CN109388363B

CN109388363B - Electronic device

Info

Publication number: CN109388363B
Application number: CN201811183917.4A
Authority: CN
Inventors: 张冀
Original assignee: Oppo Chongqing Intelligent Technology Co Ltd
Current assignee: Oppo Chongqing Intelligent Technology Co Ltd
Priority date: 2018-10-11
Filing date: 2018-10-11
Publication date: 2022-02-01
Anticipated expiration: 2038-10-11
Also published as: CN109388363A

Abstract

The application provides an electronic device. The electronic equipment comprises a first display part, a second display part and a processor, wherein the first display part and the second display part can be folded relatively, the first display part is provided with a first angle sensor, the second display part is provided with a second angle sensor, and the processor acquires a folding angle formed between the first display part and the second display part according to the first angle sensor and the second angle sensor and controls the picture display of the first display part and the second display part according to the folding angle. This application can realize diversified display effect through adjusting the folding angle between first display part and the second display part.

Description

Electronic device

Technical Field

The present application relates to the field of electronic technology, and in particular, to an electronic device.

Background

At present, a conventional electronic device is known which is composed of a screen portion and a host portion, and the screen is embedded in a protective cover and connected with the host portion. In order to ensure the display stability of the display screen, the screen portion and the protective case of the conventional electronic device are generally made of hard materials, which results in only one display mode of the conventional electronic device. However, with the multi-functionalization of electronic devices, the user needs to increase, and the display mode of the electronic device in the conventional technology is single, so that an electronic device with diversified display is needed.

Disclosure of Invention

The application provides an electronic device. The electronic equipment comprises a first display part, a second display part and a processor, wherein the first display part and the second display part can be folded relatively, the first display part is provided with a first angle sensor, the second display part is provided with a second angle sensor, and the processor acquires a folding angle formed between the first display part and the second display part according to the first angle sensor and the second angle sensor and controls the picture display of the first display part and the second display part according to the folding angle.

The utility model provides an electronic equipment includes treater and first display part and the second display part that can fold relatively, and first display part is provided with first angle sensor, and the second display part is provided with the second angle sensor, the treater acquires the folding angle that forms between first display part and the second display part according to first angle sensor and second angle sensor to first display part of folding angle control and second display part according to the difference show different picture effect, with the diversified demonstration that realizes electronic equipment.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram of an electronic device according to a second embodiment of the present application.

Fig. 3 is a schematic structural diagram of an electronic device according to a third embodiment of the present application.

Fig. 4 is a schematic structural diagram of an electronic device according to a fourth embodiment of the present application.

Fig. 5 is a schematic structural diagram of an electronic device provided in this application embodiment five.

Fig. 6 is a schematic structural diagram of an electronic device according to a sixth embodiment of the present application.

Fig. 7 is a schematic structural diagram of an electronic device according to a seventh embodiment of the present application.

Fig. 8 is a schematic structural diagram of an electronic device according to an eighth embodiment of the present application.

Fig. 9 is a schematic structural diagram of an electronic device according to a ninth embodiment of the present application.

Fig. 10 is a schematic structural diagram of an electronic device provided in this embodiment of the present application.

Fig. 11 is an operation schematic diagram of an electronic device provided in an eleventh embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art without any inventive effort based on the embodiments in the present application are within the scope of protection of the present application.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an electronic device according to an embodiment of the present disclosure. In this embodiment, the electronic device 10 includes a first display unit 110, a second display unit 120, and a processor 200, wherein the first display unit 110 and the second display unit 120 are foldable relative to each other, the first display unit 110 is provided with a first angle sensor 111, the second display unit 120 is provided with a second angle sensor 121, and the processor 200 obtains a folding angle α formed between the first display unit 110 and the second display unit 120 according to the first angle sensor 111 and the second angle sensor 121, and controls screen display of the first display unit 110 and the second display unit 120 according to the folding angle α.

Alternatively, the electronic device 10 may be any device having communication and storage functions. For example: the system comprises intelligent equipment with a network function, such as a tablet Computer, a mobile phone, an electronic reader, a remote controller, a Personal Computer (PC), a notebook Computer, vehicle-mounted equipment, a network television, wearable equipment and the like.

Optionally, the processor 200 may be located on the first display portion 110, or may be located on the second display portion 120. The processor 200 may be a Central Processing Unit (CPU), which is an ultra-large scale integrated circuit and is a computer's operation Core (Core) and Control Core (Control Unit), and its functions are mainly to interpret computer instructions and process data in computer software.

Optionally, the first angle sensor 111 may be a gyroscope, and the second angle sensor 121 may also be a gyroscope. Optionally, the first angle sensor 111 and the second angle sensor 121 may also be other instruments for detecting the size of the angle.

Specifically, the first display portion 110 includes a first housing 112 and a first display screen 113, the second display portion 120 includes a second housing 122 and a second display screen 123, the first housing 112 is used for bearing the first display screen 113, the second housing 122 is used for bearing the second display screen 123, the first housing 112 is foldable compared with the second housing 122, the first display screen 113 includes a first display area, and the second display screen 123 includes a second display area. Optionally, in a preferred embodiment, the first display area and the second display area are communicated to form an integral display area. It is understood that, in other embodiments, the first display area and the second display area may not be connected, and the first display area and the second display area are respectively and independently displayed.

Optionally, in a preferred embodiment, a hinge 130 is disposed between the first display portion 110 and the second display portion 120, the first display portion 110 can rotate relative to the second display portion 120 through the hinge 130 to form a flat state, a folded state and a fit state, when only one of the first display portion 110 and the second display portion 120 rotates, the first angle sensor 111 is configured to measure a first angle α 1 that the first display portion 110 rotates towards the second display portion 120 when the electronic device 10 rotates from the flat state to the folded state, the second angle sensor 121 is configured to measure a second angle α 2 that the second display portion 120 rotates towards the first display portion 110 when the electronic device 10 rotates from the flat state to the folded state, the processor 200 obtains the folded angle α according to the first angle α 1 and the second angle α 2, wherein, the folding angle α that the flat state corresponds is 180 degrees, and the folding angle α that fold state corresponds is greater than 0 degree and is less than 180 degrees, and the folding angle α that the laminating state corresponds is 0 degree, and works as when electronic equipment 10 is in the laminating state, the display surface of first display portion 110 with the display surface of second display portion 120 sets up mutually oppositely. Namely, in the attached state, the first casing 112 and the second casing 122 are attached to each other, and the first display screen 113 and the second display screen 123 are exposed. The electronic device 10 further includes a closed state, a folding angle α corresponding to the closed state is 360 degrees, at this time, the first housing 112 and the second housing 122 are arranged opposite to each other, the first display screen 113 and the second display screen 123 are attached to each other, and the first housing 112 and the second housing 122 are mutually matched to protect the first display screen 113 and the second display screen 123.

Alternatively, the hinge 130 may be a hinge structure. Preferably, the hinge portion 130 is hidden inside the first display portion 110 and the second display portion 120, the hinge portion 130 is connected between the first casing 112 and the second casing 122, and the first display screen 113 and the second display screen 123 are communicated to form a whole display area, so as to help to increase the screen occupation ratio of the electronic device 10, and even realize a full screen.

Optionally, in an embodiment, the first display screen 113 and the second display screen 123 are both flexible screens, and can be bent and folded. It is understood that, in other embodiments, the first display screen 113 and the second display screen 123 may also be liquid crystal screens.

The electronic device 10 provided by the present technical solution includes a processor 200, and a first display portion 110 and a second display portion 120 that can be folded relatively, the first display portion 110 is provided with a first angle sensor 111, the second display portion 120 is provided with a second angle sensor 121, the processor 200 obtains a folding angle α formed between the first display portion 110 and the second display portion 120 according to the first angle sensor 111 and the second angle sensor 121, thereby controlling the first display portion 110 and the second display portion 120 to display different screen effects according to different folding angles α, so as to implement diversified display of the electronic device 10.

Referring to fig. 1 and fig. 2 together, fig. 2 is a schematic structural diagram of an electronic device according to a second embodiment of the present application. The structure of the second embodiment is substantially the same as that of the first embodiment, except that in this embodiment, when the processor 200 detects that the video program 310, the audio program 320, the shooting program 330, the electronic book program 340, or the tablet program 350 in the first display unit 110 or the second display unit 120 is in an operating state, the processor 200 controls the electronic device 10 to be in a flat state, so that the first display unit 110 and the second display unit 120 jointly display the screen corresponding to the video program 310, the audio program 320, the shooting program 330, the electronic book program 340, or the tablet program 350.

Optionally, the video program 310 may be a video player program, the audio program 320 may be a music player program, the electronic book program 340 may be a novel reader program, and the like, and the tablet program 350 may be a touch screen writing program, and the like.

Specifically, the processor 200 may adjust the structural state of the electronic device 10 by controlling the structural change of the hinge portion 130. For example, when the processor 200 controls the hinge portion 130 to be in the first locked state, the hinge portion 130 causes the first display portion 110 and the second display portion 120 to be unfolded, so that the electronic device 10 is in the flat state; when the processor 200 controls the hinge portion 130 to be in the second locking state, the hinge portion 130 enables the first display portion 110 and the second display portion 120 to be attached, so that the electronic device 10 is in the attached state; when the processor 200 controls the hinge portion 130 to be in the third locking state, the hinge portion 130 enables a folding effect to be formed between the first display portion 110 and the second display portion 120, so as to enable the electronic device 10 to be in the bent state; when the processor 200 controls the hinge portion 130 to be in the fourth locking state, the hinge portion 130 enables the folding angle α between the first display portion 110 and the second display portion 120 to be 360 degrees, so as to enable the electronic device 10 to be in the closed state.

When the processor 200 detects that the video program 310, the audio program 320, the shooting program 330 or the electronic book program 340 of at least one of the first display part 110 or the second display part 120 is in the running state, the processor 200 immediately controls the hinge part 130 to be in the first locking state, so that the first display part 110 and the second display part 120 are unfolded, and further the electronic device 10 is in the flat state, so that the viewing angle of the user viewing the first display part 110 and the second display part 120 can be increased, and the user experience is improved.

Optionally, in an embodiment, when the video program 310 or the audio program 320 is in an operating state, the first display portion 110 may display pattern information of the video program 310 or the audio program 320, the second display portion 120 may display text information of the video program 310 or the audio program 320, and the pattern information and the text information of the video program 310 or the audio program 320 are separately displayed, so that interference of the text information on the pattern information may be avoided, which is beneficial to enabling a user to better view the pattern information, and the user may selectively view the pattern or the text of the video program 310 or the audio program 320, so that a right of free selection is provided for the user, and the user is more humanized.

Furthermore, when a plurality of video programs 310, audio programs 320, shooting programs 330, or electronic book programs 340 are simultaneously in an operating state, a plurality of application programs can be displayed in a split screen manner, so that the application programs can be separately and independently displayed according to different positions of the first display part 110 and the second display part 120, and two different application programs can be simultaneously and differently operated, which is beneficial to improving the efficient convenience of display and improving the user experience. For example, when the video program 310 and the electronic book program 340 are simultaneously opened, the video program 310 may be run on the first display unit 110, the electronic book program 340 may be run on the second display unit 120, and the first display unit 110 and the second display unit 120 may be separately and independently operated, so that the electronic book may be viewed while the video program 310 is viewed, thereby greatly improving the entertainment of the electronic device 10.

Furthermore, when a plurality of video programs 310, audio programs 320, shooting programs 330 or electronic book programs 340 are in a running state at the same time, the first display part 110 and the second display part 120 can be classified and displayed according to the types of the application programs while the plurality of application programs are displayed in a split screen mode, so that the problems that different types of application programs are confused and difficult to find are solved. For example, since the video program 310 and the audio program 320 usually have sound, and the sound interferes when both of the video program 310 and the audio program 320 run simultaneously, which is not favorable for the user experience, at this time, the video program 310 and the audio program 320 may run on one of the first display portion 110 or the second display portion 120, that is, the video program 310 and the audio program 320 are simultaneously located on the first display portion 110 or the second display portion 120, and when the video program 310 runs on the first display portion 110, the audio program 320 is in a state to be run on the first display portion 110, that is, the audio program 320 is not run at this time, but is in a state to be run, so that the sound interference between the video program 310 and the audio program 320 can be avoided. Then, the electronic book program 340 or the shooting program 330 can be run on the second display portion 120, so that the electronic book can be viewed or a beautiful scene can be shot while enjoying the video or audio; or, the second display part 120 runs the tablet program 350, so that the handwriting can be practiced while enjoying the video or audio, the practicability and entertainment of the electronic device 10 are greatly improved, and the popularization value is achieved.

Referring to fig. 1 and fig. 3 together, fig. 3 is a schematic structural diagram of an electronic device according to a third embodiment of the present application. The third embodiment has a structure that is substantially the same as that of the first embodiment, except that in this embodiment, when the processor 200 detects that the privacy application 360 in the first display unit 110 or the second display unit 120 is in an operating state, the processor 200 controls the electronic device 10 to be in a fit state, so that one of the first display unit 110 or the second display unit 120 displays a screen corresponding to the privacy application 360, where the privacy application 360 includes any one or more of a call program, a short message program, an instant chat program, and a payment application.

Optionally, the call program includes a voice call program and a video call program, the short message program includes an application program for sending a short message, the instant chat program includes an application program for text or voice chat, and the payment application program includes an application program for shopping or transferring money, which relates to property transactions.

Specifically, when the processor 200 detects that the privacy program in the first display portion 110 or the second display portion 120 is in the running state, and the processor 200 controls the hinge portion 130 to be in the second locking state, the hinge portion 130 enables the first display portion 110 and the second display portion 120 to be attached to each other, so that the electronic device 10 is in the attached state, thereby reducing a display view angle of the privacy program of the electronic device 10 during running, and better protecting the privacy of the user from being leaked.

Further, when the privacy application 360 is running on the first display unit 110, the processor 200 may set the second display unit 120 to a rest state according to the running condition of the privacy application 360, in order to save power. For example, when the processor 200 detects that the privacy application 360 is a video call program, which indicates that the user is facing one of the first display portion 110 or the second display portion 120 at the time, the processor 200 may control the other one of the first display portion 110 or the second display portion 120 to be in a screen saver state, so as to protect the privacy of the user and help to save power.

Further, the processor 200 may also provide a personalized prompt to the user according to the operation condition of the privacy application 360. Specifically, when the privacy application 360 is an instant chat program and the privacy application 360 runs on the first display unit 110, the processor 200 may detect chat contents of a dialog display box of the first display unit 110 and contents of a text input box, quickly generate an automatic dialog in a prompt information display box of the second display unit 120, and present the automatic dialog to a user, and when the user confirms that the automatically generated dialog information can be sent, the processor 200 may control the automatic dialog information to be displayed on the first display unit 110, so that time for the user to input text is saved, and communication timeliness is improved. Alternatively, when the privacy application 360 is an instant chat program and the privacy application 360 is running on the first display part 110, the processor 200 may detect that the chat content of the first display part 110 relates to a money transaction, and the second display part 120 may automatically generate a prompt message to warn the user to pay attention to the authenticity of the money transaction and warn the user to operate cautiously, and provide the user with some cheating prevention skills to help the user identify whether there is a risk of cheating, thereby protecting the user's property from loss.

Referring to fig. 1, fig. 2, and fig. 4 together, fig. 4 is a schematic structural diagram of an electronic device according to a fourth embodiment of the present disclosure. The fourth embodiment has a structure substantially the same as that of the first embodiment, except that in this embodiment, the electronic device 10 further includes an audio module 400, and when the processor 200 detects that the electronic device 10 is in a folded state and the folding angle α changes from a first rotation angle to a second rotation angle, the processor 200 controls the volume of the audio module 400 to increase, wherein the first rotation angle is smaller than the second rotation angle; when the processor 200 detects that the electronic device 10 is in the folded state and the folding angle α changes from a third corner to a fourth corner, the processor 200 controls the volume of the audio module 400 to decrease, wherein the third corner is larger than the fourth corner.

Specifically, when the processor 200 detects that the electronic device 10 is in the folded state and the first display portion 110 rotates towards the first direction compared to the second display portion 120, the processor 200 controls the volume of the audio module 400 to increase; when the processor 200 detects that the electronic device 10 is in the folded state and the second display part 120 rotates toward the second direction compared to the first display part 110, the processor 200 controls the volume of the audio module 400 to decrease; when the first direction is clockwise, the second direction is counterclockwise, or when the first direction is counterclockwise, the second direction is clockwise.

Alternatively, the audio module 400 may be located on the first display portion 110 or the second display portion 120.

Specifically, when the video program 310 or the audio program 320 of the electronic device 10 is in an operating state, and the first display portion 110 continuously and repeatedly rotates towards the second display portion 120 for multiple times within a preset time period, the audio module 400 may continuously adjust the volume to increase; when the second display part 120 continuously and reciprocally rotates toward the first display part 110 for a plurality of times within a preset time period, the audio module 400 may continuously adjust the volume to decrease. In a preset time period, when the first display part 110 rotates once towards the second display part 120, then the second display part 120 rotates once towards the first display part 110; alternatively, the second display part 120 is rotated once toward the first display part 110, and then the first display part 110 is rotated once toward the second display part 120, so that the audio module 400 can be rapidly controlled to be in a mute state.

Referring to fig. 1 and 5 together, fig. 5 is a schematic structural diagram of an electronic device according to a fifth embodiment of the present application. The fifth embodiment has a structure substantially the same as that of the first embodiment, except that in this embodiment, the first display portion 110 and the second display portion 120 together form a display unit 1112, the processor 200 detects a frequency of use of an application program on the electronic device 10, and divides the application program into a first level and a second level according to the frequency of use of the application program, and in a process of moving the electronic device 10 from the attached state to the flattened state, the processor 200 controls an icon of the application program of the first level to move to an edge area 1112a of the display unit 1112, and controls an icon of the application program of the second level to move to a center area 1112b of the display unit 1112; when the electronic device 10 moves from the flat state to the attached state, the processor 200 controls the icons of the first-level applications to be displayed on one of the first display portion 110 or the second display portion 120, and hides the second-level applications, wherein the frequency of use of the first-level applications is greater than the frequency of use of the second-level applications.

Specifically, in a preferred embodiment, the usage habit of the user is detected, the usage frequency of the application program on the electronic device 10 is counted according to the usage habit of the user within the preset time, and the corresponding relationship between the usage habit of the user within the preset time and the usage frequency of the application program is established, so that the application program is reasonably arranged according to the usage frequency of the application program within the preset time of the user. For example, the processor 200 detects that the working time period is high, the office software of the electronic device 10 runs frequently, and the instant chat program or the game application runs frequently. Thus, during the working period, when the electronic device 10 moves from the fit state to the flat state, the processor 200 controls the icons of the first-level applications to move to the edge area 1112a of the display unit 1112, and controls the icons of the second-level applications to move to the center area 1112b of the display unit 1112, wherein the first-level applications may be office software programs, the second-level applications may be instant chat programs or game applications, and the frequency of the first-level applications in the working period is greater than the frequency of the second-level applications in the working period. Optionally, the working time period may be 8:00-12:00 am and 14:00-18:00 pm. When the first-level application program is located in the edge area 1112a of the display unit 1112 and the second-level application program is located in the center area 1112b of the display unit 1112, the first-level application program in the edge area 1112a can be conveniently operated, so that the convenience of operation is improved.

On the other hand, during the operation period, when the electronic device 10 moves from the flat state to the attached state, the processor 200 controls the icons of the applications of the first level to be displayed on one of the first display portion 110 or the second display portion 120, and hides the applications of the second level. For example, during the operation period, the processor 200 controls the first level application program to be displayed on the first display portion 110, and the processor 200 controls the second level application program to be hidden, wherein the first level application program may be an office software program, and the second level application program may be an instant chat program or a game application program.

Referring to fig. 1 and fig. 6 together, fig. 6 is a schematic structural diagram of an electronic device according to a sixth embodiment of the present application. A structure of a sixth embodiment is substantially the same as that of the first embodiment, except that in this embodiment, when the electronic device 10 is in a flat state, the first display portion 110 is configured to display an icon of an application program of the electronic device 10, the second display portion 120 is configured to display a screen corresponding to the application program that is currently in an operating state, and when the processor 200 detects that all the application programs of the electronic device 10 are in a closed state, the processor 200 controls the first display portion 110 to be in a bright screen state and controls the second display portion 120 to be in a rest screen state; when the processor 200 detects that the application program is started, the processor 200 controls the second display unit 120 to start a bright screen mode, and displays a screen corresponding to the application program currently in a started state.

Optionally, when one application program is in an open state on the first display portion 110, the second display portion 120 displays an operation screen of the application program currently in the open state; when the first display unit 110 has a plurality of applications in an open state, the second display unit 120 may display the operation screens of the plurality of applications, display the operation screens of the plurality of applications in a paging display mode or a stacked display mode, and switch the operation screens of different applications by sliding the second display unit 120. Or, when the first display unit 110 has a plurality of applications in an open state, the second display unit 120 simultaneously displays the operation screens of the plurality of applications in the first display unit 110, and the second display unit 120 may divide the operation screens of the plurality of applications in the first display unit 110, so as to improve user experience. For example, when the first application a1 and the second application B1 are simultaneously running on the first display unit 110, the running screen a11 corresponding to the first application a1 is displayed on the second display unit 120, the running screen B11 corresponding to the second application B1 is also displayed on the second display unit 120, and the running screen a11 corresponding to the first application a1 and the running screen B11 corresponding to the second application B1 are displayed in a partitioned manner on the second display unit.

Further, when all the applications on the first display portion 110 are in the off state, the processor 200 controls the second display portion 120 to be in the standby state to save power. When the processor 200 detects that the application program on the first display part 110 is started, the processor 200 immediately sends a first feedback signal, and the second display part 120 starts the second display screen 123 after receiving the first feedback signal axis, so that the second display screen 123 is in a bright screen state to display an operation picture of the application program currently in an operation state.

Referring to fig. 1 and 7 together, fig. 7 is a schematic structural diagram of an electronic device according to a seventh embodiment of the present disclosure. The seventh embodiment has a structure substantially the same as that of the first embodiment, except that in this embodiment, when the electronic device 10 is in a flat state, the processor 200 detects that the preset area of the first display portion 110 is subjected to the first pressing force and continues for the preset duration, the processor 200 controls the second display portion 120 to display the display image of the preset area by the preset magnification.

Specifically, in this embodiment, the electronic device 10 further includes a pressure sensor 500, and when the electronic device 10 is in a flat state, and the pressure sensor 500 detects that the preset area of the first display portion 110 is subjected to a first pressing degree and continues to preset the duration, the pressure sensor 500 sends a second feedback signal, the processor 200 receives the second feedback signal and controls the second display portion 120 to display the display image of the preset area by a preset magnification, so as to improve the display effect of the display image of the preset area, and thus, the electronic device is helpful for the user to watch, and especially for the people with myopia, the user experience can be better improved. Alternatively, the preset time period may be 1 second, and the first pressing force may be 1 newton. Optionally, as the pressing force is larger, the magnification of the display screen in the preset area is larger, and the magnitude of the pressing force and the magnitude of the magnification are linearly changed.

Further, the second display portion 120 includes an editing area R, and when the first display portion 110 includes a target picture, the preset area of the target picture in the first display portion 110 is pressed, so that when the preset area of the target picture is displayed in the second display portion 120 in an enlarged preset multiple, the enlarged display picture can be edited through the editing area R in the second display portion 120, and thus, a detailed part of the enlarged picture can be deleted or modified, so as to improve the accuracy of editing the picture, which is beneficial to improving user experience, and improve the precision of editing the picture.

Referring to fig. 1 and 8 together, fig. 8 is a schematic structural diagram of an electronic device according to an eighth embodiment of the present application. The structure of the eighth embodiment is substantially the same as that of the first embodiment, except that in this embodiment, the electronic device 10 further includes a first brightness adjusting module 550 and a second brightness adjusting module 560; when the processor 200 detects that the electronic device 10 is in the folded state, the processor 200 controls the first brightness adjusting module 550 to adjust the brightness of the first display part 110 such that the brightness of the first display part 110 gradually becomes brighter from one end away from the hinge part 130 to one end adjacent to the hinge part 130; the processor 200 controls the second brightness adjusting module 560 to adjust the brightness of the second display part 120, so that the brightness of the second display part 120 gradually becomes brighter from one end far away from the hinge part 130 to one end near the hinge part 130.

Optionally, in an embodiment, the first brightness adjusting module 550 is located in the first display part 110, and the second brightness adjusting module 560 is located in the second display part 120. When the processor 200 detects that the electronic device 10 is in the folded state, the position adjacent to the hinge portion 130 may be darkened due to the occlusion problem of the first display portion 110 and the second display portion 120, which is not favorable for viewing the picture adjacent to the hinge portion 130. Therefore, the processor 200 controls the first brightness adjusting module 550 to adjust the brightness of the first display part 110, so that the brightness of the first display part 110 gradually becomes brighter from one end far away from the hinge part 130 to one end near the hinge part 130, thereby the brightness of the first display part 110 is kept uniform, which helps to improve the contrast of the first display part 110. Similarly, the processor 200 controls the second brightness adjusting module 560 to adjust the brightness of the second display portion 120, so that the brightness of the second display portion 120 gradually becomes brighter from the end away from the hinge portion 130 to the end adjacent to the hinge portion 130, and thus the brightness of the second display portion 120 is kept uniform, which is helpful for improving the contrast of the second display portion 120.

Further, by establishing the one-to-one correspondence relationship between the folding angle α and the first brightness adjustment module 550 and the second brightness adjustment module 560, the brightness change of the first display part 110 and the second display part 120 can be rapidly adjusted, thereby improving the brightness adjustment sensitivity of the first display part 110 and the second display part 120.

Referring to fig. 1 and 9 together, fig. 9 is a schematic structural diagram of an electronic device according to a ninth embodiment of the present application. The ninth embodiment has a structure substantially the same as that of the first embodiment, except that in this embodiment, the first display part 110 is provided with a first power supply 610 and a main coil 620, the first power supply 610 is used for supplying power to the first display part 110 and the main coil 620, the second display part 120 is provided with a second power supply 630 and a sub-coil 640, and the second power supply 630 is used for supplying power to the second display part 120; when the electronic device 10 is in the attached state such that the distance between the primary coil 620 and the secondary coil 640 is within the preset distance range, the secondary coil 640 induces an induced current from the primary coil 620, so as to charge the second power source 630.

Optionally, the second power source 630 is a rechargeable power source.

Specifically, the second power source 630 is configured to supply power to the second display portion 120, and when the second power source 630 supplies power to the second display portion 120, the second portion can display an image. The first power source 610 may supply power to the primary winding 620 such that a current is generated in the primary winding 620. When the electronic device 10 is in the attached state, the first display portion 110 and the second display portion 120 are close to each other, so that the distance between the main coil 620 and the sub-coil 640 is within the preset distance range, the main coil 620 and the sub-coil 640 are matched with each other, through the electromagnetic induction principle, the current in the main coil 620 causes the sub-coil 640 to generate a corresponding induced current, and the induced current in the sub-coil 640 can charge the second power source 630, so that the electric energy in the first power source 610 is converted into the electric energy in the second power source 630, and the second display portion 120 of the electronic device 10 can normally display. Wherein the preset distance range may be [0, 2mm ].

Referring to fig. 1 and fig. 10 together, fig. 10 is a schematic structural diagram of an electronic device according to a tenth embodiment of the present disclosure. The tenth embodiment has a structure that is substantially the same as that provided in any of the above embodiments, except that in this embodiment, the electronic device 10 further includes a program interruption module 700, and when the processor 200 detects that the folding angle α changes from a third angle α 3 to a fourth angle α 4 within a preset time period, and changes from the fourth angle α 4 to a fifth angle α 5, the processor 200 controls the program interruption module 700 to close all the application programs currently in the running state, where the third angle α 3 is greater than the fourth angle α 4, and the fifth angle α 5 is greater than the fourth angle α 4.

Optionally, in an embodiment, the third angle α 3 may be equal to the fifth angle α 5, so that a cross-reference is formed between the third angle α 3 and the fifth angle α 5, and both the third angle α 3 and the fifth angle α 5 are greater than the fourth angle α 4, so that the electronic device 10 exhibits an action similar to closing a "book", and the processor 200 controls the program interruption module 700 to close all programs currently in the running state, which is in accordance with the daily operation habit and psychological state of the user. Optionally, the preset time period may be 1 second. For example, the third angle α 3 is 150 degrees, the fourth angle α 4 is 60 degrees, the fifth angle α 5 is 135 degrees, and the predetermined time period is 1 second.

Referring to fig. 1 and fig. 11 together, fig. 11 is a schematic operation diagram of an electronic device according to an eleventh embodiment of the present application. The eleventh embodiment has a structure substantially the same as that of any of the above embodiments, except that in this embodiment, the first display unit 110 is provided with a first face sensor 810, the second display unit 120 is provided with a second face sensor 820, the first face sensor 810 and the second face sensor 820 are used for identifying the face of a target object, and when the processor 200 detects that the first display unit 110 rotates toward a direction close to the second display unit 120 and the second face sensor 820 faces the target object, the processor 200 controls the display content of the first display unit 110 to move to the second display unit 120 for display and turns off the first display unit 110; when the processor 200 detects that the second display portion 120 rotates toward the direction approaching the first display portion 110 and the first surface sensor 810 faces the target object, the processor 200 controls the display content of the second display portion 120 to move to the second display portion 120 for displaying, and turns off the second display portion 120.

Wherein the first and

second face sensors

810 and 820 are used to recognize face information of a user. When the processor 200 detects that the first display portion 110 rotates toward the direction approaching the second display portion 120 and the second surface sensor 820 faces the target object, the processor 200 controls the display content of the first display portion 110 to move to the second display portion 120 for display, and at the same time, the processor 200 controls the first display portion 110 to close the display, so as to save power.

Optionally, in an embodiment, when the display content on the first display portion 110 is moved to the second display portion 120 for display, the display content on the first display portion 110 and the second display portion 120 may be compressed for display, that is, the first display portion 110 and the second display portion 120 are both reduced and displayed according to a preset reduction multiple, so that all the content may be displayed on the second display portion 120 at the same time. For example, when the display content is an icon of an application program, the initial icons of the application programs on the first display portion 110 and the second display portion 120 are reduced by half, so that the initial icons of the application programs on the first display portion 110 and the second display portion 120 can be displayed on the second display portion 120 together.

Optionally, in another embodiment, when the display content is an icon of an application program, the number of application programs that can be arranged on the second display portion 120 can be adjusted by reducing the arrangement pitch between the application programs, so that the initial icons of the application programs on the first display portion 110 and the second display portion 120 can be displayed on the second display portion 120 together.

Optionally, in another embodiment, when the display content is an icon of an application, the initial icons of the applications on the first display unit 110 and the second display unit 120 may be arranged at a third level at an edge of the second display unit 120, and arranged at a fourth level at a middle of the second display unit 120, where the third level is dense and the fourth level is sparse.

The foregoing detailed description of the embodiments of the present application has been presented to illustrate the principles and implementations of the present application, and the above description of the embodiments is only provided to help understand the method and the core concept of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims

1. An electronic device is characterized by comprising a first display part, a second display part and a processor, wherein the first display part and the second display part can be folded relatively, the first display part is provided with a first angle sensor, the second display part is provided with a second angle sensor, the processor acquires a folding angle formed between the first display part and the second display part according to the first angle sensor and the second angle sensor, and controls the picture display of the first display part and the second display part according to the folding angle;

a hinge part is arranged between the first display part and the second display part, and the first display part can rotate relative to the second display part through the hinge part to form a flat state, a folded state and a fitting state; when only one of the first display part and the second display part rotates, the first angle sensor is used for measuring a first angle which the first display part rotates towards the second display part when the electronic equipment rotates from a flat state to a folded state, the second angle sensor is used for measuring a second angle which is rotated by the second display part towards the first display part when the electronic equipment rotates from a flat state to a folded state, the processor obtains the folded angle according to the first angle and the second angle, wherein the folding angle corresponding to the flat state is 180 degrees, the folding angle corresponding to the folding state is more than 0 degree and less than 180 degrees, the folding angle corresponding to the attaching state is 0 degree, when the electronic equipment is in a fit state, the display surface of the first display part is opposite to the display surface of the second display part;

the processor detects the use frequency of application programs on the electronic equipment, divides the application programs into a first grade and a second grade according to the use frequency of the application programs, and controls icons of the application programs of the first grade to move to the edge area of the display unit and controls icons of the application programs of the second grade to move to the center area of the display unit in the process that the electronic equipment moves from the attaching state to the leveling state; when the electronic device moves from a flat state to a fit state, the processor controls the icon of the application program of the first level to be displayed on one of the first display part or the second display part and hides the application program of the second level, wherein the use frequency of the application program of the first level is greater than that of the application program of the second level.

2. The electronic device of claim 1, wherein when the processor detects that a video program, an audio program, a shooting program, an electronic book program, or a tablet program in the first display portion or the second display portion is in an operating state, the processor controls the electronic device to be in a flat state so that the first display portion and the second display portion jointly display a screen corresponding to the video program, the audio program, the shooting program, the electronic book program, or the tablet program.

3. The electronic device of claim 1, wherein when the processor detects that a privacy application program in the first display unit or the second display unit is in an operating state, the processor controls the electronic device to be in a fit state, so that one of the first display unit or the second display unit displays a screen corresponding to the privacy application program, wherein the privacy application program comprises any one or more of a call program, a short message program, an instant chat program and a payment application program.

4. The electronic device of claim 1, further comprising an audio module, the processor controlling a volume of the audio module to increase when the processor detects that the electronic device is in a folded state and the fold angle changes from a first angle of rotation to a second angle of rotation, wherein the first angle of rotation is less than the second angle of rotation; when the processor detects that the electronic equipment is in a folded state and the folding angle is changed from a third corner to a fourth corner, the processor controls the volume of the audio module to be reduced, wherein the third corner is larger than the fourth corner.

5. The electronic device according to claim 1, wherein when the electronic device is in a flat state, the first display portion is configured to display an icon of an application program of the electronic device, the second display portion is configured to display a screen corresponding to the application program currently in an operating state, and when the processor detects that all the application programs of the electronic device are in a closed state, the processor controls the first display portion to be in a bright screen state and controls the second display portion to be in a dim screen state; when the processor detects that the application program is started, the processor controls the second display part to start a bright screen mode and displays a picture corresponding to the application program which is currently in a starting state.

6. The electronic device of claim 1, wherein when the electronic device is in a flat state, the processor detects that a preset area of the first display portion is subjected to a first pressing force for a preset duration, and the processor controls the second display portion to display a display screen of the preset area by a preset magnification.

7. The electronic device of claim 1, further comprising a first brightness adjustment module and a second brightness adjustment module; when the processor detects that the electronic equipment is in a folded state, the processor controls the first brightness adjusting module to adjust the brightness of the first display part so that the brightness of the first display part gradually becomes brighter from one end far away from the hinge part to one end close to the hinge part; the processor controls the second brightness adjusting module to adjust the brightness of the second display part, so that the brightness of the second display part gradually becomes brighter from one end far away from the hinge part to one end close to the hinge part.

8. The electronic device according to claim 1, wherein the first display portion is provided with a first power source for supplying power to the first display portion and the main coil, and the second display portion is provided with a second power source for supplying power to the second display portion and a sub-coil; when the electronic device is in a fit state, so that the distance between the main coil and the secondary coil is within a preset distance range, the secondary coil induces an induced current from the main coil to charge the second power supply.

9. The electronic device according to any one of claims 1-8, further comprising a program interruption module, wherein when the processor detects that the folding angle changes from a third angle to a fourth angle and from the fourth angle to a fifth angle within a preset time period, the processor controls the program interruption module to close all applications currently in a running state, wherein the third angle is greater than the fourth angle, and the fifth angle is greater than the fourth angle.

10. The electronic device according to any one of claims 1 to 8, wherein the first display section is provided with a first face sensor, the second display section is provided with a second face sensor, the first face sensor and the second face sensor are used for identifying a face of a target object, and when the processor detects that the first display section is rotated in a direction approaching the second display section and the second face sensor is facing the target object, the processor controls display content of the first display section to move to the second display section for display and closes the first display section; when the processor detects that the second display part rotates towards the direction close to the first display part and the first surface sensor is opposite to the target object, the processor controls the display content of the second display part to move to the first display part for displaying and closes the second display part.

11. An electronic device is characterized by comprising a first display part, a second display part and a processor, wherein the first display part and the second display part can be folded relatively, the first display part is provided with a first angle sensor, the second display part is provided with a second angle sensor, the processor acquires a folding angle formed between the first display part and the second display part according to the first angle sensor and the second angle sensor, and controls the picture display of the first display part and the second display part according to the folding angle;

wherein,

the first display part is provided with a first power supply and a main coil, the first power supply is used for supplying power to the first display part and the main coil, the second display part is provided with a second power supply and an auxiliary coil, and the second power supply is used for supplying power to the second display part; when the electronic device is in a fit state, so that the distance between the main coil and the secondary coil is within a preset distance range, the secondary coil induces an induced current from the main coil to charge the second power supply.