substrate 412 and lower substrate 422, so that the 3D touch screen can be effectively reduced. The production cost further reduces the production cost of the portable 3D touch electronic device. The upper substrate 412 and the lower substrate 422 are preferably glass substrates. Therefore, the portable 3D touch electronic device of the present invention can complete the touch panel and the 3D module of the touch screen of the 3D touch electronic device by using two glass substrates. The mobile device main structure 440 or the 3D module 420 may further include a control circuit 442 for controlling the liquid crystal angle of the liquid crystal layer 420 of the 3D module 420 to make a part of the image appear as a 3D image, and another part of the image is presented as a 2D image. image. The portable 3D touch electronic device of the present invention can further control the 3D touch module by using the control circuit 442 to form 3D images of different angles according to the use angle of the portable 3d touch m 13 201232352 electronic device. For example, a straight 3D image or a horizontal 3D image. The control circuit can also utilize a G-Sensor 446' to determine the angle of use of the portable 3D touch electronic device and control the 3D touch module to form a different angle of the image. Similarly, the portable 3D touch electronic device of the present invention is further equipped with a photographic lens module 448 electrically connected to the control circuit 442, and the module 448 captures the user's pupil position, with the user phase = portable The position of the 3D touch electronic device and adjust the optimal viewing position of the 3D image to the direction of the user. When a plurality of users simultaneously view, the angle of viewing the 3D image is adjusted to match the position of the different users, so that the 3D images on the portable 3D touch electronic device of the present invention can be simultaneously viewed. Therefore, according to the portable touch control electronic device disclosed in the present invention, the crystal 3D lens 'and its control circuit can adjust the width of the 3' 依 according to different regions'/// The readability and diversity of the place.曰 〜 ~ # I Jin ^ value Γ Γ ' 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于 由于Angle adjustment shadow = main angle. For example, when the user views the display in a straight direction: the circuit forms a straight stereoscopic image: when viewing the display in the reverse direction, the control circuit can also form the horizontal three-dimensional image. image. Therefore, the user = S] 14 201232352 conveniently views the 3D image in different facets without forming a 3D stereoscopic image at a single angle as is conventional. The portable 3D touch electronic device of the present invention utilizes a liquid crystal 3D module to present 3D images, and can be combined with a touch panel to increase the display performance and operational performance of the portable electronic device. The portable 3D touch electronic device of the present invention can further reduce the production cost of the portable 3D touch electronic device by combining the lower substrate of the touch panel and the upper substrate of the 3D module. The portable 3D touch electronic device of the present invention can be formed on the upper substrate by using a transparent touch circuit and a liquid crystal electrode, and is separated by a transparent insulating layer to further save the use of a glass substrate, so that only The use of two glass substrates can form the required 3D touch module, and further reduce the production cost of the portable 3D touch electronic device. In addition, the portable 3D touch electronic device of the present invention can partially display 3D images through the control circuit of the 3D module, and then adjust the stereo direction according to the angle of the portable electronic device. The control circuit can be formed in the main structure of the 3D module or the mobile device without departing from the spirit and scope of the present invention. In addition, the control circuit can be combined with the G-sensor to automatically adjust the angle of the picture and the stereo, and the G-sensor can also be installed in the main structure of the 3D module or the mobile device without departing from the spirit and scope of the present invention. . The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the invention. All other equivalent changes or modifications made without departing from the spirit of the invention are intended to be included within the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features, advantages and embodiments of the present invention will become more apparent and understood. FIG. 2 is a schematic diagram of a preferred embodiment of a portable 3D touch electronic device of the present invention; FIG. 3 is another comparison of the portable 3D touch electronic device of the present invention. A schematic diagram of a preferred embodiment; and FIG. 4 is a schematic diagram of still another preferred embodiment of the portable 3D touch electronic device of the present invention. [Main component symbol description] 110: touch panel 314: touch circuit 120: 3D module 316: intermediate substrate 130: LCD module 320: 3D module 140: mobile device main structure 322. liquid crystal layer 142: control circuit 324 Lower substrate 146 : G-sensor 330 : LCD module 148 : Photo lens module 340 : Mobile device main structure 210 : Touch panel 342 : Control circuit 212 : First substrate 346 · G-sensor 214 : Touch circuit 348 Photographic lens module 216 : second substrate 412 : upper substrate 220 : 3D module 414 : touch circuit 222 : third substrate 416 : insulating layer [S] 16 201232352 224 : liquid crystal layer 418 226 : fourth substrate 420 230 : LCD Module 422 240 : Mobile Device Main Structure 430 242 : Control Circuit 440 246 : G-sensor 442 248 : Photographic Lens Module 446 310 : Touch Panel 448 312 : Upper Substrate Liquid Crystal Electrode Liquid Crystal Layer Lower Substrate LCD Module Action Device main structure control circuit G-sensor photographic lens module
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