An electronic device includes a main body and a movable frame. The main body has a side edge. The movable frame is movable among a closed position, a grab position and a support position. The movable frame includes a first stand member and a second stand member. The first stand member has a first end and a second end which are opposite to each other. The first end is pivoted to the main body. The second stand member has a handle. The second stand member is slidably disposed on the first stand member.

A friction hinge is described. In at least some implementations, the described friction hinge enables a support component to be adjustably attached to an apparatus, such as a computing device. According to various implementations, a friction hinge includes different friction stages where movement of the hinge is based on different activity mechanisms.

An angle adjusting mechanism for a mouthpiece bearing portion of a telephone includes a hinge, a guiding member, a connecting member, a pushing member, a first wheel, and a second wheel. The hinge and the guiding member are fixed on opposite ends of the connecting member. The first wheel is fixed on the pushing member, and the second wheel is fixed on the mouthpiece bearing portion. The first wheel and the second wheel engage together and an end of the pushing member is connected to the guiding member. The hinge can rotate to slide the pushing member to rotate the first wheel. The second wheel turns to achieve a constant angle for the handset bed even if main body of telephone is propped up to an angle from a supporting surface.

A device for rotation of an object disposed on a horizontal surface, about a vertical axis, includes a base for an object, for rotation about a vertical central axis of the base, at low rotational speeds without achieving the gyroscope principle. The base has a lower surface, at least one downwardly projecting, central pivot lug for rotation of the base thereupon and at least one lateral lug spaced radially from the central lug and having a height less than the central pivot lug. The base is configured and dimensioned to rotate when caused to spin while being continuously supported both by the central pivot lug and at least a portion of the lateral lug as it spins. The base is tilted from the vertical axis at a minor angle, with the difference in heights of the central lug and lateral bearing lugs ranging from 0.025 to 1.25 mm.

In one embodiment, an electronic device is disclosed. The electronic device may include a first body. In one embodiment, the electronic device may include a second body. In some embodiments, the second body may include a first end, a second end, and a first deformable structure disposed between the first end and the second end. The first end may be disposed on a first side of the first body. The second body may form a support structure that may support the first body. A method and apparatus are also disclosed.

A computing device can include a housing including a peripheral housing defining an aperture, the peripheral housing having a constant cross-sectional area. The computing device can also include a display having a first major surface and a second major surface opposing the first major surface, the display disposed within the aperture defined by the peripheral housing and attached to the housing at one or more locations such that the first major surface and the second major surface of the display are substantially unobstructed by any other portion of the computing device.

A mobile phone holder is disclosed for mounting a mobile phone to the dashboard of a car. This mobile phone holder is integrated into the back of a mobile phone or is attached to the back surface of the mobile phone through adhesive pads, or suction cups, or is incorporated into accessories of mobile phones such as attachable card holding wallets, and etc. One embodiment of this mobile phone holder creates a closed loop around the air vent bars. Hence, shakes of the car will not cause sudden detachment and falling of the phone. In Addition, this mobile phone holder is portable and is carried by the mobile phone. Hence, the user can readily have it upon using a temporary car. Moreover, since this mobile phone holder is not permanently stayed in the car, it is not exposed to extreme temperatures and thus its wear and tear is lower than conventional phone holders. The loop that is formed by this apparatus can also be used for mounting a mobile phone to the handlebar of a shopping cart, the handlebar of a bike, safety belt of a car, a belt loop, belt of a user, strap of a bag, or other accessories of a user. This apparatus can also be used as a general purpose fastener for fastening two or more objects together, hanging objects from a bar. Such general purpose fastener can be used as a toy, strap of a watch, or bracelet as well.

Disclosed is a display device. The display device of the present disclosure includes a flexible display panel, a source printed circuit board (S-PCB) located adjacent to a lower side of the flexible display panel and electrically coupled to the flexible display panel, a roller comprising a seating portion accommodating the S-PCB, wherein the seating portion is formed by removing a part of an outer circumferential surface of the roller, wherein the flexible display panel is wound around or unwound from the roller, and a cover extending in a longitudinal direction of the roller to cover the S-PCB.

A hinge mechanism includes a base, a resilient mechanism, a rotating shaft, a first cam member and a second cam member. The resilient mechanism is movably disposed on the base. The rotating shaft is rotably disposed through the base. The first cam member abuts against the resilient mechanism and is able to slide along the rotating shaft. The first cam member is able to move with the rotating shaft. The second cam member is mounted on the base and engages with the first cam member. The first cam cooperates with the second cam member during rotation with the rotating shaft, resulting in displacement between the first cam member and the second cam member for forcing the resilient mechanism to deform and generates a resilient recovery force. The resilient recovery force recovers the first cam member and the second cam member.

A display with a supporting mechanism includes a display module and a supporting device connecting the display module. The supporting device includes a base and a rotatable support. The base is used for fixing the display module and includes a first constraint structure. The rotatable support includes a rotation member pivotally connected to the base, a connection member, and a handle pivotally connected to the rotation member through the connection member. The connection member includes a second constraint structure engaged with or disengaged from the first constraint structure. Therein, when the rotation member is located at a position relative to the base, the first and second constraint structures are engaged with each and thus prevent the handle from rotating relative to the rotation member through the connection member, so that a user can carry the display module by gripping the handle with a hand.