CN112684855A - Electronic equipment - Google Patents

Abstract

The application discloses electronic equipment includes: a first body; the second body is rotationally connected with the first body; the first body is internally provided with a first display device and a second display device, and the orientations of the first display device and the second display device meet the same condition; the first body is provided with a first mode and a second mode, and in the first mode, the display area of the first display device is exposed and the display area of the second display device is not exposed; in the second mode, both the display area of the first display device and the display area of the second display device are exposed.

Description

Electronic equipment

Technical Field

The present disclosure relates to electronic devices, and particularly to an electronic device.

Background

At present, electronic devices such as notebook computers and the like have single working forms and cannot meet more diversified use requirements of users.

Disclosure of Invention

In view of this, the present application provides the following technical solutions:

an electronic device, comprising:

a first body;

the second body is rotationally connected with the first body;

wherein the content of the first and second substances,

a first display device and a second display device are arranged in the first body, and the orientations of the first display device and the second display device meet the same condition; the first body has a first mode and a second mode, and in the first mode, the display area of the first display device is exposed and the display area of the second display device is not exposed; in the second mode, both the display area of the first display device and the display area of the second display device are exposed.

Preferably, in the electronic device, in the second mode, the overall posture of the first body has at least two kinds.

Preferably, in the electronic device, one of the two overall postures is a first direction in which the second display device is located on the first display device, and the other posture is a second direction in which the second display device is located on the first display device, and the second direction is different from the first direction.

Preferably, in the electronic apparatus, one of the two overall postures is that the posture of the second display device is the same as the posture of the first display device, and the other posture of the second display device is different from the posture of the first display device.

Preferably, in the electronic apparatus, in the two overall postures, the second display device is located in a different direction from the first display device, and the posture of the first display device is the same as the posture of the second display device;

or, in the two overall postures, the second display device is positioned in a different direction from the first display device, and the posture of the first display device is different from the posture of the second display device;

or, in the two overall postures, the second display device is located in the same direction as the first display device, and the posture of the first display device is different from the posture of the second display device.

Preferably, in the electronic apparatus, the second display device rotates relative to the first display device to switch the first mode to the second mode, and a rotation axis of the second display device is perpendicular to a display surface of the first display device.

Preferably, in the electronic device, in the first mode, the aspect ratio of the second display device is a first value; in the second mode, the posture of the second display device is different from the posture of the first display device, the length-width ratio of the second display device is a second value, and the second value is the reciprocal of the first value.

Preferably, the electronic device includes:

a first guide member disposed in the first body and arranged in a first direction;

the sliding piece is connected with the first guide piece in a sliding mode and connected with the second display device, and the second display device can move to the outside of the first body through sliding fit of the first guide piece and the sliding piece;

the second guide piece is arranged in the first body and arranged along a second direction, the second guide piece is connected with the first guide piece, so that the sliding piece can slide to the second guide piece from the first guide piece and is in sliding connection with the second guide piece, the second display device can move to the outside of the first body through sliding fit of the second guide piece and the sliding piece, and the second direction is different from the first direction.

Preferably, the electronic device includes:

a guide disposed within the first body;

the sliding piece is connected with the guide piece in a sliding mode and detachably connected with the second display device, and the second display device can move to the outside of the first body through the sliding fit of the guide piece and the sliding piece;

the rotating piece is arranged in the first body in a rotating mode and is perpendicular to the display surface of the first display device, the rotating piece is detachably connected with the second display device, and the second display device can rotate to the outside of the first body through the rotating piece.

Preferably, in the electronic device, the second body is provided with an input device, and in both the first mode and the second mode, the input device corresponds to the first display device, so that the first display device displays information input by the input device; in the second mode, the second display device displays input effects and/or auxiliary information;

the second body is provided with a control device, and the content of the application is displayed on the first display device in the first mode; in the second mode, the control device controls a first content to be displayed on the first display device and controls a second content to be displayed on the second display device, wherein the second content is an auxiliary content of the first content.

The application provides an electronic equipment, including first body and the second body of rotation connection, and be provided with orientation in the first body and satisfy the first display device and the second display device of the same condition, first body has the first mode that only first display device's display area exposes, and the second mode that first display device's display area and second display device's display area all expose, when first body is in first mode, electronic equipment works with the form of single display screen, when first body is in the second mode, electronic equipment works with the form that two display screens and two display screen orientations satisfy the same condition.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural diagram illustrating a second display device moving to the left of a first display device in an electronic apparatus according to an embodiment of the present disclosure;

FIG. 2 is a schematic diagram illustrating the second display device moving to the upper side of the first display device;

FIG. 3 is a schematic diagram illustrating the second display device moving to the right of the first display device;

FIG. 4 is a schematic view of the second display device rotating to the left of the first display device;

FIG. 5 is a schematic view of the second display device rotating to the upper side of the first display device;

FIG. 6 is a schematic view of the second display device rotating to the right of the first display device;

FIG. 7 is a schematic view showing the structure in which the second display device is moved to the left and upper sides of the first display device;

FIG. 8 is a schematic view showing the structure of the second display device moving to the upper and right sides of the first display device;

FIG. 9 is a schematic diagram of the second display device moving to the left and right of the first display device;

FIGS. 10-12 are schematic views of structures for effecting left movement and rotation of the second display device in different directions relative to the first display device, respectively;

FIGS. 13-15 are schematic views of structures for achieving right shifting and different direction rotation of the second display device relative to the first display device, respectively;

fig. 16 is a schematic diagram of a structure for implementing upward movement and rotation of the second display device with respect to the first display device.

In fig. 1-16:

1-a first body, 2-a second body, 3-a first display device, 4-a second display device, 5-a first guide, 6-a slider, 7-a second guide, 8-a guide, 9-a rotator, 10-an input device.

Detailed Description

The application provides an electronic device, which has more working forms and meets more diversified use requirements of users.

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, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

As shown in fig. 1 to 16, an embodiment of the present application provides an electronic device, for example, a notebook computer, including a first body 1 and a second body 2 that are rotatably connected, where the first body 1 and the second body 2 can open and close the electronic device through relative rotation, where a first display device 3 and a second display device 4 are disposed in the first body 1, and the first display device 3 and the second display device 4 may be specifically flat display screens, and when the first body 1 is provided with the first display device 3 and the second display device 4, the orientations of the first display device 3 and the second display device 4 (specifically, display surfaces of the two display devices) satisfy the same condition, where the orientation satisfies the same condition refers to that the orientations of the first display device 3 and the second display device 4 are the same or approximately the same; on the basis of the above structure, the first body 1 has a first mode and a second mode, in the first mode, the display area of the first display device 3 is exposed and the display area of the second display device 4 is not exposed, that is, the electronic apparatus has only one display screen of the first display device 3 in the first mode, the second display device 4 is hidden inside the first body 1, so that the user cannot see the display surface of the second display device 4, at this time, the electronic apparatus is an electronic apparatus of a single display screen, and in the second mode, the second display device 4 is moved out of the first body 1, so that the display area of the first display device 3 and the display area of the second display device 4 are simultaneously exposed, and since the orientations of the first display device 3 and the second display device 4 satisfy the same condition, the user can simultaneously see the display area of the first display device 3 and the display area of the second display device 4, the electronic device is now a dual-display electronic device.

The electronic equipment with the structure can enable the electronic equipment to have a single-screen form and a double-screen form by switching the first mode and the second mode, so that the electronic equipment has more working forms, and further more diversified use requirements of users are met.

In the second mode, the overall posture of the first body 1 is preferably at least two, and the overall posture refers to the overall posture of the first body 1 formed by the first display device 3 and the second display device 4 which are cooperated together. The whole posture of the first body 1 is diversified, and the working form of the electronic equipment can be further enriched, so that the electronic equipment can meet more diversified use requirements of users.

Specifically, the adjustment of the overall posture of the first body 1 in the second mode can be realized by changing the relative positions of the first display device 3 and the second display device 4, that is: one of the at least two overall postures of the first body 1 is a first direction in which the second display device 4 is positioned on the first display device 3, and the other is a second direction in which the second display device 4 is positioned on the first display device 3, the second direction being different from the first direction. That is, in the process that the second display device 4 is exposed outside the first body 1, the second display device 4 can be moved to different directions relative to the first display device 3 to enable the second display device 4 and the first display device 3 to have a plurality of relative positions, each relative position is an overall posture of the first body 1, for example, as shown in fig. 1-3, the second display device 4 is respectively translated to the left (first direction), the upper (second direction) and the right (third direction) relative to the first display device 3 to enable the second display device 4 to be respectively located at the left side, the upper side and the right side of the first display device 3, so as to form three different overall postures of the first body 1.

As can be seen from the above relative position relationship, in the present application, it is preferable that the angle change value between the different overall postures of the first body 1 is 90 degrees (that is, the angle change value of the position of the second display device 4 is 90 degrees when the second display device 4 is positioned on the upper side of the first display device 3 from the left side of the first display device 3, and similarly, the angle change value of the position of the second display device 4 is 90 degrees when the second display device 4 is positioned on the right side of the first display device 3 from the upper side of the first display device 3), so that the electronic apparatus has a more beautiful operation mode in the second mode. In addition, the angle change value between different overall attitudes of the first body 1 may also be other values, such as 30 degrees, 45 degrees, 60 degrees, or the like.

In addition, the adjustment of the overall posture of the first body 1 in the second mode can also be realized by changing the posture of the second display device 4, that is: one of the at least two overall postures of the first body 1 is that the posture of the second display device 4 is the same as the posture of the first display device 3 itself, and the other is that the posture of the second display device 4 is different from the posture of the first display device 3 itself. That is, in the process that the second display device 4 is exposed to the first body 1, the posture of the second display device 4 itself may be changed while being the same as or different from the posture of the first display device 3 itself, and since the first display device 3 is fixedly disposed on the first body 1, the posture of the first display device 3 itself is always unchanged, so that the adjustment of the overall posture of the first body 1 can be achieved by changing the posture of the second display device 4 itself, for example, when the first display device 3 and the second display device 4 are both rectangular display screens, the first display device 3 may be a landscape screen (i.e., the posture of the first display device 3 is horizontally disposed as shown in fig. 1 to 15), and the second display device 4 in the second mode may be a landscape screen (as shown in fig. 1 to 3), in which the posture of the second display device 4 is the same as the posture of the first display device 3, this is one overall posture of the first body 1, or the second display device 4 may be a vertical screen (as shown in fig. 4-6), and at this time, the posture of the second display device 4 is different from the posture of the first display device 3 (i.e., one is a horizontal screen and the other is a vertical screen), this is another overall posture of the first body 1.

In addition to the above-described aspect, the adjustment of the posture of the entire first main body 1 in the second mode can be realized by combining the above-described relative position and the form of the second display device 4 itself, for example:

in the two overall postures, the second display device 4 is located in different directions of the first display device 3, and the self posture of the first display device 3 and the self posture of the second display device 4 are the same, i.e. the two overall postures can be respectively the posture a and b in fig. 7, the posture a and b in fig. 8, and the posture a and b in fig. 9;

or, of the two overall postures, the second display device 4 is located in different directions of the first display device 3, and the self posture of the first display device 3 and the self posture of the second display device 4 are different, that is, the two overall postures are respectively the postures a and c shown in fig. 11, fig. 12, fig. 14 and fig. 15 (in this case, the postures in which the second display device 4, not shown in the figure, moves upward relative to the first display device 3 and can rotate to the left side of the first display device 3, and the postures in which the second display device 4 moves upward relative to the first display device 3 and can rotate to the right side of the first display device 3 are also included);

alternatively, the second display device 4 is located in the same direction as the first display device 3 in two overall postures, and the self posture of the first display device 3 and the self posture of the second display device 4 are different, that is, the two overall postures are the postures a and c shown in fig. 10, 13 and 16, respectively.

When the second display device 4 in the second mode is a vertical screen, the vertical screen has a higher display utilization rate for vertical display contents, such as documents, web pages, mobile phone adaptation resources (the mobile phone adaptation resources mainly refer to multimedia shot by a mobile phone, mobile phone games), and the like, because the second display device 4 has a larger vertical length; when the second display device 4 in the second mode is a landscape screen, the landscape screen has a higher display utilization rate for landscape display contents such as PC multimedia, PC games, etc. because of its larger landscape length, i.e., the landscape screen is more suitable for displaying PC multimedia, PC games. Based on this, the user can autonomously determine whether to switch the first mode and the second mode according to the content to be displayed and the user's own intention, and which switching manner is adopted when switching the second mode (i.e., autonomously determine whether to switch the second display device 4 to the landscape screen or the portrait screen).

In addition, in the above-mentioned multiple different switching manners, the second display device 4 is located on the upper side of the first display device 3 relative to the second display device 4, so that the user can view the two display devices more conveniently, that is, the user can easily switch the viewing angle to view the left and right display devices respectively, and when the user views the two display devices arranged up and down, the switching of the viewing angle is relatively difficult, so that the arrangement manner of the two display devices in the second mode (or the switching manner of the second mode) can be determined according to the expectation of the user on the frequency of use of the second display device 4.

Preferably, as shown in fig. 4-6, in a preferred arrangement, the second display device 4 is rotated relative to the first display device 3 to switch from the first mode to the second mode, and the rotation axis of the second display device 4 is perpendicular to the display surface of the first display device 3. In the first mode in which the second display device 4 is hidden inside the first body 1, the posture of the second display device 4 itself is made the same as the posture of the first display device 3 itself (for example, the first display device 3 and the second display device 4 are both landscape screens, as shown in b postures in fig. 10 to 16) so as to increase the area of the display area of the second display device 4 as much as possible. During the switching to the second mode, the change of the posture of the second display device 4 itself is effected by rotation relative to the first display device 3, i.e. the second display device 4 is changed from landscape to portrait by rotation during the switching from the first mode to the second mode. In addition, in the above-described manner of moving the second display device 4 to different sides of the first display device 3 to adjust the overall posture, the second display device 4 may be simply translated with respect to the first display device 3.

Meanwhile, in order to reduce the influence on the original structure and operation mode of the first body 1 caused by the addition of the second display device 4, it is preferable that the second display device 4 is disposed in parallel with the first display device 3 (that is, the orientations of the first display device 3 and the second display device 4 satisfy the same condition), and a rotation axis of the second display device 4 (which is an axis of a rotating member 9 to be described later) is perpendicular to the display surface of the first display device 3, so that the second display device 4 rotates in a plane parallel to the display surface of the electronic apparatus. Therefore, on the basis of keeping the original working mode of the electronic equipment, the working form of the electronic equipment is increased, and the use experience of a user is improved.

Further, it is also preferable that the aspect ratio of the rectangular second display device 4 in the first mode is a first value (in this application, the horizontal side and the vertical side of the rectangle are defined as the long side and the wide side in both the first mode and the second mode); in the second mode, the posture of the second display device 4 is different from the posture of the first display device 3 (i.e. as shown in fig. 4-6, the first display device 3 is a landscape screen, and the second display device 4 is a portrait screen), and the length-width ratio of the second display device 4 is a second value, which is the reciprocal of the first value, for example, the length-width ratio in the first mode is 2, and the length-width ratio in the second mode is 1/2. That is, after the first body 1 is switched from the first mode to the second mode, the long side of the second display device 4 in the first mode is changed to the wide side in the second mode, and the wide side of the first mode is changed to the long side in the second mode, that is, the angle of rotation of the second display device 4 is 90 degrees through mode switching, so that the form of cooperative use of the horizontal screen and the vertical screen is realized in the second mode, and the use of the electronic device by a user is facilitated. Preferably, as shown in fig. 7 and 8, in a preferred structure, the structure for realizing the overall posture adjustment of the first body 1 in the second mode includes: a first guide 5 provided in the first body 1 and arranged in a first direction; a sliding member 6 slidably coupled to the first guide 5 and coupled to the second display device 4, the second display device 4 being movable to the outside of the first body 1 by sliding engagement of the first guide 5 and the sliding member 6; and a second guide 7 disposed in the first body 1 and disposed along a second direction, the second guide 7 being connected to the first guide 5 such that the slider 6 can slide from the first guide 5 to the second guide 7 and be slidably connected to the second guide 7, the second display device 4 being movable to the outside of the first body 1 by the sliding fit of the second guide 7 and the slider 6, the second direction being different from the first direction. With this configuration, the relative positions of the first display device 3 and the second display device 4 can be changed, that is, the configuration is adapted to change the relative positions of the first display device 3 and the second display device 4, thereby adjusting the overall posture of the first body 1, and specifically, when the direction of movement of the second display device 4 with respect to the first display device 3 is different, the arrangement direction of the first guide 5 and the second guide 7 is different, that is, the above-mentioned first direction and second direction can be selected according to the actual movement direction of the second display device 4, for example, when the second display device 4 can be moved both to the left side of the first display device 3 (as shown by a in fig. 7) and to the upper side of the first display device 3 (as shown by b in fig. 7), as shown in fig. 7, the first guide 5 horizontally extends to the left (that is, the first direction) from the portion connected to the second guide 7, the second guide 7 extends vertically upward (i.e., the second direction) from a portion connected to the first guide 5; when the second display device 4 can move both to the right side of the first display device 3 (as shown in b of fig. 8) and to the upper side of the first display device 3 (as shown in a of fig. 8), as shown in fig. 8, the first guide 5 horizontally extends to the right (i.e., a first direction) from a portion connected with the second guide 7, and the second guide 7 vertically extends upward (i.e., a second direction) from a portion connected with the first guide 5. The above structure enables the second display device 4 to move to the first display device 3 in two different directions at the same time, thus allowing the first body 1 to have at least two overall postures.

In addition to the above arrangement, the second display device 4 can also be moved in other two directions relative to the first display device 3 by other moving structures, for example, to the left and right relative to the first display device 3, as shown in fig. 9. In this case, the first guide 5 is still disposed on the first body, the second guide 7 is disposed on the second display device 4, and the first guide 5 and the second guide 7 are disposed in parallel and aligned, and the slider 6 is disposed between the first guide 5 and the second guide 7 and slidably coupled to both of them, i.e., the slider 6 and the first guide 5 and the slider 6 and the second guide 7 are relatively slidable but not separable, so that the second display device 4 can be moved to the left and right of the first display device 3 by simultaneously sliding the slider 6 with respect to the first guide 5 and the second guide 7.

In addition, in another preferred structure, the structure for realizing the overall posture adjustment of the first body 1 in the second mode may be of another type, for example, as shown in fig. 10 to 12, so that it includes: a guide 8 disposed within the first body 1; a sliding member 6 slidably connected to the guide member 8 and detachably connected to the second display device 4, the second display device 4 being movable to the outside of the first body 1 by the sliding fit of the guide member 8 and the sliding member 6; the rotating part 9 is rotatably arranged in the first body 1 and is perpendicular to the display surface of the first display device 3, the rotating part 9 is detachably connected with the second display device 4, and the second display device 4 can rotate to the outside of the first body 1 through the rotating part 9. In this structure, including both the guide 8 and the slider 6 that enable the second display device 4 to move relative to the first display device 3 and the rotator 9 that rotates the second display device 4 relative to the first body 1 (or the first display device 3), this structure can be applied to the adjustment of the overall posture of the first body 1 by changing the relative positions of the first display device 3 and the second display device 4 and changing the posture of the second display device 4 itself, for example, as shown in fig. 10, when the guide 8 extends horizontally to the left, the second display device 4 is kept connected to the slider 6 and kept separated from the rotator 9, in which case, the second display device 4 can move to the left side of the first display device 3 through the sliding engagement of the guide 8 and the slider 6 to enable the first body 1 to have an overall posture (a posture in fig. 10), and also can make the second display device 4 return to the first body 1 through the sliding fit of the guide 8 and the sliding piece 6 to make the first body 1 in the first mode (as b posture in fig. 10), and in addition make the second display device 4 separate from the sliding piece 6 and connect with the rotating piece 9, make the second display device 4 can rotate to the outside of the first body 1 through the rotating piece 9 (as c posture in fig. 10), when the second display device 4 rotates to the right place then the first body 1 will have another whole posture (as c posture in fig. 4); alternatively, as shown in fig. 13, when the guide 8 extends horizontally to the right, the second display device 4 is connected to the sliding member 6 and separated from the rotating member 9, the second display device 4 can move to the right of the first display device 3 to make the first body 1 have one overall posture (as shown in c of fig. 13), the first body 1 is in the first mode (as shown in b of fig. 13) when the second display device 4 moves in the reverse direction and is located inside the first body 1, the second display device 4 is separated from the sliding member 6 and connected to the rotating member 9, the second display device 4 can rotate to the outside of the first body 1 through the rotating member 9 (as shown in a of fig. 13), and the first body 1 has another overall posture (as shown in fig. 6) when the second display device 4 rotates to the right; still alternatively, as shown in fig. 16, when the guide 8 extends vertically upward, the second display device 4 is kept connected to the slider 6 and separated from the rotator 9, the second display device 4 can move to the upper side of the first display device 3 to make the first body 1 have one overall posture (as shown by c in fig. 16), the first body 1 is in the first mode (as shown by b in fig. 16) when the second display device 4 moves in the reverse direction and is located inside the first body 1, the second display device 4 is separated from the slider 6 and connected to the rotator 9, the second display device 4 can rotate to the outside of the first body 1 through the rotator 9 (as shown by a in fig. 16), and the first body 1 has another overall posture (as shown in fig. 5) when the second display device 4 rotates to the right position.

In the above two structures, the first guide 5, the second guide 7 and the guide 8 are preferably guide structures such as a guide rail or a guide groove, and the sliding member 6 is a slider which is slidably connected with the guide rail or the guide groove and cannot be separated; the rotating member 9 is preferably a rotating shaft, the axis of which is perpendicular to the display surfaces of the first display device 3 and the second display device 4, the connection and the disconnection of the second display device 4 with the sliding member 6 and the rotating member 9 are preferably realized by an electromagnet, the electromagnet is powered on and powered off under the control of a control device of the electronic device, when the second display device 4 needs to be connected with the sliding member 6, the control device controls the sliding member 6 to be powered on, the sliding member 6 is connected with the second display device 4 in an adsorption manner through magnetic force, when the second display device 4 needs to be separated from the sliding member 6, the control device controls the sliding member 6 to be powered off, the sliding member 6 is not adsorbed and separated from the second display device 4, similarly, when the second display device 4 needs to be connected with the rotating member 9, the control device controls the rotating member 9 to be powered on, and the rotating member 9 is connected with the second display device 4 in an adsorption manner through, when the second display device 4 needs to be separated from the rotating part 9, the control device controls the rotating part 9 to be powered off, and the rotating part 9 and the second display device 4 are not adsorbed to each other and separated.

In the present application, as shown in fig. 1 to 6, it is preferable that the second body 2 is provided with an input device 10, and in both the first mode and the second mode, the input device 10 corresponds to the first display device 3, so that the first display device 3 displays information input by the input device 10; in the second mode, the second display device 4 displays the input effect and/or the auxiliary information. Wherein, the input device 10 can be a keyboard, and in both the first mode and the second mode, the first display device 3 is disposed corresponding to (i.e. aligned with) the keyboard, so that the first display device 3 directly displays the information input by the keyboard, that is, the electronic device is preferably in a notebook form, and in terms of functions, the second display device 4 in the second mode is preferably used for displaying the input effect and/or the auxiliary information, wherein the input effect refers to the effect that the information input by the input device 10 is embodied after being processed by the control device of the electronic device, for example, when a user uses the electronic device to edit a picture, the first display device 3 is used for displaying the relevant data information during the picture editing, such as the brightness, definition, color saturation, etc. of the picture, which can be changed by operating the input device 10, the second display device 4 is used for displaying the visual effect of the picture after the data information is changed; the second display device 4 displays the auxiliary information, for example, as follows: when a user writes a document, a document writing page is displayed on the first display device 3, and the second display device 4 is used for displaying document data, web page information and the like which need to be referred to when the document is written. The reason that the first display device 3 is preferably used for displaying the editing content or the editing page directly related to the editing is that the first display device 3 is arranged corresponding to the input device 10, so that the user can use the input device 10 arranged corresponding to the first display device 3 more comfortably for editing, the use habit of the user is more met, and the use experience of the user is improved.

In addition, the second body 2 is also provided with a control device (for example, a CPU) for displaying the contents of the application on the first display device 3 in the first mode; in the second mode, the control means controls the first content to be displayed on the first display means 3 and controls the second content, which is auxiliary content of the first content, to be displayed on the second display means 4. That is, in the electronic apparatus of the present application, the control device has a function of automatically distributing display contents between the first display device 3 and the second display device 4, when the first body 1 is in the first mode, since only the display area of the first display device 3 is exposed, the application contents to be displayed are displayed only on the first display device 3, and when the first body 1 is in the second mode, since the display area of the second display device 4 is also exposed, that is, the electronic device has two display screens, at this time, the control device can divide all the application contents to be displayed into two parts, i.e., the first content and the second content, and displays them on the first display apparatus 3 and the second display apparatus 4, respectively, meanwhile, as described above, the second content displayed on the second display apparatus 4 is auxiliary content of the first content displayed on the first display apparatus 3.

After the electronic device is switched from the first mode to the second mode, the control device needs to analyze all application contents originally displayed on the first display device 3, and divide the application contents into two parts, namely first contents and second contents, according to an analysis result. On the basis, when the second display device 4 is located at the left side or the right side of the first display device 3 in the second mode and the postures of the second display device 4 and the first display device 3 are the same (i.e. the postures shown in fig. 1 or fig. 3), the second content is made to be the first sub-application content, that is, the first sub-application content is transferred to the second display device 4 to be displayed, and the second sub-application content is still displayed in the first display device 3; when the second display device 4 is located at the upper side of the first display device 3 in the second mode (i.e. the posture shown in fig. 2), only the third sub-application content (i.e. the second content) of all the application contents is displayed in the second display device 4 due to the higher difficulty of switching the viewing angle, and other application contents are still displayed in the first display content 3; wherein the first sub-application content comprises the third sub-application content. That is, the first sub-application content can represent content at a first frequency of use, the third sub-application content can represent content at a third frequency of use, the first frequency of use including content at the third frequency of use, and both lower than the content at the second frequency of use represented by the second sub-application content. That is, when the second display device 4 is positioned at the left or right side of the first display device 3 in the second mode and the self-postures of the second display device 4 and the first display device 3 are the same, the application contents of medium and low use frequencies are displayed in the second display device and the application contents of high use frequencies are displayed in the first display device; that is, when the second display device 4 is positioned at the upper side of the first display device 3 in the second mode (i.e., the posture shown in fig. 2), the application contents of low use frequency are displayed in the second display device 4, and the contents of medium and high use frequency are left to be displayed in the first display device.

In addition, when the second display device 4 is in the portrait mode (i.e., the postures shown in fig. 4 to 6), the control device determines only the vertical display content separated from all the application contents as the second content, and causes the second content to be displayed on the second display device 4, and the rest of the application contents are still displayed on the first display content 3.

In this specification, structures of each part are described in a progressive manner, and a structure of each part is mainly described to be different from an existing structure, and the whole structure and the part structure of the electronic device can be obtained by combining the structures of the parts.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. An electronic device, comprising:

a first body;

the second body is rotationally connected with the first body;

wherein the content of the first and second substances,

a first display device and a second display device are arranged in the first body, and the orientations of the first display device and the second display device meet the same condition; the first body has a first mode and a second mode, and in the first mode, the display area of the first display device is exposed and the display area of the second display device is not exposed; in the second mode, both the display area of the first display device and the display area of the second display device are exposed.

2. The electronic device of claim 1, wherein in the second mode, the overall posture of the first body has at least two.

3. The electronic device of claim 2, wherein one of the two overall orientations is a first orientation of the second display device on the first display device, and the other orientation is a second orientation of the second display device on the first display device, the second orientation being different from the first orientation.

4. The electronic apparatus according to claim 2, wherein one of the two overall postures is that the self posture of the second display device is the same as the self posture of the first display device, and the other is that the self posture of the second display device is different from the self posture of the first display device.

5. The electronic device of claim 2, wherein the electronic device,

in the two integral postures, the second display device is positioned in different directions of the first display device, and the self posture of the first display device is the same as the self posture of the second display device;

or, in the two overall postures, the second display device is positioned in a different direction from the first display device, and the posture of the first display device is different from the posture of the second display device;

or, in the two overall postures, the second display device is located in the same direction as the first display device, and the posture of the first display device is different from the posture of the second display device.

6. The electronic device of claim 1, wherein the second display device is rotated relative to the first display device to switch the first mode to the second mode, and an axis of rotation of the second display device is perpendicular to a display surface of the first display device.

7. The electronic device of any of claims 4-6, wherein in the first mode, a length-to-width ratio of the second display device is a first value; in the second mode, the posture of the second display device is different from the posture of the first display device, the length-width ratio of the second display device is a second value, and the second value is the reciprocal of the first value.

8. The electronic device of claim 1, comprising:

a first guide member disposed in the first body and arranged in a first direction;

the sliding piece is connected with the first guide piece in a sliding mode and connected with the second display device, and the second display device can move to the outside of the first body through sliding fit of the first guide piece and the sliding piece;

the second guide piece is arranged in the first body and arranged along a second direction, the second guide piece is connected with the first guide piece, so that the sliding piece can slide to the second guide piece from the first guide piece and is in sliding connection with the second guide piece, the second display device can move to the outside of the first body through sliding fit of the second guide piece and the sliding piece, and the second direction is different from the first direction.

9. The electronic device of claim 1, comprising:

a guide disposed within the first body;

the sliding piece is connected with the guide piece in a sliding mode and detachably connected with the second display device, and the second display device can move to the outside of the first body through the sliding fit of the guide piece and the sliding piece;

the rotating piece is arranged in the first body in a rotating mode and is perpendicular to the display surface of the first display device, the rotating piece is detachably connected with the second display device, and the second display device can rotate to the outside of the first body through the rotating piece.

10. The electronic device of claim 1, wherein the electronic device,

the second body is provided with an input device, and the input device corresponds to the first display device in the first mode and the second mode so that the first display device can display information input by the input device; in the second mode, the second display device displays input effects and/or auxiliary information;

the second body is provided with a control device, and the content of the application is displayed on the first display device in the first mode; in the second mode, the control device controls a first content to be displayed on the first display device and controls a second content to be displayed on the second display device, wherein the second content is an auxiliary content of the first content.

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