201250364 六、發明說明: 【發明所屬之技術領域】 本發明係有關一種可小眾觀賞的3 D裸視投影照相二 用手機’尤其是一種具3D裸視投影照相之創新型,緣設計者 【先前技術】 按’科技日新月異’手機發展過程中考慮到的商務功 能應用’加上近年來發展出琳瑯滿目的各式内建照像功能 ,與3G影像通話之手機。市面上便出現多款整合多功能於 一體的手機(Smartphone),以方便攜帶,並只需要攜帶單一 台裝置’即可整合各種商務、通信、娛樂功能。另外,並 參考一些可以外接視訊的機種,其外接視訊的目的不外乎 是利用外部的大型顯示裝置如投影機,藉以播放3 d裸視 晝面以達成簡報之目的。然,如此設計之缺點是如果遇到 一些特殊情況,例如無法找到適當的大型顯示裝置和電腦 來做連結以3D裸視裸視簡報時,手機之外接3])裸視視訊功 能便無用武之地。 緣是,若能於手機本身進行成像3D裸視投影功能之研 發與改良,相信對於上述作投影簡報時所遇之問題,將可 。丨最低疋以,針對上述習知手機所存在之問題點,如 1開發一種具3D裸視投影創新技術實使用消費者所殷切 企盼’亦係相關業者須努力研發突破之目標及方向;有鑑 於此’ I明人本於多年從事相關產品之製造開發與設計經 針對上述之目標,詳加設計與審慎評估後,終得一確 3 201250364 具實用性之本發明。 【發明内容】 即,本發明之主要目的,係在提供一種可小眾觀賞的 3 D裸視投影照相二用手機;其所欲解決之問題點,係針 對習知手機所存在之無法找到適當的大型顯示裝置和電腦 來做連結以3D裸視裸視簡報時,手機之外接3D裸視視訊功 能便無用武之地問題點加以改良突破; 而其解決問題之技術特點,主要係藉由包含一手機本 體,該手機本體外部包含有一螢幕,且該手機本體内部預 定位置分別設有一第一、二投影組件;一第一、二鏡頭, 其係設於該手機一側端面並對應連輸該第一、二投影組件 之相對預定位置,而該第一、二投影端並相對形成預設間 距’用以提供拍攝3D動態或3D靜態影像;一第一、二投射 端’其係設於該手機另侧端面並對應連輸該第一、二投影 組件之相對預定位置,而該第一、二投影端並相對形成預 設間距,用以投影3D動態或靜態影像至一提供小眾觀賞的 3D顯示幕; 藉此創新獨特設計,使本發明藉由該手機本體之第一 、二投影端投射出的影像即呈左、右影像的落差,經由觀 貝者裸視所見的視差影像’透過人體視網膜接收,再經由 人體視神經合成,大腦將具落差的二個畫面化為單一晝面 後,就形成了具3D的立體畫面,進而可達到3 D裸視使用 上的便利之實用進步性。 201250364 【實施方式】 請參閱第1〜9圖所示,係本發明可小眾觀賞的3 d 裸視投影照相二用手機之較佳實施例,惟此等實施例僅供 說明之用,在專利申請上並不受此結構之限制,其係包括 一手機本體(10),該手機本體(10)外部包含 有一螢幕(14)及一鍵盤(13),且該手機本體(1 0 )内部預定位置分別設有一第一、二投影組件(2 〇, 3 0),其中該第一、二投影組件(2 0,3 0 )内部分 別包含有一反射鏡(24)、一光源(21 ,31)、一 LCD投影系統、一定焦鏡組(2 2,3 2 )、一感光元件 (26 ’ 36)及一對焦鏡組’其中該反射鏡(24)係 對應於第一、二鏡頭(11 ’ 12)及第一、二投射端( 15,16) ’且該光源(21 ’31)及LCD投影系統 (2 3)係設於遠離該反射鏡(2 4)之一側,而該定焦 鏡組(2 2 ’ 3 2 )之二側係分別對應該光源(2 1,3 1 )與該LCD投影系統(2 3 ) ’且該感光元件(2 6 , 3 6 )係設於遠離該反射鏡(2 4 )之另一側,而該對焦 鏡組(2 5,3 5 )之二側分別對應該感光元件(2 6, 36)與該反射鏡(24) ’且該第一、二鏡頭(11, 12)、該對焦鏡組(25 ’35)與該感光元件(26 ,3 6 )間相互對應經由反射鏡(2 4 )投射而可作拍照 或視訊,而該光源(21 ,31)、該定焦鏡組(22, 3 2 )、該LCD投影系統(2 3 )、該反射鏡(2 4 )與 該第一、二投射端(1 5 ’ 1 6 )間相互對應作投影者; 5 201250364 一第一、二鏡頭(11 ’12),其係設於該手機一 側端面並對應連輸該第一、二投影組件(2 0,3 0 )之 相對預定位置,而該第一、二投影端(1 5,1 6 )並相 對形成預設間距,其中該第一、二鏡頭(1 1 ,1 2 )相 對預設間距係接近為人體(5 0 )左、右眼(5 1 ,5 2 )的相對距離,用以提供拍攝3D動態或3D靜態影像; 一第一、二投射端(15,16),其係設於該手機 另側端面並對應連輸該第一 '二投影組件(2 0,3 0 ) 之相對預定位置,而該第一、二投影端(15,16)並 相對形成預設間距,其中該第一、二投射端(15 ,16 )的相對預設間距係接近為人體(5 0 )左、右眼(5 1 ,5 2 )的相對距離,用以投影3D動態或靜態影像至一提 供小眾觀賞的犯顯示幕(4 0 ),其中該3D顯示幕(4 0 )大小係概呈A3〜A4大小,且該所述之小眾觀賞人數係概 呈3〜5人數’且該3D顯示幕(4 0 )係為一種視差障壁 技術’視差障壁英文稱之為Barrier ,該技術為利用安置在 顯示幕間的視差障壁,將左眼及右眼可視的畫面分開,使 觀看者可得到3D影象,其解析度會因顯示器同時呈現影像 的多寡,而呈等比例降低; 請參閱第4、5圖所示,當一外界之A光線經由該第 一、二鏡頭(1 1 ,1 2 )進入第一、二投影系統後,經 由該反射鏡(24)之反射而轉向相機系統,而此相機系 統係由該自動對焦鏡組(2 5,3 5 )與該感光元件(2 6 ’ 3 6 )等元件所構成,故其中該a光線反射後係經過 該自動對焦鏡組(2 5,3 5 ),益聚焦在該感光元件( 201250364 2 6, 訊影像 請 鏡組( (21 光源( 2 )與 鏡(2 ),並 據 15, 觀賞者 收,再 個畫面 3 6 )上 通話功能 續行參閱 2 2,3 ,3 1 ) 2 1,3 LC D投影 4 )之反 向外射出 此,藉由 1 6 )投 裸視所見 經由人體 化為單一 請參 中該對焦 )更分別 工作;其 (圖中未 綜上 限制本發 屬本發明 明瞭本發 ’爰提出 閱第ισ 鏡組( 可為一 次,更 示), 所述實 明’故 之範_ 明的確 專利中 進而形成3D動態或3D靜態影像自拍 示’而投影系統係由該 影系統(2 3 )以及該 ’其中當一B光線由該 經過該定焦鏡組(2 2 後,該B光線再經過該 一、二投射端(1 5, 或3D靜態影像投影效果 10)之第一、二投影 第6〜7圖所 2 )與LCD投 等元件所構成 1 )發出,並 系統(2 3 ) 射而轉向該第 而形成3D動態 該手機本體( 射出的影像即 的視差影像, (5 0 )視神 畫面後,就形 42圖所示,其 6 5,7 5 ) 非球面透鏡, 可將該非球面 藉以供不同需 施例之揭示係 舉凡數值之變 。由以上詳細 可達成前述目 請。 呈左、右影像 透過人體(5 經合成,大腦 成了具3D的立 係本發明之另 與該定焦鏡組 而可分別進行 透鏡之曲面製 求時之選用。 用以說明本發 更或等效元件 說明,可使熟 的,實已符合 或視 定焦 光源201250364 VI. Description of the Invention: [Technical Field] The present invention relates to a 3D naked-view projection camera for a small audience, especially an innovative 3D naked-view projection camera. Prior Art] According to the business function application considered in the development process of 'technology is changing every day', plus the development of a variety of built-in photo functions in recent years, mobile phones with 3G video calls. There are a number of integrated mobile phones (Smartphones) on the market that are easy to carry and only need to carry a single device to integrate various business, communication and entertainment functions. In addition, and refer to some models that can be connected to the video, the purpose of the external video is to use an external large-scale display device such as a projector to play the 3D naked view to achieve the purpose of the briefing. However, the disadvantage of this design is that if you encounter some special circumstances, such as the inability to find a suitable large-scale display device and computer to connect to the 3D naked-view naked-view presentation, the mobile phone is connected to the external] 3)) The naked video function is useless. . The reason is that if the mobile phone itself can be used for the development and improvement of the imaging 3D naked-view projection function, it is believed that the problems encountered in the above-mentioned projection presentation will be available.丨 The lowest point is that, in view of the problems existing in the above-mentioned conventional mobile phones, such as the development of a 3D naked-view projection innovation technology, consumers are eagerly awaiting the goal and direction of the relevant industry players to make breakthroughs; This 'I Mingren has been engaged in the manufacturing development and design of related products for many years. After detailed design and careful evaluation, the company has finally obtained the practical invention of 201250364. SUMMARY OF THE INVENTION That is, the main object of the present invention is to provide a 3D naked-view projection camera mobile phone that can be viewed by a small audience; the problem to be solved is that the existing mobile phone cannot be found properly. When the large-scale display device and the computer are connected to the 3D naked-view naked-view briefing, the 3D naked-view video function of the mobile phone is used to improve the problem; and the technical features of the problem solving mainly include a mobile phone body, the exterior of the mobile phone body comprises a screen, and the first and second projection components are respectively disposed at predetermined positions inside the mobile phone body; and the first and second lenses are disposed on one end surface of the mobile phone and correspondingly connected to the mobile phone The first and second projection ends are opposite to each other, and the first and second projection ends are opposite to each other to form a preset spacing 'to provide a 3D dynamic or 3D still image; a first and second projection end are attached to the mobile phone The other side end face corresponds to the relative predetermined position of the first and second projection components, and the first and second projection ends are oppositely formed with a predetermined spacing for projecting 3D dynamics or The image is a 3D display screen that provides a small audience. With this innovative and unique design, the image projected by the first and second projection ends of the mobile phone body is a drop of the left and right images. The parallax image seen by the naked eye is received through the human retina, and then synthesized by the human optic nerve. The brain divides the two images with the difference into a single face, and then forms a stereoscopic picture with 3D, which can reach 3D naked vision. Practical and progressive use of convenience. 201250364 [Embodiment] Please refer to the first embodiment of the present invention, which is a preferred embodiment of the 3D naked-view projection camera used in the present invention, but these embodiments are for illustrative purposes only. The patent application is not limited by this structure, and includes a mobile phone body (10). The exterior of the mobile phone body (10) includes a screen (14) and a keyboard (13), and the inside of the mobile phone body (10) The first and second projection components (2 ,, 30) are respectively disposed at predetermined positions, wherein the first and second projection components (20, 30) respectively include a mirror (24) and a light source (21, 31) ), an LCD projection system, a certain focal lens group (2 2, 3 2 ), a photosensitive element (26 ' 36) and a focusing lens group 'where the mirror (24) corresponds to the first and second lenses (11) '12) and the first and second projection ends (15, 16)' and the light source (21 '31) and the LCD projection system (23) are disposed away from one side of the mirror (24), and the The two sides of the focal lens group (2 2 ' 3 2 ) respectively correspond to the light source (2 1,3 1 ) and the LCD projection system (2 3 )' and the photosensitive element (2 6 , 3 6 ) is disposed on the other side away from the mirror ( 2 4 ), and the two sides of the focusing mirror group (2 5, 3 5 ) respectively correspond to the photosensitive element (2 6, 36) and the mirror (24) 'and the first and second lenses (11, 12), the focusing lens group (25 '35) and the photosensitive elements (26, 3 6) are mutually projected via the mirror (2 4 ) Photographing or video, and the light source (21, 31), the fixed focus lens group (22, 3 2 ), the LCD projection system (23), the mirror (24), and the first and second projection ends ( 1 5 ' 1 6 ) correspond to each other as a projector; 5 201250364 a first and second lens (11 '12), which is disposed on one end face of the mobile phone and correspondingly connected to the first and second projection components (2 0 a relative predetermined position of the 3 0 ), and the first and second projection ends (15, 16) are oppositely formed with a predetermined spacing, wherein the first and second lenses (1 1 , 1 2 ) are relatively preset with respect to each other. Close to the relative distance between the left and right eyes (5 1 , 5 2 ) of the human body (50) to provide 3D dynamic or 3D still images; a first and second projection end (15, 16), which are The other side of the phone The end surface corresponds to a relative predetermined position of the first 'two projection assembly (20, 30), and the first and second projection ends (15, 16) are oppositely formed with a predetermined spacing, wherein the first and second The relative preset spacing of the projection ends (15, 16) is close to the relative distance between the left and right eyes (5 1 , 5 2 ) of the human body (50) for projecting 3D dynamic or static images to provide a small viewing. The display screen (40), wherein the 3D display screen (40) size is approximately A3~A4, and the minority audience is 3~5 people' and the 3D display screen (4) 0) is a kind of parallax barrier technology. The parallax barrier is called Barrier in English. This technology separates the visible images of the left and right eyes by using the parallax barrier placed between the display screens, so that the viewer can get 3D images. The resolution will be proportionally reduced due to the amount of images displayed on the display at the same time; please refer to Figures 4 and 5, when an external A light enters the first through the first and second lenses (1 1 , 1 2 ) After the second projection system, the camera system is turned by the reflection of the mirror (24), and this The camera system is composed of the autofocus lens group (25, 3 5 ) and the photosensitive element (2 6 ' 3 6 ) and the like, wherein the a light is reflected and passes through the autofocus lens group (25, 3 5), focus on the photosensitive element (201250364 2 6, video image camera group (21 light source (2) and mirror (2), and according to 15, viewers receive, another screen 3 6) call function Continued to see 2 2,3,3 1 ) 2 1,3 LC D projection 4) The opposite direction of the shot, by 1 6) cast naked view through the human body as a single, please participate in the focus) work separately ; (The figure is not limited to the present invention, the present invention is described in the present invention, and the present invention is referred to as the first ισ mirror group (may be one time, more shown), and the actual invention is in the patent. Dynamic or 3D still image self-timer 'and the projection system is the shadow system (2 3 ) and the 'where a B light is passed by the fixed focus lens group (2 2, the B light passes the one or two The projection end (1 5, or 3D still image projection effect 10), the first and second projections 6 to 7 (2) and the LCD vote 1) is emitted, and the system (23) shoots and turns to the third to form a 3D dynamic mobile phone body (the parallax image of the image that is emitted, (5 0) is displayed as a picture, as shown in Figure 42 Its 6 5,7 5 ) aspherical lens, which can be used to change the value of the aspherical surface for different requirements. The above objectives can be achieved by the above details. The left and right images are transmitted through the human body (5 is synthesized, and the brain becomes a 3D standing system. The other is the same as the fixed focal length group, and the lens surface can be separately selected for use. Equivalent component description, can be cooked, has been met or defined focal light source
LED ,3 反射 的落差, 0 )視網 將具落差 體晝面。 一實施例 (62, 投影或拍 作成繞射 明,並奍 之置換仍 知本項技 專利法之 端( 經由 膜接 的二 ,其 7 2 昭之 元件 用以 應隸 藝者 規定 7 201250364 【圖式簡單說明】 第1圖:係本發明手機本體之前端面視圖。 第2圖:係本發明手機本體之背端面視圖。 第3圖:係本發明手機本體之側端面視圖。 第4圖:係本發明之第一投影組件相對第一鏡頭之拍攝實 施圖。 第5圖:係本發明之第二投影組件相對第二鏡頭之拍攝實 施圖。 第6圖:係本發明之第一投影組件相對第一投射端之投影 實施圖。 第7圖:係本發明之第二投影組件相對第二投射端之投影 貫施圖。 第8圖:係小眾觀賞3D投影顯示幕狀態。 第9圖:係人體觀賞3D投影顯示幕流程圖。 第1 0圖:係本發明之第一投影組件相對第一鏡頭之拍攝 另一實施圖。 第1 1圖:係本發明之第二投影組件相對第二鏡頭之拍攝 另一實施圖。 第1 2圖:係本發明之第一投影組件相對第一投射端之投 影另一貫施圖。 第1 3圖:係本發明之第二投影組件相對第二投射端之投 影另一實施圖。 8 201250364 【主要元件符號說明】 手機本體(1 〇 ) 第二鏡頭(1 2 ) 螢幕(1 4 ) 第二投射端(1 6 ) 光源(2 1 ) LCD投影系統(2 3 ) 自動對焦鏡組(2 5 ) 第二投影組件(3 0 ) 光源(3 1 ) LCD投影系統(3 3 ) 自動對焦鏡組(3 5 ) 3D顯示幕(4 0 ) 人體(5 0 ) 右眼(5 2 ) 光源(6 1 ) LCD投影系統(6 3 ) 非球面透鏡(6 5 ) 第二投影組件(7 0 ) 光源(7 1 ) LCD投影系統(7 3 ) 非球面透鏡(7 5 ) 第一鏡頭(1 1 ) 鍵盤(1 3 ) 第一投射端(1 5 ) 第一投影組件(2 0 定焦鏡組(2 2 ) 反射鏡(2 4 ) 感光元件(2 6 ) 定焦鏡組(3 2 ) 反射鏡(3 4 ) 感光元件(3 6 ) 左眼(5 1 ) 第一投影組件(6 0 非球面透鏡(6 2 ) 反射鏡(6 4 ) 感光元件(6 6) 非球面透鏡(7 2 ) 反射鏡(7 4 ) 感光元件(7 6 )LED, 3 reflection of the drop, 0) the network will have a drop. An embodiment (62, projection or photographing into a diffractive, and the replacement of the 仍 is still known as the end of the patented technology (via the second of the film, the 7 2 昭 之 元件 用以 应 应 7 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a front end view of the body of the mobile phone of the present invention. Fig. 2 is a rear end view of the body of the mobile phone of the present invention. Fig. 3 is a side end view of the body of the mobile phone of the present invention. The photographing implementation diagram of the first projection assembly of the present invention relative to the first lens. Fig. 5 is a photographing implementation diagram of the second projection assembly of the present invention with respect to the second lens. Fig. 6 is a view showing the first projection assembly of the present invention. The projection of the first projection end is implemented. Fig. 7 is a perspective view of the projection of the second projection assembly of the present invention with respect to the second projection end. Fig. 8 is a view of the state of the 3D projection display screen. A human body viewing 3D projection display flow chart. Fig. 10 is another embodiment of the first projection assembly of the present invention with respect to the first lens. FIG. 1 is a second projection assembly of the present invention. Shooting of the lens Figure 1 2 is another embodiment of the projection of the first projection component of the present invention relative to the first projection end. Figure 13 is a projection of the second projection component of the present invention relative to the second projection end. 8 201250364 [Description of main component symbols] Mobile phone body (1 〇) Second lens (1 2 ) Screen (1 4 ) Second projection end (1 6 ) Light source (2 1 ) LCD projection system (2 3 ) Automatic Focusing lens group (2 5 ) Second projection unit (3 0 ) Light source (3 1 ) LCD projection system (3 3 ) Autofocus lens group (3 5 ) 3D display screen (4 0 ) Human body (5 0 ) Right eye ( 5 2 ) Light source (6 1 ) LCD projection system (6 3 ) Aspherical lens (6 5 ) Second projection component (7 0 ) Light source (7 1 ) LCD projection system (7 3 ) Aspherical lens (7 5 ) One lens (1 1 ) keyboard (1 3 ) first projection end (1 5 ) first projection assembly (2 0 fixed focus lens group (2 2 ) mirror (2 4 ) photosensitive element (2 6 ) fixed focus lens group (3 2 ) Mirror (3 4 ) Photosensitive element (3 6 ) Left eye (5 1 ) First projection unit (6 0 Aspherical lens (6 2 ) Mirror (6 4 ) Photosensitive element (6 6) Aspheric lens (7 2 ) Mirror (7 4 ) Photosensitive element (7 6 )