201107813 六、發明說明: 【發明所屬之技術領域】 [0001] 本發明涉及便攜式電子裝置’尤其涉及一種可實現多角 度拍攝之便攜式電子裝置。 【先前技#ί】 [0002] 隨著多媒體技術及光學成像技術之發展,鏡頭模组於各 種成像裝置如數位相機、攝像機中得到廣泛應用,具體 可參見Rahul Swaminathan等人發表於IEEE Transac_ tions on Pattern Analysis and Machine Intel-11§611〇6’¥〇1.22’1.10,0(:1;〇1)61: 2000 中之文獻 Nonmetric calibration of wide-angle lenses and polycameras。人們對數位相機、攝像機及手機攝 像頭拍攝物體之專產品需求量增加之同時,對數位相機 、攝像機及帶有攝像頭之手機拍攝之影像品質亦提出更 高要求。 _目前’具有拍攝功能之手機、筆記本電腦及顯示幕等電 子裝置所配置之鏡頭模組,普遍為單軸向旋轉式,可拍 攝角度範圍比較有限。於此情況下,為獲得更大之拍攝 角度或滿足某些特定角度之拍攝要求,_般需要移動產 品如手機、筆記本電腦及顯示幕等電子產品之整台機身 ’使得使用者不易直接藉由觀察電子產品之顯示幕,來 判斷拍攝效果,以選擇對鏡頭模組進行調整並獲得較佳 品質之拍攝,從而既造成操作之不便,使得產品使用便 利性降低’又難以保證拍攝品質。 【發明内容】 098128920 表單編號A0101 第4頁/共18頁 0982049591-0 201107813 [0004] [0005] Ο [0006] G [0007] 有鑑於此,提供一種可實現多角度拍攝之便攜式電子裝 置實屬必要。 一種便攜式電子裝置,其包括電子裝置本體、複數滚珠 、鏡頭及承栽座體。所述電子裝置本體開設有一收容空 間以及複數與所述收容空間相連通之收容槽。所述複數 滾珠分別收容於複數收容槽中。所述鏡頭用於接收光線 進行成像。所述承載座體藉由複數滾珠可轉動地收容於 所述收容空間内。所述承載座體具有相對之内表面及外 表面。所述内表面圍合形成一敗容孔,所述鏡頭固設於 所述收容孔。所述外表面為球面,其與複數滾珠相接觸 ,以使承载座碰藉由複數滾珠之滾動而於收容空間内相 對於電子裝置本體轉動。 本技術方案之便攜式電子裝置採用多顆泼珠,使鏡頭可 相對於電子裝置本體旋轉,從而改變成像元件與所述本 體之相對位置而實現多角度拍攝,結構簡單且便於操作 〇 【實施方式】 下面將結合附圖及複數實施例對本技術方案之便攜式電 子裝置作進一步之詳細說明。 [0008] 請-併參閱圖1至圖3 ’為本技術方案第一實施例提供之 便攜式電子裝置1G,其包括電子裝置本體u、複數滾珠 13、承載座體15、成像單元17及止擋蓋19。 所述電子裝置本體11與成像單元17相連接,用於顯示成 像單TG17之成像。電子裝置本體u可為具有攝像功能之 098128920 表單編號A0101 第5頁/共18頁 [0009] 201107813 電子裝置除攝像頭以外之結構,亦可為不具有攝像功能 之電子裝置。例如’電子裝置本體11可為不具有攝像功 能之手機、筆記本電腦及音樂播放器等電子裝置之包括 殼體、螢幕、鍵盤以及殼體内之工作器件之結構。所述 電子裝置本體11具有相對之第一表面110及第二表面111 °所述電子裝置本體11還具有收容空間112。所述收容空 • 間112為自第一表面110向第二表面111方向開設之盲槽 (即底部未打穿之凹槽),其包括相連通之第—槽113及 第二槽114。本實施例中,所述收容空間112之第一槽 11 3及第二槽π4均為方形〆當然,所述第一槽丨丨3及第 二槽114並不限制為方形。所述第一槽113包括相連接之 側壁115及底壁116,其中,所述底壁116平行於第一表 面110,所述側壁115連接於第一表面11〇及底壁116之間 。所述第二槽114為自底壁116向第二表面111方向開設 之盲槽。所述第二槽114内還具有用於收容複數滚珠13之 複數收容槽117。每一收容槽117均具有接觸面118,所 述接觸面118為與所述滚珠13相匹配之曲面。本實施例中 ,所述複數收容槽117為四個。 [0010] 所述複數滚珠13分別收容於複數收容槽117中。每一滚珠 13均與與之對應之收容槽117之接觸面118相接觸。優選 地,所述複數滾珠13環繞所述承載座體15等間距分佈。 本實施例中,與所述複數收容槽117相對應地,所述滚珠 13亦為四個。當然,所述收容槽117及滾珠13之數量並不 限於為四個,僅需複數滾珠13可支撐承載座體15即可。 [0011] 所述承載座體15藉由複數滾珠13可轉動地收容於所述收 098128920 表單編號A0101 第6頁/共18頁 0982049591-0 201107813 容空間112内。所述承載座體15具有相對之外表面150及 内表面151。所述外表面150為球面’其與所述收各空間 112相對並與所述複數滚珠13相接觸,從而承載座體丨5藉 由複數滚珠13之滾動而於收容空間112内相對於電子裝置 本體11轉動。所述内表面151圍合形成一收容孔152。所 述承載座體15開設有一連通於所述收容孔1 52之通光孔 153。所述通光孔153可為圓形,其貫穿所述外表面 及内表面151,用於供光線通過。本實施例中’所述内表 面151亦為球面。 Ο [0012] Ο 所述成像單元17收溶於梅述承載▲體15之收容孔152,用 於接收穿過通光孔153之光線進行成像。本實施例中,所 述成像單元17與所述内表面151線接觸。所述成像單元17 包括鏡頭170、鏡頭承載座171、影像感測器172及電路 板173。所述鏡頭170可包括鏡筒及收容於鏡筒内之用於 進行光學成像之光學成像元件。所述鏡頭170具有光圈孔 174用於供成像光線進八。所述鏡頭17〇穿過所述承載座 體15之通光孔153並與所述承载座體15靠近通光孔153邊 緣處與内表面151線接觸,鏡頭170可藉由線上接觸之部 位進行點膠之方式而固定於外表面15〇之内表面151。所 述鏡頭170靠近像侧之一端收容於所述收容孔152内。所 述鏡頭170靠近物側之端部暴露於所述承載座體π之收容 孔152外。所述鏡頭承載座171包括相連通之第一收容腔β 175及第二收容腔176。所述鏡頭17〇收容於所述第一收 容腔175。所述影像感測器172收容於所述第二收容腔 176。所述影像感測器172與所述鏡頭17〇光學輛合影 098128920 表單編號Α0101 第7頁/共18頁 0982049591-0 201107813 像感測器1 72可為電荷麵合感測器(Charge Coupled Device,CCD)或互補金屬氧化物半導體感測器 (Complementary Meta 1-Oxide-Semiconductor * CMOS),用於將鏡頭i7〇之光學成像轉換為電訊號。所述 電路板173固定於所述鏡頭承載座171之第二收容腔176 之外部,且與所述影像感測器172電連接,用於將所述影 像感測器172之電訊號輸出至電子裝置本體11。 [0013]所述止擋蓋19用於封閉所述收容空間112。所述止擂蓋19 包括相連接之主體部190及連接部191。所述主體部190 恰可容置於所述收容空間112之第·-槽113。所述主體部 19 0具有相對之第一端面192及第二端面19'3.。所述第一 端面192位於遠離連接部191之一側。所述連接部191連 接於所述第二端面193。所述連接部191具有遠離主體部 190之第二端面194。所述第一端面192.與所述電子裝置 本體11之第一表面11平齊,所述第二端面193與所述第一 • 士 .η '1: - 槽113之底壁116相接觸。所述第三遞面194位於收容空 間112内。所述連锋部19丨恰可容置於所述收容空間Η〗 之第二槽114。所述止擋蓋19還開設有貫通孔195,所述 貫通孔195為自所述主體部19 0之第一端面192向連接部 191之第三端面194開設之通孔。所述承載座體15遠離通 光孔153之部分收谷於收容空間112内,所述承載座體15 靠近通光孔153之部分藉由貫穿孔195突出於收容空間 112外。所述貫通孔195具有與所述承載座體15之外表面 150相配合接觸之配合面196。所述配合面196為曲面。 所述止擋蓋19可為軟性材質,例如為橡膠。 098128920 表單編號Α0101 第8頁/共18頁 0982049591-0 201107813 [0014] Ο 案第—實施例提供之便攜式電子裝置 仃拍攝’當需要難拍攝角度時, 成像單元η突出於所述承載座體15之部二:轉所:載 續15與魏料13發生相互料作用,複錢珠咖 收各槽1Π内旋轉,成像單元17與承載座體15_起相對於 電子裝置本體11旋轉。此時,使用者可方便地觀察電子、 裴置本體11之顯示幕並判斷成像單元17係否到達所需要 之拍攝角度,若已到達所需要之拍攝角度,可停止旋轉 。承載座體15受到複數滾珠13以及止擋蓋19提供之支撐 力平衡時,即可實現成像單元17輿承載座體15定位於電 子裝置本體11之某一相對位置。.201107813 VI. Description of the Invention: [Technical Field] The present invention relates to a portable electronic device', and more particularly to a portable electronic device capable of achieving multi-angle shooting. [0002] [0002] With the development of multimedia technology and optical imaging technology, lens modules are widely used in various imaging devices such as digital cameras and video cameras. For details, see Rahul Swaminathan et al., IEEE Transac_ tions on Pattern Analysis and Machine Intel-11§611〇6'¥〇1.22'1.10,0(:1;〇1)61: 2000 documents Nonmetric calibration of wide-angle lenses and polycameras. While the demand for specialized products for digital cameras, camcorders, and mobile phone cameras has increased, the image quality of digital cameras, camcorders, and mobile phones with cameras has also been raised. _Currently, lens modules equipped with electronic devices such as mobile phones, notebook computers, and display screens with shooting functions are generally uniaxially rotated, and the range of shooting angles is limited. In this case, in order to obtain a larger shooting angle or to meet the shooting requirements of certain angles, it is difficult to directly borrow the entire body of electronic products such as mobile phones, notebook computers and display screens. By observing the display screen of the electronic product, the shooting effect is judged, and the lens module is selected to be adjusted and the photograph of the better quality is obtained, thereby causing the inconvenience of the operation and making the use ease of the product low, and it is difficult to ensure the photographing quality. SUMMARY OF THE INVENTION 098128920 Form No. A0101 Page 4 of 18 0982049591-0 201107813 [0004] [0006] G [0007] In view of this, a portable electronic device capable of realizing multi-angle shooting is provided. necessary. A portable electronic device includes an electronic device body, a plurality of balls, a lens, and a carrier body. The electronic device body defines a receiving space and a plurality of receiving slots communicating with the receiving space. The plurality of balls are respectively housed in a plurality of receiving slots. The lens is used to receive light for imaging. The carrier body is rotatably received in the receiving space by a plurality of balls. The carrier body has opposite inner and outer surfaces. The inner surface is enclosed to form a smashed hole, and the lens is fixed to the receiving hole. The outer surface is a spherical surface that is in contact with the plurality of balls to cause the carrier to rotate relative to the body of the electronic device in the receiving space by rolling of the plurality of balls. The portable electronic device of the technical solution adopts a plurality of splashing beads, so that the lens can be rotated relative to the electronic device body, thereby changing the relative position of the imaging element and the body to achieve multi-angle shooting, and the structure is simple and convenient to operate. [Embodiment] The portable electronic device of the present technical solution will be further described in detail below with reference to the accompanying drawings and the embodiments. [0008] Please refer to FIG. 1 to FIG. 3 'a portable electronic device 1G according to a first embodiment of the present invention, which includes an electronic device body u, a plurality of balls 13, a carrier body 15, an imaging unit 17, and a stop. Cover 19. The electronic device body 11 is connected to the imaging unit 17 for displaying imaging of the imaging unit TG17. The electronic device body u can be a camera function 098128920 Form No. A0101 Page 5 of 18 [0009] 201107813 The electronic device can be an electronic device without a camera function, in addition to the camera. For example, the electronic device body 11 may be a structure including a casing, a screen, a keyboard, and a working device in the casing of an electronic device such as a mobile phone, a notebook computer, and a music player that do not have an imaging function. The electronic device body 11 has a first surface 110 and a second surface 111. The electronic device body 11 further has a receiving space 112. The receiving space 112 is a blind groove (ie, a groove that is not pierced at the bottom) that is opened from the first surface 110 toward the second surface 111, and includes a first groove 113 and a second groove 114 that communicate with each other. In this embodiment, the first slot 11 3 and the second slot π4 of the receiving space 112 are both square. Of course, the first slot 3 and the second slot 114 are not limited to a square shape. The first groove 113 includes a connecting side wall 115 and a bottom wall 116, wherein the bottom wall 116 is parallel to the first surface 110, and the side wall 115 is connected between the first surface 11 and the bottom wall 116. The second groove 114 is a blind groove extending from the bottom wall 116 toward the second surface 111. The second groove 114 further has a plurality of receiving grooves 117 for receiving the plurality of balls 13. Each of the receiving slots 117 has a contact surface 118 which is a curved surface matching the balls 13. In this embodiment, the plurality of storage slots 117 are four. [0010] The plurality of balls 13 are respectively accommodated in the plurality of receiving grooves 117. Each of the balls 13 is in contact with a contact surface 118 of the corresponding receiving groove 117. Preferably, the plurality of balls 13 are equally spaced around the carrier body 15. In this embodiment, the number of the balls 13 is four in correspondence with the plurality of receiving grooves 117. Of course, the number of the receiving slots 117 and the balls 13 is not limited to four, and only a plurality of balls 13 are required to support the carrier body 15. [0011] The carrier body 15 is rotatably received by the plurality of balls 13 in the receiving space 098128920 Form No. A0101 Page 6 / 18 pages 0982049591-0 201107813. The carrier body 15 has an opposite outer surface 150 and an inner surface 151. The outer surface 150 is a spherical surface that is opposite to the receiving space 112 and is in contact with the plurality of balls 13 , so that the carrier body 5 is rolled in the receiving space 112 relative to the electronic device by rolling of the plurality of balls 13 The body 11 rotates. The inner surface 151 encloses a receiving hole 152. The carrier body 15 defines a light-passing hole 153 communicating with the receiving hole 152. The light passing hole 153 may be circular, which penetrates the outer surface and the inner surface 151 for light to pass therethrough. In the present embodiment, the inner surface 151 is also a spherical surface.成像 [0012] The image forming unit 17 is dissolved in the receiving hole 152 of the body ▲ body 15 for receiving the light passing through the light passing hole 153 for imaging. In the present embodiment, the imaging unit 17 is in line contact with the inner surface 151. The imaging unit 17 includes a lens 170, a lens holder 171, an image sensor 172, and a circuit board 173. The lens 170 can include a lens barrel and an optical imaging element for optical imaging contained within the lens barrel. The lens 170 has an aperture aperture 174 for imaging light into eight. The lens 17 passes through the light-passing hole 153 of the carrier body 15 and is in line contact with the inner surface 151 at the edge of the light-passing hole 153 of the carrier body 15, and the lens 170 can be contacted by the line contact portion. The inner surface 151 of the outer surface 15 is fixed by means of dispensing. The lens 170 is received in the receiving hole 152 near one end of the image side. The end of the lens 170 near the object side is exposed outside the receiving hole 152 of the carrier body π. The lens carrier 171 includes a first receiving cavity β 175 and a second receiving cavity 176 that are in communication. The lens 17 is received in the first receiving cavity 175. The image sensor 172 is received in the second receiving cavity 176. The image sensor 172 and the lens 17 〇 optical vehicle 098128920 Form No. 101 0101 Page 7 / 18 pages 0982049591-0 201107813 The image sensor 1 72 can be a Charge Coupled Device (Charge Coupled Device, CCD) or Complementary Meta 1-Oxide-Semiconductor * CMOS for converting optical imaging of lens i7 to electrical signals. The circuit board 173 is fixed to the outside of the second receiving cavity 176 of the lens holder 171, and is electrically connected to the image sensor 172 for outputting the electrical signal of the image sensor 172 to the electronic device. Device body 11. The stop cover 19 is for closing the receiving space 112. The shackle cover 19 includes a body portion 190 and a connecting portion 191 that are connected. The main body portion 190 can be accommodated in the first slot 113 of the receiving space 112. The main body portion 19 has an opposite first end surface 192 and a second end surface 19'3. The first end surface 192 is located away from one side of the connecting portion 191. The connecting portion 191 is connected to the second end surface 193. The connecting portion 191 has a second end surface 194 that is away from the body portion 190. The first end surface 192. is flush with the first surface 11 of the electronic device body 11, and the second end surface 193 is in contact with the bottom wall 116 of the first .n '1:-slot 113. The third transfer surface 194 is located within the containment space 112. The continuous portion 19丨 can be accommodated in the second slot 114 of the receiving space. The stopper cover 19 is further provided with a through hole 195 which is a through hole which is opened from the first end surface 192 of the main body portion 19 0 to the third end surface 194 of the connecting portion 191. A portion of the carrier body 15 away from the light-passing hole 153 is received in the receiving space 112. A portion of the carrier body 15 adjacent to the light-passing hole 153 protrudes outside the receiving space 112 through the through hole 195. The through hole 195 has a mating surface 196 that mates with the outer surface 150 of the carrier body 15. The mating surface 196 is a curved surface. The stop cover 19 can be a soft material such as rubber. 098128920 Form No. 101 0101 Page 8 / 18 pages 0982049591-0 201107813 [0014] The portable electronic device provided in the first embodiment is photographic. When the difficult angle of shooting is required, the imaging unit η protrudes from the carrier body 15 The second part: the transfer station: the load 15 and the Wei material 13 have mutual effects, and the re-balls are rotated within 1 inch of each slot, and the imaging unit 17 and the carrier body 15_ rotate relative to the electronic device body 11. At this time, the user can conveniently observe the display screen of the electronic device and the body 11 and determine whether the imaging unit 17 has reached the required shooting angle. If the required shooting angle has been reached, the rotation can be stopped. When the carrier body 15 is balanced by the support of the plurality of balls 13 and the stopper cover 19, the imaging unit 17 can be positioned at a relative position of the electronic device body 11 by the carrier body 15. .
[0015]本技術方案第一實施例之便播式電子裝置1〇將成像元件 15設置於承載座體15内,藉由改變承載座體15與所述電 子裝置本體11之相對位置而實現多角度拍攝。採用多顆 滾珠13使所述承載座體15與電子裝置本體11之間相互配 合,結構簡單且便於操作。s,, 〇 [0016] 可理解,還可將多顆滾珠13換成磁性元件,該磁性元件 可包括設置於承載座體15之一第一磁性元件及設置於電 子裝置本體11之複數第二磁性元件’第一磁性元件為永 磁鐵,複數第二磁性元件可均為電磁鐵’如此,藉由控 制電磁鐵内電流之大小及方向亦可實現成像單元17之旋 轉。若複數第二磁性元件中有一為永磁鐵’還可於第二 磁性元件中不通入電流時,將該成像單元17定位。 [0017] 請參閱圖4,本技術方案第二實施例之便攜式電子裝置20 與第一實施例之大致相同’其區別在於’所述承載座體 098128920 表單編號A0101 第9頁/共18頁 0982049591-0 201107813 [0018] [0019] [0020] [0021] [0022] 25之内表面251包括相連接之側面254及底面255。所述 收谷孔252之橫截面為矩形,縱截面為圓形。所述成像單 元27僅包括鏡頭270、影像感測器272及電路板273,所 述鏡頭270、影像感測器272及電路板273均收容於所述 承載座體25之收容孔252内並與内表面251面接觸。 使用本技術方案第二實施例提供之便攜式電子裝置進 行拍攝,當需要調整拍攝角度時,僅需握持並旋轉所述 鏡頭270突出於所述承載座韹25之部分,從而,承載座體 25與複數滾珠23發生相互摩擦作用,複數滾珠23於容置 槽217内旋轉,承載座艘25與鏡頭270 —起相對於電子裝 置本趙21㈣。此時,使聽可方便地觀察顯示幕並判 斷成像單元27係否到達所需要之拍攝角度,若已到達所 需要之拍攝角度,可停止旋轉。 本技術方案第二實施例之便攜式電子裝置2〇之成像單元 27可省去鏡頭承載座,更加簡化了結構。 综上所述,本發明確已符合發明專利之要件,遂依法提 出專利申請。惟,以上所述者僅為本發明之較佳實施方 式,自不可此限制本案之申請專利範圍。舉凡熟悉本案 技藝之人士援依本發明之精神所作之等效修飾或變化, 皆應涵蓋於以下申請專利範圍内。 【圖式簡單說明】 圖1係本技術方案第一實施例提供之便攜式電子裝置之結 構示意圖。 圖2係本技術方案第一實施例提供之便攜式電子裝置之分 098128920 表單編號A0101 第10頁/共18頁 0982049591-0 201107813 解示意圖。 [0023] 圖3係圖1沿ni-IU線之剖視圖。 [0024] 圖4係本技術方案第二實施例提供之便攜式電子裝置之剖 面示意圖。 【主要元件符號說明】 [0025] 便攜式電子裝 置 10、20 電子裝置本體 11 ' 21 多顆滾珠 13、23 承載座體 15、25 成像單元 17、27 止擋蓋 19 第一表面 110 第二表面 111 收容空間 112 1 第一槽 113 第二槽 114 £ 彳 側壁 115 底壁 116 收容# 117、217 接觸面 118 外表面 150 内表面 151 ' 251 收容巩^ 152 > 252 通光孔 153 鏡頭 170 ' 270 鏡頭承載座 171 影像感測器 172 、 272 電路板 173 、 273 光圈孔 174 第一收容腔 175 第二收容腔 176 主體部 190 連接部 191 第一端面 192 第二端面 193 第三端面 194 孔 195 配合面 196 側面 254 底面 255 Ο 〇 098128920 表單編號A0101 第11頁/共18頁 0982049591-0[0015] The portable electronic device 1 of the first embodiment of the present invention provides the imaging element 15 in the carrier body 15, and is realized by changing the relative position of the carrier body 15 and the electronic device body 11. Angle shooting. The carrier body 15 and the electronic device body 11 are coupled to each other by a plurality of balls 13, and the structure is simple and easy to operate. s, 〇 [0016] It can be understood that a plurality of balls 13 can be replaced with a magnetic element, and the magnetic element can include a first magnetic element disposed on the carrier body 15 and a plurality of second portions disposed on the electronic device body 11 The magnetic element 'the first magnetic element is a permanent magnet, and the plurality of second magnetic elements may all be an electromagnet'. The rotation of the imaging unit 17 can also be achieved by controlling the magnitude and direction of the current in the electromagnet. If one of the plurality of second magnetic elements is a permanent magnet, and the current is not supplied to the second magnetic element, the imaging unit 17 is positioned. Referring to FIG. 4, the portable electronic device 20 of the second embodiment of the present technical solution is substantially the same as that of the first embodiment. The difference is that the carrier body 098128920 is formed on the form number A0101. Page 9/18 pages 0982049591 [0018] [0022] [0022] The inner surface 251 of the 25 includes a joined side 254 and a bottom surface 255. The valley hole 252 has a rectangular cross section and a circular cross section. The imaging unit 27 includes only the lens 270, the image sensor 272, and the circuit board 273. The lens 270, the image sensor 272, and the circuit board 273 are respectively received in the receiving holes 252 of the carrier body 25 and The inner surface 251 is in surface contact. The portable electronic device provided by the second embodiment of the present invention is used for photographing. When it is necessary to adjust the photographing angle, it is only necessary to hold and rotate the portion of the lens 270 protruding from the carrying pocket 25, thereby the carrier body 25 The plurality of balls 23 rotate with each other, and the plurality of balls 23 rotate in the accommodating groove 217, and the carrier 25 and the lens 270 are opposite to the electronic device Ben 21 (four). At this time, it is possible to easily observe the display screen and determine whether or not the imaging unit 27 has reached the required shooting angle, and if the required shooting angle has been reached, the rotation can be stopped. The imaging unit 27 of the portable electronic device 2 of the second embodiment of the present invention can omit the lens carrier, which simplifies the structure. In summary, the present invention has indeed met the requirements of the invention patent, and the patent application is filed according to law. However, the above description is only a preferred embodiment of the present invention, and the scope of the patent application in this case cannot be limited. Equivalent modifications or variations made by those skilled in the art to the spirit of the invention are intended to be included within the scope of the following claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram showing the structure of a portable electronic device according to a first embodiment of the present technical solution. FIG. 2 is a diagram of a portable electronic device according to a first embodiment of the present technical solution. 098128920 Form No. A0101 Page 10 of 18 0982049591-0 201107813 Schematic diagram. 3 is a cross-sectional view of FIG. 1 taken along line ni-IU. 4 is a schematic cross-sectional view of a portable electronic device according to a second embodiment of the present technical solution. [Main component symbol description] [0025] Portable electronic device 10, 20 Electronic device body 11' 21 Multiple balls 13, 23 Carrier body 15, 25 Imaging unit 17, 27 Stop cover 19 First surface 110 Second surface 111 Containing space 112 1 First slot 113 Second slot 114 £ 彳 Side wall 115 Bottom wall 116 Containment # 117, 217 Contact surface 118 Outer surface 150 Inner surface 151 ' 251 Containment ball 152 > 252 Light-passing hole 153 Lens 170 ' 270 Lens carrier 171 image sensor 172, 272 circuit board 173, 273 aperture hole 174 first receiving cavity 175 second receiving cavity 176 body portion 190 connecting portion 191 first end face 192 second end face 193 third end face 194 hole 195 fit Face 196 Side 254 Bottom 255 Ο 〇098128920 Form No. A0101 Page 11 of 18 0982049591-0