M416768 100年08月17 B按正替換頁 五、新型說明: 【新型所屬之技術領域】 [0001] 本創作是關於一種顯示器結構,特別是關於一種具三維 立體顯示功能的顯示器結構。 【先前技術】 [0002] 近年來,隨著科技的進展,電視機的使用已由傳統的新 聞、娛樂功'能,逐漸演變成廣告、視聽、教育、網路、 購物、商場展售…等多功能用途,其類型除了傳統使用 的陰極射線管(Cathode Ray Tube,CRT)電視機之外, 還有液晶顯示器、電槳顯示器等平面薄型化等種類。因 此,人們在電視、顯示器的使用或應用上,將具有更多 元、更多樣化的選擇。 [0003] 傳統上,無論是CRT電視機或平面顯示器,都是屬於二維 (2 Dimension,簡稱2D)的顯示方式,因此人們無論從 哪個角度觀看螢幕,其所呈現的影像都相同。所謂三維 (3 Dimension,簡稱3D)電視,就是可以顯示一種三維 視覺效果的電視機,它採用的三維演示技術,如立體捕 捉、多視圖捕獲或二維加深度等,因此可以讓人們感受 到類似三維空間的體驗。 [0004] 3D技術基本上是利用了眼晴的視覺特性來產生立體感; 因為左眼和右眼位置不同,所以各自觀察到的景象也有 細微的差異,這種差異是產生立體感的根本原因。透過 3D技術來顯示影像,可以一個圖形就能表達物體的寬、 高、深(Depth)三度空間的形狀與尺寸。因此,3D電視 未來在視、聽、娛樂、廣告等各產業,應該會有極大的 表單編號A0101 第3頁/共17頁 M41&/68 ·" 100年08月17日按正替換頁 商業應用潛力,預計陸續也會有相關的應用方式或產品 ’開發而出。 , _5] Μ ’目則人們錢看3D電視時仍需料喊特殊眼鏡 的方式,才能觀寊到3D的致果,其使用上並不方便。還 有’ 3D電視僅能將,,立體软果,,呈現於特定方位或特定 距離’當人們離開該特定位置即無法看清3D的影像,更 增加人們在使用上的限制β [〇〇〇6]因此,如何以肉眼即可觀賞3D影像,甚至使人們在移動 時也可觀賞3D電視的立體影像,克服其使用上的缺點, 這是本領域具有通常知識者努力的目標。 【新型内容】 [〇〇〇7]本創作主要目的在讓人們以肉眼即可觀賞3D電視的立體 影像’克服其使用上的缺點。 [0008]本創作次要目的在讓人們在移動時也可觀賞3D電視的立 體影像。M416768 100 Aug. 17 B Pressing the replacement page V. New description: [New technical field] [0001] This work is about a display structure, especially a display structure with a three-dimensional display function. [Prior Art] [0002] In recent years, with the advancement of technology, the use of TV sets has evolved from traditional news and entertainment functions to advertising, audio-visual, education, internet, shopping, shopping malls, etc. In addition to the conventionally used cathode ray tube (CRT) televisions, there are various types of flat-panel types such as liquid crystal displays and electric paddle displays. Therefore, people will have more and more diverse choices in the use or application of televisions and displays. [0003] Traditionally, CRT TVs or flat panel displays are two-dimensional (2 Dimension, 2D) display modes, so people view the screen from the same angle. The so-called 3D (3 Dimension, 3D) TV is a TV that can display a 3D visual effect. It uses 3D presentation technology, such as stereo capture, multi-view capture or 2D plus depth, so people can feel similar. The experience of three-dimensional space. [0004] 3D technology basically utilizes the visual characteristics of the eye to create a stereoscopic effect; because the left eye and the right eye are different in position, there are subtle differences in the respective observed scenes, and this difference is the root cause of the stereoscopic effect. . By displaying images through 3D technology, the shape and size of the object's width, height, and depth (Depth) three-dimensional space can be expressed in one figure. Therefore, in the future, 3D TV industry in the industry of viewing, listening, entertainment, advertising, etc., there should be a huge form number A0101 Page 3 / 17 pages M41 & / 68 · " 100 years of August 17, according to the replacement page business Application potential, it is expected that there will be related applications or products that are developed in succession. , _5] Μ </ br /> When people look at 3D TV, they still need to call special glasses to see the result of 3D, which is not convenient to use. There is also a '3D TV that can only be, stereoscopic soft fruit, presented in a specific orientation or a specific distance'. When people leave the specific position, they cannot see the 3D image, which increases the restrictions on the use of people. 6] Therefore, how to view 3D images with the naked eye, and even allow people to watch stereoscopic images of 3D TVs while moving, overcoming the shortcomings of their use, is the goal of those who have common knowledge in the field. [New Content] [〇〇〇7] The main purpose of this creation is to allow people to view stereoscopic images of 3D TVs with the naked eye' to overcome the shortcomings of their use. [0008] The secondary purpose of this creation is to allow people to view stereo images of 3D TV while on the move.
] 為了達成上述目的,本創作提供一種具三維立體顯示功 能的顯示器結構,其包括有多個左眼像素單元、多個右 眼像素單元及多個固定透鏡單元;每一左眼像素單元射 出的光線定義一第一光學路徑,每一右眼像素單元射出 的光線定義一第二光學路徑,多個左眼像素單元與右眼 像素單元依序橫向交錯排列,每一第一光學路徑穿越— 固定透鏡單元後,進入人體的左眼,每一第二光學路徑 穿越一固定透鏡單元後,進入人體的右眼;藉此,人體 的左眼與右眼即可呈現不同的影像,進而產生視差與三 第4頁/共17頁 表單蝙珑A〇l01 M416768 100年08月17日按正替换頁 維的視覺效果。 [0010] 如止所述具三維立體顯示功能的顯示器結構,其中,多 個左眼像素單元與多個右眼像素單元排列於一直線。 [0011] 如上所述具三維立體顯示功能的顯示器結構,其中,多 個左眼像素單元與多個右眼像素單元依序緊鄰相接。 [0012] 如上所述具三維立體顯示功能的顯示器結構,其中,相 鄰的第一光學路徑與第二光學路徑穿越相同的固定透鏡 单兀。 [0013] 如上所述具三維立體顯示功能的顯示器結構,其中,每 一左眼像素單元均與一固定透鏡單元緊鄰,或者每一右 眼像素單元均與一固定透鏡單元緊鄰。 [0014] 如上所述具三維立體顯示功能的顯示器結構,其中,該 顯示器結構更包括有多個變焦透鏡單元,每一第一光學 路徑穿越一變焦透鏡單元後,進入人體的左眼,每一第 二光學路徑穿越一變焦透鏡單元後,進入人體的右眼; 多個變焦透鏡單元橫向規則地排列於人體與固定透鏡單 元之間;該變焦透鏡單元可為液體透鏡。 [0015] 藉此,本創作所述具三維立體顯示功能的顯示器結構, 可使人體的左眼與右眼呈現不同的影像,且具有像差, 進而產生視差與三維(3 Dimension,簡稱3D)的視覺效 果。故,人們無需再配戴特殊眼鏡,即可以肉眼觀賞3D 的立體影像。而且,當人體改變位置時,多個變焦透鏡 單元即可配合人體的移動而改變其表面的曲率,使人體 無論移動至任何位置,都可以觀賞到3D的立體影像,非 表單編號A0101 第5頁/共17頁 100年08月175修正替換頁1 常方便。 [0016] 為使熟悉該項技藝人士瞭解本創作之目的、特徵及功效 ,茲藉由下述具體實施例,並配合所附之圖式,對本創 作詳加說明如後。 【實施方式】 [0017] 請參閱圖1,圖1所繪示為本創作第一實施例之顯示器結 構的示意圖。如圖1所示,一具三維立體顯示功能的顯示 器結構1,其包括有多個左眼像素單元13、多個右眼像素 單元14及多個固定透鏡單元15。其中,多個左眼像素單 元13與多個右眼像素單元14係依序緊鄰相接,且呈橫向 交錯的方式排列於同一直線上;亦即,每一左眼像素單 元13的左邊、右邊分別各與一右眼像素單元14緊鄰,每 一右眼像素單元14的左邊、右邊分別各與一左眼像素單 元13緊鄰。此外,每一左眼像素單元13射出的光線可定 義一第一光學路徑11,每一右眼像素單元14射出的光線 可定義一第二光學路徑12,在本實施例中,該第一光學 路徑11係以實線表示,該第二光學路徑12係以虛線表示 。當多個左眼像素單元13與多個右眼像素單元14朝向圖1 的上方射出光線後,藉由多個固定透鏡單元15的作用, 可使每一第一光學路徑11穿越一固定透鏡單元15後始進 入人體9的左眼91,每一第二光學路徑12穿越一固定透鏡 單元15後始進入人體9的右眼92。 [0018] 另外,在圖1的實施例中,每一左眼像素單元13均與一固 定透鏡單元15緊鄰,每一右眼像+單元14均與一固定透 鏡單元15緊鄰;相鄰的左眼像素單元13與右眼像素單元 表單編號A0101 第6頁/共17頁 M416768 100年08月17日梭正替換頁 14係共同使用同一固定透鏡單元15,因此相鄰的第一光 學路徑11與第二光學路徑12即可穿越相同的固定透鏡單 元15後,分別進入人體9的左眼91與右眼92。藉此,人體 9的左眼91與右眼92即可呈現不同的影像,故左眼91與右 眼92即具有像差,進而產生視差與三維(3 Dimension, 簡稱3D)的視覺效果;也因此,人們無需再配戴特殊眼鏡 ,即可以肉眼觀賞3D的立體影像,非常方便。In order to achieve the above object, the present invention provides a display structure having a three-dimensional stereoscopic display function, including a plurality of left-eye pixel units, a plurality of right-eye pixel units, and a plurality of fixed lens units; each left-eye pixel unit is emitted The light defines a first optical path, and the light emitted by each right-eye pixel unit defines a second optical path, and the plurality of left-eye pixel units and right-eye pixel units are sequentially staggered in a horizontal direction, and each of the first optical paths traverses—fixed After the lens unit enters the left eye of the human body, each second optical path passes through a fixed lens unit and enters the right eye of the human body; thereby, the left eye and the right eye of the human body can present different images, thereby generating parallax and Three page 4/total 17 pages form 珑A珑l01 M416768 On August 17, 100, the visual effect of the page dimension was replaced. [0010] The display structure having a three-dimensional stereoscopic display function, wherein the plurality of left-eye pixel units and the plurality of right-eye pixel units are arranged in a line. [0011] A display structure having a three-dimensional stereoscopic display function as described above, wherein a plurality of left-eye pixel units and a plurality of right-eye pixel units are sequentially adjacent to each other. [0012] A display structure having a three-dimensional display function as described above, wherein the adjacent first optical path and the second optical path traverse the same fixed lens unit. [0013] A display structure having a three-dimensional stereoscopic display function as described above, wherein each of the left-eye pixel units is in close proximity to a fixed lens unit, or each right-eye pixel unit is in close proximity to a fixed lens unit. [0014] The display structure having a three-dimensional stereoscopic display function as described above, wherein the display structure further comprises a plurality of zoom lens units, each of the first optical paths passing through a zoom lens unit and entering the left eye of the human body, each After the second optical path passes through a zoom lens unit, it enters the right eye of the human body; the plurality of zoom lens units are regularly and regularly arranged between the human body and the fixed lens unit; the zoom lens unit may be a liquid lens. [0015] Thereby, the display structure with the three-dimensional display function of the present invention can make the left eye and the right eye of the human body display different images and have aberrations, thereby generating parallax and three-dimensional (3 Dimension, referred to as 3D). Visual effects. Therefore, people no longer need to wear special glasses, that is, they can watch 3D stereoscopic images with the naked eye. Moreover, when the human body changes position, the plurality of zoom lens units can change the curvature of the surface in accordance with the movement of the human body, so that the human body can view the 3D stereoscopic image regardless of moving to any position, non-form number A0101, page 5 / Total 17 pages 100 years August 175 correction replacement page 1 is often convenient. [0016] In order to familiarize the person skilled in the art with the purpose, features and functions of the present invention, the present invention will be described in detail by the following specific embodiments and the accompanying drawings. [Embodiment] [0017] Please refer to FIG. 1, which is a schematic diagram of a display structure according to a first embodiment of the present invention. As shown in FIG. 1, a three-dimensional display function display structure 1 includes a plurality of left-eye pixel units 13, a plurality of right-eye pixel units 14, and a plurality of fixed lens units 15. The plurality of left-eye pixel units 13 and the plurality of right-eye pixel units 14 are sequentially adjacent to each other and arranged in a horizontally interlaced manner on the same straight line; that is, the left and right sides of each left-eye pixel unit 13 Each of the right-eye pixel units 14 is adjacent to each other, and the left and right sides of each right-eye pixel unit 14 are respectively adjacent to a left-eye pixel unit 13. In addition, the light emitted by each of the left-eye pixel units 13 defines a first optical path 11, and the light emitted by each of the right-eye pixel units 14 defines a second optical path 12. In this embodiment, the first optical The path 11 is indicated by a solid line, and the second optical path 12 is indicated by a broken line. After the plurality of left-eye pixel units 13 and the plurality of right-eye pixel units 14 emit light toward the upper side of FIG. 1, each of the first optical paths 11 can pass through a fixed lens unit by the action of the plurality of fixed lens units 15. After 15, the left eye 91 of the human body 9 is entered, and each second optical path 12 passes through a fixed lens unit 15 and enters the right eye 92 of the human body 9. [0018] In addition, in the embodiment of FIG. 1, each left-eye pixel unit 13 is adjacent to a fixed lens unit 15, and each right-eye image + unit 14 is adjacent to a fixed lens unit 15; adjacent left Eye pixel unit 13 and right eye pixel unit form number A0101 Page 6 of 17 M416768 On August 17, 100, the shuttle replacement page 14 uses the same fixed lens unit 15, so that the adjacent first optical path 11 and The second optical path 12 can pass through the same fixed lens unit 15 and enter the left eye 91 and the right eye 92 of the human body 9, respectively. Thereby, the left eye 91 and the right eye 92 of the human body 9 can display different images, so the left eye 91 and the right eye 92 have aberrations, thereby generating parallax and three-dimensional (3 Dimension, referred to as 3D) visual effects; Therefore, people do not need to wear special glasses, that is, they can view 3D stereoscopic images with the naked eye, which is very convenient.
[0019] 本創作還有其他實施例。請參閱圖2,圖2所繪示為本創 作第二實施例之顯示器結構的示意圖。如圖2所示,該顯 示器結構2包括有多個左眼像素單元23、多個右眼像素單 元24及多個固定透鏡單元25,且透過該左眼像素單元23 與右眼像素單元24分別定義有多條第一光學路徑21與多 條第二光學路徑22。其中,與前述實施例類似的結構、 功能,便不再贅述。在本實施例中,該顯示器結構2更包 括有多個變焦透鏡單元26,多個變焦透鏡單元26呈橫向 規則地緊鄰排列於人體9與固定透鏡單元25之間,且多個 變焦透鏡單元26與多個固定透鏡單元25係間隔設置。每 一第一光學路徑21穿越一變焦透鏡單元26後,進入人體9 的左眼91,每一第二光學路徑22穿越一變焦透鏡單元26 後,進入人體9的右眼92。在較佳實施例中,該變焦透鏡 單元2 6可為液體透鏡,例如液壓式微透鏡、液晶變焦透 鏡等。該變焦透鏡單元26可藉由電子電路的控制,或其 他自動感測驅動、伺服結構的控制,而改變或調整該變 焦透鏡單元26的焦距;因此,如圖3A與圖3B的對照圖所 示,當人體9改變位置時,多個變焦透鏡單元26即可改變 其表面的曲率,無論人體9移動至任何位置,多個第一光 表單編號A0101 第7頁/共17頁 M416768 .10U年08月日修正頁 學路徑21均可投射至人體9的左眼91,且多個第二光學路 控22均寸投射至人體9的右眼92。故’無論人體9如何移/ 動,本創作具三維立體顯示功能的顯示器結構2都可以提 供人們3D的立體影視效果,非常方便。 [0020] 再來,請參閱圖4,圖4所繪示為本創作第三實施例之顯 示器結構的示意圖。如圖4所示’該顯示器結構3包括有 多個左眼像素單元33、多個右眼像素單元34及多個固定 透鏡單㈣,且透祕左辣素單元33與右眼像素單元 34分別定義有多條第-料_31衫條第二光學路徑 32。其中,每-左眼像素單元33射出光線後該第一光 學路徑31依序經過-固定透鏡單⑽而進人人㈣的左眼 91 ;每-右眼像素單元34射出光線後,該第二光學路徑 32依序經過另一不相同的_透鏡單㈣而進人人體9的 右目艮92 n相_第—光學路徑叫第二光學路徑 32係分別穿越不相同的固定透鏡單元扣。如此可達到 解析度更高,祕投射更精準料學功效。[0019] There are other embodiments of the present creation. Please refer to FIG. 2. FIG. 2 is a schematic diagram showing the structure of the display of the second embodiment. As shown in FIG. 2, the display structure 2 includes a plurality of left-eye pixel units 23, a plurality of right-eye pixel units 24, and a plurality of fixed lens units 25, and through the left-eye pixel unit 23 and the right-eye pixel unit 24, respectively. A plurality of first optical paths 21 and a plurality of second optical paths 22 are defined. The structures and functions similar to those of the foregoing embodiments will not be described again. In the present embodiment, the display structure 2 further includes a plurality of zoom lens units 26 arranged in a laterally regular arrangement between the human body 9 and the fixed lens unit 25, and the plurality of zoom lens units 26 It is provided at a distance from the plurality of fixed lens units 25. After the first optical path 21 passes through a zoom lens unit 26, it enters the left eye 91 of the human body 9, and each second optical path 22 passes through a zoom lens unit 26 and enters the right eye 92 of the human body 9. In a preferred embodiment, the zoom lens unit 26 can be a liquid lens, such as a hydraulic microlens, a liquid crystal zoom lens, or the like. The zoom lens unit 26 can change or adjust the focal length of the zoom lens unit 26 by control of an electronic circuit, or other automatic sensing drive, servo structure control; therefore, as shown in the comparison diagram of FIG. 3A and FIG. 3B. When the human body 9 changes position, the plurality of zoom lens units 26 can change the curvature of the surface thereof, regardless of the movement of the human body 9 to any position, the plurality of first light form numbers A0101, page 7 / total 17 pages M416768 .10U year 08 The monthly modified page path 21 can be projected to the left eye 91 of the human body 9, and the plurality of second optical paths 22 are equally projected to the right eye 92 of the human body 9. Therefore, no matter how the human body 9 moves/moves, the display structure 2 with three-dimensional display function can provide 3D stereoscopic film and television effects, which is very convenient. [0020] Referring to FIG. 4, FIG. 4 is a schematic diagram showing the structure of the display of the third embodiment of the present invention. As shown in FIG. 4, the display structure 3 includes a plurality of left-eye pixel units 33, a plurality of right-eye pixel units 34, and a plurality of fixed lens units (four), and the transparent left-eye unit 33 and the right-eye unit 34 are respectively A plurality of first-material _31 shirt second optical paths 32 are defined. The first optical path 31 passes through the fixed lens unit (10) and enters the left eye 91 of the person (4); the second-eye unit 33 emits light, and the second The optical path 32 sequentially passes through another different _ lens single (four) and enters the right eye of the human body 9 92 n phase _ first optical path called the second optical path 32 respectively through different fixed lens unit buckles. This can achieve higher resolution and more accurate material learning.
[0021] 5月食阅圃 c; "I p百/卜句+怎lj作笛 P乐β貝弛例之顯示器 構的示意圖。如圖5所示’該顯示器結構4包括有多値 眼像素單元43、辣魏料單元44、乡侧定透泰 兀45及多個變焦透鏡單以6 1該左眼像素單元似 眼像素單元44的光線分別定義有多條第—光學路财 多條第二先學路徑42°其中,相鄰的第-光學路徑4 第二光學路徑42係分別穿越不相同的Μ透鏡單元41 且’_的第-光學路㈣與第二光學路徑42係穿与 同的變焦透鏡單元46。[0021] May food reading 圃 c; "I p hundred / Bu sentence + how lj for the flute P music beta shell example of the display structure. As shown in FIG. 5, the display structure 4 includes a multi-blinking pixel unit 43, a squeezing unit 44, a side-by-side slat 45, and a plurality of zoom lenses 161. The left-eye pixel unit-like pixel unit The light rays of 44 are respectively defined by a plurality of first-optical paths, and a plurality of second learned paths 42°, wherein adjacent first optical paths 4 and second optical paths 42 respectively pass through different Μ lens units 41 and '_ The first optical path (four) and the second optical path 42 are threaded through the same zoom lens unit 46.
表單編號Α0101 第8頁/共17 頁 [0022] 在其他〜m 丨100年〇8月17Γϋ^^1 _ ’多個左眼像素單元與多個右眼像素單 =可以排列形成一弧線;或者,每-左眼像素單元與 ΓΓ右眼像素單元間也可㈣隔設置;或者,左眼像素 早二、右眼像素單元均與該些固定透鏡單S間隔設置; 或者夕個變焦透鏡單讀乡侧定透鏡單元以緊鄰 相接的方式設置^藉此,均可達到前述功效。 [0023] [0024] 藉此本創作所述具三維立體顯示功能的顯示器結構, 可使人體的左眼與右眼呈現不同的影像,亦即左眼與右 眼具有像差’進而產生視差與三維(3 Dimensi〇n,簡稱 3D)的視覺效果。故,人們無需再配戴特殊眼鏡,即可以 肉眼觀⑽的立體影像。還有,當人體改變位置時,多 個變焦透鏡單元即可配合人體的移動而改變其表面的曲 率,使人體無論移動至任何位置,都可以觀賞到汕的立 體影像,非常方便》 雖然本創作已以具體實施例揭露如上,然其所揭露的具 體實施例並非用以限定本創作,任何熟悉此技藝者,在 不脫離本創作之精神和範圍内,當可作各種之更動與潤 飾,其所作之更動與潤飾皆屬於本創作之範疇,本創作 之保護範圍當視後附之申請專利範圍所界定者為準。 【圖式簡單說明】 [0025] 圖1所繪示為本創作第一實施例之顯示器結構的示意圖。 [0026] 圖2所繪示為本創作第二實施例之顯示器結構的示意圖。 [0027] 圖3A~圖3B所續·示為本創作顯示器結構的調整觀賞位置之 示意圖。 表單編號A0101 第9頁/共π頁 M416768 ΙϋΟ年08月17日梭正替换頁 [0028] 圖4所繪示為本創作第三實施例之顯示器結構的示意圖。 . · - - . · · [0029] 圖5所繪示為本創作第四實施例之顯示器結構的示意圖。 ·;: 【主要元件符號說明】Form number Α0101 Page 8 of 17 [0022] In other ~m 丨100 years 〇August 17Γϋ^^1 _ 'Multiple left eye pixel units and multiple right eye pixel orders = can be arranged to form an arc; or The per-left-eye pixel unit and the right-eye pixel unit may be disposed at (four) intervals; or, the left-eye pixel second and right-eye pixel units are spaced apart from the fixed lens single S; or the single zoom lens single reading The town side fixed lens unit can be arranged in close proximity to each other, thereby achieving the aforementioned effects. [0024] The display structure with the three-dimensional display function of the present invention can make the left eye and the right eye of the human body display different images, that is, the left eye and the right eye have aberrations, thereby generating parallax and 3D (3 Dimensi〇n, 3D for short) visual effects. Therefore, people do not need to wear special glasses, that is, the stereoscopic image of the naked eye (10). In addition, when the human body changes position, a plurality of zoom lens units can change the curvature of the surface in accordance with the movement of the human body, so that the human body can view the stereoscopic image of the skull regardless of moving to any position, which is very convenient. The present invention has been disclosed in the above embodiments, and the specific embodiments disclosed herein are not intended to limit the scope of the present invention, and it is possible to make various changes and refinements without departing from the spirit and scope of the present invention. The changes and refinements made are within the scope of this creation. The scope of protection of this creation is subject to the definition of the patent application scope attached. BRIEF DESCRIPTION OF THE DRAWINGS [0025] FIG. 1 is a schematic diagram showing the structure of a display according to a first embodiment of the present invention. 2 is a schematic diagram showing the structure of a display according to a second embodiment of the present invention. [0027] FIG. 3A to FIG. 3B are diagrams showing the adjustment of the viewing position of the creation display structure. Form No. A0101 Page 9 / Total π page M416768 The following is the replacement page of the shuttle on August 17 of the following year. [0028] FIG. 4 is a schematic diagram showing the structure of the display of the third embodiment of the present invention. [0029] FIG. 5 is a schematic diagram showing the structure of a display according to a fourth embodiment of the present invention. ·;: [Main component symbol description]
[0030] 1、2 ' 3 * 4 :顯示器結構 [0031] 11 、 21 、 31、41 : :第一光學路徑 [0032] 12 ' 22 ' 32 ' 42 : :第二光學路徑 [0033] 13、23 ' 33 ' 43 : :左眼像素單元 [0034] 14、24、 34 ' 44 : :右眼像素單元 [0035] 15、25 ' 35 ' 45 : :固定透鏡單元 [0036] 26 ' 46 : 變焦透鏡單元 [0037] 9 :人體 [0038] 91 :左眼 [0039] 92 :右眼 表單编號Α0101 第10頁/共17頁[0030] 1, 2 ' 3 * 4 : display structure [0031] 11 , 21 , 31 , 41 : : first optical path [0032] 12 ' 22 ' 32 ' 42 : : second optical path [0033] 23 ' 33 ' 43 : : Left-eye pixel unit [0034] 14, 24, 34 ' 44 : : Right-eye pixel unit [0035] 15, 25 ' 35 ' 45 : : Fixed lens unit [0036] 26 ' 46 : Zoom Lens unit [0037] 9 : Human body [0038] 91 : Left eye [0039] 92 : Right eye form number Α 0101 Page 10 of 17