TWI802106B - Electronic device and image capturing method thereof - Google Patents

Abstract

An electronic device including a first body, a first camera module, a second body, and a reflective cover is provided. The first body has a first end, a second end, a first display surface, and an outer surface. The first display surface is disposed between the first end and the second end. The outer surface is opposite to the first display surface. The first camera module is near to the first end of the first body and locates outside the first display surface. The second body is pivotably connected to the second end of the first body and has an operation surface. The reflective cover is rotatably connected to the first end of the first body and has a reflective surface. When the reflective cover is folded to the first display surface, the first camera module is covered by the reflective surface. When the reflective cover is unfolded to a specific angle, the first camera module is exposed by the reflective cover.

Description

電子裝置及其影像擷取方法Electronic device and image capturing method thereof

本發明是有關於一種電子裝置，且特別是有關於一種電子裝置及其影像處理方法。The present invention relates to an electronic device, and in particular to an electronic device and an image processing method thereof.

現有技術的筆記型電腦已廣泛結合相機模組，通常將相機模組擺放在顯示機體的外殼且面向使用者，使用者透過相機模組進行自拍或是直播以獲取使用者的圖片或即時影像，且透過網際網路將圖片或即時影像分享至雲端，藉此達成遠端交流或視訊會議等活動，人與人之間無需近距離接觸。Notebook computers in the prior art have been widely combined with camera modules. Usually, the camera module is placed on the casing of the display body and faces the user. The user uses the camera module to take a selfie or live broadcast to obtain the user's picture or real-time video. , and share pictures or real-time images to the cloud through the Internet, so as to achieve remote communication or video conferencing and other activities, without close contact between people.

然而，現有相機模組的拍攝視角僅適用於面向相機模組的區域，因此現有相機模組無法擴展其拍攝角度。此外，當相機模組遭網路駭客入侵時，也存在個人資訊外流的隱私風險。However, the shooting angle of the existing camera module is only applicable to the area facing the camera module, so the existing camera module cannot expand its shooting angle. In addition, when the camera module is invaded by cyber hackers, there is also a privacy risk of personal information leakage.

有鑑於此，發展一種能擴展拍攝角度以及降低隱私風險的相機模組即成為未來的發展目標。In view of this, developing a camera module that can expand shooting angles and reduce privacy risks becomes a future development goal.

本發明提供一種電子裝置，其反射蓋適於展開至不同角度，以切換為特定的拍攝模式，此外反射蓋也具備隱私保護功能。The invention provides an electronic device, the reflective cover of which is suitable to be unfolded to different angles to switch to a specific shooting mode, and the reflective cover also has a privacy protection function.

本發明的電子裝置，包括一第一機體、一第一相機模組、一第二機體以及一反射蓋。第一機體具有一第一端、一第二端、一第一顯示面以及一外表面。第二端相對第一端，第一顯示面配置於第一端與第二端之間，外表面相對於第一顯示面。第一相機模組鄰近於第一機體的一第一端且位在第一顯示面的外圍。第二機體樞接於連接第一機體的第二端且具有一操作面。反射蓋可轉動地連接第一機體的第一端，反射蓋具有一反射面。當反射蓋閉合於第一顯示面時，反射面覆蓋第一相機模組，當反射蓋相對第一機體旋開至一預定角度時，反射蓋曝露第一相機模組。The electronic device of the present invention includes a first body, a first camera module, a second body and a reflection cover. The first body has a first end, a second end, a first display surface and an outer surface. The second end is opposite to the first end, the first display surface is disposed between the first end and the second end, and the outer surface is opposite to the first display surface. The first camera module is adjacent to a first end of the first body and is located on the periphery of the first display surface. The second body is pivotally connected to the second end of the first body and has an operating surface. The reflective cover is rotatably connected to the first end of the first body, and the reflective cover has a reflective surface. When the reflective cover is closed on the first display surface, the reflective surface covers the first camera module, and when the reflective cover is unscrewed relative to the first body to a predetermined angle, the reflective cover exposes the first camera module.

本發明提供一種電子裝置的影像擷取方法，適於切換為掃描模式或自拍模式，用以拍攝不同角度的影像。The invention provides an image capturing method of an electronic device, which is suitable for switching to a scanning mode or a Selfie mode, and is used to capture images from different angles.

本發明的電子裝置的影像擷取方法，其中一電子裝置包括一第一機體、一第二機體、一第一相機模組、一反射蓋以及一運算單元，第一相機模組設置於第一機體的一第一端，第二機體樞接於第一機體相對第一端地的一第二端，反射蓋可轉動地連接第一機體的第一端，反射蓋適於覆蓋第一相機模組，影像擷取方法包括：第一機體的一第一顯示面顯示一相機圖形介面；相機圖形介面接收一啟動指令；運算單元根據啟動指令啟動第一相機模組；第一顯示面顯示一掃描模式圖形介面或一自拍模式圖形介面；掃描模式圖形介面或一自拍模式圖形介面接收一選擇指令；運算單元根據選擇指令對應切換至一掃描模式或一自拍模式；當電子裝置為掃描模式或自拍模式時，反射蓋相對第一機體旋開至一預定角度，且反射蓋曝露第一相機模組；以及第一相機模組產生至少一影像圖片。In the image capturing method of an electronic device of the present invention, an electronic device includes a first body, a second body, a first camera module, a reflection cover and a computing unit, and the first camera module is arranged on the first A first end of the body, the second body is pivotally connected to a second end of the first body opposite to the first end, the reflection cover is rotatably connected to the first end of the first body, the reflection cover is suitable for covering the first camera module The image capture method includes: a first display surface of the first body displays a camera graphic interface; the camera graphic interface receives a startup command; the computing unit starts the first camera module according to the startup command; the first display surface displays a scanning mode graphic interface or a self-timer mode graphic interface; the scanning mode graphic interface or a self-timer mode graphic interface receives a selection command; the computing unit switches to a scanning mode or a self-timer mode according to the selection command; when the electronic device is in the scanning mode or the self-timer mode At this time, the reflective cover is unscrewed to a predetermined angle relative to the first body, and the reflective cover exposes the first camera module; and the first camera module generates at least one image picture.

基於上述，本發明的電子裝置，具有可轉動的反射蓋，在使用時，反射蓋相對第一機體旋轉以展開至一預定角度並切換至掃描模式，反射蓋部份遮擋第一相機模組，使得第一相機模組透過反射面拍攝操作面，或是反射蓋相對第一機體旋轉以展開至預定角度並切換至自拍模式，此時第一相機模組完全曝露在反射蓋外，使用者透過第一相機模組進行自拍。Based on the above, the electronic device of the present invention has a rotatable reflective cover. When in use, the reflective cover is rotated relative to the first body to expand to a predetermined angle and switch to the scanning mode. The reflective cover partially blocks the first camera module. Make the first camera module take pictures of the operation surface through the reflective surface, or rotate the reflective cover relative to the first body to expand to a predetermined angle and switch to the self-timer mode. At this time, the first camera module is completely exposed outside the reflective cover, and the user can The first camera module takes a selfie.

此外，當反射蓋閉合於第一機體時，將覆蓋第一相機模組，達成隱私保護功能。In addition, when the reflective cover is closed on the first body, it will cover the first camera module to achieve a privacy protection function.

參考圖1A至圖1C，本發明的電子裝置100，包括一第一機體110、一第一相機模組120、一第二機體130以及一反射蓋140。Referring to FIGS. 1A to 1C , the electronic device 100 of the present invention includes a first body 110 , a first camera module 120 , a second body 130 and a reflective cover 140 .

第一機體110為顯示機體且具有一第一端E1、一第二端E2、一第一顯示面111以及一外表面112。第二端E2相對第一端E1，第一顯示面111配置於第一端E1與第二端E2之間，外表面112相對於第一顯示面111。其中第一顯示面111用以輸出圖像及各類圖形介面，則使用者可透過滑鼠指標或觸控點選所需的圖形介面，藉此達成相應的控制。第一相機模組120鄰近於第一機體110的第一端E1且位在第一顯示面111的外圍，於本實施例中，第一相機模組120位在第一顯示面111上緣且第一相機模組120用以拍攝動態影像或靜態圖片並將其顯示在第一機體110的第一顯示面111中。The first body 110 is a display body and has a first end E1 , a second end E2 , a first display surface 111 and an outer surface 112 . The second end E2 is opposite to the first end E1 , the first display surface 111 is disposed between the first end E1 and the second end E2 , and the outer surface 112 is opposite to the first display surface 111 . Wherein the first display surface 111 is used for outputting images and various graphical interfaces, and the user can select a desired graphical interface through a mouse pointer or touch, thereby achieving corresponding control. The first camera module 120 is adjacent to the first end E1 of the first body 110 and is located on the periphery of the first display surface 111. In this embodiment, the first camera module 120 is located on the upper edge of the first display surface 111 and The first camera module 120 is used for taking dynamic images or still pictures and displaying them on the first display surface 111 of the first body 110 .

參考圖1A至圖1C，第二機體130樞接於第一機體110的第二端E2且具有一操作面131。進一步而言，操作面131具有一第二顯示面，用以輸出圖像。於本實施例中，第二機體130透過一樞軸結構而樞接於第一機體110，且第一機體110與第二機體130為相互展開以切換為使用狀態，進一步而言，第一機體110與第二機體130也可相互折疊以切換為收納狀態(未示於圖中)。此外，第二機體130的操作面131可採用觸控面板或是放置外接的鍵盤供使用者輸入指令。Referring to FIGS. 1A to 1C , the second body 130 is pivotally connected to the second end E2 of the first body 110 and has an operating surface 131 . Furthermore, the operation surface 131 has a second display surface for outputting images. In this embodiment, the second body 130 is pivotally connected to the first body 110 through a pivot structure, and the first body 110 and the second body 130 are mutually unfolded to switch to the use state. Further, the first body 110 and the second body 130 can also be folded to switch to a storage state (not shown in the figure). In addition, the operating surface 131 of the second body 130 can be a touch panel or an external keyboard for users to input commands.

參考圖2A及圖2B，反射蓋140可轉動地連接第一機體110的第一端E1且適於遮擋或曝露第一相機模組120，反射蓋140具有一反射面141及一相對反射面141的背面142。Referring to FIG. 2A and FIG. 2B, the reflective cover 140 is rotatably connected to the first end E1 of the first body 110 and is suitable for covering or exposing the first camera module 120. The reflective cover 140 has a reflective surface 141 and an opposite reflective surface 141. 142 on the back.

參考圖1B及圖1C，當反射蓋140閉合於第一機體110的第一端E1時，反射蓋140的反射面141覆蓋第一相機模組120，且反射蓋140的背面142遠離第一相機模組120。當第一相機120被反射蓋140遮蔽時，由於反射面141及背面142皆為不透光材質，故能阻斷第一相機模組120的拍攝視角，無論第一相機模組120是否啟動，均能達成隱私保護的功效。1B and 1C, when the reflective cover 140 is closed at the first end E1 of the first body 110, the reflective surface 141 of the reflective cover 140 covers the first camera module 120, and the back surface 142 of the reflective cover 140 is away from the first camera. Module 120. When the first camera 120 is covered by the reflective cover 140, since the reflective surface 141 and the back surface 142 are made of opaque materials, the shooting angle of the first camera module 120 can be blocked, no matter whether the first camera module 120 is activated or not. Both can achieve the effect of privacy protection.

參考圖2A及圖2B，當反射蓋140相對第一機體110展開一第一角度A1時，第二機體130產生一影像光路IP，且影像光路IP從操作面131傳播至反射蓋140的反射面141並反射至第一相機模組120。簡言之，影像光路IP由第二機體130反射環境光或經由操作面131發出的光源所形成，且影像光路IP經由反射面141而傳播至第一相機模組120，第一相機模組120藉此拍攝顯示於操作面131上的物件影像或擺放於操作面131上的物件影像。簡言之，第一相機110經由反射蓋140的反射取得操作面131的影像。Referring to FIG. 2A and FIG. 2B, when the reflective cover 140 is unfolded at a first angle A1 relative to the first body 110, the second body 130 generates an image optical path IP, and the image optical path IP propagates from the operation surface 131 to the reflective surface of the reflective cover 140. 141 and reflected to the first camera module 120. In short, the image light path IP is formed by the second body 130 reflecting ambient light or the light source emitted through the operation surface 131, and the image light path IP is transmitted to the first camera module 120 through the reflection surface 141, and the first camera module 120 In this way, the image of the object displayed on the operation surface 131 or the image of the object placed on the operation surface 131 is captured. In short, the first camera 110 obtains an image of the operation surface 131 through the reflection of the reflective cover 140 .

參考圖3A及圖3B，當反射蓋140相對第一機體110展開大於第一角度A1的一第二角度A2時，反射蓋140曝露第一相機模組120。簡言之，反射蓋140不再遮擋第一相機模組120，則第一相機模組120的視角V適用於拍攝位在第一機體110前方的環境場景。當啟動第一相機模組120時，第一相機模組120將所拍攝的影像圖片顯示於第一顯示面111。Referring to FIG. 3A and FIG. 3B , when the reflective cover 140 expands a second angle A2 greater than the first angle A1 relative to the first body 110 , the reflective cover 140 exposes the first camera module 120 . In short, the reflective cover 140 no longer blocks the first camera module 120 , so the viewing angle V of the first camera module 120 is suitable for photographing the environmental scene in front of the first body 110 . When the first camera module 120 is activated, the first camera module 120 displays the captured images on the first display surface 111 .

此外，藉由調整反射蓋140與第一機體110之間的角度大小，將改變第一相機模組120的視角，以達成不同的拍攝需求。參考圖2B，第一角度A1介於45度至105度之間，於第一角度A1的區間下，反射蓋140的反射面141為部份遮擋第一相機模組120。參考圖3B，第二角度A2介於105度至360度之間，於第一角度A1的區間下，反射蓋140的反射面141未遮擋第一相機模組120。In addition, by adjusting the angle between the reflective cover 140 and the first body 110, the viewing angle of the first camera module 120 will be changed to achieve different shooting requirements. Referring to FIG. 2B , the first angle A1 is between 45 degrees and 105 degrees. Under the range of the first angle A1 , the reflective surface 141 of the reflective cover 140 partially blocks the first camera module 120 . Referring to FIG. 3B , the second angle A2 is between 105 degrees and 360 degrees, and in the range of the first angle A1 , the reflective surface 141 of the reflective cover 140 does not block the first camera module 120 .

參考圖3A及圖3B，當反射蓋140相對第一機體110展開第二角度A2(圖3B顯示為180度)時，反射蓋140與第二機體130之間具有一第三角度A3，第三角度A3為90度。補充而言，位在第一相機模組120前方的環境影像將顯示於反射蓋140的反射面141上，使用者可通過反射面141觀察背後是否有人窺視，避免機密或隱私外洩。Referring to FIG. 3A and FIG. 3B, when the reflective cover 140 expands the second angle A2 (shown as 180 degrees in FIG. 3B ) relative to the first body 110, there is a third angle A3 between the reflective cover 140 and the second body 130, and the third Angle A3 is 90 degrees. In addition, the environmental image in front of the first camera module 120 will be displayed on the reflective surface 141 of the reflective cover 140 , and the user can observe whether there is someone peeping behind through the reflective surface 141 to avoid leakage of confidentiality or privacy.

參考圖1A，電子裝置100包括一麥克風150，配置在第一機體110的第一端E1且相鄰於第一相機模組120，麥克風150錯位於反射蓋140，避免反射蓋140阻礙麥克風150的收音。麥克風150用以接收環境音或人聲等類比訊號並將其轉換為數位訊號。Referring to FIG. 1A, the electronic device 100 includes a microphone 150 disposed at the first end E1 of the first body 110 and adjacent to the first camera module 120. The microphone 150 is misplaced on the reflection cover 140 to prevent the reflection cover 140 from obstructing the movement of the microphone 150. Radio. The microphone 150 is used for receiving analog signals such as ambient sound or human voice and converting them into digital signals.

參考圖4A及圖4B，本實施例的電子裝置100A不同於圖1A所示的電子裝置100，差別在於，電子裝置100A包括一第二相機模組160a及一雙軸結構170a。第二相機模組160a配置在第一機體110a相對第一顯示面111a的一外表面112a，且第二相機模組160a錯位於第一相機模組120a。雙軸結構170a具有一第一軸心X1以及平行第一軸心X1的一第二軸心X2，雙軸結構170a藉由第一軸心X1樞接於第一機體110a的第一端E1，藉由第二軸心X2樞接於反射蓋140a。Referring to FIG. 4A and FIG. 4B , the electronic device 100A of this embodiment is different from the electronic device 100 shown in FIG. 1A in that the electronic device 100A includes a second camera module 160 a and a biaxial structure 170 a. The second camera module 160a is disposed on an outer surface 112a of the first body 110a opposite to the first display surface 111a, and the second camera module 160a is staggered to the first camera module 120a. The biaxial structure 170a has a first axis X1 and a second axis X2 parallel to the first axis X1, the biaxial structure 170a is pivotally connected to the first end E1 of the first body 110a through the first axis X1, The reflective cover 140a is pivotally connected to the second axis X2.

配合參考圖4B及圖4C，雙軸結構170a與反射蓋140a繞第一軸心X1相對第一機體110a旋轉，使得反射蓋140a展開至第一角度A1(見圖2B、圖4B，小於180度)或第二角度A2(見圖3B、圖4C，大於等於180度)。With reference to FIG. 4B and FIG. 4C, the biaxial structure 170a and the reflective cover 140a rotate relative to the first body 110a around the first axis X1, so that the reflective cover 140a expands to the first angle A1 (see FIG. 2B, FIG. 4B, less than 180 degrees ) or the second angle A2 (see FIG. 3B, FIG. 4C, greater than or equal to 180 degrees).

配合參考圖4D，反射蓋140a繞第二軸心X2相對雙軸結構170a旋轉，使得反射蓋140a的背面142a覆蓋於第一機體110a的外表面112a，且反射蓋140a的反射面141a遠離外表面112a。進一步而言，當反射蓋140a相對第一機體110a旋轉時，使反射蓋140a的背面142a覆蓋於第一機體110a的外表面112a，反射蓋140a錯位於第二相機模組160a。With reference to FIG. 4D , the reflective cover 140a rotates around the second axis X2 relative to the biaxial structure 170a, so that the back surface 142a of the reflective cover 140a covers the outer surface 112a of the first body 110a, and the reflective surface 141a of the reflective cover 140a is away from the outer surface. 112a. Further, when the reflective cover 140a rotates relative to the first body 110a, the back surface 142a of the reflective cover 140a covers the outer surface 112a of the first body 110a, and the reflective cover 140a is dislocated on the second camera module 160a.

參考圖4D，本實施例的反射蓋140a適於相對第一機體110a旋轉360度且反射蓋140a的反射面141a相鄰於第二相機模組160a。進一步而言位在第二相機模組160a前方的環境影像將顯示於反射蓋140a的反射面141a上，使用者可利用反射面141a調整自身的方位以利於第二相機模組160a的拍攝，因此本實施例的電子裝置100A可通過第一相機模組120a(見圖4B)或第二相機模組160a(見圖4D)進行自拍。Referring to FIG. 4D , the reflective cover 140a of this embodiment is suitable for rotating 360 degrees relative to the first body 110a and the reflective surface 141a of the reflective cover 140a is adjacent to the second camera module 160a. Furthermore, the environmental image in front of the second camera module 160a will be displayed on the reflective surface 141a of the reflective cover 140a, and the user can use the reflective surface 141a to adjust his or her own orientation to facilitate the shooting of the second camera module 160a. The electronic device 100A of this embodiment can take a selfie through the first camera module 120a (see FIG. 4B ) or the second camera module 160a (see FIG. 4D ).

參考圖5A至圖5C，本實施例的電子裝置100B不同於圖1A所示的電子裝置100，差別在於，電子裝置100B包括一馬達160b，配置於第一機體110b中且連接反射蓋140b，馬達160b帶動反射蓋140b沿著一軸向PD相對第一機體110b樞轉。配合參考圖5A及圖5B，馬達160b適於帶動反射蓋140b朝一第一轉動方向T1旋轉以遠離第一相機模組120b，反射蓋140b相對於第一機體110b的旋轉角度介於0度到180度之間。反之馬達160b適於帶動反射蓋140b朝相反於第一轉動方向T1的一第二轉動方向T2旋轉以靠近第一相機模組120b，最終反射蓋140b覆蓋第一相機模組120b。5A to 5C, the electronic device 100B of the present embodiment is different from the electronic device 100 shown in FIG. 160b drives the reflection cover 140b to pivot relative to the first body 110b along an axis PD. With reference to FIG. 5A and FIG. 5B , the motor 160b is adapted to drive the reflective cover 140b to rotate in a first rotation direction T1 so as to be away from the first camera module 120b. The rotational angle of the reflective cover 140b relative to the first body 110b ranges from 0° to 180°. between degrees. Otherwise, the motor 160b is adapted to drive the reflective cover 140b to rotate in a second rotational direction T2 opposite to the first rotational direction T1 to approach the first camera module 120b, and finally the reflective cover 140b covers the first camera module 120b.

於本實施例中，電子裝置100B透過馬達160b自動控制反射蓋140b的旋轉角度，以此取代使用者的手動控制。In this embodiment, the electronic device 100B automatically controls the rotation angle of the reflective cover 140b through the motor 160b instead of manual control by the user.

圖6A是圖5A的電子裝置的方塊示意圖。圖6B至圖6C是圖6A的電子裝置的影像擷取流程方塊圖。圖6D是圖5A的電子裝置切換為自拍模式的平面示意圖。FIG. 6A is a schematic block diagram of the electronic device shown in FIG. 5A . 6B to 6C are block diagrams of the image capturing process of the electronic device in FIG. 6A . FIG. 6D is a schematic plan view of switching the electronic device of FIG. 5A into a Selfie mode.

參考圖5A、圖6A、圖6B及圖6C，本發明的電子裝置的影像擷取方法，採用圖5A所示的電子裝置100B，包括一第一機體110b、一第一相機模組120b、一第二機體130b、一反射蓋140b、一運算單元150b、一馬達160b以及一儲存單元170b。以下說明電子裝置的影像擷取及模式切換流程。Referring to FIG. 5A, FIG. 6A, FIG. 6B and FIG. 6C, the image capture method of the electronic device of the present invention adopts the electronic device 100B shown in FIG. 5A, including a first body 110b, a first camera module 120b, a The second body 130b, a reflection cover 140b, a computing unit 150b, a motor 160b, and a storage unit 170b. The image capturing and mode switching processes of the electronic device are described below.

參考圖6A至圖6C，步驟S1，第一機體110b的第一顯示面111b顯示一相機圖形介面，可透過滑鼠或觸控點選相機圖形介面。步驟S2：相機圖形介面接收一啟動指令，且運算單元150b根據啟動指令以啟動第一相機模組120b。步驟S3：第一顯示面111b顯示一掃描模式圖形介面或一自拍模式圖形介面。步驟S4: 掃描模式圖形介面或自拍模式圖形介面接收一選擇指令，即使用者選擇一掃描模式(見圖7A)或一自拍模式(見圖6D)且運算單元150b驅動馬達160b，其中當電子裝置為掃描模式或自拍模式時，反射蓋140b相對第一機體110b旋開至一預定角度，且反射蓋140b曝露第一相機模組120b，且第一相機模組120b產生至少一影像圖片200。步驟S5：在掃描模式下，馬達160b帶動反射蓋140b相對第一機體110b展開至第一角度A1(見圖7A至圖7C)，且反射蓋140b部份曝露第一相機模組120b。步驟S6：第一相機模組120b通過反射蓋140b的反射面141b拍攝第二機體130b的操作面131b。Referring to FIG. 6A to FIG. 6C , in step S1 , the first display surface 111 b of the first body 110 b displays a camera graphic interface, which can be selected by mouse or touch. Step S2: The camera GUI receives an activation command, and the computing unit 150b activates the first camera module 120b according to the activation command. Step S3: The first display surface 111b displays a scanning mode graphic interface or a selfie mode graphic interface. Step S4: The scanning mode graphical interface or the self-timer mode graphical interface receives a selection command, that is, the user selects a scanning mode (see FIG. 7A ) or a self-timer mode (see FIG. 6D ) and the computing unit 150b drives the motor 160b, wherein when the electronic device In scanning mode or self-timer mode, the reflective cover 140b is unscrewed to a predetermined angle relative to the first body 110b, and the reflective cover 140b exposes the first camera module 120b, and the first camera module 120b generates at least one image 200. Step S5: In the scan mode, the motor 160b drives the reflective cover 140b to expand to a first angle A1 relative to the first body 110b (see FIGS. 7A-7C ), and the reflective cover 140b partially exposes the first camera module 120b. Step S6: The first camera module 120b photographs the operating surface 131b of the second body 130b through the reflective surface 141b of the reflective cover 140b.

步驟S7：在自拍模式下，馬達160b帶動反射蓋140b相對第一機體110b展開至第二角度A2(見圖6D)。步驟S8：反射蓋140b曝露第一相機模組120b，且第一顯示面111b顯示為全黑。Step S7: In the Selfie mode, the motor 160b drives the reflective cover 140b to expand relative to the first body 110b to a second angle A2 (see FIG. 6D ). Step S8: The reflective cover 140b exposes the first camera module 120b, and the first display surface 111b is completely black.

進一步而言，參考圖6D，在自拍模式下將第一顯示面111b顯示為全黑，且反射蓋140b的反射面141b用以反射環境光，讓使用者可透過反射面141b調整面向第一相機模組120b的位置。Further, referring to FIG. 6D , in the self-timer mode, the first display surface 111b is displayed as completely black, and the reflective surface 141b of the reflective cover 140b is used to reflect ambient light, so that the user can adjust the first camera through the reflective surface 141b The location of module 120b.

此外，相較於第一顯示面111b的中心位置，反射面141b更加靠近第一相機模組120b的位置。因此，當使用者注視於反射面141b時，將呈現出接近正視第一相機模組120b的拍攝效果。In addition, compared with the central position of the first display surface 111b, the reflective surface 141b is closer to the position of the first camera module 120b. Therefore, when the user gazes at the reflective surface 141b, the shooting effect of the first camera module 120b will appear close to that of the first camera module 120b.

步驟S9：在掃描模式或自拍模式下，第一相機模組120b適於拍攝多張影像圖片200並且儲存於一儲存單元170b中，使用者點選一檢視功能介面，從多張影像圖片200中擇一顯示於第一顯示面111b(見圖7A)。Step S9: In the scanning mode or the self-timer mode, the first camera module 120b is adapted to take a plurality of image pictures 200 and store them in a storage unit 170b. Choose one to display on the first display surface 111b (see FIG. 7A ).

步驟S10：在掃描模式下，第一顯示面111b顯示校正圖形介面，校正圖形介面接收一校正指令，運算單元150b根據校正指令b調整多個影像圖片200，並產生多個校正影像圖片300，且第一顯示面111b依序顯示一個或多個校正影像圖片300。Step S10: In the scan mode, the first display surface 111b displays a calibration graphic interface, the calibration graphic interface receives a calibration command, the computing unit 150b adjusts a plurality of image pictures 200 according to the calibration command b, and generates a plurality of calibration image pictures 300, and The first display surface 111 b sequentially displays one or more corrected image pictures 300 .

進一步而言，參考圖7A，在掃描模式下，第一相機模組120b拍攝第二機體130b的操作面131b且以獲得多張影像圖片200，運算單元150b分析各影像圖片200，以產生一文本物件，運算單元150b辨識文本物件，以產生一電子文本，並將電子文本顯示於第一顯示面111b。Further, referring to FIG. 7A, in the scanning mode, the first camera module 120b captures the operation surface 131b of the second body 130b and obtains a plurality of image pictures 200, and the computing unit 150b analyzes each image picture 200 to generate a text The object, the computing unit 150b recognizes the text object to generate an electronic text, and displays the electronic text on the first display surface 111b.

步驟S11：承步驟S10，參考圖7A，在掃描模式下，當運算單元150b透過第一相機模組120b接收第一切換指令(例如左右揮動)時，運算單元150b將第一相機模組120b切換為自拍模式(將反射蓋140b自第一角度A1旋轉至第二角A2)。Step S11: Following step S10, referring to FIG. 7A , in the scanning mode, when the computing unit 150b receives a first switching instruction (such as waving left and right) through the first camera module 120b, the computing unit 150b switches the first camera module 120b It is the selfie mode (rotate the reflective cover 140b from the first angle A1 to the second angle A2).

步驟S12：承步驟S9，參考圖6D，在自拍模式下，當運算單元150b透過第一相機模組120b接收第二切換指令(例如上下揮動)時，運算單元150b將第一相機模組120b切換為掃描模式(將反射蓋140b自第二角A2旋轉至第一角度A1)。Step S12: Following step S9, referring to FIG. 6D , in the self-timer mode, when the computing unit 150b receives a second switching instruction (such as waving up and down) through the first camera module 120b, the computing unit 150b switches the first camera module 120b It is scanning mode (rotate the reflective cover 140b from the second angle A2 to the first angle A1).

圖7A是圖5A的電子裝置切換為掃描模式的平面示意圖。圖7B是圖7A的電子裝置校正影像圖片的平面示意圖。圖7C是圖7B的電子裝置除去影像圖片實體偵測點的平面示意圖。FIG. 7A is a schematic plan view of the electronic device in FIG. 5A switched to a scanning mode. FIG. 7B is a schematic plan view of the electronic device in FIG. 7A to correct the image. FIG. 7C is a schematic plan view of the electronic device in FIG. 7B excluding the entity detection points of the video image.

參考圖7A，多個實體偵測點132b為形成於第二機體130b且位在操作面131b的多處角落，在掃描模式下，第一相機模組120b拍攝第二機體130b的操作面131b以取得多張影像圖片200。因此，各影像圖片200具有多個實體偵測點132b且第一顯示面111b具有多個端點座標。參考圖7B，運算單元150b根據多個實體偵測點132b取得各影像圖片200的目標興趣區域（region of interest，ROI）訊息，將各影像圖片200顯示於第一顯示面111b中，接著運算單元150b比對目標興趣區域訊息與第一顯示面111b的多個端點座標，計算出各影像圖片200的一偏移量GP。運算單元150b根據偏移量GP對於各影像圖片200進行校正，並產生多個校正影像圖片300，且第一顯示面111b各校正影像圖片300 (見圖7B)。Referring to FIG. 7A, a plurality of entity detection points 132b are formed on the second body 130b and located at multiple corners of the operation surface 131b. In the scan mode, the first camera module 120b captures the operation surface 131b of the second body 130b to A plurality of image pictures 200 are acquired. Therefore, each image picture 200 has a plurality of entity detection points 132b and the first display surface 111b has a plurality of end point coordinates. Referring to FIG. 7B, the operation unit 150b obtains the target region of interest (region of interest, ROI) information of each image picture 200 according to the plurality of entity detection points 132b, and displays each image picture 200 on the first display surface 111b, and then the operation unit 150b compares the target ROI information with the coordinates of a plurality of endpoints on the first display surface 111b, and calculates an offset GP of each video picture 200. The computing unit 150b corrects each image picture 200 according to the offset GP, and generates a plurality of corrected image pictures 300, and each corrected image picture 300 on the first display surface 111b (see FIG. 7B ).

參考圖7C，進一步而言，運算單元150b透過濾波方法除去各校正影像圖片300中的多個實體偵測點132b並顯示於第一顯示面111b，以此還原校正影像圖片300的真實性。Referring to FIG. 7C , further, the computing unit 150b removes multiple entity detection points 132b in each corrected image picture 300 through a filtering method and displays them on the first display surface 111b to restore the authenticity of the corrected image picture 300 .

此外，當運算單元150b判定各影像圖片200缺乏多個實體偵測點132b時，將不進行校正功能介面，且運算單元150b將未校正的各影像圖片200直接顯示於第一顯示面111b。In addition, when the calculation unit 150b determines that each image picture 200 lacks a plurality of entity detection points 132b, the correction function interface will not be performed, and the calculation unit 150b directly displays each uncorrected image picture 200 on the first display surface 111b.

綜上所述，本發明的電子裝置，具有可轉動的反射蓋，在使用時，反射蓋相對第一機體旋轉以展開至第一角度並切換至掃描模式，反射蓋部份遮擋第一相機模組，使得第一相機模組透過反射面拍攝操作面，或是反射蓋相對第一機體旋轉以展開至第二角度並切換至自拍模式，此時第一相機模組完全曝露在反射蓋外，使用者透過第一相機模組進行自拍。當第一相機模組切換為掃描模式時，可透過光學辨識方法，可將顯示於操作面或擺放於操作面上文本物件轉換為電子文本並顯示於第一顯示面，此外本發明的運算單元會將已辨識的影像圖片與電子文本進行梯形校正，以補償其變形量。In summary, the electronic device of the present invention has a rotatable reflective cover. When in use, the reflective cover is rotated relative to the first body to expand to a first angle and switch to a scanning mode. The reflective cover partially blocks the first camera module. set, so that the first camera module takes pictures of the operation surface through the reflective surface, or the reflective cover is rotated relative to the first body to expand to a second angle and switch to the self-timer mode. At this time, the first camera module is completely exposed outside the reflective cover. The user takes a selfie through the first camera module. When the first camera module switches to the scanning mode, the text object displayed on or placed on the operation surface can be converted into electronic text and displayed on the first display surface through the optical recognition method. In addition, the calculation method of the present invention The unit will perform keystone correction on the recognized image and electronic text to compensate for its deformation.

此外，當反射蓋閉合於第一機體時，將覆蓋第一相機模組，達成隱私保護功能。In addition, when the reflective cover is closed on the first body, it will cover the first camera module to achieve a privacy protection function.

100、100A、100B:電子裝置 110、110a、110b:第一機體 111、111a、111b:第一顯示面 112、112a:外表面 120、120a、120b:第一相機模組 130、130b:第二機體 131、131b:操作面 132b:實體偵測點 140、140a、140b:反射蓋 141、141a、141b:反射面 142、142a:背面 150:麥克風 150b:運算單元 160a:第二相機模組 160b:馬達 170a:雙軸結構 170b:儲存單元 200:影像圖片 300:校正影像圖片 V:視角 A1:第一角度 A2:第二角度 A3:第三角度 E1:第一端 E2:第二端 GP:偏移量 IP:影像光路 PD:軸向 X1:第一軸心 X2:第二軸心 T1:第一轉動方向 T2:第二轉動方向 100, 100A, 100B: electronic devices 110, 110a, 110b: the first body 111, 111a, 111b: first display surface 112, 112a: outer surface 120, 120a, 120b: the first camera module 130, 130b: the second body 131, 131b: operation surface 132b: Entity detection point 140, 140a, 140b: reflective cover 141, 141a, 141b: reflective surface 142, 142a: back 150: Microphone 150b: arithmetic unit 160a: Second camera module 160b: motor 170a: Biaxial structure 170b: storage unit 200: video image 300:Correction image picture V: angle of view A1: first angle A2: Second angle A3: Third angle E1: first end E2: second end GP: Offset IP: image light path PD: Axial X1: the first axis X2: second axis T1: the first direction of rotation T2: Second direction of rotation

圖1A是本發明的一實施例的電子裝置的立體示意圖。 圖1B是圖1A的電子裝置的第一機體的正視示意圖。 圖1C是圖1A的電子裝置的側視示意圖。 圖2A是圖1A的反射蓋相對第一機體展開第一角度的正視示意圖。 圖2B是圖1A的反射蓋相對第一機體展開第一角度的側視示意圖。 圖3A是圖1A的反射蓋相對第一機體展開第二角度的正視示意圖。 圖3B是圖1A的反射蓋相對第一機體展開第二角度的側視示意圖。 圖4A是本發明的一實施例的電子裝置的部分元件放大示意圖。 圖4B是圖4A的反射蓋相對第一機體展開小於180度的立體示意圖。 圖4C是圖4A的反射蓋相對第一機體展開大於180度的立體示意圖。 圖4D是圖4A的反射蓋相對第一機體展開360度的立體示意圖。 圖5A是本發明的一實施例的電子裝置結合馬達的示意圖。 圖5B是圖5A的反射蓋相對第一機體展開第二角度的側視示意圖。 圖5C是圖5A的電子裝置的部份元件立體示意圖。 圖6A是圖5A的電子裝置的方塊示意圖。 圖6B至圖6C是圖6A的電子裝置的影像擷取流程圖。 圖6D是圖5A的電子裝置切換為自拍模式的平面示意圖。 圖7A是圖5A的電子裝置切換為掃描模式的平面示意圖。 圖7B是圖7A的電子裝置校正影像圖片的平面示意圖。 圖7C是圖7B的電子裝置除去影像圖片實體偵測點的平面示意圖。 FIG. 1A is a schematic perspective view of an electronic device according to an embodiment of the present invention. FIG. 1B is a schematic front view of a first body of the electronic device of FIG. 1A . FIG. 1C is a schematic side view of the electronic device in FIG. 1A . FIG. 2A is a schematic front view of the reflective cover in FIG. 1A unfolded at a first angle relative to the first body. FIG. 2B is a schematic side view of the reflective cover in FIG. 1A unfolded at a first angle relative to the first body. FIG. 3A is a schematic front view of the reflective cover in FIG. 1A unfolded at a second angle relative to the first body. FIG. 3B is a schematic side view of the reflective cover in FIG. 1A unfolded at a second angle relative to the first body. FIG. 4A is an enlarged schematic view of some components of an electronic device according to an embodiment of the present invention. FIG. 4B is a schematic perspective view of the reflective cover in FIG. 4A unfolded less than 180 degrees relative to the first body. FIG. 4C is a schematic perspective view of the reflective cover in FIG. 4A unfolded more than 180 degrees relative to the first body. FIG. 4D is a three-dimensional schematic view of the reflective cover in FIG. 4A unfolded 360 degrees relative to the first body. FIG. 5A is a schematic diagram of an electronic device combined with a motor according to an embodiment of the present invention. FIG. 5B is a schematic side view of the reflective cover in FIG. 5A unfolded at a second angle relative to the first body. FIG. 5C is a schematic perspective view of some components of the electronic device in FIG. 5A . FIG. 6A is a schematic block diagram of the electronic device shown in FIG. 5A . FIG. 6B to FIG. 6C are flow charts of image capture of the electronic device in FIG. 6A . FIG. 6D is a schematic plan view of switching the electronic device of FIG. 5A into a Selfie mode. FIG. 7A is a schematic plan view of the electronic device in FIG. 5A switched to a scanning mode. FIG. 7B is a schematic plan view of the electronic device in FIG. 7A to correct the image. FIG. 7C is a schematic plan view of the electronic device in FIG. 7B excluding the entity detection points of the video image.

100:電子裝置 100: Electronic device

110:第一機體 110: The first body

111:第一顯示面 111: the first display surface

120:第一相機模組 120: The first camera module

130:第二機體 130: Second body

131:操作面 131: Operation surface

140:反射蓋 140: reflective cover

E1:第一端 E1: first end

E2:第二端 E2: second end

Claims (25)

一種電子裝置，包括：一第一機體，具有一第一端、一第二端、一第一顯示面以及一外表面，該第二端相對該第一端，該第一顯示面配置於該第一端與該第二端之間，該外表面相對於該第一顯示面；一第一相機模組，鄰近於該第一機體的該第一端，且位在該第一顯示面的外圍；一第二機體，樞接於該第一機體的該第二端且具有一操作面；以及一反射蓋，可轉動地連接該第一機體的該第一端，該反射蓋具有一反射面，其中，當該反射蓋閉合於該第一顯示面時，該反射面覆蓋該第一相機模組，當反射蓋相對該第一機體旋開至一預定角度時，該反射蓋曝露該第一相機模組，當該反射蓋相對該第一機體展開一第一角度時，該第一相機經由該反射蓋的反射取得該操作面的影像。 An electronic device, comprising: a first body having a first end, a second end, a first display surface and an outer surface, the second end is opposite to the first end, the first display surface is disposed on the Between the first end and the second end, the outer surface is opposite to the first display surface; a first camera module is adjacent to the first end of the first body and is located on the periphery of the first display surface ; a second body, pivotally connected to the second end of the first body and has an operating surface; and a reflective cover, rotatably connected to the first end of the first body, the reflective cover has a reflective surface , wherein, when the reflective cover is closed on the first display surface, the reflective surface covers the first camera module, and when the reflective cover is unscrewed relative to the first body to a predetermined angle, the reflective cover exposes the first In the camera module, when the reflective cover is unfolded at a first angle relative to the first body, the first camera acquires the image of the operation surface through the reflection of the reflective cover. 如請求項1所述的電子裝置，其中該第二機體產生一影像光路，且該影像光路從操作面傳播至反射蓋的一反射面並反射至該第一相機模組。 The electronic device according to claim 1, wherein the second body generates an image light path, and the image light path travels from the operation surface to a reflective surface of the reflective cover and reflects to the first camera module. 如請求項1所述的電子裝置，其中當該反射蓋相對該第一機體展開大於該第一角度的一第二角度時，該反射蓋曝露該第一相機模組。 The electronic device according to claim 1, wherein when the reflective cover is unfolded relative to the first body at a second angle greater than the first angle, the reflective cover exposes the first camera module. 如請求項1所述的電子裝置，其中該操作面具有一第二顯示面。 The electronic device as claimed in claim 1, wherein the operation surface has a second display surface. 如請求項1所述的電子裝置，還包括一第二相機模組，配置在該第一機體的相對該第一顯示面的一外表面，且該第二相機模組錯位於該第一相機模組。 The electronic device according to claim 1, further comprising a second camera module disposed on an outer surface of the first body opposite to the first display surface, and the second camera module is dislocated on the first camera mod. 如請求項5所述的電子裝置，其中該反射蓋更具有一相對該反射面的一背面，當該反射蓋相對該第一機體旋轉，使該反射蓋的該背面覆蓋於該第一機體的該外表面，該反射蓋錯位於該第一相機模組。 The electronic device as claimed in item 5, wherein the reflective cover further has a back surface opposite to the reflective surface, when the reflective cover rotates relative to the first body, the back surface of the reflective cover covers the first body On the outer surface, the reflection cover is dislocated on the first camera module. 如請求項6所述的電子裝置，還包括一雙軸結構，具有一第一軸心以及平行該第一軸心的一第二軸心，該雙軸結構藉由該第一軸心樞接於該第一端，藉由該第二軸心樞接於該反射蓋。 The electronic device according to claim 6, further comprising a biaxial structure having a first axis and a second axis parallel to the first axis, the biaxial structure is pivotally connected by the first axis The first end is pivotally connected to the reflection cover through the second axis. 如請求項7所述的電子裝置，其中該雙軸結構與該反射蓋繞該第一軸心相對該第一機體旋轉，使得該反射蓋展開至該第一角度或該第二角度。 The electronic device as claimed in claim 7, wherein the biaxial structure and the reflective cover rotate relative to the first body around the first axis, so that the reflective cover expands to the first angle or the second angle. 如請求項3所述的電子裝置，其中當該反射蓋相對該第一機體展開該第二角度時，該反射蓋與該第二機體之間具有一第三角度，該第三角度為90度。 The electronic device as claimed in claim 3, wherein when the reflective cover expands the second angle relative to the first body, there is a third angle between the reflective cover and the second body, and the third angle is 90 degrees . 如請求項3所述的電子裝置，其中該第一角度介於45度至105度之間，該第二角度介於105度至360度之間。 The electronic device according to claim 3, wherein the first angle is between 45 degrees and 105 degrees, and the second angle is between 105 degrees and 360 degrees. 如請求項1所述的電子裝置，還包括一馬達，配置於該第一機體中且連接該反射蓋，該馬達適於帶動該反射蓋朝 一第一轉動方向旋轉以遠離該第一相機模組，該馬達適於帶動該反射蓋朝相反於該第一轉動方向的一第二轉動方向旋轉以靠近該第一相機模組。 The electronic device as claimed in claim 1, further comprising a motor disposed in the first body and connected to the reflective cover, the motor is adapted to drive the reflective cover toward A first rotation direction is rotated to move away from the first camera module, and the motor is adapted to drive the reflection cover to rotate in a second rotation direction opposite to the first rotation direction to approach the first camera module. 如請求項1所述的電子裝置，還包括一麥克風，配置在該第一機體的該第一端且相鄰於該第一相機模組。 The electronic device according to claim 1, further comprising a microphone disposed at the first end of the first body and adjacent to the first camera module. 如請求項12所述的電子裝置，其中該麥克風錯位於該反射蓋。 The electronic device as claimed in claim 12, wherein the microphone is misplaced on the reflective cover. 一種電子裝置的影像擷取方法，其中一電子裝置包括一第一機體、一第二機體、一第一相機模組、一反射蓋以及一運算單元，該第一相機模組設置於該第一機體的一第一端，該第二機體樞接於該第一機體相對該第一端地的一第二端，該反射蓋可轉動地連接該第一機體的該第一端，該反射蓋適於覆蓋該第一相機模組，該影像擷取方法包括：該第一機體的一第一顯示面顯示一相機圖形介面；該相機圖形介面接收一啟動指令；該運算單元根據該啟動指令啟動該第一相機模組；該第一顯示面顯示一掃描模式圖形介面或一自拍模式圖形介面；掃描模式圖形介面或自拍模式圖形介面接收一選擇指令；該運算單元根據該選擇指令對應切換至一掃描模式或一自拍模式；當該電子裝置為該掃描模式或該自拍模式時，該反射蓋相對 該第一機體旋開至一預定角度，且該反射蓋曝露該第一相機模組；以及該第一相機模組產生至少一影像圖片，其中，當該反射蓋相對該第一機體展開一第一角度時，該第一相機經由該反射蓋的反射取得該第二機體的一操作面的影像。 An image capture method for an electronic device, wherein an electronic device includes a first body, a second body, a first camera module, a reflection cover and a computing unit, the first camera module is set on the first A first end of the body, the second body is pivotally connected to a second end of the first body opposite to the first end, the reflective cover is rotatably connected to the first end of the first body, the reflective cover Suitable for covering the first camera module, the image capture method includes: a first display surface of the first body displays a camera graphic interface; the camera graphic interface receives an activation command; the computing unit is activated according to the activation command The first camera module; the first display surface displays a scanning mode graphic interface or a self-timer mode graphic interface; the scanning mode graphic interface or the self-timer mode graphic interface receives a selection command; the computing unit switches to a corresponding selection command according to the selection command scanning mode or a self-timer mode; when the electronic device is in the scanning mode or the self-timer mode, the reflective cover is relatively The first body is unscrewed to a predetermined angle, and the reflective cover exposes the first camera module; and the first camera module generates at least one image, wherein, when the reflective cover is unfolded relative to the first body, a first At an angle, the first camera obtains an image of an operation surface of the second body through the reflection of the reflective cover. 如請求項14所述的電子裝置的影像擷取方法，在該掃描模式下，一馬達帶動該反射蓋相對該第一機體展開至該第一角度，該反射蓋部份曝露該第一相機模組，該第一相機模組通過該反射蓋的一反射面拍攝該第二機體的該操作面。 The image capture method of an electronic device as described in claim 14, in the scanning mode, a motor drives the reflective cover to expand relative to the first body to the first angle, and the reflective cover partially exposes the first camera module set, the first camera module photographs the operating surface of the second body through a reflective surface of the reflective cover. 如請求項14所述的電子裝置的影像擷取方法，在該自拍模式下，一馬達帶動該反射蓋相對該第一機體展開至一第二角度，該反射蓋曝露該第一相機模組，且該第一顯示面顯示為全黑。 In the image capturing method of an electronic device as described in claim 14, in the self-timer mode, a motor drives the reflective cover to expand relative to the first body to a second angle, the reflective cover exposes the first camera module, And the first display surface is completely black. 如請求項14所述的電子裝置的影像擷取方法，其中在該掃描模式下，該影像擷取方法更包括：該第一顯示面顯示一校正圖形介面；該校正圖形介面接收一校正指令；該運算單元根據該校正指令，調整該至少一影像圖片，並產生至少一校正影像圖片；該第一顯示面顯示該至少一校正影像圖片。 The image capturing method of an electronic device as described in claim 14, wherein in the scanning mode, the image capturing method further includes: displaying a calibration graphic interface on the first display surface; receiving a calibration command from the calibration graphic interface; The computing unit adjusts the at least one image picture according to the correction instruction, and generates at least one corrected image picture; the first display surface displays the at least one corrected image picture. 如請求項17所述的電子裝置的影像擷取方法，其中該第二機體具有至少一鄰近於該操作面的實體偵測點，該第一顯示面具有至少一端點座標。 The image capture method for an electronic device as claimed in claim 17, wherein the second body has at least one entity detection point adjacent to the operation surface, and the first display surface has at least one end point coordinate. 如請求項18所述的電子裝置的影像擷取方法還包括：該運算單元根據該些實體偵測點取得至少一目標興趣區域訊息；該運算單元比對該目標興趣區域訊息及該第一顯示面的該至少一端點座標，計算出各該影像圖片的一偏移量；該運算單元根據該偏移量對於各該影像圖片進行校正，產生至少一校正影像圖片；以及該第一顯示面顯示該校正影像圖片。 The image capture method for an electronic device as described in claim 18 further includes: the computing unit obtains at least one target area of interest information according to the entity detection points; the computing unit compares the target interest area information with the first display The coordinates of the at least one end point of the surface calculates an offset of each of the image pictures; the computing unit corrects each of the image pictures according to the offset to generate at least one corrected image picture; and the first display surface displays The calibration image picture. 如請求項18所述的電子裝置的影像擷取方法，其中該運算單元除去各該影像圖片中的該些實體偵測點並顯示於該第一顯示面。 The image capturing method for an electronic device as described in claim 18, wherein the computing unit removes the entity detection points in each of the image pictures and displays them on the first display surface. 如請求項17所述的電子裝置的影像擷取方法，其中當該運算單元判定各該影像圖片缺乏多個實體偵測點時，該運算單元將各該影像圖片直接顯示於該第一顯示面。 The image capture method for an electronic device as described in claim 17, wherein when the computing unit determines that each of the video pictures lacks a plurality of entity detection points, the computing unit directly displays each of the video pictures on the first display surface . 如請求項17所述的電子裝置的影像擷取方法，其中該運算單元分析各該影像圖片，以產生一文本物件，運算單元辨識該文本物件，以產生一電子文本，並將該電子文本顯示於該第一顯示面。 The image capture method of an electronic device as described in claim 17, wherein the computing unit analyzes each of the image pictures to generate a text object, and the computing unit identifies the text object to generate an electronic text, and displays the electronic text on the first display surface. 如請求項14所述的電子裝置的影像擷取方法，其中在該掃描模式下，當該運算單元透過該第一相機模組接收一第一切換指令時，該運算單元將該第一相機模組切換為該自拍模式。 The image capture method of an electronic device according to claim 14, wherein in the scanning mode, when the computing unit receives a first switching command through the first camera module, the computing unit uses the first camera module group to switch to this selfie mode. 如請求項14所述的電子裝置的影像擷取方法，其中在該自拍模式下，當該運算單元透過該第一相機模組接收一第二切換指令時，該運算單元將該第一相機模組切換為該掃描模式。 The image capture method of an electronic device according to claim 14, wherein in the self-timer mode, when the computing unit receives a second switching instruction through the first camera module, the computing unit uses the first camera module The group switches to that scan mode. 如請求項14所述的電子裝置的影像擷取方法，其中在該掃描模式或該自拍模式下，該第一相機模組適於拍攝多張影像圖片並且儲存於一儲存單元中，點選一檢視功能介面，從該些影像圖片中擇一顯示於該第一顯示面。 The image capturing method of an electronic device as described in claim 14, wherein in the scanning mode or the self-timer mode, the first camera module is suitable for taking multiple image pictures and storing them in a storage unit, and clicking one View the function interface, and select one of the image pictures to display on the first display surface.

Images