TW201037574A - Touch-control apparatus of three-dimensional imaging - Google Patents

Abstract

A touch-control apparatus of three-dimensional imaging is disclosed, which is sequentially electronically connected to an image capturing end, a three-dimensional image processing unit, a central processing unit, and a touch-control display unit. The touch-control display unit contains a touch-control unit capable of providing touch-control body to carry out touch-control and record movement orbit, the display unit used to display three-dimensional image, and the three-dimensional imaging unit transforming the three-dimensional image into multiple image for human eyes to receive, which coordinates the image capturing unit to capture the image when the touch-control body to touch-controls, thereby capable of simultaneously carrying out the touch-control of the three-dimensional image when the touch-control display unit displays the three-dimensional image to achieve the interactive effect of virtual three-dimensional image touch control.

Description

201037574 六、發明說明： 4 【發明所屬之技術領域】 一種「觸控裝置」，特別是指一種可顯示立體影 旭·〜丨豕亚於觸控時 該立體影像可隨之產生對應動作的立體成像之觸控裝置。 【先前技術】 按，隨著顯示技術的進步，平面顯示已經做到高解析声、言八 彩的顯示效果了，然，還不夠滿足人們對於視覺上的感受’在平面 ❹201037574 VI. INSTRUCTIONS: 4 [Technical Fields of the Invention] A "touch device", in particular, a three-dimensional image that can display a corresponding motion when the stereo image is displayed. Imaging touch device. [Prior Art] Press, with the advancement of display technology, the flat display has achieved high-resolution sound and colorful display effects. However, it is not enough to satisfy people's visual feelings.

顯示上，無法感受到深淺、遠近的視覺效果，同時，如欲觀荠所顯 不之物體其他部分，必須等待影像轉換後，才能觀察到其他不同方 位的影像。 因此，便有許多業者研發可顯示立體影像之顯示器，其主要在 於，一個物體經光線照射後，反射的光線經過肉眼在接收，由視覺 神經傳達到腦部，會合成為一個立體的影像，而此時的物體是一個 實際的立體物體，但由顯示器上並無法實際產生一個立體的物體， 因此，便可透過光栅等技術，將顯示器產生的影像，至少區分為二 個，一個專門供左眼接收，另一個則供右眼接收，則於腦中便會呈 現一個立體的影像。 目别所熟知之技術有極化區分法（Polarization Division)、時間 區分法（Time Division)、波長區分法（Wavelength Division)以及空 間區分法（Spatial Division)等； 極化區分法(Polarization Division):在螢幕進行影像輸入之前， 先通過左右不同偏光方向的偏光板，使得所產生的影像有二種不同 3 201037574 偏光方向的畫面’ g卩讓左右兩眼影料光祕化方向不同，—個光 偏極化是水平方向，另—個光偏極化是垂直方向。使用者所戴的偏 極化眼鏡也是左右偏極化互相垂直的鏡#，偏極化眼鏡的左眼是水 平偏極化#’僅讓水平偏極化影像通過，職4偏極化影像擔掉。 偏極化眼鏡的右蚊M偏極化#，僅隸直偏極化影像通過，而 擋掉水平偏極化的影像。 時間區分法(Time Division):讓左右兩眼的影像在不同時間呈 現’假設要呈現左眼的視場晝面，此時立體眼鏡的左眼視窗會打開， 右眼視窗則是關的。在下—時間要呈現右眼晝面，此時立體眼鏡 的右眼視窗打開’麵視窗關。所以，左眼僅見左眼視角影像， 右眼僅見右眼的視角影像，如果發射器和立體眼鏡配合得报好，立 體眼鏡的兩個鏡片可以每秒各別遮蔽6〇次，再藉由視覺暫留的原 理，我們的大腦會將左右眼各別接收的影像融合成一個立體影像。 波長區分法(Wavelength Division):將左右眼的影像先作偏紅和 偏綠的晝面處理，而觀賞者戴上左眼紅色、右眼綠色的有色眼鏡， 左眼只看到紅色的左眼視角影像，右眼只看到綠色的右眼視角影 像’利用左右不同顏色的晝面處理來建構出立體影像。 空間區分法(Spatial Division):即左右兩眼的影像分別各自使用 獨立顯示的顯示器，左眼顯示器顯示左眼的視角晝面，右眼顯示器 顯示右眼的視角畫面。或利用左右影像插排融合的技術，再加上複 眼透鏡面板（Lenticular Sheet)或視差遮障（Parallax Barrier)於融 合景彡像上’以用來限制左右影像分別進入左右眼，再經過大腦的自 4 201037574 動整合後’產生立體深度的影像效果。 以上所述四種方法所呈現的影像皆有不同程度的立體效果。而 齡大部分在—般平面螢幕摘呈現出的讀雜，麵賞晝面的 同日辑需喊其應對的立體眼鏡來觀看，因此，這樣的立體顯示系 統又可稱為 Eyeglass-type 3D system。 雖然’ Eye細-type所顯示的影像也有不錯的立體效果，然而On the display, you can't feel the depth and depth of the visual effect. At the same time, if you want to view other parts of the displayed object, you must wait for the image to be converted before you can observe the images of other different positions. Therefore, many manufacturers have developed displays that can display stereoscopic images. The main reason is that after an object is irradiated with light, the reflected light is received by the naked eye, and transmitted from the visual nerve to the brain, which is combined into a three-dimensional image. The object in time is an actual three-dimensional object, but the stereoscopic object cannot be actually produced by the display. Therefore, the image generated by the display can be divided into at least two by a technique such as a grating, and one is specifically for the left eye to receive. The other is for the right eye to receive, and a stereo image will appear in the brain. The well-known techniques include Polarization Division, Time Division, Wavelength Division, and Spatial Division; Polarization Division: Before the image input on the screen, the polarizing plate with different polarization directions is used to make the generated image have two different kinds. 3 201037574 Polarized direction picture 'g卩The left and right eye shadows have different light secret directions, one light deviation Polarization is horizontal and the other polarization is vertical. The polarized glasses worn by the user are also mirrors with the left and right polarizations perpendicular to each other. The left eye of the polarized glasses is horizontally polarized #' only allows the horizontally polarized image to pass, and the 4 polarized image Drop it. The right-handed M-polarized # of the polarized glasses passes only the polarized image and blocks the horizontally polarized image. Time Division: Let the images of the left and right eyes appear at different times. Assuming that the left eye field of view is present, the left eye window of the stereo glasses will open and the right eye window will be closed. In the next time, the right eyelid surface is presented, and the right eye window of the stereoscopic glasses is opened to close the window. Therefore, the left eye only sees the left eye view image, and the right eye only sees the right eye view image. If the emitter and the stereo glasses match well, the two lenses of the stereo glasses can be shaded 6 times per second, and then by vision. The principle of persistence, our brain will fuse the images received by the left and right eyes into a stereo image. Wavelength Division: The image of the left and right eyes is treated as a reddish and greenish front, while the viewer wears the left eye red and the right eye green colored glasses, and the left eye only sees the red left eye. From the perspective image, the right eye only sees the green right-eye view image 'using the left and right sides of the different colors to construct a stereoscopic image. Spatial Division: The images of the left and right eyes respectively use separate displays, the left eye display shows the left eye's angle of view, and the right eye displays the right eye's view. Or use the combination of left and right image insertion and splicing, plus a Lenticular Sheet or Parallel Barrier on the fused image to limit the left and right images into the left and right eyes, and then through the brain. Since 4 201037574 dynamic integration, 'image effects of stereo depth are produced. The images presented by the above four methods all have different stereoscopic effects. Most of the ages are in the general-purpose screen, and the same day albums need to be called to watch the stereo glasses. Therefore, such a stereo display system can also be called Eyeglass-type 3D system. Although the image displayed by ' Eye Fine-type has a good stereo effect,

需配戴眼鏡觀看，娜難讓-般人普顧接受。除了立體眼鏡顿 較鱗殊外，最主要的原因，在於—般人面對不習慣的介面方式， 常會導致-些潛在的人因問題。以驢式顯示器(hmd)為例，有越 來越多的研究報告指出，長時間配戴HMD會導致頭暈、„區心等現 象，因此’免戴鏡、自由觀賞空間的特點，才是現今立體影像顯示 的發展方向。 現仃裸眼可視之3D立體影像顯示方法，複眼透鏡面板、視差遮 障法、雙差視差法或光源狹縫化的方式來實現。 視差遮障法，主要仍是利用雙眼的視差來產生立體感，將取得 的兩個不同缝的影像，分別做等距離的分割成垂直線條狀，然後 利用插排的方式將左右影像交錯地融合在—起，則融合 圖形的偶軸分是右·;奇麵分是絲像。細，要達到立體 的效果，還需透光狹縫⑽）與不透光遮障（如㈣垂直相 間的光柵餘，放獅合_之上’峨縫與遮障喊度，與左 右影像切割的寬度-致’並個遮障的遮蔽作用，來限制左右眼分 別看到左右影像，使雙眼所看到的影像產生轉而有立體的感覺。 5 201037574 但要注意的是，遮障線條與融合圖形之間要有一定的距離，才能讓 左右眼分別看到交錯的影像，產生所要的立體感。 當立體成像的技術出現後’隨之出現的問題，便是應用於觸控 面板上了，觸控技術已隨著科技的發展，以完全結合於型態，如映 像官是顯示器、液晶顯示器等的顯示器中，因此，當顯示器顯示的 影像為立體影像時，在使用者進行觸控的過程中，該立體影像勢必 Ik之互動才行，因此，如何能使立體影像配合觸控時的動作，產生 對應的變化’即為本案發明構想之產生。 再者，現行的即時立體影像顯示，如美專利公報，公告號第 0404913 之 Image synthesizing apparatus and method, position detecting apparatus and method，and supply medium，該專利提出 了一個連續立 體影像的產生方法，其透過多個攝影裝置捕捉物體的表面後，即時 顯示於液晶面板等顯示器上，並透座標預測與座標計算等方式，使 立體影像顯示更為逼真，但於該篇專利中，其雖然可以顯示立體影 像，但並沒有立體影像與使用者之間互動技術；換而言之，使用者 在觀察立體影像時，必須透過外部的鍵盤、滑鼠等輸入裝置進行譽 像的外製或角度的轉換’如此便喪失了即時立體影像顯示之功致。 【發明内容】 有鑑於上述的需求，本發明人爰精心研究，並積個人從事該項 事業的多年經驗，終設計出一種嶄新的「立體成像之觸控裝置。 本發明之一目的，旨在提供一種可顯示立體影像之觸控裝置。 本發明之一目的，旨在提供一種擷取物體立體影像之觸控裝置。 6 201037574 旨在提供-簡控時之讀娜會隨之動作 馬運上述目的，本發明「雕 接有-影像擷取端、一立體:之f控裝置」，其依序電性連 〜像°成早70、—中央處理贿-觸控 -·頁不缒，該影像擷取端尹 工 取&以 有1—影像擷取單元、—第二影像#1 取早凡’其用簡取-預設觸控體之—第—影像、—第二Need to wear glasses to watch, Na is difficult to let the general people accept. In addition to stereoscopic glasses, the main reason is that ordinary people face unfamiliar interface methods, which often lead to some potential human factors. Taking the hmd display (hmd) as an example, more and more research reports indicate that wearing HMD for a long time can lead to dizziness and ambience, so the characteristics of wearing a mirror and freely viewing space are nowadays. The development direction of stereoscopic image display. Now the 3D stereoscopic image display method of naked eye visualization, the compound eye lens panel, parallax barrier method, double difference parallax method or light source slitting method is realized. Parallax barrier method is mainly used The parallax of the two eyes produces a three-dimensional effect, and the images of the two different slits are respectively divided into vertical lines, and then the left and right images are interlaced in a staggered manner, and the fusion image is fused. The even axis is right ·; the odd surface is the silk image. Fine, to achieve the three-dimensional effect, it is also necessary to transmit the slit (10)) and the opaque barrier (such as (4) the vertical grating gap, lion _ On the 'quilting and masking screaming degree, and the width of the left and right image cutting-to-blocking effect, to limit the left and right eyes to see the left and right images, so that the images seen by both eyes are turned into three-dimensional Feeling. 5 201 037574 However, it should be noted that there must be a certain distance between the barrier line and the fused pattern, so that the left and right eyes can see the interlaced images separately, resulting in the desired three-dimensionality. When the stereoscopic imaging technology appears, the following appears. The problem is applied to the touch panel. The touch technology has been fully integrated with the technology, such as the display is a display, a liquid crystal display, etc., therefore, when the display image is In the case of stereoscopic images, in the process of the user's touch, the stereoscopic image is bound to interact with Ik. Therefore, how to make the stereoscopic image match the action of the touch, and the corresponding change is generated, that is, the concept of the invention is generated. Furthermore, the current real-time stereoscopic image display, such as the US patent publication, the publication synthesizing apparatus and method, the position detecting apparatus and method, and the supply medium, proposes a method for generating a continuous stereoscopic image, which After capturing the surface of the object through a plurality of photographic devices, it is instantly displayed on a display such as a liquid crystal panel On the top, and through the coordinate prediction and coordinates calculation, the stereoscopic image display is more realistic, but in this patent, although it can display stereoscopic images, there is no interaction technology between stereoscopic images and users; When viewing a stereoscopic image, the user must perform external or angular conversion of the image through an external keyboard, mouse, or the like. Thus, the function of the instant stereoscopic image display is lost. In view of the above needs, the inventors have carefully studied and accumulated many years of experience in the business, and finally designed a new "three-dimensional imaging touch device. One of the objects of the present invention is to provide a stereoscopic image display. Touch device. An object of the present invention is to provide a touch device for capturing a stereoscopic image of an object. 6 201037574 The aim is to provide a simple control when the reading will follow the above-mentioned purpose of the horse, the present invention "carved with - image capture end, a stereo: f control device", which in turn connected to the image °成早早70, the central processing bribe-touch--page is not awkward, the image capture end Yingong take & with 1 - image capture unit, - second image #1 take early Take-preset touch body - first - image, - second

傳輸到該立體影像合成單 A 乂早兀* I工合成後轉為一立體影像。Transfer to the stereoscopic image synthesis single A 乂 兀 兀 * I synthesis and turn into a stereo image.

該觸控顯4設有-觸控單元顯示單元與—立體成像單 ^ _控單元依序電性連接有一觸控面板與-觸控轉元件、該 單元依序電性連接有一液晶面板與一顯示驅動元件、以及該立 體成像單元依序設有一立體成像轉換板與一立體成像驅動元件上 述之該觸控面板、該立體成像轉換板與該液晶面板由上至下依序疊 又而成m上述之该觸控驅動元件、該顯示驅動元件與該立體成像 ❹ 本發明之一目的 之觸控裝置。 驅動元件則分別電性連接至—中央處理器，又該中央處理器另A供該 立體影像合成單元電性連接。 上述該立體影像由該立體影像合成單元整合後，經該中央處 理單元傳送至賴錢㈣，則鋪轉動元件無社體影像訊 號後，驅動該液晶面板辭敎體，畴，該立體成像驅動單 元驅動該立組成像轉換板動作，將該液晶面板顯示之立體影像轉為 一多重影像，該多重影像經肉眼接收後即為一立體影像。 、‘觸控體於该觸控顯示端之觸控單元上進行觸控時，气觸抑 單元之觸控驅動元件紀錄該觸控體之動作轨跡，由該中央處理單元 7 201037574 紀錄動作軌跡的變化’使該顯示 執跡產生對應的變化。 單元所顯示之立體影像隨著該動作 【實施方式】 為使貝審查委貝能清楚了解本發明之内容，僅以下列說明搭配 圖式’敬請茶閱。 。月參閱第卜2圖」所示，為本發明較佳實施例之方塊圖一、 二’如圖所示’本發明之立體成像之觸控裝置包括有一影像掏取端 Ο 〇 1、一立體影像合成單元2、一中水考 — τ央處理早儿3與一觸控顯示端7所 構成，其中： 該影像擷取端i為至少具有—f_影像擷取單^ u、—第二影 像操取單M2，翻以#|取—預設觸控體之—第_、二影像’或者 用以擷取近距_之物料觀，為了麟取之鱗能触具立體效 果像擷取端1亦可设置為三個、四個甚至更多個影像操取單 几身又而口 ’。亥第-、二影像擷取單元主要為一電荷轉合元件 ⑽哪儒pled Device，CCD)，而能直接產生該第—、二影像， 其他如紅外__或超音波感等，亦可做為鱗影像操取單 7G利用、.工外、'泉或超音波等，來操取該觸控體之不同表面之外觀感 測訊號’另外，本發日騎謂之控體，就實際朗上來說，可為 人之手指、專門供觸控用之觸控筆或—般可用於觸控之物體，皆屬 於本發明所述之該觸控體的範疇。 二影像擷取單元11、12 遺立體影像合成單元2分別與該第一、 電性連接，其用以接收該第一、 二影像擷取單元11、12所傳輸之該 8 201037574 第-、二影像合成為—立體影像，參照上述該第―、第二影像掏取 早几1W2為電餘合元件時，社體影像合成單元2驗該第―、 二影像整合為立體影像職，又敝縣像合成單元2於立體 產生時，可透過視差遮障法'雙差視差法或光源狹縫化等方式進行。 該中央處理單元3除了與該域鱗整合單元2電性連接外， 亦分別於後述之該觸控顯示端7之各單元電性連接，該中央處理單The touch display unit 4 is provided with a touch panel display unit and a stereoscopic image unit. The control unit is sequentially electrically connected to a touch panel and a touch switch component. The unit is electrically connected to a liquid crystal panel and a unit. The display driving component and the stereoscopic imaging unit are sequentially provided with a stereoscopic imaging conversion board and a stereoscopic imaging driving component. The touch panel, the stereoscopic imaging conversion panel and the liquid crystal panel are sequentially stacked from top to bottom. The touch control device, the display driving device, and the stereoscopic imaging device of the present invention. The driving components are electrically connected to the central processing unit, and the central processing unit A is electrically connected to the stereoscopic image synthesizing unit. After the stereoscopic image is integrated by the stereoscopic image synthesizing unit, and transmitted to the Lai Qian (4) via the central processing unit, the rotating component has no social image signal, and then drives the liquid crystal panel to reproduce the domain, the stereoscopic imaging driving unit. The stereo image is driven to convert the stereoscopic image displayed by the liquid crystal panel into a multi-image, and the multi-image is a stereoscopic image after being received by the naked eye. When the touch object is touched on the touch unit of the touch display terminal, the touch drive component of the gas touch unit records the motion track of the touch body, and the central processing unit 7 201037574 records the motion track. The change 'makes the display obstruction to produce a corresponding change. The stereoscopic image displayed by the unit follows this action. [Embodiment] In order to clearly understand the contents of the present invention, the following description will be used to match the drawing. . The first embodiment of the present invention is shown in FIG. 2 and FIG. 2 is a block diagram of the present invention. The stereoscopic imaging touch device of the present invention includes an image capturing end Ο 1 and a stereo The image synthesizing unit 2, the middle water test - the τ central processing early child 3 and a touch display end 7, wherein: the image capturing end i has at least -f_image capturing unit ^u, - second The image manipulation single M2 is turned over by #|, the preset touch body is the first _, the second image, or the material view for taking close-up _, the scale effect can be touched for the scale of the lining. End 1 can also be set to three, four or even more images to operate with a single body and a mouth'. The first and second image capturing units are mainly a charge-transfer component (10), which can directly generate the first and second images, and other such as infrared __ or ultrasonic sensation, etc. For the scale image, a single 7G use, .external, 'spring or ultrasonic wave, etc., is used to manipulate the external sensing signal of the different surfaces of the touch body'. In addition, the control body of the riding day is actually In general, a finger that can be used for a person, a stylus for touch, or an object that can be used for touch is a category of the touch body according to the present invention. The first image capturing unit 11 and the second image capturing unit 2 are respectively electrically connected to the first and second image capturing units 11 and 12 for transmitting the 8 201037574 first and second The image is synthesized into a three-dimensional image. When the first and second images are taken as an electric component, the social image synthesizing unit 2 checks that the first and second images are integrated into a stereoscopic image, and the county is also When the synthesizing unit 2 is generated in a three-dimensional manner, it can be performed by a parallax barrier method, a double difference parallax method, or a light source slitting method. In addition to being electrically connected to the field scale integration unit 2, the central processing unit 3 is also electrically connected to each unit of the touch display terminal 7 which will be described later.

GG

元7主要肋接收該讀影像讀接收後述之動錄跡，而計算^ 立體影像依據該動作軌跡所產生的變化。 例如，該立體影像呈現-三角錐體，且尖端部份朝向使用者内 眼直視方向，辦細_由上至下，_三鋒财隨之旋轉， 而將底部平坦面正對《者肉視方向，本段之敘述僅為舉峨 明該立體影像與動作執關的互動_，其他如任意肖度的旋轉、 放大動作、水平或垂直的移動等等，亦屬於本發明所保護的範扁。 該觸控顯示端7為包括有—觸控單元4、一顯示單元6食一^ 成像單元5所構成，其中： ^ 該觸控單^依序電性連接有—觸控面板42與—觸控驅動 .且該職_湘撕鱗咏墙她該觸控驅 動讀用化己錄該觸控體於該觸控面板犯上之該動作 傳輸至射央處理單元3，而該觸控面板42 ，，’亚 ^ ^ ° 可為電阻式 二、％容式觸控面板、紅外線式觸控面板、光學 或超音波摘控硫糾之—者，不麵細彡式之赌邮Γ1 糊空體時，糊_元件4丨___動時之動 9 201037574 . 、軌跡而動作軌跡除了單—方向的動作外，亦可為多方向的動作， ， 州曰的觸控舉例來說’食指與大梅指同時接觸到該觸控面板42, 則該觸控驅動元件41將感測到二個接觸點，並紀錄二個接觸點的移 力方向貝κ亥接觸點的移動方向可為同方向或不同方向等； 該顯示單元6依序電性連接有—液晶面板62與一顯雜動元件 61 ’且該顯示驅動元件62與該中央處理單元3電性連接，在本實施 例中，該顯示單元6以液晶顯示器作說明，而舉凡陰極射線管 〇 (Cath〇de Ray Tube，CRT)顯示器、液晶顯示器（Liquid Crystal splay LCD )、電漿顯示益（piasma呢口㈣，pop )、表面傳 導電子發射(Surface conduction electron-emitter，SED)顯示器或場發 射顯示器(Field Emission Display，FED)等等，並不限定該顯示單元6 之型態。 该立體成像單元5依序電性連接有一立體成像轉換板52與一立 體成像驅動元件51，且該立體成像驅動元件5丨與該中央處理單元3 ^ 電性連接； 該立體成像驅動元件51用以驅動該立體成像轉換板52，則，當 顯示單元6產生立體影像後，由該立體影像轉換板52接收，將該立 體影像轉為一多重影像，其可使該立體影像依照人肉眼接收影像的 特性，區分為左眼與右眼分別接收的影像，經肉眼視差接收後即為 該立體影像，又該立體成像轉換板52為具有光閘結構或複眼透鏡面 板等’將該顯示單元產生之該立體影像分為該多重影像。 請參閱「第2、4圖」所示，為發明較佳實施例之方塊圖二與動 10 201037574 . 作餘圖…本伽舰下财錢行立體成像·· . (剔）中央處理器傳輪―預定之立體影像至該觸控顯示端； 於上述步驟進行時，由該中央處理單元3傳輸-預定之立體影 像至該觸控顯示端7，該立體影像可預先儲存於預設之儲存媒體内， 例如該觸控裝置結合於行動電咭、 助螢綦、電視螢幕時，該儲存 媒體可為5己憶體、記憶卡、硬碟、光碟等。 (101) 該讀祕單元之該謂錄鷄元件鶴該立體成像 Ο 轉難縛，卩及賴^單元之賴轉動7t件驅動該 液晶面板動作； (102) 該液晶面板顯示該立體影像，且該立體影像通過該立體 成像轉換板，轉為一多重影像； 003)該多重影像經肉眼視差接收後即為一立體影像。 於上述步驟進行時’該顯示單元6之該顯示驅動元件61接收到 該中央處理單元3傳輸之該立體影像，便驅動該液晶面板62顯示該 © 纟體景彡像（由於液晶面板之顯像原理為公開且行之多年之技術，同 日守亚非本發明之訴求，故不贅述）’同時，該立體成像單元5之該立 體成像驅動元件51驅動該立體成像轉換板52動作，由於該立體成 像轉換板52疊設於該液晶面板62上方，因此由該液晶面板62產生 之立體影像，將由該立體成像轉換板52轉為多重影像，其可使該立 體影像依照人肉眼接收影像的特性，區分為左眼與右眼分別接收的 影像’經肉眼視差接收後即為該立體影像。 請參閱「第2、5圖」所示’為本發明較佳實施例之方塊圖二與 11 201037574 • 動作流程圖二，本發明為依照下列步驟進行立體成像之觸控動作. - (200)該觸控顯示端顯示一立體影像； 上述步驟進行過程如同前述流程圖一之敘述，將不贅述。 (201) —觸控體接觸到該觸控顯示端之該觸控單元進行觸押動 作； 上述步驟進行時，該觸控體將直接接觸到該觸控單元4之該觸 控面板’並直接於簡控面板4之表面上進行觸控的動作，可稱作 q 接觸式觸控。 (202) 該觸控單元紀錄該觸控體之動作軌跡； (203) 該動作執跡經該中央處理單元傳輸至該觸控顯示端； Ιί進行日tj·，遠觸控驅動元件μ將會記錄該觸控體移動時 之動作軌跡，例如單—方向移動、多個方向的移動、線性移動或非 線性移動等等，並透過座標運算等計算動作轨跡的移動量。 (204) 該顯木驅動元伽動該液晶面板，使該立體影像依據該 〇 動作軌跡產生對應的變化。 上述步驟進行時’該中央處理單元3接收該動作_後，將動 作軌跡配合預定之動作，使該立體影像依據該動作軌跡產生對應的 變化’而於該顯示單元6所顯示之立體影像將隨之動作，例如y動 作軌跡由上至下，則該立體影像會上下旋轉，或者，動作執跡為二 個接觸點之距離逐漸變長，則該立贿像會隨之放大等等；同時， 藉由該立4像單儿5使該立體影像分為多重影像，即區分為僅供 左眼接收的影像以及僅供右眼接收的影像，經左右兩眼分別接收專 201037574 屬的影像後’於腦中便產生立體影像的即時動作效果。 請參閱「第2、6圖」所示， 為本發明較佳實施例之方塊圖二與 動作流糊三，綱她了物咖織調控動作： (300)該觸控顯示端顯示—立體影像； 上述步驟進行過程如同前述流程圖-之敘述，將不贅述。 (301)—觸控體接觸到該觸控顯 作； 示端之該觸控單元進行觸控動The main rib of the element 7 receives the read image and reads the moving track described later, and calculates the change of the stereo image according to the motion track. For example, the stereoscopic image presents a triangular pyramid, and the tip end portion faces the user's inner eye in a direct view direction, and the thinner_from top to bottom, _San Fengcai rotates with it, and the bottom flat surface faces the Direction, the description of this paragraph is only to illustrate the interaction between the stereoscopic image and the action, other rotations, zooming actions, horizontal or vertical movements, etc., which are also protected by the present invention. . The touch display terminal 7 is composed of a touch unit 4 and a display unit 6 and an image forming unit 5, wherein: ^ the touch unit is electrically connected to the touch panel 42 and the touch panel. Controlled driving. And the job _ 湘 撕 咏 她 她 她 她 她 该 该 该 该 该 该 该 她 该 她 她 她 她 她 她 她 她 她 她 她 她 她 她 她 她 她 她 她 她 她 她 她 她 她 她, 'Asia ^ ^ ° can be a resistive type 2, a % capacitive touch panel, an infrared touch panel, optical or ultrasonic picking and control of the sulphur correction - no slick gambling post 1 paste empty body , paste_components 4丨___moving movements 9 201037574 . The trajectory and motion trajectory can be multi-directional movements in addition to the single-direction motion, and the state 曰 touch example is 'index finger and large When the finger refers to the touch panel 42 at the same time, the touch driving component 41 will sense two contact points, and record the moving direction of the two contact points, and the moving direction of the contact point may be the same direction or The display unit 6 is electrically connected to the liquid crystal panel 62 and a display moving element 61 ′ and the display The movable component 62 is electrically connected to the central processing unit 3. In the embodiment, the display unit 6 is described by a liquid crystal display, and a cathode ray tube (CRT) display, a liquid crystal display (Liquid) Crystal splay LCD), plasma display benefit (piasma mouth (four), pop), surface conduction electron-emitter (SED) display or Field Emission Display (FED), etc., not limited to The type of display unit 6. The stereoscopic imaging unit 5 is electrically connected to a stereoscopic imaging conversion board 52 and a stereoscopic imaging driving component 51, and the stereoscopic imaging driving component 5 is electrically connected to the central processing unit 3; To drive the stereoscopic image conversion panel 52, after the display unit 6 generates a stereoscopic image, the stereoscopic image is received by the stereoscopic image conversion panel 52, and the stereoscopic image is converted into a multiple image, which can be received by the human eye. The image is divided into the image received by the left eye and the right eye respectively, and is received by the naked eye, and the stereoscopic image conversion plate 52 is provided with a shutter structure or a fly-eye lens panel. The stereoscopic image is divided into the multiple images. Please refer to the "Figures 2 and 4" for the preferred embodiment of the block diagram 2 and the move 10 201037574. The rest of the map... The original gamma ship under the money stereoscopic imaging · · . (tick) central processor transmission a predetermined stereoscopic image is transmitted to the touch display terminal. The stereoscopic image is transmitted to the touch display terminal 7 by the central processing unit 3, and the stereoscopic image can be pre-stored in a preset storage. In the medium, for example, when the touch device is combined with a mobile phone, a booster, or a television screen, the storage medium can be a 5 memory, a memory card, a hard disk, a compact disk, or the like. (101) The stereoscopic imaging device of the reading unit is adapted to be locked, and the unit is driven to rotate the 7t member to drive the liquid crystal panel; (102) the liquid crystal panel displays the stereoscopic image, and The stereoscopic image is converted into a multiple image through the stereoscopic imaging conversion board; 003) the multiple image is a stereoscopic image after being received by the naked eye parallax. When the above steps are performed, the display driving component 61 of the display unit 6 receives the stereoscopic image transmitted by the central processing unit 3, and drives the liquid crystal panel 62 to display the image of the target image (due to the imaging of the liquid crystal panel) The principle is a technology that has been disclosed for many years, and the same day, the same as the claim of the present invention, and therefore, the stereoscopic imaging driving element 51 of the stereoscopic imaging unit 5 drives the stereoscopic imaging conversion plate 52 to operate. The conversion panel 52 is superposed on the liquid crystal panel 62. Therefore, the stereoscopic image generated by the liquid crystal panel 62 is converted into a multiple image by the stereoscopic image conversion panel 52, which can distinguish the stereoscopic image according to the characteristics of the human eye to receive images. The image received by the left eye and the right eye is the stereoscopic image after being received by the naked eye. Please refer to the "Blocks 2 and 5" for the preferred embodiment of the block diagrams 2 and 11 201037574. 2. Action flow chart 2, the present invention is a touch action for stereoscopic imaging according to the following steps. - (200) The touch display terminal displays a stereoscopic image; the process of the above steps is the same as that described in the previous flowchart, and will not be described again. (201) - the touch unit touches the touch unit of the touch display terminal to perform a touch action; when the step is performed, the touch object directly contacts the touch panel of the touch unit 4 and directly The touch action on the surface of the brief control panel 4 can be referred to as q touch touch. (202) the touch unit records an action track of the touch object; (203) the action track is transmitted to the touch display end by the central processing unit; Ιί performing a day tj·, the far touch drive element μ will The motion trajectory when the touch object moves, such as single-direction movement, movement in multiple directions, linear movement or non-linear movement, etc., is recorded, and the movement amount of the motion trajectory is calculated by coordinate calculation or the like. (204) The display driver gamma moves the liquid crystal panel to cause the stereoscopic image to generate a corresponding change according to the 动作 motion trajectory. When the above-mentioned step is performed, the central processing unit 3 receives the action_, and coordinates the motion track with a predetermined action to cause the stereoscopic image to generate a corresponding change according to the motion track. The stereoscopic image displayed on the display unit 6 will follow The action, for example, the y action trajectory is from top to bottom, the stereoscopic image will be rotated up and down, or the action is performed as the distance between the two contact points becomes longer, and the image of the bribe will be enlarged, etc.; The stereoscopic image is divided into multiple images by the vertical image 5, that is, the image that is only received by the left eye and the image that is received only by the right eye are received by the left and right eyes respectively after receiving the image of the 201037574 genus. The immediate action effect of the stereoscopic image is produced in the brain. Please refer to FIG. 2 and FIG. 6 for the block diagram 2 and the action flow paste of the preferred embodiment of the present invention, and the control action of the object is controlled by: (300) the touch display terminal display - stereo image The above steps are performed as described in the previous flowchart, and will not be described again. (301) - the touch body is in contact with the touch display; the touch unit of the display end is touched

述’驟進购’補控體為接近但並未接觸到該觸控單元4 之該觸控面板’而是於該觸控面板4之表面上空進行觸控的動作， 可稱作非接觸式觸控。 ()U輸取端之該第―、二影雜取單元分卿取該觸 控體之第―、二影像； 上述步驟進行時，該第―、二影像操取單元η、12將擷取該觸 控體不_度的影像，例如正反或左右等。 ()該立體影像合成單元由該第―、二影像整合該觸控體之 觸控動作軌跡； 上述步驟進行時’該立體影像合成單元51接收該第―、二 搁取卓元11、12所傳、 '輸弟―、二衫像’並透過立體運算，例如 CAD中常見的三維模擬等，產生該觸控體之動作執跡。 (3〇4)該動獅崎她^塌綱控顯示端； (305)該顯示，驅動元件驅動該液晶面板，使該立體影像依據該 動作軌跡產生對應的變化。 13 201037574 上心驟進仃時，射央處理單元3接收該動作雜後，將動 作執跡配合預_作，使該立體影像依據該動作軌跡產生對應的 變化，而於該顯示單元6所海+ + …、、不之立體影像將隨之動作，同時，藉 由該立體成像單元5使該立體影像分為多重雜，經左右兩眼分別 接收後’於腦中便產生立體影像的即時動作效果。The 'sudden purchase' is a proximity touch but does not touch the touch panel of the touch unit 4, but performs a touch operation on the surface of the touch panel 4, which may be called a contactless type. Touch. The first and second image capturing units of the U input end divide the first and second images of the touch body; when the above steps are performed, the first and second image capturing units η, 12 will capture The image of the touch object is not, for example, front and back or left and right. () the stereoscopic image synthesizing unit integrates the touch motion trajectory of the touch object by the first and second images; when the step is performed, the stereo image synthesizing unit 51 receives the first and second sheaves 11 and 12 The transmission, the 'transfer of the brothers, the two shirts' and the stereoscopic operations, such as the three-dimensional simulation commonly seen in CAD, etc., produce the action of the touch body. (3〇4) The singer sings her control panel; (305) the display, the driving component drives the liquid crystal panel, so that the stereoscopic image produces a corresponding change according to the motion trajectory. 13 201037574 When the center of the heart is approaching, the central processing unit 3 receives the action, and cooperates with the action to make a corresponding change according to the motion track, and the display unit 6 is in the sea. + + ..., and the stereoscopic image will be moved accordingly. At the same time, the stereoscopic image unit 5 divides the stereoscopic image into multiple impurities, and after receiving the left and right eyes respectively, the instant motion of the stereoscopic image is generated in the brain. effect.

隹乂上所述者’僅為本發明之較佳實施例而已，並非用以限 定本毛明κ加之範圍，任何熟習此技藝者，在不脫離本發明之精神 與Ιϋ圍下所狀均等變倾修飾，皆應涵蓋於本發明之糊範圍内。 综上所述，本發明之「立體成像之觸控裝置」，係具有專利之發 明性，及對產業的利用價值；申請人爰依專利法之規定，向鈞局 提起發明專利之申請。 ❹ 14 201037574 【圖式簡單說明】 第1圖，為本發明較佳實施例之方塊圖一。 第2圖，為本發明較佳實施例之方塊圖二。 第3圖，為本發明較佳實施例之立體示意圖。 第4圖，為本發明較佳實施例之流程圖一。 第5圖，為本發明較佳實施例之流程圖二。 第6圖，為本發明較佳實施例之流程圖三。 【主要元件符號說明】 影像擷取端 1 第一影像擷取單元 11 第二影像擷取單元 12 立體影像合成單元 2 中央處理單元 3 觸控單元 4 觸控驅動元件 41 觸控面板 42 立體成像單元 5 立體成像驅動元件 51 立體成像轉換板 52 顯示單元 6 顯不驅動元件 61 液晶面板 62 15 201037574 觸控顯示端 7The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and any person skilled in the art can change the same without departing from the spirit and scope of the present invention. Pour modifications should be included within the scope of the paste of the present invention. In summary, the "stereoscopic touch device" of the present invention has the patentability and the use value of the industry; the applicant applies for an invention patent to the bureau in accordance with the provisions of the patent law. ❹ 14 201037574 [Simplified description of the drawings] Fig. 1 is a block diagram 1 of a preferred embodiment of the present invention. Figure 2 is a block diagram 2 of a preferred embodiment of the present invention. Figure 3 is a perspective view of a preferred embodiment of the present invention. Figure 4 is a flow chart 1 of a preferred embodiment of the present invention. Figure 5 is a flow chart 2 of a preferred embodiment of the present invention. Figure 6 is a flow chart 3 of a preferred embodiment of the present invention. [Main component symbol description] Image capturing end 1 First image capturing unit 11 Second image capturing unit 12 Stereo image synthesizing unit 2 Central processing unit 3 Touch unit 4 Touch driving element 41 Touch panel 42 Stereo imaging unit 5 Stereo imaging driver element 51 Stereo image conversion board 52 Display unit 6 Display drive element 61 LCD panel 62 15 201037574 Touch display terminal 7

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Claims (1)

201037574 七、申請專利範圍： i. -種「立舰像之觸«置」，為包财—影像概端、—立體 合成單元…中央處理單元與—觸控顯示端，該觸控顯示端為可= 於一預設之顯示單元上，其中： 、ασ 該影像擷取端’為至少具有一第一影像梅取單元、—奸一旦, 像擷取單元，其用以掏取_預設物體之一第―、一 ^ ~'衫像； Ο ❹ 該立體影像合成單元，與該第一、二影像掏取單元電性連接 將該第一、二影像合成為一立體影像； 運接， *…該觸控顯示端為具有分別與該中央處理單元電性連接之—觸 控單元與一立體成像單元所構成，其中： 該觸控單元依序電性連接有一觸控面板舍 該觸控驅動元件用以記錄—預設 ” _工驅動元件’ 並傳輸至該中央處理單元；工-進订觸控時之—動作執跡， 該中央處理單元，用以接收該立體 輸至該預設之顯示單元，令亍〜 …亥動作軌跡，並傳 影像之即時動作；Π…早讀據該動作執跡顯示該立體 該立體成像單元依序設有— 動元件，該”成傻㈣ 換板與—立體成_ 切卞«肢成像驅動^件用 示單元顯亍之^Γ ™ 立肽成像轉換板，將該顯 丁早μ不之敍體影像轉為— ^ 衫像，該多重影像經肉眼視差 接收後即為-即時動作之立體影像。 民視差 1項所述之「立體 辛禺 s 元件（Charge-coupJed 如申請專利範圍第 、二影像擷取單元為一電荷 成像之觸控裝置」，其_，該第 Device， 17 2. 201037574 CCD)。 • 3.如申請專利範圍第1項所述之「立體成像之觸控裝置」，其中，該第 一、二影像擷取單元為/紅外線感測器，其產生該預設物體之不同表 面之外觀感測訊號，而由該立體影像合成單元合成為該立體影像。 4·如申請專利範圍第1項所述之「立體成像之觸控裝置」，其中，該苐 一、二影像擷取單元為一超音波感測器，其產生預設物體之不同表面 之外觀感測訊號，而由該立體影像合成單元合成為該立體影像。 〇 5.如申請專利範圍第丨項所述之「立體成像之觸控裝置」，其中，該第 、一衫像擷取單元進一步可擷取該預設觸控體之該第―、二影像， 且該立體影像合成單元由該第…二影像整合該預設觸控體之觸控動 作軌跡。 6.如申睛專利範圍帛丨項所述之「立體成像之觸控裝置」，其中，該觸201037574 VII. Patent application scope: i. - "The type of the ship's touch", which is the package-image end, the stereo synthesis unit, the central processing unit and the touch display. The touch display is Can be on a preset display unit, where: , ασ The image capturing end 'has at least one first image capturing unit, and once, like a capturing unit, for capturing a predetermined object The first image and the second image capturing unit are electrically connected to the first and second image capturing units to synthesize the first and second images into a stereoscopic image; The touch display end is formed by a touch unit and a stereoscopic image unit respectively electrically connected to the central processing unit, wherein: the touch unit is electrically connected to the touch panel to sequentially drive the touch drive The component is used for recording - the preset " _ driving device component" and transmitting to the central processing unit; the operator-subscribing touch-action execution, the central processing unit is configured to receive the stereoscopic input to the preset Display unit, 亍~... Make a trajectory, and transmit the immediate action of the image; Π...reading according to the action, the stereoscopic imaging unit is sequentially provided with a moving component, and the singularity is changed into a singularity. The imaging driver device uses the display unit to display the ΓTM peptide imaging conversion plate, and converts the smear image into a smear image, which is received by the naked eye parallax - instant action Stereoscopic image. "Dimensional Xin 禺 s component (Charge-coupJed, such as the application for patent range, the second image capture unit is a charge imaging touch device), _, the device, 17 2. 201037574 CCD ). 3. The "three-dimensional imaging touch device" as described in claim 1, wherein the first and second image capturing units are /infrared sensors, which generate different surfaces of the preset object. The appearance sensing signal is synthesized by the stereoscopic image synthesizing unit into the stereoscopic image. 4. The "three-dimensional imaging touch device" as described in claim 1, wherein the first and second image capturing units are an ultrasonic sensor that produces an appearance of different surfaces of the preset object. The sensing signal is synthesized by the stereoscopic image synthesizing unit into the stereoscopic image. The "three-dimensional imaging touch device" of the third aspect of the invention, wherein the first and second shirt image capturing units further capture the first and second images of the preset touch body And the stereoscopic image synthesizing unit integrates the touch motion trajectory of the preset touch body by the second image. 6. The "three-dimensional imaging touch device" as described in the scope of the patent application, wherein the touch 干式觸控面板或超音波式觸控面板其中之—者。 7.如申請專利範圍第1項所述之「立體忐德夕結^奸抑Among the dry touch panels or ultrasonic touch panels. 7. As stated in the first paragraph of the patent application, "the three-dimensional 忐德夕结^ 遠多重影像。 」’其中，該多 8.如申請專利範圍第7項所述之「立體成像之觸控裝置 重景> 像至少被該光閘區分為左眼影像或右眼影像。 9·如申請專利範圍第1項所述之「立體 體成像轉換板為複眼透鏡面板。10·如申請專利範圍第1項所述之「立 成像之觸控裝置」，其中，該立 立體成像之觸控裝置 ，其中，該 18 201037574 '讀f彡像合鮮元於產生續影料，可紐差_法、雙差視差 . 法或光源狹縫化其中之一者。 11.如申請專概Μ 1 _述之「立體成狀_裝置」，其中，該 觸控顯示端之該觸控面板與該立體成像單元為依序疊設而成。 u.如申請專利範圍第i項所述之「立體成像之觸控裝置」，其中，該 顯不早凡為陰極射線管（Cath〇deRayTube，CRT)顯示器、液晶顯 示器（Liquid CryStalDiSplay，LCD)、t^^顯示器⑽纖吻㈣ O Panel ’ PDP )、表面傳導電子發射（surface CO— electr〇n-emitter ’ SED)顯示器.或場發射顯示器(η— Emissi〇n Display，FED)其中之一者。 13.如申請專利範圍第！項所述之「立體成像之觸控装置」，其中，該 觸控顯示端為依照下列方式進行立體成像： 中央處理器傳輸-預定之立體影像至該觸控顯示端； 該立體成像單元之該立體成像驅動元件鶴該立體成像轉換 © ㈣作’以及該顯示單^之該顯示驅動元件驅動該液晶面板動作； 該液晶面板顯賴立體影像’且該立體影像通過該立體成像 轉換板，轉為一多重影像； 該多重影像經肉眼視差接收後即為一立體影像。 14·如申請專利範圍帛1項所述之「立體成像之觸控裳置」，其中’該 觸控裝置下列步驟進行立體成像之觸控動作·· 该觸控顯示端顯示一立體影像； 一觸控體接觸到該觸控顯示端之該觸控單元進行觸控動作. 19 201037574 該觸控單元紀錄該觸控體之動作軌跡； 該動作軌跡經該中央處理單元傳輸至該觸控顯示端； 該顯示驅動元件驅動該液晶面板，使該立體影像依據該動作 轨跡產生對應的變化。 15. 如申請專利範圍第14項所述之「立體成像之觸控裝置」，其中， 舌亥 觸控體於該觸控顯示端之該觸控單元上方進行觸控動作之步赞 中，該觸控動作為接觸式觸控。 Ο 16. 如申請專利範圍第1項所述之「立體成像之觸控裝置」，其中，气 觸控裝置下列步驟進行立體成像之觸控動作： 该觸控顯不端顯不一立體影像； -觸控體接觸_觸控顯示端之簡控單元進确控動作. 該影像掏取端之該第一、二影像操取單元分別搁取該 之第一、二影像；Far multiple images. "In the case of the application, the "three-dimensional imaging touch device re-view" as described in claim 7 of the patent application is at least divided into a left-eye image or a right-eye image by the shutter. The stereoscopic image conversion panel of the first aspect of the present invention is a compound eye lens panel. The touch device of the vertical imaging method according to the first aspect of the patent application, wherein the stereoscopic imaging touch device, Among them, the 18 201037574 'reading f 彡 合 鲜 于 于 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生11. The application of the 专 1 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ u. The "three-dimensional imaging touch device" described in the scope of claim i, wherein the display is a cathode ray tube (CRT) display, a liquid crystal display (Liquid CryStalDiSplay, LCD), t^^ display (10) Kiss (4) O Panel ' PDP ), surface conduction electron emission (surface CO - electr〇n-emitter ' SED) display, or field emission display (η - Emissi〇n Display, FED) . 13. If you apply for a patent scope! The stereoscopic imaging touch device is configured to perform stereoscopic imaging according to the following manner: the central processor transmits a predetermined stereoscopic image to the touch display terminal; the stereoscopic imaging unit The stereoscopic imaging driving component has the stereoscopic image conversion © (4) and the display driving component drives the liquid crystal panel to operate; the liquid crystal panel displays the stereoscopic image and the stereoscopic image is converted into the stereoscopic image conversion panel A multiple image; the multiple image is a stereoscopic image after being received by the naked eye parallax. 14. The "three-dimensional imaging touch skirt" as described in the scope of the patent application, wherein the touch device performs the stereoscopic imaging touch operation in the following steps: · The touch display terminal displays a stereoscopic image; The touch unit contacts the touch unit of the touch display terminal to perform a touch action. 19 201037574 The touch unit records the motion track of the touch body; the motion track is transmitted to the touch display terminal through the central processing unit The display driving component drives the liquid crystal panel to cause the stereoscopic image to change correspondingly according to the motion trajectory. 15. The "three-dimensional imaging touch device" as described in claim 14, wherein the touch-sensitive touch body is in the step of performing a touch action on the touch control unit at the touch display end, The touch action is contact touch. Ο 16. The "three-dimensional imaging touch device" as described in claim 1, wherein the gas touch device performs the following three-dimensional imaging touch action: the touch display display is not a stereoscopic image; - the touch body contact _ the touch control unit is controlled by the control unit. The first and second image manipulation units of the image capture end respectively take the first and second images; 該立體影像合成單元由該第一、 動作軌跡； 二影像整合_控體之_ 使該立體影像依據讀動作 該動作轨跡經該中央處理單元傳輸至該觸控顯示端； 該顯7F鶴元件該液晶面板， 軌跡產生對應的變化。 .如申請專· 項所述之「立體成像之觸控裝置」， :控_觸控顯示端之該觸控單元上方進行觸、: 中’該觸控動作為非接觸式觸控 之步 20The stereoscopic image synthesizing unit is configured to transmit the stereoscopic image to the touch display terminal via the central processing unit according to the first image and the motion track; The liquid crystal panel has a corresponding change in the trajectory. For the "Stereoscopic Touch Device" as described in the application, the control touches the top of the touch unit on the touch display side, and the touch action is a non-contact touch step.