TWI533108B - Portable electronic device - Google Patents

Description

可攜式電子裝置 Portable electronic device

本發明係有關於一種可攜式電子裝置，特別係有關於一種具有休眠功能的可攜式電子裝置。 The present invention relates to a portable electronic device, and more particularly to a portable electronic device having a sleep function.

筆記型電腦休眠原理，是藉由使磁鐵靠近霍爾效應感測器(Hall sensor)，霍爾效應感測器感應外部磁場的變化，並轉換為輸出電壓的差異，進而使筆記型電腦進行休眠。在習知技術中，筆記型電腦的休眠角度是固定的，唯有當筆記型電腦的上蓋螢幕關闔到特定角度，才會使筆記型電腦進入休眠。然而，使用者在使用筆記型電腦時，可能將筆記型電腦外接顯示螢幕，以將筆記型電腦當作電腦主機使用，在此使用模式下，筆記型電腦的上蓋螢幕僅需要呈關闔狀態或微開狀態，而此時筆記型電腦的自動休眠功能反而造成使用者的困擾。 The sleep principle of the notebook computer is that the Hall effect sensor senses the change of the external magnetic field and converts it into a difference of the output voltage, so that the notebook computer sleeps by bringing the magnet close to the Hall sensor. . In the prior art, the sleep angle of the notebook computer is fixed, and only when the upper cover screen of the notebook computer is closed to a certain angle, the notebook computer is put to sleep. However, when the user uses the notebook computer, the notebook computer may be externally connected to the display screen to use the notebook computer as a host computer. In this mode of use, the upper cover screen of the notebook computer only needs to be in a state of being closed or The micro-open state, while the automatic sleep function of the notebook computer at the same time caused the user's trouble.

本發明係為了欲解決習知技術之問題而提供之一種可攜式電子裝置包括一第一部件以及一第二部件。第一部件包括一輸入介面以及一第一感測器。第二部件樞接該第一部件，並繞一樞軸相對該第一部件樞轉，其中，該第二部件包括一顯示介面以及一休眠調整單元，該休眠調整單元適於在一第一模態以及一第二模態之間進行切換，當該休眠調整單元處於 該第一模態時，該休眠調整單元在該第二部件位於一第一休眠方位的情況下啟動該第一感測器，使該可攜式電子裝置進入休眠，當該休眠調整單元處於該第二模態時，該休眠調整單元在該第二部件位於一第二休眠方位的情況下啟動該第一感測器，使該可攜式電子裝置進入休眠，該第一休眠方位不同該第二休眠方位。 The present invention provides a portable electronic device including a first component and a second component for solving the problems of the prior art. The first component includes an input interface and a first sensor. The second component pivotally connects the first component and pivots relative to the first component about a pivot, wherein the second component includes a display interface and a sleep adjustment unit, and the sleep adjustment unit is adapted to be in a first mode Switching between a state and a second mode when the sleep adjustment unit is In the first mode, the sleep adjustment unit activates the first sensor when the second component is in a first sleep orientation, so that the portable electronic device enters sleep, when the sleep adjustment unit is in the In the second mode, the sleep adjustment unit activates the first sensor when the second component is in a second dormant orientation, so that the portable electronic device enters sleep, and the first dormant orientation is different. Two dormant orientations.

應用本發明實施例之可攜式電子裝置，使用者可直接推動設置於裝置表面的推鈕而調整休眠角度。特別是，當使用者將筆記型電腦外接顯示螢幕，以將筆記型電腦當作電腦主機使用的情況。因此可大幅增進使用者在操作上的便利性，也提高了可攜式電子裝置(筆記型電腦)在應用上的廣泛及靈活程度。 With the portable electronic device of the embodiment of the invention, the user can directly push the push button disposed on the surface of the device to adjust the sleep angle. In particular, when the user externally connects the notebook to the display screen to use the notebook as a host computer. Therefore, the user's convenience in operation can be greatly improved, and the wide and flexible degree of application of the portable electronic device (notebook) can be improved.

1、1’‧‧‧可攜式電子裝置 1, 1'‧‧‧ portable electronic devices

10‧‧‧第一部件 10‧‧‧ first part

11‧‧‧輸入介面 11‧‧‧Input interface

12‧‧‧電路板 12‧‧‧ boards

13‧‧‧第一感測器 13‧‧‧First sensor

14‧‧‧第二感測器 14‧‧‧Second sensor

15‧‧‧第一表面 15‧‧‧ first surface

16‧‧‧第二表面 16‧‧‧ second surface

20‧‧‧第二部件 20‧‧‧ second part

21‧‧‧顯示介面 21‧‧‧Display interface

100‧‧‧休眠調整單元 100‧‧‧sleep adjustment unit

110‧‧‧磁力元件 110‧‧‧ magnetic components

111‧‧‧導角斜面 111‧‧‧Guided angle bevel

120‧‧‧推鈕 120‧‧‧ push button

130‧‧‧傳動機構 130‧‧‧Transmission mechanism

131‧‧‧第一階 131‧‧‧first order

132‧‧‧第二階 132‧‧‧second order

133‧‧‧第一斜面 133‧‧‧ first slope

134‧‧‧第二斜面 134‧‧‧second slope

140‧‧‧彈力元件 140‧‧‧ resilient components

X‧‧‧第一方向 X‧‧‧ first direction

Y‧‧‧第二方向 Y‧‧‧second direction

A‧‧‧樞軸 A‧‧‧ pivot

θ1、θ2‧‧‧夾角 Θ1, θ2‧‧‧ angle

第1圖係顯示本發明第一實施例之可攜式電子裝置。 Fig. 1 is a view showing a portable electronic device according to a first embodiment of the present invention.

第2A圖係顯示休眠調整單元處於第一模態的情形。 Figure 2A shows the situation in which the sleep adjustment unit is in the first mode.

第2B圖係顯示休眠調整單元處於第二模態的情形。 Figure 2B shows the situation in which the sleep adjustment unit is in the second mode.

第2C圖係顯示休眠調整單元處於第三模態的情形。 The 2C figure shows the case where the sleep adjustment unit is in the third mode.

第3A圖係顯示休眠調整單元處於第一模態時，與第一感測器的對應的情形。 Figure 3A shows the situation corresponding to the first sensor when the sleep adjustment unit is in the first mode.

第3B圖係顯示休眠調整單元處於第二模態時，與第一感測器的對應的情形。 Figure 3B shows the situation corresponding to the first sensor when the sleep adjustment unit is in the second mode.

第3C圖係顯示休眠調整單元處於第三模態時，與第一感測器的對應的情形。 The 3C figure shows a situation corresponding to the first sensor when the sleep adjustment unit is in the third mode.

第4A圖係顯示可攜式電子裝置呈現一平板型態。 Figure 4A shows the portable electronic device presenting a flat panel type.

第4B、4C圖係顯示可攜式電子裝置呈現平板型態時，休眠調整單元與第二感測器的對應的情形。 The 4B and 4C are diagrams showing the correspondence between the sleep adjustment unit and the second sensor when the portable electronic device assumes the flat type.

第5圖係顯示本發明第二實施例之可攜式電子裝置。 Fig. 5 is a view showing a portable electronic device according to a second embodiment of the present invention.

參照第1圖，其係顯示本發明第一實施例之可攜式電子裝置1，包括一第一部件10以及一第二部件20。第一部件10包括一輸入介面11、一電路板(12，參照第3A圖)以及一第一感測器13。第一感測器13設於電路板12。第二部件20樞接該第一部件10，並繞一樞軸A相對該第一部件10樞轉，其中，該第二部件20包括一顯示介面21以及一休眠調整單元100，該休眠調整單元100適於在一第一模態以及一第二模態之間進行切換。當該休眠調整單元100處於該第一模態時，該休眠調整單元在該第二部件20位於一第一休眠方位的情況下啟動該第一感測器13，使該可攜式電子裝置1進入休眠。當該休眠調整單元100處於該第二模態時，該休眠調整單元在該第二部件20位於一第二休眠方位的情況下啟動該第一感測器13，使該可攜式電子裝置1進入休眠，該第一休眠方位不同該第二休眠方位。 Referring to FIG. 1 , a portable electronic device 1 according to a first embodiment of the present invention includes a first component 10 and a second component 20 . The first component 10 includes an input interface 11, a circuit board (12, see FIG. 3A), and a first sensor 13. The first sensor 13 is disposed on the circuit board 12. The second component 20 is pivotally connected to the first component 10 and pivoted relative to the first component 10 about a pivot A. The second component 20 includes a display interface 21 and a sleep adjustment unit 100. The sleep adjustment unit 100 is adapted to switch between a first mode and a second mode. When the sleep adjustment unit 100 is in the first mode, the sleep adjustment unit activates the first sensor 13 when the second component 20 is in a first sleep orientation, so that the portable electronic device 1 is enabled. Go to sleep. When the sleep adjustment unit 100 is in the second mode, the sleep adjustment unit activates the first sensor 13 when the second component 20 is in a second sleep orientation, so that the portable electronic device 1 is enabled. Entering sleep, the first dormant orientation is different from the second dormant orientation.

搭配參照第1、2A以及2B圖，該休眠調整單元100包括一磁力元件110，當該休眠調整單元100處於該第一模態時(第2A圖)，該磁力元件110位於一第一位置。當該休眠調整單元100處於該第二模態時(第2B圖)，該磁力元件110位於一第二位置，該第一位置位於該第二位置與該樞軸之間。 Referring to Figures 1, 2A and 2B, the sleep adjustment unit 100 includes a magnetic element 110. When the sleep adjustment unit 100 is in the first mode (Fig. 2A), the magnetic element 110 is in a first position. When the sleep adjustment unit 100 is in the second mode (FIG. 2B), the magnetic element 110 is in a second position, the first position being between the second position and the pivot.

在本發明之實施例中，透過調整磁力元件110與感 測器之間的相對位置，得以調整啟動休眠的角度。參照第3A圖，該第二部件20於該第一休眠方位與該第一部件10之間形成一第一夾角θ1，此時磁力元件110正對第一感測器13，而提供充足的磁感應而起動休眠。參照第3B圖，該第二部件20於該第二休眠方位與該第一部件10之間形成一第二夾角θ2，此時磁力元件110正對第一感測器13，而提供充足的磁感應而起動休眠。該第一夾角θ1大於該第二夾角θ2。在一實施例中，該第一夾角θ1可以為40度，該第二夾角θ2可以為20度。該第一感測器13為霍爾感測器，該第一感測器13埋設於該第一部件10之中。 In an embodiment of the invention, by adjusting the magnetic element 110 and the sense The relative position between the detectors is adjusted to the angle at which sleep is initiated. Referring to FIG. 3A, the second component 20 forms a first angle θ1 between the first dormant orientation and the first component 10, and the magnetic component 110 faces the first sensor 13 to provide sufficient magnetic induction. And start to sleep. Referring to FIG. 3B, the second component 20 forms a second angle θ2 between the second dormant orientation and the first component 10, and the magnetic component 110 faces the first sensor 13 to provide sufficient magnetic induction. And start to sleep. The first included angle θ1 is greater than the second included angle θ2. In an embodiment, the first angle θ1 may be 40 degrees, and the second angle θ2 may be 20 degrees. The first sensor 13 is a Hall sensor, and the first sensor 13 is embedded in the first component 10.

搭配參照第1、3C圖，在一實施例中，該休眠調整單元100適於被調整至一第三模態，當該休眠調整單元100處於該第三模態時，即使該第二部件20與該第一部件10之間的夾角為0度，也不會啟動休眠，因為磁力元件110沒有正對第一感測器13。 Referring to FIGS. 1 and 3C, in an embodiment, the sleep adjustment unit 100 is adapted to be adjusted to a third mode, even when the sleep adjustment unit 100 is in the third mode, even if the second component 20 The angle between the first component 10 and the first component 10 is 0 degrees, and sleep is not initiated because the magnetic element 110 does not face the first sensor 13.

再搭配參照第1、2A以及2B圖，該休眠調整單元100更包括一推鈕120，該推鈕120推動該磁力元件110從該第一位置移動至該第二位置，該推鈕120設於該第二部件20之表面。該休眠調整單元100更包括一傳動機構130，該推鈕120連接該傳動機構130，該傳動機構130抵接該磁力元件110，當該推鈕120推使該傳動機構130朝一第一方向X平移時，該傳動機構130推使該磁力元件110朝一第二方向Y平移，該第一方向X垂直於該第二方向Y。 Referring to the first, second, and second embodiments, the sleep adjustment unit 100 further includes a push button 120 that pushes the magnetic component 110 from the first position to the second position, and the push button 120 is disposed on the push button 120. The surface of the second component 20. The sleep adjustment unit 100 further includes a transmission mechanism 130. The push button 120 is coupled to the transmission mechanism 130. The transmission mechanism 130 abuts the magnetic component 110. When the push button 120 pushes the transmission mechanism 130 to translate into a first direction X. The transmission mechanism 130 pushes the magnetic element 110 to translate in a second direction Y, the first direction X being perpendicular to the second direction Y.

再參照第2A~2C圖，該傳動機構130呈階梯狀，該傳動機構130包括一第一階131以及一第二階132。參照第2A 圖，當該磁力元件110位於該第一位置時，該磁力元件110尚未被傳動機構130推動。參照第2A、2B圖，該傳動機構130包括一第一斜面133，設於該第一階131前端，該磁力元件110包括一導角斜面111，當該休眠調整單元100從該第一模態調整至該第二模態時，該傳動機構朝130該第一方向X平移，該第一斜面133抵接該導角斜面111，而使該磁力元件110從該第一位置被移動至該第二位置。當該磁力元件110位於該第二位置時，該磁力元件抵接該第一階131。 Referring again to FIGS. 2A-2C, the transmission mechanism 130 is stepped, and the transmission mechanism 130 includes a first step 131 and a second step 132. Refer to 2A The magnetic element 110 has not been pushed by the transmission mechanism 130 when the magnetic element 110 is in the first position. Referring to FIGS. 2A and 2B, the transmission mechanism 130 includes a first slope 133 disposed at the front end of the first step 131. The magnetic component 110 includes a lead angle slope 111 when the sleep adjustment unit 100 is from the first mode. When the second mode is adjusted, the transmission mechanism translates toward the first direction X, the first slope 133 abuts the lead angle 111, and the magnetic element 110 is moved from the first position to the first Two locations. When the magnetic element 110 is in the second position, the magnetic element abuts the first step 131.

參照第2B、2C圖，使用者可進一步將該傳動機構朝130該第一方向X平移，使該傳動機構130之一第二斜面134抵接該導角斜面111，並推使該磁力元件110從該第二位置被移動至一第三位置。當該休眠調整單元處於該第三模態時(第2C圖)，該磁力元件110位於該第三位置，此時該磁力元件110抵接該第二階132。 Referring to FIGS. 2B and 2C, the user can further translate the transmission mechanism toward the first direction X of the 130, so that one of the second inclined surfaces 134 of the transmission mechanism 130 abuts the lead angle slope 111, and pushes the magnetic element 110. From the second position is moved to a third position. When the sleep adjustment unit is in the third mode (FIG. 2C), the magnetic element 110 is in the third position, and the magnetic element 110 abuts the second step 132.

再參照第2A~2C圖，該休眠調整單元100更包括一彈力元件140，當該推鈕120推使該傳動機構130朝相反於該第一方向的方向(-X)平移時，該彈力元件140提供回復力將該磁力元件110朝相反於該第二方向的方向(-Y)拉回。 Referring again to FIGS. 2A-2C, the sleep adjustment unit 100 further includes a spring element 140. When the push button 120 pushes the transmission mechanism 130 to translate in a direction (-X) opposite to the first direction, the elastic element The 140 provides a restoring force to pull the magnetic element 110 back in a direction (-Y) opposite the second direction.

參照第4A圖，在一實施例中，可攜式電子裝置1亦可以呈現一平板型態。在此實施例中，該第二部件20可樞轉360度而抵接該第一部件10的背面。搭配參照第2A、2B、4B、4C圖，在此實施例中，該第一部件10更包括一第二感測器14，該電路板12包括一第一表面15以及一第二表面16，該第二表面16相反於該第一表面15，該第一感測器13設於該第一表面15，該 第二感測器14設於該第二表面16。透過該推鈕120調整該磁力元件110的位置，可使該第二感測器14被啟動，而使該可攜式電子裝置1立即進入休眠。在一實施例中，該第二感測器14與該第一感測器13相對應，當該推鈕120從該第三位置(第4B圖)朝相反於該第一方向的方向(-X)平移至該第一位置(第4C圖)時，該可攜式電子裝置1立即進入休眠。該第二感測器14的位置可適度調整，例如，該第二感測器14的位置亦可調整為，當該推鈕120從該第一位置朝該第一方向(X)平移至該第三位置時，該可攜式電子裝置1立即進入休眠之設計。 Referring to FIG. 4A, in an embodiment, the portable electronic device 1 can also assume a flat type. In this embodiment, the second component 20 can be pivoted 360 degrees to abut the back of the first component 10. Referring to FIGS. 2A, 2B, 4B, and 4C, in the embodiment, the first component 10 further includes a second sensor 14 including a first surface 15 and a second surface 16. The second surface 16 is opposite to the first surface 15 , and the first sensor 13 is disposed on the first surface 15 , The second sensor 14 is disposed on the second surface 16. Adjusting the position of the magnetic element 110 through the push button 120 enables the second sensor 14 to be activated, so that the portable electronic device 1 immediately goes to sleep. In an embodiment, the second sensor 14 corresponds to the first sensor 13 when the push button 120 is from the third position (FIG. 4B) in a direction opposite to the first direction (- X) When the first position (Fig. 4C) is translated, the portable electronic device 1 immediately goes to sleep. The position of the second sensor 14 can be adjusted appropriately. For example, the position of the second sensor 14 can also be adjusted to be translated from the first position toward the first direction (X) to the In the third position, the portable electronic device 1 immediately enters the sleep design.

參照第5圖，其係顯示本發明第二實施例之可攜式電子裝置1’，在此實施例中，休眠調整單元與感測器的位置對調，一第一部件10，包括一輸入介面11以及一休眠調整單元100。第二部件20樞接該第一部件10，並繞一樞軸A相對該第一部件10樞轉，該第二部件20包括一顯示介面21以及一第一感測器13。本發明第二實施例之可攜式電子裝置1’的動作方式同第一實施例，因此不另行贅述。 Referring to FIG. 5, a portable electronic device 1' according to a second embodiment of the present invention is shown. In this embodiment, the position of the sleep adjustment unit and the sensor are reversed, and a first component 10 includes an input interface. 11 and a sleep adjustment unit 100. The second component 20 is pivotally connected to the first component 10 and pivoted relative to the first component 10 about a pivot A. The second component 20 includes a display interface 21 and a first sensor 13 . The operation mode of the portable electronic device 1' according to the second embodiment of the present invention is the same as that of the first embodiment, and therefore will not be further described.

應用本發明實施例之可攜式電子裝置，使用者可直接推動設置於裝置表面的推鈕而調整休眠角度。特別是，當使用者將筆記型電腦外接顯示螢幕，以將筆記型電腦當作電腦主機使用的情況。因此可大幅增進使用者在操作上的便利性，也提高了可攜式電子裝置(筆記型電腦)在應用上的廣泛及靈活程度。 With the portable electronic device of the embodiment of the invention, the user can directly push the push button disposed on the surface of the device to adjust the sleep angle. In particular, when the user externally connects the notebook to the display screen to use the notebook as a host computer. Therefore, the user's convenience in operation can be greatly improved, and the wide and flexible degree of application of the portable electronic device (notebook) can be improved.

雖然本發明已以具體之較佳實施例揭露如上，然其並非用以限定本發明，任何熟習此項技術者，在不脫離本發 明之精神和範圍內，仍可作些許的更動與潤飾，因此本發明之保護範圍當視後附之申請專利範圍所界定者為準。 Although the present invention has been disclosed in the above preferred embodiments, it is not intended to limit the present invention, and anyone skilled in the art will not deviate from the present invention. In the spirit and scope of the invention, some modifications and refinements may be made, and the scope of the invention is defined by the scope of the appended claims.

1‧‧‧可攜式電子裝置 1‧‧‧Portable electronic device

10‧‧‧第一部件 10‧‧‧ first part

11‧‧‧輸入介面 11‧‧‧Input interface

13‧‧‧第一感測器 13‧‧‧First sensor

20‧‧‧第二部件 20‧‧‧ second part

21‧‧‧顯示介面 21‧‧‧Display interface

100‧‧‧休眠調整單元 100‧‧‧sleep adjustment unit

Claims (10)

一種可攜式電子裝置，包括：一第一部件，包括一輸入介面以及一第一感測器；以及一第二部件，樞接該第一部件，並繞一樞軸相對該第一部件樞轉，其中，該第二部件包括一顯示介面以及一休眠調整單元，該休眠調整單元適於在一第一模態以及一第二模態之間進行切換，當該休眠調整單元處於該第一模態時，該休眠調整單元在該第二部件位於一第一休眠方位的情況下啟動該第一感測器，使該可攜式電子裝置進入休眠，當該休眠調整單元處於該第二模態時，該休眠調整單元在該第二部件位於一第二休眠方位的情況下啟動該第一感測器，使該可攜式電子裝置進入休眠，該第一休眠方位不同該第二休眠方位；其中，該第一感測器為霍爾感測器，該第一感測器埋設於該第一部件之中；其中，該休眠調整單元包括一磁力元件，當該休眠調整單元處於該第一模態時，該磁力元件位於一第一位置，當該休眠調整單元處於該第二模態時，該磁力元件位於一第二位置，該第一位置位於該第二位置與該樞軸之間；其中，該第二部件於該第一休眠方位與該第一部件之間形成一第一夾角，該第二部件於該第二休眠方位與該第一部件之間形成一第二夾角，該第一夾角大於該第二夾角。 A portable electronic device includes: a first component including an input interface and a first sensor; and a second component pivotally connected to the first component and pivoted relative to the first component about a pivot The second component includes a display interface and a sleep adjustment unit, and the sleep adjustment unit is adapted to switch between a first mode and a second mode, when the sleep adjustment unit is at the first In the modal state, the sleep adjustment unit activates the first sensor when the second component is in a first sleep orientation, so that the portable electronic device enters sleep, and when the sleep adjustment unit is in the second mode In the state, the sleep adjustment unit activates the first sensor when the second component is in a second sleep orientation, so that the portable electronic device enters sleep, and the first sleep orientation is different from the second sleep orientation. Wherein the first sensor is a Hall sensor, the first sensor is embedded in the first component; wherein the sleep adjustment unit comprises a magnetic component, and when the sleep adjustment unit is in the One In the state, the magnetic component is in a first position, and when the sleep adjustment unit is in the second mode, the magnetic component is in a second position, the first position being located between the second position and the pivot; The second component forms a first angle between the first dormant orientation and the first component, and the second component forms a second angle between the second dormant orientation and the first component. An angle is greater than the second angle. 如申請專利範圍第1項所述之可攜式電子裝置，其中，該休眠調整單元更包括一推鈕，該推鈕推動該磁力元件從該第 一位置移動至該第二位置，該推鈕設於該第二部件之表面。 The portable electronic device of claim 1, wherein the sleep adjustment unit further comprises a push button, the push button pushes the magnetic component from the first A position is moved to the second position, and the push button is disposed on a surface of the second component. 如申請專利範圍第2項所述之可攜式電子裝置，其中，該休眠調整單元更包括一傳動機構，該推鈕連接該傳動機構，該傳動機構抵接該磁力元件，當該推鈕推使該傳動機構朝一第一方向平移時，該傳動機構推使該磁力元件朝一第二方向平移，該第一方向垂直於該第二方向。 The portable electronic device of claim 2, wherein the sleep adjustment unit further comprises a transmission mechanism, the push button is connected to the transmission mechanism, and the transmission mechanism abuts the magnetic component, when the push button is pushed When the transmission mechanism is translated in a first direction, the transmission mechanism urges the magnetic element to translate in a second direction that is perpendicular to the second direction. 如申請專利範圍第3項所述之可攜式電子裝置，其中，該傳動機構呈階梯狀，該傳動機構包括一第一階，當該磁力元件位於該第二位置時，該磁力元件抵接該第一階。 The portable electronic device of claim 3, wherein the transmission mechanism is stepped, the transmission mechanism includes a first step, and when the magnetic component is in the second position, the magnetic component abuts The first order. 如申請專利範圍第4項所述之可攜式電子裝置，其中，該傳動機構包括一第一斜面，設於該第一階前端，該磁力元件包括一導角斜面，當該休眠調整單元從該第一模態調整至該第二模態時，該傳動機構朝該第一方向平移，該第一斜面抵接該導角斜面，而使該磁力元件從該第一位置被移動至該第二位置。 The portable electronic device of claim 4, wherein the transmission mechanism comprises a first inclined surface disposed at the front end of the first step, the magnetic component includes a lead angle slope, when the sleep adjustment unit is When the first mode is adjusted to the second mode, the transmission mechanism translates toward the first direction, the first slope abuts the angled bevel, and the magnetic element is moved from the first position to the first Two locations. 如申請專利範圍第4項所述之可攜式電子裝置，其中，該傳動機構包括一第二階，該休眠調整單元適於被調整至一第三模態，當該休眠調整單元處於該第三模態時，該磁力元件位於一第三位置，當該磁力元件位於該第三位置時，該磁力元件抵接該第二階。 The portable electronic device of claim 4, wherein the transmission mechanism comprises a second step, the sleep adjustment unit is adapted to be adjusted to a third mode, when the sleep adjustment unit is in the In the trimodal state, the magnetic element is in a third position, and when the magnetic element is in the third position, the magnetic element abuts the second step. 如申請專利範圍第3項所述之可攜式電子裝置，其中，該休眠調整單元更包括一彈力元件，當該推鈕推使該傳動機構朝相反於該第一方向的方向平移時，該彈力元件提供回復力將該磁力元件朝相反於該第二方向的方向拉回。 The portable electronic device of claim 3, wherein the sleep adjustment unit further comprises an elastic element, when the push button pushes the transmission mechanism to translate in a direction opposite to the first direction, The resilient element provides a restoring force to pull the magnetic element back in a direction opposite to the second direction. 如申請專利範圍第1項所述之可攜式電子裝置，其中，該第一部件更包括一電路板以及一第二感測器，該電路板包括一第一表面以及一第二表面，該第二表面相反於該第一表面，該第一感測器設於該第一表面，該第二感測器設於該第二表面。 The portable electronic device of claim 1, wherein the first component further comprises a circuit board and a second sensor, the circuit board comprising a first surface and a second surface, The second surface is opposite to the first surface, the first sensor is disposed on the first surface, and the second sensor is disposed on the second surface. 如申請專利範圍第8項所述之可攜式電子裝置，其中，該第二感測器與該第一感測器相對應。 The portable electronic device of claim 8, wherein the second sensor corresponds to the first sensor. 一種可攜式電子裝置，包括：一第一部件，包括一輸入介面以及一休眠調整單元；以及一第二部件，樞接該第一部件，並繞一樞軸相對該第一部件樞轉，該第二部件包括一顯示介面以及一第一感測器，其中，該休眠調整單元適於在一第一模態以及一第二模態之間進行切換，當該休眠調整單元處於該第一模態時，該休眠調整單元在該第二部件位於一第一休眠方位的情況下啟動該第一感測器，使該可攜式電子裝置進入休眠，當該休眠調整單元處於該第二模態時，該休眠調整單元在該第二部件位於一第二休眠方位的情況下啟動該第一感測器，使該可攜式電子裝置進入休眠，該第一休眠方位不同該第二休眠方位；其中，該第一感測器為霍爾感測器，該第一感測器埋設於該第一部件之中；其中，該休眠調整單元包括一磁力元件，當該休眠調整單元處於該第一模態時，該磁力元件位於一第一位置，當該休眠調整單元處於該第二模態時，該磁力元件位於一第二 位置，該第一位置位於該第二位置與該樞軸之間；其中，該第二部件於該第一休眠方位與該第一部件之間形成一第一夾角，該第二部件於該第二休眠方位與該第一部件之間形成一第二夾角，該第一夾角大於該第二夾角。 A portable electronic device includes: a first component including an input interface and a sleep adjustment unit; and a second component pivotally connected to the first component and pivoted relative to the first component about a pivot The second component includes a display interface and a first sensor, wherein the sleep adjustment unit is adapted to switch between a first mode and a second mode, when the sleep adjustment unit is at the first In the modal state, the sleep adjustment unit activates the first sensor when the second component is in a first sleep orientation, so that the portable electronic device enters sleep, and when the sleep adjustment unit is in the second mode In the state, the sleep adjustment unit activates the first sensor when the second component is in a second sleep orientation, so that the portable electronic device enters sleep, and the first sleep orientation is different from the second sleep orientation. Wherein the first sensor is a Hall sensor, the first sensor is embedded in the first component; wherein the sleep adjustment unit comprises a magnetic component, and when the sleep adjustment unit is in the One When the state of the magnetic element is located at a first position, when the adjustment means is in the second sleep mode, the magnetic element in a second a first position between the second position and the pivot; wherein the second component forms a first angle between the first dormant orientation and the first component, and the second component is The second sleeping orientation forms a second angle with the first component, and the first angle is greater than the second angle.