The present invention relates to a mobile terminal structure comprising: a body; a display deformed along the outer surface of the body by means of an external force; and a frame part which supports the display and which is modified into a shape of encompassing the outer surface of the body, wherein the frame part comprises: a rear plate which is coupled to one surface of the display and which can be modified together with the display so as to correspond to the outer surface of the body; and link parts which are respectively provided to both sides of the rear plate and which include a plurality of link members arranged in parallel to each other, and the display can be wound or unwound together with the rear plate along the outer surface of the body by means of the rotation between the connected link members of the link parts.

A terminal device includes a first screen assembly configured to display an image and including a first opening; an image collecting assembly under the first screen assembly, configured to collect an image based on external light when the opening is not shielded; a second screen assembly configured to display an image and shield the opening, and movably disposed between the first screen assembly and the image collecting assembly; a driving assembly configured to drive the second screen assembly to move between first and second positions; at the first position, the opening is shielded and the second screen assembly is in a display state displaying an image not displayed at the opening in the first screen assembly, forming a complete image with the image displayed by the first screen assembly; at the second position, the opening is not shielded, thereby the image collecting assembly can collect the image.

A double-screen rotary shaft structure includes two synchronous spiral channels disposed on the link shafts. Asynchronous assembly is slidably pivotally fitted on the two link shafts. Two bosses are disposed on the synchronous assembly and respectively inlaid in the spiral channels of the link shafts. Two connection members are respectively securely connected with the two link shafts. Two link assemblies are respectively pivotally fitted on the link shafts to synchronously move with the synchronous assembly. Two slide members are attached to lower sides of the connection members and formed with oblique slots. A guide slide connection member is disposed in each oblique slot and connected with the link assembly. The middle sections of two links are pivotally disposed on the connection members. Each link has a driving end pivotally connected with the link assembly and a driven end to drive the slide member.

An electronic device having a foldable screen, where when the foldable screen is in a folded state, the foldable screen is divided into a primary screen and a secondary screen. When a first component disposed on the primary screen is in a working state, or an application that invokes the first component is in the working state, when a screen switching event is detected, the electronic device is prohibited from switching to a state in which only the secondary screen performs display, to avoid a case in which a user is close to the primary screen but the primary screen does not perform display.

Disclosed is an electronic device that includes a first housing and a second housing, a first hinge structure including a first hinge housing, first and second hinge connecting parts, first and second gears, first and second idle gears, at first support that rotatably supports the first gear and the first idle gear, and a second support that rotatably supports the second gear and the second idle gear, a second hinge structure including a second hinge housing, third and fourth hinge connecting parts, third and fourth gears, third and fourth idle gears, a third support that rotatably supports the third gear and the third idle gear, and a fourth support that rotatably supports the fourth gear and the fourth idle gear, wherein the first hinge structure and the second hinge structure allow the first housing and the second housing to rotate relative to each other between a first state and a second state, and a first surface faces a third surface in the first state, and a second surface faces a fourth surface in the second state.

In an example implementation according to aspects of the present disclosure, a computing device includes a first member with a first display surface, and a second member rotatably connected to the first member, the second member including a second display surface. The computing device includes a sensor and a processor to receive sensor data from the sensor. Based on the sensor data, the processor is to select either a privacy mode or a sharing mode for the first display surface, and either the privacy mode or the sharing mode for the second display surface.

An electronic device with sliding screens including a first body, a second body, a plurality of hinge modules, a first screen and a second screen is provided. The first body has a first surface. The second body has a second surface. The hinge modules are connected between the first body and the second body. The first screen is slidably disposed on the first surface of the first body. The second screen is slidably disposed on the second surface of the second body. When the first body and the second body are unfolded to a first angle relative to each other, the first screen and the second screen are moved relatively close and lifted upwards. When the first body and the second body are unfolded to a second angle relative to each other, the first screen and the second screen are in contact with each other to cover the hinge modules.

An electronic device has a structure in which two portions between which a bent portion of a display panel is positioned are each fixed to a housing. The electronic device takes two forms of a form in which the display panel is opened and a form in which the display panel is folded in three. The electronic device includes a mechanism for sliding two housings parallel to each other. The display panel is changed in shape so that a portion where a display surface of the display panel is convexly curved and a portion where the display surface of the display panel is concavely curved in the folded state move in directions parallel and opposite to each other. At this time, the two portions of the display panel which are supported by the housings are slid while their display surfaces maintain a state parallel to each other.

A message notification method and an electronic device are provided. When a primary screen is turned off, prompt information of a notification message is displayed on a secondary screen located right above a front-facing camera, so that a user can notice a message notification in time, and user experience is improved. A specific solution is as follows: After the primary screen is turned off, if the electronic device detects a first notification message, the electronic device displays first information on the secondary screen. The first information is used to prompt the user that the first notification message has been received. The electronic device detects a first operation in which the user indicates to turn on the primary screen. The electronic device turns on the primary screen in response to the first operation. The electronic device displays second information on the secondary screen.

A dual-screen computing device includes two separate displays that are coupled to an interconnecting hinge. A hinge detector detects movement or position of the hinge, and the positions of the displays may be determined based on the hinge movement or position. The positions of the displays relative to each other may then be used to determine which mode of operation the dual-screen computing device is operating (e.g., tent mode, open, closed, etc.). Additionally, the dual-screen computing device may include various sensors that detect different environmental, orientation, location, and device-specific information. Applications are configured to operate differently based on the mode of operation and, optionally, the sensor data detected by the sensors.