201227306 六、發明說明: 【發明所屬之技術領域】 本發明有關於一種電子裝置及其控制方法,且特別是 有關於一種可自動翻蓋的翻蓋式電子裝置及其控制方法。 【先前技術】 隨著電子產業的不斷發展,電腦已經成為現代人生活 中不可或缺的部份,尤其是筆記型電腦,借助其輕薄短小 且攜帶方便的特性,備受人們的青睞,因此在日常生活中 被人們頻繁使用。 然而,現有的筆記型電腦均通過使用者手動操作來打 開螢幕蓋。如此,筆記型電腦的轉軸經常會因為使用者操 作時用力不均而造成損壞或失效。另外,通過手動操作開 啟螢幕蓋會影響使用者操作的便利性及舒適性。 【發明内容】 本發明的目的在於提供一種翻蓋式電子裝置及其控 制方法,以改善現有技術的缺失。 本發明提供一種翻蓋式電子裝置,包括顯示元件、主 機、轉軸、驅動件、啟動件以及控制單元。轉轴連接顯示 元件與主機,以使顯示元件相對於主機為可翻轉。驅動件 連接轉軸,用於驅動轉軸轉動。啟動件用於產生啟動訊 號。控制單元電性連接驅動件與啟動件。控制單元内儲存 當翻蓋式電子裝置前一次關機時顯示元件相對於主機的 201227306 =啟角度°當控制單元接收 轉至開啟角度 於本發明之 動訊號控㈣動件驅_,以使顯示元件:對:主根:: 儲存件,控制^具體實施例中,控制單元包括控制器與 _存開啟^接儲存件、啟動件以及驅動件,儲存件 於本發明 器 之一具體實施例中,控制器為嵌入式控制 於本發明之—具體實施例中,驅動件為馬達。 於本發明之一具體實施例中,啟動件 、纽 別元件、圖像識別元件或指紋識別科。 ^ 於本發明之一具體實施例中,開關為翻蓋式電子裝置 、、電原開關^開關被觸發時,同時產生啟動訊號與翻蓋 式電子裝置的開機訊號。 於本發明之一具體實施例中,翻蓋式電子裳置為筆記 型電腦。 本發明還提供一種翻蓋式電子裝置的控制方法,實施 於翻蓋式電子裝置。翻蓋式電子裝置包括顯示元件、主 機轉軸以及驅動件。轉軸連接顯示元件、主機以及驅動 件。翻蓋式電子裝置的控制方法包括 命令。储麵示元件相對於主機關啟角度。產生啟= 號。根據啟動訊號控制驅動件驅動轉軸,以使顯示元件相 對於主機翻轉至開啟角度。 根據本發明提供之翻蓋式電子裝置及其控制方法,可 201227306 自動控制顯示元件打開至前—次關機時顯示元件相對於 主機的開啟角度°如此,藉由自動翻蓋取代手動操作,可 減小因使用者操作時用力不均而導致轉軸損壞或失效的 問題’從而增加轉轴的使用壽命。此外,本發明提供之翻 蓋式電子裝置亦增加了使用者操作的便利性及舒適性。 為讓本發明的上述和其它目的、特徵和優點能更明顯 易懂,下文特舉較佳實施例,並配合附圖,作詳細說明如 下0 【實施方式】 圖1所示為根據本發明之一較佳實施例之翻蓋式電子 裝置的不意圖。圖2所示為根據本發明之一較佳實施例之 翻蓋式電子裝置的局部分解示意圖。圖3所示為根據本發 明之一較佳實施例之翻蓋式電子裴置的局部方塊圖。請一 併參考圖1、圖2及圖3。 本實施例所it供之翻蓋式電子裝置1例如可為筆記型 電腦。然而,本發明並不限定於此。於其它實施例中,翻 蓋式電子裝置1亦可為上網本等其它翻蓋式電子裝置。 於本實施例中,翻蓋式電子裝置1包括主機10、顯示 元件11、轉轴12、啟動件13、驅動件14以及控制單元 15。其中,轉軸12連接顯示元件11與主機1 〇,以使顯示 元件11相對於主機10為可翻轉。驅動件14設置於主機 10内並連接轉轴12,用於驅動轉軸12轉動。啟動件13 設置於主機10。控制單元15設置於主機10内並電性連接 201227306 驅動件14與啟動件13。 於本實施例中,如圖1所 in , 啟動件13為開關,且 叹置於主冑10的一侧壁。於此,上述 子裝置i的電源開關ϋ而,本 =為翻蓋式電 —由 赞明並不限定於此。於其 匕實施例中,啟動件13亦可為語 -上 0 s識別兀•件、圖像識別 疋件或指紋識別元件。 於本實施例中,如圖2所示,驅動“為馬達。驅 動件14具有-活動桿14〇,轉轴12具有—容置部12〇。 驅動件u的活動桿140設置於轉心2的容置部12〇内。 當驅動件14轉動時,藉由活動桿14〇與容置部12〇的配 合’驅動件14可帶動轉轴12 一起轉動,從而使顯示元件 u相對於主機10翻轉。 於本實施例中,如圖3所示,控制單元15包括控制 盗150與儲存件⑸。控制器15〇連接儲存件15卜啟動 件U以及驅動件14。儲存件151内儲存當翻蓋式電子裝 置1前-次關機時顯示元件n相對於主冑1〇的開啟角 度。其中,控制器150可為嵌入式控制器,儲存件151可 為非揮發性記憶體,例如:快閃記憶體,其可在不提供電 源、的情況下,仍可儲存開啟角度的資料。然而,本發明並 不限定於此。於其它實施例中,控制單元15可為嵌入式 控制器。即’開啟角度可儲存於|入式控制器内部二職 器中。 翻蓋式電子裝置1還包 的控制器15〇。感應器 於本實施例中,如圖3所示, 括感應器16,連接於控制單元15 201227306 16例如為角度感應器,設置於顯示元件11上,用於感測 顯示元件11相對於主機1〇的開啟角度。 以下詳細說明翻蓋式電子裝置1的自動翻蓋操作。於 此’以啟動件13為翻蓋式電子裝置i的電源開關為例進 行說明。 具體而言’當使用者透過作業系統控制翻蓋式電子裝 置1關機時’作業系統會傳輸一關機命令至控制單元15 的控制器150,同時停止執行後續的關機任務。當控制器 150接收上述關機命令後會產生一感應訊號§ 1,並將此感 應訊號S1傳輸至感應器16。感應器16接收感應訊號S1 後會感應此時翻蓋式電子裝置1的顯示元件U相對於主 機10的開啟角度。接著,控制器150會自感應器16接收 其感測到的開啟角度並將上述開啟角度儲存於儲存件151 内。隨後,控制器150會去執行一預設程式代碼(特定地 址内的指令),以通過南橋晶片(圖未示)來通知翻蓋式 電子裝置1的作業系統,以使翻蓋式電子裝置丨繼續執行 後續的關機任務。 於本實施例中’當使用者再次使用翻蓋式電子裝置1 時,使用者僅需按下啟動件13便可使顯示元件u相對於 主機10翻轉至儲存件I5〗内館存的開啟角度。 具體而言,於本實施例中,當翻蓋式電子裝置丨插上 電池(圖未示)或連接交流一直流轉換器(圖未示)後, 電池或與交流電源連接的交流〜直流轉換器便可提供電 源至翻蓋式電子裝置1的主機板(圖未示),使得主機板 201227306 了長:供5伏特(V)的待機電源(Standby Power)至主機 板上的電子元件。藉此’控制器15〇便可利用該待機電源 進行相關操作。 於本實施例中’當控制器150偵測到使用者按下啟動 件13後(例如,控制器150接收到啟動件13產生的低準 位的啟動訊號S2 ’或者’於其它實施例中,控制器150接 收到啟動件13產生的高準位的啟動訊號S2),控制器150 會從儲存件151中讀取翻蓋式電子裝置1於前一次關機時 儲存的顯示元件11相對於主機1〇的開啟角度。然後,控 制器150會依據上述開啟角度控制驅動件14帶動轉軸12 轉動’以使顯示元件Η相對於主機10翻轉至上述開啟角 、 度。於此,由於啟動件13為翻蓋式電子裝置1的電源開 關’因此,當啟動件13 (開關)被觸發時,同時產生啟動 訊號S2與翻蓋式電子裝置1的開機訊號。換言之,啟動 件13被按下後,翻蓋式電子裝置1同時執行開機操作與 自動翻蓋操作。然而,本發明並不限定於此。於其它實施 例中’當啟動件13為語音識別元件、圖像識別元件或指 紋識別元件時,使用者可對翻蓋式電子裝置1的開機操作 與自動翻蓋這兩個過程分別進行控制。 於上述過程中’需要注意的是,由於翻蓋式電子裝置 1在第一次開啟時’儲存件151中不會儲存前一次關機時 顯示元件11相對於主機10的開啟角度,因此儲存件151 還可儲存一預設開啟角度。當翻蓋式電子裝置i第一次使 用時,控制單元I5可控制顯示元件11相對於主機1〇翻 201227306 轉至上述預設開啟角度。另外,翻蓋式電子裝置1於每次 關機時儲存的顯示元件11相對於主機10的開啟角度均會 替代儲存件151中儲存的前一次關機時顯示元件η相對 於主機10的開啟角度。 圖4所示為根據本發明之一較佳實施例之翻蓋式電子 裝置的控制方法的流程圖。請一併參考圖丨至圖4。如圖 4所示’翻蓋式電子裝置的控制方法包括步驟S10〜S13。 於步驟S10中,接收一關機命令。於步驟S11中,儲 存顯示元件11相對於主機1〇的開啟角度。關於控制單元 15儲存當翻蓋式電子裝置1前一次關機時顯示元件u相 對於主機10的開啟角度的具體過程如前所述,故於此不 再贅述。 於步驟S12中,產生啟動訊號S2。其中,翻蓋式電子 裝置1的啟動件13產生啟動訊號S2。於此,啟動件13為 開關’且上述開關亦為翻蓋式電子裝置1的電源開關。當 上述開關被觸發時,同時產生啟動訊號S2與翻蓋式電子 裝置1的開機訊號。然而,本發明並不限定於此。於其它 實施例中’啟動件13亦可為語音識別元件、圖像識別元 件或指紋制轉。關於啟動件13如前所述,故於此不 再贅述。 於步驟S13中,根據啟動訊號S2控制驅動# 14驅動 轉轴12,以使顯示元们1相對於主;« 10翻轉至上述開啟 角度。關於控制單元15控制顯示元件11相對於主機10 翻轉至當翻蓋式電子裝置丨前—次關機咖示元件u相 201227306 對於主機10的開啟角度的具體過 述,故於此不 再贅述。 工姑:,根據本發明較佳實施例所提供之翻蓋式電 關攄主s、工制方法’可自動控制顯示元件打開至前-次 關機時顯以件㈣於主機㈣啟角度^此,藉由自動 翻盖取代手動操作,可減小因使用者操作時用力不均而導 致轉軸損壞或失效的問題,從而增加轉轴的使用壽命。此 外,本發明較佳實施例提供之翻蓋式電子裝置亦增加了使 用者操作的便利性及舒適性。 雖然本發明已以較佳實施例揭露如上,然其並非用以 限疋本發明’任何所屬技術領域巾具有通常知識者,在不 脫離本發明的精神和範_,當可作些許的更動與潤飾, 因此本發_保護範圍當視申請專㈣圍所界定者為準。 【圖式簡單說明】 圖1所不為根據本發明之一較佳實施例之翻蓋式電子 裝置的示意圖。 圖2所示為根據本發明之一較佳實施例之翻蓋式電子 襄置的分解示意圖。 圖3所示為根據本發明之一較佳實施例之翻蓋式電子 裝置的局部方塊圖。 圖4所示為根據本發明之一較佳實施例之翻蓋式電子 裝置的控制方法的流程圖。 201227306 【主要元件符號說明】 1 翻蓋式電子裝置 10 主機 11 顯示元件 12 轉軸 13 啟動件 14 驅動件 15 控制單元 16 感應器 120 容置部 140 活動桿 150 控制器 151 儲存件 S1 感應訊號 S2 啟動訊號 S10〜S13 步驟 12201227306 VI. Description of the Invention: [Technical Field] The present invention relates to an electronic device and a control method thereof, and more particularly to a flip-type electronic device capable of automatically flipping and a control method thereof. [Prior Art] With the continuous development of the electronics industry, computers have become an indispensable part of modern people's lives, especially notebook computers, which are favored by people because of their light, thin, and portable characteristics. It is used frequently by people in daily life. However, existing notebook computers are opened manually by the user. As a result, the hinge of the notebook computer often suffers damage or failure due to uneven force when the user operates. In addition, opening the screen cover by manual operation can affect the convenience and comfort of the user. SUMMARY OF THE INVENTION An object of the present invention is to provide a flip-type electronic device and a control method thereof to improve the deficiency of the prior art. The present invention provides a flip type electronic device including a display element, a main body, a rotating shaft, a driving member, a starting member, and a control unit. The hinge connects the display component to the host so that the display component is flippable relative to the host. The drive unit is connected to the shaft for driving the shaft to rotate. The starter is used to generate the start signal. The control unit electrically connects the driving member and the starting member. The control unit stores the display element with respect to the host when the clamshell electronic device is turned off for the previous time. The switch unit receives the switch to the opening angle of the motion signal control (four) of the present invention to enable the display element: Pair: main root:: storage member, control ^ In a specific embodiment, the control unit includes a controller and a storage opening, a starting member, and a driving member. The storage member is in a specific embodiment of the present invention, and the controller For embedded control in the present invention - in a particular embodiment, the drive member is a motor. In one embodiment of the invention, the activation member, the button component, the image recognition component or the fingerprint recognition section. In one embodiment of the present invention, when the switch is a flip-type electronic device and the electric switch is triggered, the start signal of the start signal and the flip type electronic device is simultaneously generated. In one embodiment of the invention, the flip-type electronic device is a notebook computer. The present invention also provides a method of controlling a flip-type electronic device implemented in a flip-type electronic device. The flip type electronic device includes a display element, a main shaft, and a driving member. The hinge connects the display component, the main unit, and the drive unit. The control method of the flip type electronic device includes a command. The storage surface indicates that the component is turned off relative to the host. Generate the start = number. The drive shaft is driven according to the start signal to rotate the display element to the opening angle relative to the main unit. According to the clamshell electronic device and the control method thereof provided by the present invention, the 201227306 can automatically control the display element to open to the opening angle of the display element with respect to the main body during the first-time shutdown, so that the manual operation can be replaced by the automatic flip cover. The problem of uneven or unsatisfactory operation of the user causes the shaft to be damaged or failed', thereby increasing the service life of the shaft. In addition, the flip-type electronic device provided by the present invention also increases the convenience and comfort of the user. The above and other objects, features, and advantages of the present invention will become more apparent from the aspects of the appended claims appended claims A clamshell type electronic device of a preferred embodiment is not intended. 2 is a partially exploded perspective view of a flip-type electronic device in accordance with a preferred embodiment of the present invention. 3 is a partial block diagram of a flip-type electronic device in accordance with a preferred embodiment of the present invention. Please refer to Figure 1, Figure 2 and Figure 3. The flip type electronic device 1 to which the present embodiment is applied may be, for example, a notebook computer. However, the invention is not limited thereto. In other embodiments, the flip-type electronic device 1 can also be another flip-type electronic device such as a netbook. In the present embodiment, the flip type electronic device 1 includes a main body 10, a display element 11, a rotating shaft 12, an actuating member 13, a driving member 14, and a control unit 15. The rotating shaft 12 connects the display element 11 with the main body 1 以 to make the display element 11 reversible with respect to the main unit 10. The driving member 14 is disposed in the main body 10 and connected to the rotating shaft 12 for driving the rotating shaft 12 to rotate. The starter 13 is disposed on the host 10. The control unit 15 is disposed in the host 10 and electrically connected to the 201227306 driver 14 and the actuator 13. In the present embodiment, as shown in Fig. 1, the starting member 13 is a switch and is placed on a side wall of the main cymbal 10. Here, the power switch of the above-mentioned sub-device i is ,, and this = is a clamshell type electric power - the praise is not limited to this. In the embodiment, the activation member 13 can also be a speech-upper 0 s recognition component, an image recognition component or a fingerprint recognition component. In the present embodiment, as shown in FIG. 2, the drive is "a motor. The drive member 14 has a movable lever 14", and the rotary shaft 12 has a receiving portion 12A. The movable lever 140 of the driving member u is disposed at the center of rotation 2 When the driving member 14 rotates, the driving member 14 can rotate the rotating shaft 12 by the cooperation of the movable rod 14 〇 and the accommodating portion 12 ,, so that the display element u is opposite to the main body 10 In this embodiment, as shown in Fig. 3, the control unit 15 includes a control thief 150 and a storage member (5). The controller 15 〇 connects the storage member 15 and the activation member U and the driving member 14. The storage member 151 stores the flip cover. The electronic device 1 displays the opening angle of the component n relative to the main 胄1 前 before the power is turned off. The controller 150 can be an embedded controller, and the storage member 151 can be a non-volatile memory, for example, a flash memory. The body can still store the information of the opening angle without providing power. However, the invention is not limited thereto. In other embodiments, the control unit 15 can be an embedded controller. The angle can be stored in the internal controller of the |input controller. The clamshell electronic device 1 further includes a controller 15 . The inductor is provided in the embodiment, as shown in FIG. 3 , and includes an inductor 16 connected to the control unit 15 201227306 16 , for example, an angle sensor, disposed on the display element 11 The upper part is used to sense the opening angle of the display element 11 relative to the main unit 1 . The automatic flip operation of the flip-type electronic device 1 is described in detail below. Here, the power switch of the flip-type electronic device i is used as an example. Specifically, when the user controls the clamshell electronic device 1 to shut down through the operating system, the operating system transmits a shutdown command to the controller 150 of the control unit 15 while stopping the subsequent shutdown task. When the controller 150 receives After the shutdown command, an inductive signal § 1 is generated, and the sensing signal S1 is transmitted to the sensor 16. The sensor 16 receives the sensing signal S1 and senses the display element U of the clamshell electronic device 1 relative to the host 10 at this time. The angle of opening is then applied. The controller 150 then receives its sensed opening angle from the sensor 16 and stores the opening angle in the storage member 151. The controller 150 will execute a preset program code (instruction in a specific address) to notify the operating system of the clamshell electronic device 1 through a south bridge chip (not shown), so that the clamshell electronic device continues to perform subsequent operations. In the present embodiment, when the user uses the flip type electronic device 1 again, the user only needs to press the starter 13 to flip the display element u relative to the host 10 to the storage in the storage unit I5. Specifically, in the embodiment, when the flip-type electronic device is plugged into a battery (not shown) or connected to an AC-DC converter (not shown), the battery or the AC connected to the AC power source is connected. The DC converter can provide power to the motherboard of the flip-type electronic device 1 (not shown), so that the motherboard 201227306 is long: 5 volts (V) of standby power (Standby Power) to the electronic components on the motherboard. By this, the controller 15 can use the standby power supply to perform related operations. In the present embodiment, when the controller 150 detects that the user presses the activation member 13 (for example, the controller 150 receives the low-level activation signal S2 generated by the activation member 13 or 'in other embodiments, The controller 150 receives the high level activation signal S2) generated by the activation member 13, and the controller 150 reads from the storage member 151 the display element 11 stored by the clamshell electronic device 1 at the previous shutdown. The opening angle. Then, the controller 150 controls the driving member 14 to rotate the rotating shaft 12 according to the above opening angle to cause the display member 翻转 to be turned relative to the main body 10 to the above opening angle and degree. Here, since the activation member 13 is the power switch of the flip-type electronic device 1, when the activation member 13 (switch) is triggered, the activation signal S2 and the activation signal of the clamshell electronic device 1 are simultaneously generated. In other words, after the activation member 13 is pressed, the flip-type electronic device 1 simultaneously performs the power-on operation and the automatic flip operation. However, the invention is not limited thereto. In other embodiments, when the activation member 13 is a voice recognition component, an image recognition component, or a fingerprint recognition component, the user can separately control the two processes of the power-on operation and the automatic flip of the flip-type electronic device 1. In the above process, it should be noted that since the flip-type electronic device 1 does not store the opening angle of the display element 11 relative to the host 10 when the previous shutdown was performed in the storage member 151, the storage member 151 is still A preset opening angle can be stored. When the flip-type electronic device i is used for the first time, the control unit I5 can control the display element 11 to turn over the 201227306 to the above-mentioned preset opening angle with respect to the host 1. In addition, the opening angle of the display element 11 stored with respect to the main body 10 when the flip-type electronic device 1 is turned off every time replaces the opening angle of the display element η with respect to the host 10 when the previous shutdown is stored in the storage member 151. 4 is a flow chart showing a method of controlling a flip-type electronic device in accordance with a preferred embodiment of the present invention. Please refer to Figure 4 to Figure 4. As shown in Fig. 4, the control method of the flip type electronic device includes steps S10 to S13. In step S10, a shutdown command is received. In step S11, the opening angle of the display element 11 with respect to the main unit 1 is stored. Regarding the control unit 15 storing the specific process of the opening angle of the display element u with respect to the host 10 when the clamshell electronic device 1 was turned off for the previous time, as described above, it will not be described again. In step S12, an activation signal S2 is generated. The activation member 13 of the flip-type electronic device 1 generates an activation signal S2. Here, the actuator 13 is a switch 'and the switch is also a power switch of the flip-type electronic device 1. When the above switch is triggered, the start signal of the start signal S2 and the flip type electronic device 1 is simultaneously generated. However, the invention is not limited thereto. In other embodiments, the actuator 13 can also be a voice recognition component, an image recognition component, or a fingerprint relay. The starter 13 is as described above, and therefore will not be described again. In step S13, the drive shaft 14 is driven to drive the rotary shaft 12 in accordance with the start signal S2 so that the display elements 1 are inverted with respect to the main; «10 to the above opening angle. The control unit 15 controls the display element 11 to be flipped relative to the main unit 10 to the specific state of the opening angle of the clamshell electronic device 27 — 次 2012 2012 2012 201227306 for the host 10, and therefore will not be described again. The utility model provides a clamshell electric switch main s and a working method according to a preferred embodiment of the present invention, which can automatically control the display component to be turned on to the front-end shutdown state (4) at the host (four) opening angle ^, By replacing the manual operation with the automatic flip cover, the problem of damage or failure of the rotating shaft caused by the uneven force of the user during operation can be reduced, thereby increasing the service life of the rotating shaft. In addition, the clamshell electronic device provided by the preferred embodiment of the present invention also increases the convenience and comfort of the user. Although the present invention has been disclosed in the above preferred embodiments, it is not intended to limit the invention to any of the technical scope of the invention, and may be modified and modified without departing from the spirit and scope of the invention. Therefore, the scope of this issue _ protection scope shall be subject to the definition of the application (4). BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a schematic illustration of a flip-type electronic device in accordance with a preferred embodiment of the present invention. Figure 2 is an exploded perspective view of a flip-type electronic device in accordance with a preferred embodiment of the present invention. 3 is a partial block diagram of a flip-type electronic device in accordance with a preferred embodiment of the present invention. 4 is a flow chart showing a method of controlling a flip-type electronic device in accordance with a preferred embodiment of the present invention. 201227306 [Explanation of main component symbols] 1 Clamshell electronic device 10 Main unit 11 Display component 12 Rotary shaft 13 Starting member 14 Drive member 15 Control unit 16 Sensor 120 Receptacle 140 Activity lever 150 Controller 151 Storage S1 Inductive signal S2 Start signal S10~S13 Step 12