A foldable display device is discussed, which is to be switched between a folded state and an unfolded state, the foldable display device including adjustable support units to support a display panel of the foldable display device together with an inner surface of set frames in the unfolded state, the adjustable support units being connected to a hinge unit to enable the adjustable support units to retreat to the inner surface of the set frames in the folded state. In the unfolded state, the adjustable support units and the set frames support the entire area of the display panel to be flat to reduce damage of the display panel.

A foldable display device according to an exemplary embodiment includes: a display panel; a pair of rear surface supporters supporting a rear surface of the display panel; a fastener fastening the pair of rear surface supporters; and a pair of pivots respectively connecting the fastener and the pair of rear surface supporters, wherein a position of the pivot is determined by an equation below.

Dh=Dm?(2?Oh)[Equation]

Here, Dm represents an interval when the pair of rear surface supporters are folded in parallel, Dh represents a horizontal distance between centers of the pair of pivots, Oh represents an offset of the pivot, and the offset of the pivot is a value obtained by subtracting an upper surface height of the rear surface supporter when the rear surface.

A stand includes a supporting assembly and a hinge assembly. The supporting assembly comprises a holder and a support that for moving relative to each other. The hinge assembly includes a fixing component and at least one assembling component. The fixing component is for assembling to an electronic device, and the electronic device includes a display. The at least one assembling component is pivoted on the fixing component for being assembled to the holder or the support.

An opening/closing structure of a cover includes a casing and a rotatable cover. A shaft part and a bearing part are formed to one and the other of the casing and the cover, respectively. One of the shaft part and the bearing part is formed with one of a protrusion and a relief part on a part of an end surface in an axial direction, and the other of the shaft part and the bearing part is formed with the other of the protrusion and the relief part on a facing surface facing the end surface. The protrusion circumvents contact with the surface having the relief part when the cover is closed. When the cover is opened, from the closed state, by a particular angle, the protrusion contacts the surface so as to be applied with a resistant force against rotation of the cover.

An opening and closing structure arranged on a casing of an electronic device includes a cover plate and at least one connecting assembly. The cover plate is arranged inside a groove defined in an outer surface of the casing. The connecting assembly includes a connecting rod. A first end of the connecting rod is coupled to the cover plate. A second end of the connecting rod passes through the groove. The connecting rod is slidable within the casing to allow the cover plate to open and close relative to the casing.

In an example, a panel may include a latch. An example latch may include a wheel, a housing engaged with the wheel, and a bias member to bias the wheel and housing. The housing and wheel may move together along a side of the panel, and the bias member may bias the housing and wheel against the direction of movement of the housing and wheel. The bias member may exert a reactive force against the panel.

A child toilet seat assembly includes a base member configured to be coupled to an adult toilet seat assembly having an adult toilet seat and a lid pivotably coupled to a hinge post. The child toilet seat assembly also includes a child toilet seat coupled to the base member via a hinge joint. The hinge joint enables the child toilet seat to pivot about a pivot axis between an operating position and a storage position. The hinge joint also enables the child toilet seat to move along a translational axis between a locked state inhibiting movement of the child toilet seat relative to the base member and an unlocked state allowing movement of the child toilet seat relative to the base member.

The present disclosure relates to a foldable display device. A foldable display device includes a display panel on a first cover and a second cover and at least one hinge that connects the first cover and the second cover and the hinge includes a fixing frame, a pair of hinge shafts that passes through the fixing frame, a pair of rotating plates that is fixed to one end of the pair of hinge shafts and fixed to the first cover and the second cover to rotate together with the first cover and the second cover, and a pair of first holding members that is coupled to the pair of hinge shafts between the fixing frame and the pair of rotating plates and controls a folding angle of the first cover and the second cover by a magnetic force, thereby permanently implementing a holding force.

The description relates to devices, such as computing devices that have hinged portions. One example can include a first portion and a second portion. The example can also include a first exoskeletal hinge segment secured to the first portion and a second exoskeletal hinge segment secured to the second portion. The first exoskeletal hinge segment can define an arcuate tab that travels in an arcuate cavity defined by the second exoskeletal hinge segment to allow relative rotation between the first and second portions.

An information handling system hinge provides friction against rotational motion to generate torque that regulates housing portion relative position. Friction is generated by compression of friction elements with a super elastic wire under tension. For example, a nickel titanium alloy wire under two to eight percent strain provides a relatively low spring rate having consistent compression even as wear reduces the size of the friction elements.