This application discloses a foldable display apparatus, including a flexible display screen and a bearer component, where the bearer component includes a first plane part, a first bending part, a second plane part, a second bending part, and a third plane part that are sequentially connected in a long side direction, a length of the first bending part in the long side direction is greater than a length of the second bending part in the long side direction, the plurality of parts jointly bear the flexible display screen, the third plane part is folded between the first plane part and the second plane part through bending and deformation of the first bending part and the second bending part, and parts, of the flexible display screen, borne by the first plane part and the second plane part are exposed.

The description relates to hinged devices, such as hinged computing devices. One example can include first and second portions that rotate around a hinge shaft that is fixedly secured to the first portion and rotationally secured to the second portion. The second portion defining a first contact surface spaced apart from a second contact surface. Multiple friction clips friction fit around the hinge shaft and rotating with the hinge shaft between the first contact surface and the second contact surface.

An apparatus can comprise a cover coupleable to a computing device and a latch mechanism. An example latch mechanism is actuatable via insertion of a portion of a shaft through an aperture of the latch mechanism to cause the cover to be disengaged from the computing device.

A portable electronic device including a first body, a second body and a supporting mechanism is provided. The first body has a bottom surface and an opening located at the bottom surface. The second body is pivoted to the first body and has a rear surface and a magnetic part located at the rear surface. The supporting mechanism is disposed in the first body corresponding to the opening. The rear surface of the second body is rotated toward the bottom surface of the first body to allow the supporting mechanism to be magnetically attracted to the magnetic part. Afterwards, the rear surface of the second body is rotated away from the bottom surface of the first body, and the supporting mechanism is driven by the second body to move out of the first body via the opening. When the supporting mechanism is locked, a support shaft supports the second body.

A method of controlling opening resistance in an electronic device includes maintaining the electronic device in a closed state via a resistive force, wherein the resistive force is applied by at least one of: a hinge of the electronic device, and magnets of the electronic device. The method further includes using a sensor on an underside of the electronic device to detect a force applied to a first portion of the electronic device and determining that the force corresponds to a user initiating opening of the electronic device. In accordance with the determination, the method further includes reducing the resistive force to assist the user in opening the electronic device.

The present disclosure provides a sliding mechanism and an electronic device. The sliding mechanism is used in the electronic device, and includes a sliding rail assembly and a driving assembly. The sliding rail assembly includes at least one fixing member and at least one sliding rail, the fixing member is fixed to a housing assembly of the electronic device and provided with a first sliding groove, and the sliding rail has an end slidably limited in the first sliding groove. The driving assembly is fixed to the housing assembly, coupled to the sliding rail, and configured to drive the at least one sliding rail to slide outwards from a retracted state to an extended state from the housing assembly and to slide inwards towards the retracted state of the housing assembly from the extended state.

An electronic device is provided. The electronic device includes a foldable housing configured to include a hinge structure, a first housing structure that has a first face that is connected to the hinge structure and is directed in a first direction, a second face that is directed in a second direction opposite to the first direction, and a first lateral member that at least partly surrounds a space between the first face and the second face, and a second housing structure that has a third face that is connected to the hinge structure and is directed in a third direction, a fourth face that is directed in a fourth direction opposite to the third direction, a second lateral member that at least partly surrounds a space between the third face and the fourth face, and that is folded about the hinge structure onto the first housing structure, a flexible display, a first magnet a second magnet and at least one electrical path.

According to one embodiment, an electronic device includes a housing formed of an insulator and including an outer surface and a mounting part opened to the outer surface, a conductor member provided in the inside of the housing, an installation component formed of an insulator and can be installed into the mounting part, and a first connector provided on the inner side of the mounting part. The mounting part includes communicating apertures at a position in contact with a gap to be formed between the mounting part and the installation component when the installation component is installed into the mounting part and on the outer surface side with respect to the first connector, and the conductor member is exposed to the gap through the communicating aperture.

According to one embodiment, an electronic device includes a housing including a mounting part, installation component installed in the mounting part, and detaching/attaching mechanism capable of detaching the installation component in a first direction. The detaching/attaching mechanism includes an operating lever including a first protrusion which includes a first abutting face and second abutting face, a second protrusion which includes a third abutting face, and a third protrusion which includes a fourth abutting face. At least one of the first abutting face and third abutting face is inclined, and at least one of the second abutting face and fourth abutting face is inclined.