CN115277897A - Electronic device and method for determining status information - Google Patents

Abstract

The embodiment of the application provides electronic equipment and a method for determining state information, wherein the electronic equipment comprises a first shell, a second shell, a flexible display module, a first detection module, a second detection module and a processor; the second shell is connected with the first shell and can slide relative to the first shell; the flexible display module is arranged on the first shell and the second shell, slides relative to the first shell through the second shell, and can be switched between an unfolding state and a folding state; the first detection module is arranged on the first shell and used for acquiring first motion information; the second detection module is arranged on the second shell and used for collecting second motion information, and the processor is used for determining the state information of the flexible display module according to the first motion information and the second motion information. The accuracy of determining the state information of the flexible display module can be improved.

Description

Electronic device and method for determining status information

Technical Field

The present disclosure relates to the field of electronic technologies, and in particular, to an electronic device and a method for determining status information.

Background

With the development of electronic technology, electronic devices such as smart phones have higher and higher intelligent degrees, and more functions can be realized. In the related art, the electronic device has a flexible display module that can be exchanged between an expanded state and a furled state, the flexible display module can be partially located outside the electronic device, and partially located inside the electronic device, the flexible display module can be adjusted to be located outside the electronic device according to the use requirements of users, and the portion of the flexible display module located outside the electronic device can be used as a display area to provide display images. However, in different states, the electronic device needs to have different application interfaces, and therefore, how to accurately determine the state information of the flexible display module of the electronic device becomes one of the important technical problems in the technology.

Disclosure of Invention

The embodiment of the application provides an electronic device and a method for determining state information, which can improve the accuracy of determining the state information of a flexible display module.

An embodiment of the present application provides an electronic device, which includes:

a first housing;

the second shell is connected to the first shell and can slide relative to the first shell;

the flexible display module is arranged on the first shell and the second shell, slides relative to the first shell through the second shell, and can be switched between an unfolding state and a folding state;

the first detection module is arranged on the first shell and used for acquiring first motion information;

the second detection module is arranged on the second shell and used for collecting second motion information;

and the processor is used for determining the state information of the flexible display module according to the first motion information and the second motion information.

An embodiment of the present application further provides a method for determining status information, which is applied to the electronic device described above, and the method for determining status information includes:

acquiring first motion information acquired by the first detection module;

acquiring second motion information acquired by the second detection module;

and determining the state information of the flexible display module according to the first motion information and the second motion information.

The electronic equipment provided by the embodiment of the application comprises a first shell, a second shell, a flexible display module, a first detection module, a second detection module and a processor; the second shell is connected with the first shell and can slide relative to the first shell; the flexible display module is arranged on the first shell and the second shell, slides relative to the first shell through the second shell, and can be switched between an unfolding state and a folding state; the first detection module is arranged on the first shell and used for collecting first motion information; the second detection module is arranged on the second shell and used for collecting second motion information, and the processor is used for determining the state information of the flexible display module according to the first motion information and the second motion information. Through set up first detection module and set up the second at the second casing at first casing and detect the module, the motion information through two differences that detect the module determines the state information of flexible display module, can improve the accuracy of confirming flexible display module state information.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings used in the description of the embodiments will be briefly introduced below. It is obvious that the drawings in the following description are only some embodiments of the application, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

For a more complete understanding of the present application and its advantages, reference is now made to the following descriptions taken in conjunction with the accompanying drawings, wherein like reference numerals represent like parts in the following description.

Fig. 1 is a schematic structural view of a flexible display module of an electronic device in a storage state according to an embodiment of the present disclosure.

Fig. 2 is a first structural schematic view of a flexible display module of an electronic device in an unfolded state according to an embodiment of the present disclosure.

Fig. 3 is a schematic partial structural diagram of a first housing and a second housing according to an embodiment of the present disclosure.

Fig. 4 is a schematic structural diagram of a flexible display screen of an electronic device in an unfolded state according to an embodiment of the present application.

Fig. 5 is a schematic cross-sectional view of the structure of fig. 4 taken along the P-P direction.

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. It should be apparent that the described embodiments are only a few embodiments of the present application, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without inventive step, are within the scope of the present application.

The embodiment of the present application provides an electronic device, where the electronic device includes but is not limited to a mobile terminal such as a mobile phone and a tablet computer or other portable electronic devices, and for convenience of understanding, the following description takes the electronic device as a mobile phone as an example.

Referring to fig. 1 and fig. 2, fig. 1 is a schematic structural view of a flexible display screen of an electronic device provided in an embodiment of the present application in a storage state, and fig. 2 is a schematic structural view of a flexible display screen of an electronic device provided in an embodiment of the present application in a first structural view in an expansion state. The electronic device 10 in the embodiment of the present application includes a first housing 220, a second housing 240, and a flexible display module 260. The second housing 240 can slide relative to the first housing 220, and it can be understood that the first housing 220 is connected to the second housing 240 in a sliding manner, the first housing 220 can slide relative to the second housing 240, and similarly, the second housing 240 can slide relative to the first housing 220, and the flexible display module 260 can change its display area according to the relative movement of the first housing 220 and the second housing 240.

Specifically, the second housing 240 and the first housing 220 may form an accommodating space. The flexible display module can include the fixed part and connect in the free portion of fixed part, and the fixed part is connected with first casing, and the one end of keeping away from first casing that the free portion was walked around the second casing is stretched into accommodation space, and accommodation space can also be used for placing some functional unit of electronic equipment 10, like circuit board, battery etc.. The flexible display module 260 may be mounted to the first casing 220 and the second casing 240, wherein the flexible display module 260 is at least partially disposed outside the accommodating space. The flexible display module can be at least partially hidden in the accommodating space, and in the process that the second shell 240 moves relative to the first shell 220, the flexible display module 260 can be moved to enable the flexible display module 260 to be switched between an unfolded state and a folded state, and when the first shell 220 and the second shell 240 are relatively far away, the flexible display module 260 can be driven to be unfolded, so that more display parts of the flexible display module 260 are exposed out of the accommodating space. When the first housing 220 and the second housing 240 approach each other, the flexible display module 260 can be drawn together, so that more parts of the flexible display module 260 are hidden in the accommodating space.

In order to detect the status information of the flexible display module 260, the electronic device 10 is provided with a processor 210 and a detection module, such as a first detection module 270 and a second detection module 280, the first detection module 270 may be disposed on the first housing 220 for collecting the first motion information; the second detection module 280 may be disposed on the second housing 240 and configured to collect second motion information, and the processor 210 is configured to determine state information of the flexible display module 260 according to the first motion information and the second motion information, where the state information of the flexible display module 260 may be position information of the flexible display module 260 in an unfolded state or a folded state, where the position information may include a distance or a fixed point position coordinate of the flexible display module 260 in the unfolded state or the folded state, and the electronic device 10 may implement a specific function according to the state information of the flexible display module 260, for example, display a corresponding follow-up picture, open a corresponding application, close a corresponding application, and the like according to the state information of the flexible display module.

It should be noted that, the first detecting module 270 disposed on the first housing 220 and the second detecting module disposed on the second housing 240 are only exemplary, and in some embodiments, the first detecting module 270 may be disposed on the second housing 240, and the second detecting module 280 may be disposed on the first housing 220.

In an actual application scenario, in a process that the first housing 220 and the second housing 240 slide relatively, the entire electronic device 10 may have a moving state, for example, when a user holds the electronic device 10 in a moving scene, for example, in a walking, running, or sitting scene, the position of the electronic device 10 in the space is in a changing state, and when the state information of the flexible display module is determined by collecting the motion information of the housing motion through a single detection module, the collected motion information includes motion information generated by the electronic device in the space motion, and the motion information causes that the relative motion information of the first housing 220 and the second housing 240 sliding relatively cannot be determined accurately, so that the state information of the flexible display module 260 is determined inaccurately, and the electronic device 10 cannot accurately implement a specific function, for example, a phenomenon that the electronic device needs to follow a displayed picture to have a delayed play or early play in a process when the flexible display module 260 is unfolded or folded to a preset position, and a phenomenon that the electronic device does not execute a corresponding operation when the flexible display module 260 is unfolded or folded to a preset position. In order to solve the problem, in the embodiment of the present application, the first detection module 270 is disposed on the first housing 220, the second detection module 280 is disposed on the second housing 240 and is respectively used for acquiring the first motion information and the second motion information, and the processor 210 performs fusion calculation on different motion information acquired by the detection modules at two different positions, so as to accurately determine the relative motion information of the relative motion between the first housing 220 and the second housing 240, and further accurately determine the state information of the flexible display module 260.

Specifically, the first motion information acquired by the first detection module 270 includes motion information of the electronic device and motion information of the first housing, the second motion information acquired by the second detection module 280 includes motion information of the electronic device and motion information of the second housing, and the processor 210 is configured to determine, according to the motion information of the electronic device, the motion information of the first housing, and the motion information of the second housing, relative motion information of the second housing sliding relative to the first housing, and determine, according to the relative motion information, state information of the flexible display module. For example, when the electronic device moves, the first housing and the second housing move as a whole along the moving direction of the electronic device, the motion information of the electronic device in the first motion information is the same as the motion information of the electronic device in the second motion information, and the processor 210 performs a difference operation on the first motion information and the second motion information to eliminate the interference of the motion information of the electronic device, so as to obtain the relative motion information of the second housing sliding relative to the first housing.

Taking the moving direction of the electronic device 10 in the space as an example of the first direction, since the first detection module 270 is disposed on the first housing 220, the first motion information collected by the first detection module 270 may include motion information of the first housing 220 moving along the first direction and motion information of the first housing 220 moving along the second direction, the second direction is a sliding direction of the first housing 220, the second detection module 280 is disposed on the second housing 240, the second motion information collected by the second detection module 280 includes motion information of the second housing 240 moving along the first direction and motion information of the second housing moving along the third direction, the third direction is a sliding direction of the second housing 240, the second direction is opposite to the third direction, and the second direction and the third direction are directions of relative movement of the first housing and the second housing. It can be understood that, when the electronic device moves along the first direction, the first housing 220 and the second housing 240 also move along the first direction, the motion information of the first housing 220 moving along the first direction can represent the motion information of the electronic device, and the motion information of the second housing 240 moving along the first direction can represent the motion information of the electronic device, so that the motion information of the first housing 220 moving along the first direction in the first motion information collected by the first detection module 270 is the same as the motion information of the second housing 240 moving along the first direction in the second motion information collected by the second detection module 280, and therefore, the motion information of the electronic device can be excluded by performing a difference operation on the first motion information and the second motion information through the processor 210, the relative motion information of the relative sliding between the first housing 220 and the second housing 240 is obtained, and the state information of the flexible display module 260 can be determined according to the relative motion information.

Taking the first housing 220 as the fixed end and the second housing 240 as the movable end, for example, when the user holds the first housing 220, the second housing 240 slides towards the third direction relative to the first housing 220, the motion information of the first housing 220 sliding along the second direction, which is collected by the first detection module 270, is zero, and the motion information of the second housing sliding towards the third direction relative to the first housing can be obtained by performing difference operation on the second motion information and the first motion information.

Taking the first casing 220 as the moving end and the second casing 240 as the fixed end, for example, when the user holds the second casing 240, the first casing 220 slides toward the second direction relative to the second casing 240, the movement information of the second casing 240 sliding along the third direction, which is collected by the second detection module 280, is zero, and the processor 210 performs a difference operation on the second movement information and the first movement information, so as to obtain the relative movement information of the first casing sliding toward the second direction relative to the second casing. The state information of the flexible display module 260 can be determined according to the relative motion information.

The processor 210 is configured to determine sliding information, such as a sliding length, a sliding position, and sliding coordinates of the second housing 240 relative to the first housing 220, according to the relative movement information of the second housing 240 relative to the first housing 220, and since the state of the flexible display module 260 changes with the change of the sliding positions of the first housing 220 and the second housing 240, the state information of the flexible display module 260 can be determined according to the sliding information.

The first detection module 270 and the second detection module 280 may be motion sensors, such as acceleration sensors, which may include accelerometers and gravimeters, and may detect acceleration information in different directions, wherein the acceleration information may include linear acceleration and gravitational acceleration. The first detection module 270 may include a first accelerometer and a first gravimeter, where the first accelerometer and the first gravimeter are configured to obtain first acceleration information, and the first acceleration information includes acceleration information of the first housing moving along the first direction and acceleration information of the first housing moving along the second direction. The second detection module 280 includes a second accelerometer and a second gravity meter, the second accelerometer and the second gravity meter are used for acquiring second acceleration information, the second acceleration information includes acceleration information of the second housing moving along the first direction and acceleration information of the second housing moving along the third direction, wherein the first acceleration information may include acceleration values of the first housing moving in different directions acquired by the first detection module within a preset time period, the second acceleration information may include acceleration values of the second housing moving in different directions acquired by the second detection module within the preset time period, the processor 210 performs difference operation on the first acceleration information and the second acceleration information to obtain relative acceleration information of the second housing with respect to the first housing, and determines the state information of the flexible display module according to the relative acceleration information.

It can be understood that the acceleration information of the first housing 220 moving along the first direction may represent the acceleration information of the electronic device 10 moving along the first direction, the acceleration information of the second housing 240 moving along the first direction may also represent the acceleration information of the electronic device 10 moving along the first direction, the processor 210 performs a difference operation on the first acceleration information and the second acceleration information to obtain the relative acceleration information of the second housing with respect to the first housing, and by performing an integral calculation on the relative acceleration information, the sliding information such as the sliding length, the sliding position, and the sliding coordinates of the second housing 240 with respect to the first housing 220 may be determined, and since the state of the flexible display module 260 changes with the change of the sliding positions of the first housing 220 and the second housing 240, the state information of the flexible display module 260 may be determined through the sliding information.

In some embodiments, during the process of switching the flexible display module 260 between the unfolded state and the folded state, the flexible display module 260 may be kept in an intermediate state between the unfolded state and the folded state, for example, when the flexible display module is switched from the folded state to the unfolded state, the flexible display module may stay in the intermediate position, in order to improve the accuracy of determining the state information of the flexible display module 260, the electronic device needs to provide a positioning device for determining initial position information of the first detection module 270 and/or the second detection module 280 before each detection, and specifically, the electronic device further includes a positioning device for determining the position of the first detection module and/or the second detection module to obtain the position information of the first detection module and/or the second detection module, and the processor determines the state information of the flexible display module according to the position information of the first detection module and/or the second detection module and the first motion information and the second motion information.

The positioning device can be a Hall sensor fixedly arranged on the first shell and/or the second shell, and is used for recording initial position information of the second detection module when the Hall sensor is arranged on the first shell, recording initial position information of the first detection module when the Hall sensor is arranged on the second shell, recording initial position information of the second detection module when the Hall sensor is arranged on the first shell and the second shell, and recording initial position information of the first detection module when the Hall sensor is arranged on the second shell. It can be understood that, the hall elements corresponding to the hall sensors are correspondingly arranged on the first detection module and the second detection module, the initial position information of the first detection module and/or the second detection module is determined by detecting the positions of the hall elements through the hall sensors, when the flexible display module is in the intermediate state and is converted to the folding state or the unfolding state, or is converted between different positions in the intermediate state, the initial position information of the first detection module and/or the second detection module needs to be acquired through the hall sensors, the processor 210 can determine the relative movement information of the first shell and the second shell according to the first movement information and the second movement information, the sliding information of the second shell 240 relative to the first shell 220 can be determined according to the relative movement information and the initial position information, and the state information of the flexible display module 260 can be determined through the sliding information.

Referring to fig. 1 to 3, fig. 3 is a schematic partial structural view of a first housing and a second housing according to an embodiment of the present disclosure.

The first housing 220 may include a first supporting body 221, the second housing may include a second supporting body 241, the second supporting body 241 may relatively move with respect to the first supporting body 221, the first supporting body 221 and the second supporting body 241 jointly support the flexible display module 260, the first supporting body 221 is provided with a plurality of sliding rails 2211, the second supporting body 241 is provided with a plurality of sliding members 2411, each sliding member 2411 is located in a corresponding sliding rail 2211, when the flexible display module 260 is in the accommodated state, each sliding member 2411 is completely accommodated in the sliding rail 2211, when the flexible display module 260 is in different expanded states, at least part of the sliding member 2411 is located outside the sliding rail 2211, and each sliding member 2411 and the corresponding sliding rail 2211 are separated from each other by a distance to jointly support the flexible display module 260. In order to improve the motion stability of the flexible display module 260, the first supporting body 221 and the second supporting body 241 are of a flush structure, so that the flexible display module 260 located outside the electronic device can be in a flat supporting state, and the operation of a user is facilitated to improve the convenience of use.

In some embodiments, the first detecting module 270 may be fixedly disposed on the first supporting body 221, and the second detecting module 280 may be fixedly disposed on the second supporting body 241. It should be noted that the partial structures of the first housing and the second housing shown in fig. 3 are only exemplary, and the first housing and the second housing may also be other structures that are used for carrying the flexible display module and can perform relative movement.

In an embodiment of the application, the electronic device further includes a driver, where the driver is configured to drive the second housing to move relative to the first housing, so as to switch the flexible display module between the unfolded state and the folded state; when the flexible display module is in an unfolded state, at least part of the free part of the flexible display module is unfolded in the second shell; when the foldable box is in a folded state, the free part unfolded on the second shell is retracted into the accommodating space. The driver can be disposed in the accommodating space, and the driver is used for driving the second housing 240 to move away from the first housing 220, so as to drive the flexible display module 260 to extend, and the driver is also used for driving the second housing 240 to move close to the first housing 220, so as to drive the flexible display module 260 to fold. It will be appreciated that in other embodiments, the driver may be omitted, and the user may slide the first housing and the second housing relative to each other directly by hand or the like.

In some embodiments, the flexible display module may drive the flexible display module to move through the guide, and the detection module may be disposed on the guide, please refer to fig. 1, fig. 4, and fig. 5, where fig. 4 is a schematic view of a second structure of the electronic device according to an embodiment of the present disclosure, where the flexible display screen is in an unfolded state, and fig. 5 is a schematic cross-sectional view of the structure shown in fig. 4 along a P-P direction.

The flexible display module 260 includes a fixed portion 261 and a free portion 262 connected to the fixed portion, the fixed portion 261 is fixed to the second housing 240, the free portion 262 bypasses an end of the first housing 220 away from the second housing 240 and extends into the first housing 220, and when the second housing 240 slides relative to the first housing 220, at least a portion of the free portion 262 can be unfolded in the first housing 220 or folded into the first housing 220 so that the flexible display module 260 can be switched between an unfolded state and a folded state.

The electronic device 10 further includes a guiding member 290, the guiding member 290 is disposed at an end of the first housing 220 far away from the second housing 240, the free portion 262 bypasses the guiding member 290 and extends into the first housing 220, the guiding member 290 can rotate to drive the flexible display module 260 to switch between the unfolded state and the folded state, the first detecting module 270 is disposed on the guiding member, and the second detecting module 280 is fixedly disposed on the second housing 240.

The first motion information collected by the first detection module 270 may include motion information of the electronic device 10, motion information of the first housing 220, and rotation information of the guide 290, the second motion information collected by the second detection module 280 may include motion information of the electronic device 10 and motion information of the second housing 240, the processor 210 determines relative motion information of the second housing 240 sliding relative to the first housing 220 according to the motion information of the electronic device 10, the motion information of the first housing 220, the rotation information of the guide 290, and the motion information of the second housing 240, and determines status information of the flexible display module according to the relative motion information.

In some embodiments, the processor 210 may determine information about the number of turns of the guide member based on the motion information of the electronic device, the motion information of the first housing, the rotation information of the guide member, and the motion information of the second housing, and determine information about the relative motion of the second housing sliding relative to the first housing based on the information about the number of turns of the guide member.

The first detecting module 270 and the second detecting module 280 may be the detecting modules described above. The first detection module 270 may detect the motion information of the first housing 220 in different directions and the motion information of the guide, the second detection module 280 may detect the motion information of the second housing 240 in different directions, both the motion information of the first housing in the first direction and the motion information of the second housing in the first direction may represent the motion information of the electronic device, and since the motion information of the first housing 220 and the second housing 240 in the first direction and the second direction is the same as the motion information of the second housing in the first direction, performing a difference operation on the first motion information and the second motion information may eliminate interference of the motion of the electronic device with the determination of the state of the flexible display module.

Taking the first housing 220 as a fixed end, the second housing 240 as a movable end, for example, a user holds the first housing 220, the second housing 240 slides relative to the first housing 220 toward the third direction, the motion information of the first housing 220 sliding along the second direction collected by the first detection module 270 is zero, the processor 210 obtains a relative value between the motion information of the guide and the motion information of the second housing sliding relative to the first housing toward the third direction by performing a difference operation on the second motion information and the first motion information, and can determine the number of turns of the guide according to the relative value between the motion information of the guide and the motion information of the second housing sliding relative to the first housing toward the third direction, for example, the first detection module 270 can collect the turn information of the guide along with the rotation of the guide, the number of turns of the guide is calculated according to the rotation information, when the number of turns is a non-integer, the processor 210 can determine the number of turns of the guide collected by the first detection module 270 and the motion information of the second housing collected by the second detection module 280, since the number of turns of the guide is determined by the flexible display module, the calculated information can be displayed by displaying the state of the flexible display module.

The guide member 290 may be a roller shaft or a rotating shaft that can freely rotate relative to the first housing, for example, the guide member 290 may be a rotating shaft structure with a protruding tooth, the flexible display module 260 is linked with the guide member 290 through a manner such as meshing, and when the second housing 240 slides relative to the first housing 220, the guide member 290 drives a portion of the flexible display module 260 meshed with the guide member 290 to move so as to be unfolded or folded into the first housing 220. The guide 290 can limit the bending radius of the flexible display module 260 within a suitable range to avoid the damage of the flexible display module 260 caused by too small bending radius. Of course, the guide 290 can also prevent the flexible display module 260 from having an excessively large bending radius, which results in an excessively large thickness of the electronic device 10.

An embodiment of the present application further provides a method for determining status information, which is applied to the electronic device described above, and the method for determining status information includes:

acquiring first motion information acquired by a first detection module;

acquiring second motion information acquired by a second detection module;

and determining the state information of the flexible display module according to the first motion information and the second motion information.

In some embodiments, the first motion information includes motion information of the electronic device and motion information of the first housing, the second motion information includes motion information of the electronic device and motion information of the second housing, the processor determines relative motion information of the second housing sliding relative to the first housing according to the motion information of the electronic device, the motion information of the first housing and the motion information of the second housing, and determines state information of the flexible display module according to the relative motion information.

In some embodiments, the first motion information includes motion information of the first housing moving in a first direction and motion information of the first housing moving in a second direction, and the second motion information includes motion information of the second housing moving in the first direction and motion information of the second housing moving in a third direction, where the first direction is a direction in which the electronic device moves, the second direction and the third direction are directions in which the first housing and the second housing move relative to each other, and the second direction is opposite to the third direction.

In some embodiments, the first detection module comprises a first accelerometer and a first gravimeter, the first accelerometer and the first gravimeter are used for acquiring first acceleration information, and the first acceleration information comprises acceleration information of the first shell moving along the first direction and acceleration information of the first shell moving along the second direction; the second detection module comprises a second accelerometer and a second gravity meter, the second accelerometer and the second gravity meter are used for acquiring second acceleration information, the second acceleration information comprises acceleration information of the second shell moving along the first direction and acceleration information of the second shell moving along the third direction, the processor performs difference operation on the first acceleration information and the second acceleration information to obtain relative acceleration information of the second shell relative to the first shell, and the state information of the flexible display module is determined according to the relative acceleration information.

In some embodiment modes, the first motion information and the second motion information are subjected to difference operation to obtain relative motion information of the second shell sliding relative to the first shell.

In some embodiments, the flexible display module comprises a fixed part and a free part connected with the fixed part, the fixed part is fixed on the second shell, the free part bypasses one end of the first shell, which is far away from the second shell, and extends into the first shell, and when the second shell slides relative to the first shell, at least part of the free part can be unfolded in the first shell or folded in the first shell so that the flexible display module can be switched between an unfolded state and a folded state;

the electronic equipment further comprises a guide piece, the guide piece is arranged at one end, far away from the second shell, of the first shell, the free portion bypasses the guide piece and extends into the first shell, the guide piece can rotate and then drive the flexible display module to be switched between an unfolding state and a folding state, and the first detection module is arranged on the guide piece.

In some embodiments, the first motion information includes motion information of the electronic device, motion information of the first housing, and rotation information of the guide, the second motion information includes motion information of the electronic device and motion information of the second housing, the processor determines relative motion information of the second housing sliding relative to the first housing according to the motion information of the electronic device, the motion information of the first housing, the rotation information of the guide, and the motion information of the second housing, and determines state information of the flexible display module according to the relative motion information.

In some embodiments, the processor determines information about the number of turns of the guide member based on the movement information of the electronic device, the movement information of the first housing, the rotation information of the guide member, and the movement information of the second housing, and determines information about the relative movement of the second housing with respect to the first housing based on the information about the number of turns of the guide member.

In some embodiments, the electronic device further includes a positioning device, the positioning device is configured to determine a position of the first detection module and/or the second detection module to obtain position information of the first detection module and/or the second detection module, and the processor determines status information of the flexible display module according to the position information of the first detection module and/or the second detection module and the first motion information and the second motion information.

It should be noted that the first direction shown in the drawings of the above embodiments is merely exemplary, and the first direction may also be a direction of movement of other electronic devices.

The electronic device and the method for determining status information provided by the embodiment of the present application are described in detail above, and a specific example is applied in the description to explain the principle and the embodiment of the present application, and the description of the above embodiment is only used to help understand the method and the core idea of the present application; meanwhile, for those 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 (10)

1. An electronic device, comprising:

a first housing;

the second shell is connected with the first shell and can slide relative to the first shell;

the flexible display module is arranged on the first shell and the second shell, slides relative to the first shell through the second shell, and can be switched between an unfolding state and a folding state;

the first detection module is arranged on the first shell and used for acquiring first motion information;

the second detection module is arranged on the second shell and used for collecting second motion information;

and the processor is used for determining the state information of the flexible display module according to the first motion information and the second motion information.

2. The electronic device according to claim 1, wherein the first motion information includes motion information of the electronic device and motion information of the first housing, the second motion information includes motion information of the electronic device and motion information of the second housing, and the processor is configured to determine relative motion information of the second housing sliding with respect to the first housing according to the motion information of the electronic device, the motion information of the first housing, and the motion information of the second housing, and further configured to determine status information of the flexible display module according to the relative motion information.

3. The electronic device according to claim 2, wherein the first motion information includes motion information of the first housing moving in a first direction and motion information of the first housing moving in a second direction, and the second motion information includes motion information of the second housing moving in the first direction and motion information of the second housing moving in a third direction, wherein the first direction is a direction in which the electronic device moves, the second direction and the third direction are directions in which the first housing and the second housing move relative to each other, and the second direction and the third direction are opposite.

4. The electronic device according to claim 3, wherein the first detection module comprises a first accelerometer and a first gravimeter, and the first accelerometer and the first gravimeter are configured to acquire first acceleration information, and the first acceleration information comprises acceleration information of the first housing moving in a first direction and acceleration information of the first housing moving in a second direction; the second detection module comprises a second accelerometer and a second gravity meter, the second accelerometer and the second gravity meter are used for acquiring second acceleration information, and the second acceleration information comprises acceleration information of the second shell moving along the first direction and acceleration information of the second shell moving along the third direction; the processor is used for performing difference operation on the first acceleration information and the second acceleration information to obtain relative acceleration information of the second shell relative to the first shell, and determining state information of the flexible display module according to the relative acceleration information.

5. The electronic device according to any one of claims 2 to 4, wherein the processor is configured to perform a difference operation on the first motion information and the second motion information to obtain relative motion information of the second housing sliding relative to the first housing.

6. The electronic device according to claim 1, wherein the flexible display module comprises a fixed portion and a free portion connected to the fixed portion, the fixed portion is fixed to the second housing, the free portion bypasses an end of the first housing away from the second housing and extends into the first housing, and when the second housing slides relative to the first housing, at least a portion of the free portion can be unfolded in the first housing or folded into the first housing so that the flexible display module can be switched between an unfolded state and a folded state;

the electronic equipment further comprises a guide piece, the guide piece is arranged at one end, far away from the second shell, of the first shell, the free portion bypasses the guide piece and extends into the first shell, the guide piece can rotate to drive the flexible display module to be switched between an unfolding state and a folding state, and the first detection module is arranged on the guide piece.

7. The electronic device of claim 6, wherein the first motion information includes motion information of the electronic device, motion information of a first housing, and rotation information of the guide, wherein the second motion information includes motion information of the electronic device and motion information of the second housing, and wherein the processor is configured to determine relative motion information of the second housing sliding relative to the first housing according to the motion information of the electronic device, the motion information of the first housing, the rotation information of the guide, and the motion information of the second housing, and further configured to determine status information of the flexible display module according to the relative motion information.

8. The electronic device of claim 7, wherein the processor is configured to determine information about a number of rotations of the guide according to the motion information of the electronic device, the motion information of the first housing, the rotation information of the guide, and the motion information of the second housing, and further configured to determine information about a relative motion of the second housing sliding relative to the first housing according to the information about the number of rotations of the guide.

9. The electronic device according to claim 1, further comprising a positioning device, wherein the positioning device is configured to determine a position of the first detecting module and/or the second detecting module to obtain position information of the first detecting module and/or the second detecting module, and the processor is configured to determine the state information of the flexible display module according to the position information of the first detecting module and/or the second detecting module and the first motion information and the second motion information.

10. A method for determining status information, which is applied to an electronic device according to any one of claims 1-9, the method for determining status information comprising:

acquiring first motion information acquired by the first detection module;

acquiring second motion information acquired by the second detection module;

and determining the state information of the flexible display module according to the first motion information and the second motion information.

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