WO2020061780A1 - Dispositif électronique pliable et procédé de commande d'affichage - Google Patents

Dispositif électronique pliable et procédé de commande d'affichage Download PDF

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Publication number
WO2020061780A1
WO2020061780A1 PCT/CN2018/107429 CN2018107429W WO2020061780A1 WO 2020061780 A1 WO2020061780 A1 WO 2020061780A1 CN 2018107429 W CN2018107429 W CN 2018107429W WO 2020061780 A1 WO2020061780 A1 WO 2020061780A1
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WIPO (PCT)
Prior art keywords
folding angle
folding
angle
application
angle sensor
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/CN2018/107429
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English (en)
Chinese (zh)
Inventor
付洋
王金周
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Shenzhen Royole Technologies Co Ltd
Original Assignee
Shenzhen Royole Technologies Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Shenzhen Royole Technologies Co Ltd filed Critical Shenzhen Royole Technologies Co Ltd
Priority to CN201880094222.0A priority Critical patent/CN112639717A/zh
Priority to PCT/CN2018/107429 priority patent/WO2020061780A1/fr
Publication of WO2020061780A1 publication Critical patent/WO2020061780A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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    • GPHYSICS
    • G06COMPUTING OR CALCULATING; COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/14Digital output to display device ; Cooperation and interconnection of the display device with other functional units

Definitions

  • the present application relates to a display control technology, and in particular, to a foldable electronic device and a display control method for the foldable electronic device.
  • the embodiments of the present application disclose a foldable electronic device and a display control method, which can quickly display and control an application interface.
  • An embodiment of the present application discloses a foldable electronic device.
  • the foldable electronic device includes a foldable display screen, an angle sensor, and a processor.
  • the angle sensor is used to detect a folding angle of the foldable display.
  • the processor is electrically connected to the angle sensor, and is configured to control switching an application interface displayed on the foldable display when it is determined that the folding angle detected by the angle sensor has changed and the change value exceeds a preset threshold.
  • An embodiment of the present application also discloses a display control method, which is applied to a foldable electronic device.
  • the foldable electronic device includes an angle sensor and a foldable display screen.
  • the display control method includes: detecting the A folding angle of the folding display screen; and when it is determined that the folding angle detected by the angle sensor changes and the change value exceeds a preset threshold, controlling to switch the application interface displayed on the foldable display screen.
  • the foldable electronic device and the display control method of the present application when the foldable display is folded and the folding angle exceeds a preset threshold, different application interfaces can be displayed, thereby improving the convenience of display control of the application interface.
  • FIG. 1 is a structural block diagram of a foldable electronic device according to an embodiment of the present application.
  • FIG. 2 is an overall schematic diagram of a foldable electronic device according to an embodiment of the present application.
  • FIG. 3 is an overall schematic diagram of a foldable electronic device according to another embodiment of the present application.
  • FIG. 4 is a schematic diagram of an angle sensor of a foldable electronic device according to an embodiment of the present application.
  • FIG. 5 is a schematic diagram of an infrared sensor of a foldable electronic device according to an embodiment of the present application.
  • FIG. 6 is a flowchart of a display control method according to an embodiment of the present application.
  • FIG. 7 is a sub-flow chart of an embodiment of step S63 in FIG. 6.
  • FIG. 8 is a sub-flow chart of step S63 in FIG. 6 in another embodiment.
  • FIG. 1 is a structural block diagram of a foldable electronic device 100 according to an embodiment of the present application.
  • FIG. 2 is an overall schematic diagram of the foldable electronic device 100.
  • the foldable electronic device 100 includes a foldable display 1, an angle sensor 2, and a processor 3.
  • the angle sensor 2 is used to detect a folding angle of the foldable display screen 1.
  • the processor 3 is electrically connected to the angle sensor 2 and is configured to control switching of the folding angle displayed on the foldable display 1 when it is determined that the folding angle detected by the angle sensor 2 has changed and the change value exceeds a preset threshold.
  • Application interface is electrically connected to the angle sensor 2 and is configured to control switching of the folding angle displayed on the foldable display 1 when it is determined that the folding angle detected by the angle sensor 2 has changed and the change value exceeds a preset threshold.
  • the angle sensor 2 detects the folding angle of the foldable display 1 every preset time interval (for example, 0.5 seconds, 1 second, etc.) to obtain multiple folding angle data
  • the processor 3 When receiving the multiple folding angle data and determining that the adjacently acquired folding angles are not equal, it is determined that the folding angle detected by the angle sensor 2 has changed, and the processor 3 determines the currently acquired When the difference between the folding angle and the folding angle obtained before the moment when it is determined that the folding angle has changed exceeds a preset threshold, it is determined that the change value of the folding angle exceeds the preset threshold.
  • the foldable display screen 1 is in an initial state when it is in a flat state, and the folding angle is 0 degrees, and the folding angle of the foldable display screen 1 is relative to an angle bent in the flat state.
  • the foldable display screen 1 includes a display surface S1 and a non-display surface S2, and the display surface S1 and the non-display surface S2 are opposite surfaces.
  • the display surface S1 further includes two sub-surfaces
  • the non-display surface S2 further includes two sub-surfaces.
  • the folding angle of the foldable display is specifically an angle between two sub-surfaces of the non-display surface S2.
  • the folding angle detected by the angle sensor 2 is also an included angle between two sub-surfaces of the non-display surface S2 of the foldable display screen 1. That is, after the folding display screen 1 is folded, the display surface S1 will be on the outside and in a state where it can always be viewed.
  • the folding angle of the foldable display screen may also be an included angle between two sub-surfaces of the display surface S1.
  • the foldable display 1 may be a main display structure of the foldable electronic device 100, and an outer frame structure of the foldable display 1 is the outer frame structure of the foldable electronic device.
  • the non-display surface S2 of the foldable display screen 1 is the back shell of the foldable electronic device 100, and the processor 3 and the like are disposed in the back shell or the outer frame. Therefore, folding the foldable display 1 described in this application is to fold the foldable electronic device 1.
  • the foldable display screen 1 includes a rotation axis R1
  • the foldable display screen 1 includes a first sub display screen 11 and a second sub display screen 12, and the first sub display screen 1
  • the display screen 11 is fixedly connected to the rotation axis R1
  • the second sub display screen 12 is rotatably connected to the rotation axis R1, so that the first sub display screen 11 and the second sub display screen 12 can rotate around the rotation axis R1, and
  • the folding angle of the foldable display 1 is changed.
  • the rotating shaft R1 may include a sleeve and a rotating rod passing through the sleeve
  • the first sub-display screen 11 may be fixedly connected to the sleeve
  • the second The sub-display screen 12 is fixedly connected to the rotation lever
  • the second sub-display screen 12 can be bent / folded relative to the first sub-display screen 11 by rotating the rotation lever relative to the sleeve.
  • the rotation axis is not limited to a physical rotation axis, and may also be a virtual rotation axis, as long as the first sub-display screen and the second sub-display screen can be rotated around it.
  • the angle sensor 3 may specifically be a resistive angle sensor, a capacitive angle sensor, a hall angle sensor, etc. provided on the rotating shaft R1, and the folding is determined by detecting the rotation angle of the rotating shaft R1 relative to the second sub-display screen 12.
  • angle For example, suppose that the rotation angle of the first sub-display screen 11 and the second sub-display screen 12 when they are expanded in parallel is zero, that is, the folding angle is zero, and then the rotation of the second sub-display screen 12 relative to the rotation axis R1 is detected. The angle serves as the folding angle.
  • the foldable display screen 1 may be an organic light-emitting diode (OLED) display screen, which has the characteristics of being bendable, twistable, and foldable. Better color and contrast, and ultra-thin features.
  • OLED organic light-emitting diode
  • a plurality of capacitive grid sensors may be distributed in the foldable display screen 1, and the processor 3 may detect a folding angle at which the foldable display screen 1 is folded by an angle sensor 2, and may pass The change in voltage generated by the capacitive grid sensor at the bend of the foldable display screen 1 determines the position where the display screen is folded to obtain the folding line L.
  • a contact point may be set between the first sub-display screen 11 and the second sub-display screen 12.
  • the connection between the contact points is broken.
  • a connection is established between the contact points. Therefore, the position where the flexible screen is bent can be determined by changing the path between the contact points to obtain the folding line L.
  • the foldable display screen 1 may not be limited to being folded at a fixed position, and may be folded at any suitable place.
  • the processor 3 After the processor 3 obtains the folding line L, the processor 3 further divides the foldable display screen 1 into a first sub display screen 11 and a second sub display screen 12 through the folding line L. That is, the processor 3 logically divides the foldable display screen 1 into a first sub display screen 11 and a second sub display screen 12 through a folding line L.
  • the angle sensor 2 may include a plurality of infrared emitters 21 and 4 respectively disposed on four sides of the foldable display 1.
  • Several infrared receivers 22 are shown in FIG. 4, each side of the foldable display screen 1 can be provided with multiple infrared transmitters 21 and multiple infrared receivers 22.
  • the processor 3 can also control the folding line L after determining the folding line L.
  • the infrared transmitter 21 on the vertical side near the folding line L emits infrared light.
  • the infrared receiver 22 receiving the infrared light will also change.
  • the processor 2 can The infrared receiver 22 of the infrared light determines the corresponding folding angle.
  • the plurality of infrared transmitters 21 and the plurality of infrared receivers 22 are disposed on the non-display surface S2 of the foldable display screen 1.
  • the processor 3 when the processor 3 determines that the folding angle detected by the angle sensor 2 changes and the change value exceeds a preset threshold, the processor 3 controls to switch the application interface displayed on the foldable display 1, which may include: : The processor 3 determines a target application when it determines that the folding angle detected by the angle sensor 2 changes and the change value exceeds a preset threshold; and controls the application program currently displayed on the foldable display 1 The application interface switches to the application interface of the target application.
  • the foldable display 1 when the foldable display 1 is currently displaying an application A, assuming an application interface of a video player, then the application A is in the foreground, and if the foldable electronic device 100 is running the application B in the background, Assume WeChat.
  • the foldable display 1 can be folded.
  • the folding angle ⁇ of the foldable display 1 is a, and after the user folds the foldable display 1, the folding angle of the foldable display 1 detected by the angle sensor 2 changes.
  • the processor 3 determines that
  • determining the target application program may specifically include: the processor 3 is determining When the folding angle detected by the angle sensor 2 changes and the change value exceeds a preset threshold, the change trend of the folding angle is further determined; and when it is determined that the change trend of the folding angle detected by the angle sensor 2 is the first trend , Determine that the application to which the last displayed application interface belongs is the target application.
  • the first trend is a decreasing trend.
  • the processor 3 determines that the change trend of the folding angle detected by the angle sensor 2 is the second trend, it determines that any other application in the background is the target application, or Priority of other applications in the background, determine the highest priority application as the target application.
  • the applications in the background also have different priorities according to the frequency of use and importance level of the user, for example, applications with high frequency and high importance have high priority.
  • the second trend may be a larger trend.
  • the first trend may be a larger trend, and the second trend may also be a smaller trend.
  • the mobile device switches At the application interface displaying the application B, the user can view the content in the application B according to his own needs. After the viewing, the user can fold the foldable display 1 to the previous angle, that is, switch back to the application interface of the application A. This completes the fast switching operation between different applications, and improves the user's short experience of viewing the interactive experience of other applications.
  • the processor 3 controls to switch the application interface displayed on the foldable display 1 when it determines that the folding angle detected by the angle sensor 2 changes and the change value exceeds a preset threshold, It may include: when the processor 3 determines that the folding angle detected by the angle sensor 2 changes and the change value exceeds a preset threshold, determining the target state; and controlling an application program currently displayed on the foldable display 1
  • the application interface in a certain state is switched to the application interface in the target state.
  • the switching of the application interface in this application includes switching of the application interface of different applications, and also includes switching between the application interface in different states of the same application or the application interface displaying different content.
  • the processor 3 and the processor 3 determine that the folding angle detected by the angle sensor 2 has changed.
  • the control switches an application interface in which the video player is in a playing state to an application interface in a paused state.
  • the folding angle ⁇ of the foldable display 1 at this time is set to a.
  • the processor 2 detects that the value of the folding angle ⁇ is b and determines that the change value of the folding angle
  • determining the target state may specifically include: the processor determines When the folding angle detected by the angle sensor 2 changes and the change value exceeds a preset threshold, the change trend of the folding angle is further determined; when it is determined that the change trend of the folding angle detected by the angle sensor 2 is the first trend, it is determined that the The state of the application interface of the displayed application at a time is the target state.
  • the state of the application interface displayed last time is a state different from the current state of the application interface of the application at the last moment, or the state of the application program displayed last time is different from the current state
  • the displayed application interface is in a different state and is the closest state to the currently displayed application interface.
  • the user when the user switches the application interface of the video player to the paused application interface by increasing the folding angle, when the user finishes processing other tasks and continues to watch the video, the user can fold the foldable display 1 again to make the folding
  • the angle ⁇ returns from angle b to angle a, and the paused video can be resumed.
  • the processor 3 determines that the change trend of the folding angle detected by the angle sensor 2 is the second trend, it determines that any other state in which the application program is located is a target state, or And, according to the priorities of other states of the application, determine the state with the highest priority as the target state.
  • other states may also include a fast-forward state, a fast-reverse state, and the like.
  • the application status also has different priorities according to the frequency of use by the user, for example, a status with a high frequency of use has a high priority.
  • the priority of the playback state and the pause state is higher than the fast forward state and the fast reverse state, when the processor 3 determines that the change trend of the folding angle detected by the angle sensor 2 is the second trend .
  • the state other than the current state includes the playback state, fast forward state, and fast rewind state
  • it is determined that the playback state is the target state.
  • the first trend may be a decreasing trend, and the second trend may be a increasing trend. Obviously, in other embodiments, the first trend may be a larger trend, and the second trend may also be a smaller trend.
  • the folding angle can be used to implement pause and resume playback controls, without the user having to click Specific pause / play buttons to control, improve the convenience of operation, and improve the user experience.
  • the processor 3 is further configured to determine the first sub display screen 11 and the second sub display screen 12 formed by the bending when the foldable display screen 1 is bent.
  • the foldable display 1 will form the first sub-display divided by the folding line L or the hinge during the bending. Screen 11 and the second sub-display screen 12. Therefore, when the foldable display 1 includes a first sub-display 11 and a second sub-display 12 connected by a hinge, the processor 3 may determine that the screen area on both sides of the hinge is the first sub-display. Screen 11 and the second sub-display screen 12. When the foldable display screen 1 is a flexible display screen, the processor 3 may determine that two sides of the fold line L1 are the first sub display screen 11 and the second sub display screen 12 according to the fold line L, respectively.
  • the processor 3 is further configured to, when it is determined that the folding angle detected by the angle sensor 2 is less than or equal to a preset angle, control the application interface to be currently displayed on the first sub-display screen 11 and the second sub-display screen 12 And when it is determined that the folding angle detected by the angle sensor 2 is greater than a preset angle, controlling to display an application interface to be currently displayed on the entire screen area of the foldable display 1.
  • the preset angle may be 120 degrees.
  • the processor 3 determines that the folding angle detected by the angle sensor 2 is less than or equal to a preset angle, it determines that the first sub-display 11 or the second sub-display 12 closest to the human body is the target sub-display. Display screen, and control the application interface to be displayed on the target sub-display screen.
  • a plurality of infrared sensors H1 are further distributed on the display surface S1 of the foldable display screen 1, and the plurality of infrared sensors H1 are used to detect a human body facing the display surface S1.
  • the processor 3 determines that the infrared sensor H1 having the smallest detected distance is located on the first sub-display screen 11 or the second sub-display screen 12 to be closest to the human body
  • the control displays an application interface to be currently displayed on the target sub-display screen.
  • the processor 3 determines that the first sub-display screen 11 is the target sub-display screen, it controls to display an application interface of the application program A to be currently displayed on the first sub-display screen 11, The second sub-display 12 is not displayed, thereby saving energy consumption.
  • the foldable electronic device 100 further includes a memory 4.
  • the memory 4 may store the aforementioned preset threshold value, preset angle, and other data for comparison with the change value of the folding angle.
  • the preset threshold and the preset threshold may be defaulted by the system, or may be generated after being set by a user.
  • the memory 4 further stores program instructions, where the program instructions are used by the processor 3 to perform the foregoing functions.
  • the memory 4 may include a high-speed random access memory, and may also include a non-volatile memory, such as a hard disk, an internal memory, a plug-in hard disk, a SmartMedia Card (SMC), and a Secure Digital (SD). ) Card, flash memory card (Flash card), multiple disk storage devices, flash memory devices, or other volatile solid-state storage devices.
  • a non-volatile memory such as a hard disk, an internal memory, a plug-in hard disk, a SmartMedia Card (SMC), and a Secure Digital (SD).
  • SSD Secure Digital
  • the processor 3 may be a central processing unit (CPU), or other general-purpose processors, digital signal processors (DSPs), application specific integrated circuits (ASICs), Field-programmable gate array (FPGA) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, etc.
  • the general-purpose processor may be a microprocessor or the processor may be any conventional processor, etc.
  • the processor is a control center of the electronic device 100, and uses various interfaces and lines to connect the entire electronic device 100. Various parts.
  • the foldable electronic device 100 may be an electronic device such as a foldable mobile phone, a foldable tablet computer, and a foldable display.
  • FIG. 6 is a flowchart of a display control method according to an embodiment of the present application.
  • the display control method can be applied to the aforementioned electronic device 100.
  • the electronic device 100 includes a foldable display screen 1 and an angle sensor 2.
  • the steps and sequence of the display control method are not limited to the steps and sequence of FIG. 6.
  • the display control method may include the following steps.
  • the folding angle of the foldable display 1 is detected by the angle sensor 2 (S61).
  • control is switched to an application interface displayed on the foldable display 1 (S63).
  • the “detecting the folding angle of the foldable display 1 through the angle sensor 2” may include: detecting that the angle sensor 2 can detect a folding time interval (eg, 0.5 second, 1 second, etc.) every preset time interval.
  • the folding angle of the display screen 1 is folded to obtain a plurality of folding angle data.
  • the "determining that the folding angle detected by the angle sensor 2 changes and the change value exceeds a preset threshold” may include: when determining that the adjacently acquired folding angles are not equal, determining that the folding angle detected by the angle sensor 2 occurs When the change is made, and when the difference between the currently obtained folding angle and the time when the folding angle is determined to be changed exceeds a preset threshold, it is determined that the change value of the folding angle exceeds the preset threshold.
  • the foldable display screen 1 includes a display surface S1 and a non-display surface S2, and the “detection of the folding angle of the foldable display screen 1 through the angle sensor 2” may include: An included angle between two sub-surfaces of the non-display surface S2 of the foldable display screen 1 is used as a folding angle of the foldable display screen 1.
  • FIG. 7 is a sub-flow chart of step S63 in FIG. 6 in an embodiment.
  • the step S63 may specifically include the following steps.
  • a target application program is determined (S631).
  • the step S631 may specifically include: when it is determined that the folding angle detected by the angle sensor 2 changes and the change value exceeds a preset threshold, further determining a change trend of the folding angle; and when determining that the angle sensor 2 detects When the change trend of the folding angle is the first trend, it is determined that the application to which the application interface displayed last time belongs is the target application.
  • the step S631 may further include: when determining that the change trend of the folding angle detected by the angle sensor 2 is the second trend, determining any other application in the background as the target application.
  • the first trend may be a decreasing trend
  • the second trend may be a increasing trend
  • the control switches an application interface of an application currently displayed on the foldable display 1 to an application interface of a target application (S633).
  • the control switches to display application interfaces of different applications on the foldable display screen 1.
  • step S63 is a sub-flow chart of step S63 in FIG. 6 in another embodiment.
  • the step S63 may specifically include the following steps.
  • a target state is determined (S635).
  • the step S631 may specifically include: when it is determined that the folding angle detected by the angle sensor 2 changes and the change value exceeds a preset threshold, further determining a change trend of the folding angle; and when determining that the angle sensor 2 detects When the change trend of the folding angle is the first trend, it is determined that the state of the application interface of the application displayed last time is the target state.
  • the step S631 may further include: when it is determined that the change trend of the folding angle detected by the angle sensor 2 is a second trend, determining that any other state in which the application is located is a target state .
  • the first trend may be a decreasing trend
  • the second trend may be a increasing trend
  • the control switches an application interface of an application currently displayed on the foldable display 1 in a certain state to an application interface in the target state (S637).
  • the control switches to display application interfaces of different applications on the foldable display screen 1.
  • the display control method may further include the steps of: when the foldable display screen 1 is bent, determining the first sub display screen 11 and the second sub display screen 12 formed by the bending; and Determining whether the folding angle detected by the angle sensor 2 is less than or equal to the preset angle; and when determining that the folding angle detected by the angle sensor 2 is less than or equal to the preset angle, controlling the application interface to be displayed on the first sub-display One of the screen 11 and the second sub-display screen 12; and when it is determined that the folding angle detected by the angle sensor 2 is greater than a preset angle, controlling the application interface to be displayed currently on the entire screen area of the foldable display screen 1 on.
  • the foldable display screen 1 when the foldable display screen 1 includes a first sub display screen 11 and a second sub display screen 12 connected by a hinge, it is determined that the first sub display screen 11 and the second sub display screen 12 formed by bending may include : It is determined that the screen areas on both sides of the rotating shaft are the first sub display screen 11 and the second sub display screen 12.
  • the foldable display screen 1 is a flexible display screen, it is determined that the first sub display screen 11 and the second sub display screen 12 formed by bending may include: the two sides of the folding line L1 may be determined according to the folding line L, respectively.
  • One of the methods may include: when it is determined that the folding angle detected by the angle sensor 2 is less than or equal to a preset angle, determining that the first sub-display 11 or the second sub-display 12 closest to the human body is the target sub-display, and The control displays the application interface to be displayed on the target sub-display.
  • the display control method provided in this application can be implemented in hardware or firmware, or can be used as software or computer code that can be stored in a computer-readable storage medium such as a CD, ROM, RAM, floppy disk, hard disk, or magneto-optical disk, or can Computer code that is originally stored on a remote recording medium or a non-transitory machine-readable medium, downloaded over a network, and stored in a local recording medium, so that the methods described herein can utilize a general-purpose computer or special processor or in a device such as ASIC or FPGA Programmable or special-purpose hardware such as this is presented as software stored on a recording medium.
  • a computer-readable storage medium such as a CD, ROM, RAM, floppy disk, hard disk, or magneto-optical disk
  • a computer, processor, microprocessor, controller, or programmable hardware includes a memory component, such as RAM, ROM, flash memory, etc., which is accessed when the computer, processor, or hardware implements the processing methods described herein
  • the memory component can store or receive software or computer code.
  • a general-purpose computer accesses code for implementing the processing shown here, execution of the code converts the general-purpose computer into a special-purpose computer for performing the processing shown here.
  • the computer-readable storage medium may be a solid-state memory, a memory card, an optical disc, or the like.
  • the computer-readable storage medium stores program instructions and is called by a computer to execute the display control method shown in FIGS. 6-8.
  • the computer-readable storage medium may also be the foregoing memory 4.

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  • General Engineering & Computer Science (AREA)
  • General Physics & Mathematics (AREA)
  • Controls And Circuits For Display Device (AREA)
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  • Control Of Indicators Other Than Cathode Ray Tubes (AREA)
  • User Interface Of Digital Computer (AREA)

Abstract

La présente invention concerne un dispositif électronique pliable (100) et un procédé de commande d'affichage correspondant. Le dispositif électronique pliable (100) comprend un capteur d'angle (2) et un écran d'affichage pliable (1). Le procédé de commande d'affichage comprend les étapes consistant à : utiliser un capteur d'angle (2) pour détecter un angle de pliage d'un écran d'affichage pliable (1); et s'il est déterminé que l'angle de pliage détecté par le capteur d'angle (2) change et que le degré de changement dépasse un seuil prédéfini, commander la commutation d'une interface d'application affichée sur l'écran d'affichage pliable (1). Selon l'invention, lorsqu'un angle de pliage selon lequel un écran d'affichage pliable (1) est plié dépasse un seuil prédéfini, une interface d'application différente peut être affichée, ce qui améliore ainsi la facilité de commande sur l'écran d'interfaces d'application.
PCT/CN2018/107429 2018-09-25 2018-09-25 Dispositif électronique pliable et procédé de commande d'affichage Ceased WO2020061780A1 (fr)

Priority Applications (2)

Application Number Priority Date Filing Date Title
CN201880094222.0A CN112639717A (zh) 2018-09-25 2018-09-25 可折叠电子装置及显示控制方法
PCT/CN2018/107429 WO2020061780A1 (fr) 2018-09-25 2018-09-25 Dispositif électronique pliable et procédé de commande d'affichage

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Application Number Priority Date Filing Date Title
PCT/CN2018/107429 WO2020061780A1 (fr) 2018-09-25 2018-09-25 Dispositif électronique pliable et procédé de commande d'affichage

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WO2020061780A1 true WO2020061780A1 (fr) 2020-04-02

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CN115079854B (zh) * 2021-09-08 2023-05-02 荣耀终端有限公司 状态切换方法、装置、电子设备和存储介质
CN118509511B (zh) * 2023-09-15 2025-03-14 荣耀终端股份有限公司 显示方法和电子设备

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