The description relates to hinged devices, such as hinged computing devices. One example can include a first portion and a second portion. The example can also include a determinative hinge assembly rotatably securing hinge ends of the first and second portions around a first hinge axis associated with the first portion and a second hinge axis associated with the second portion. The determinative hinge assembly includes a detent-priority sub-assembly that controls an order of rotation around the first and second axes with a first detent associated with the first hinge axis that has a different depth than a second detent associated with the second hinge axis.

A refrigerator includes a main body having a storage compartment; a first door rotatably provided to open and close the storage compartment; a hinge member coupled to a lower portion of the first door and configured to support the first door to allow the first door to be rotatable; a second door provided below the hinge member, wherein the second door includes a door body and a door trim protruding from the door body toward the hinge member, the hinge member includes a main body coupler and a door supporter, and a bottom surface of the door supporter includes a base surface and a recessed surface. The recessed surface is recessed from the base surface to compensate for a height difference between an upper surface of the door trim and an upper surface of the door body

A computing device may include a first housing and a second housing attached by one or more hinges. The first housing may house a first set of components, including a first display device. The second housing may house a second set of components, including a second display device. The one or more hinges may enable the first housing and the second housing to be placed at an angle of between about 0 degrees to about 360 degrees relative to each other. When the first housing is placed at an angle of about 180 degrees relative to the second housing, the one or more hinges may pull the first housing and the second housing towards each other, resulting in a gap between a first edge of the first housing and a second edge of the second housing of 2 millimeters or less.

A control device for controlling the movement of a corner cabinet door of a corner cabinet, wherein the corner cabinet door has a first door element which is mounted on the cabinet carcass in the vicinity of the door opening by means of a door bearing device and a second door element which is mounted swivelably on the first door element via swivel bearing means, with a base part which can be fixed onto the cabinet carcass and a control part which is mounted on the base part so as to be moveable between an inner position and an outer position in which it projects beyond the plane of the door opening, wherein the control part can be coupled with the second door element when closing by means of coupling means and uncoupled when opening, such that it controls the movement of the second door element at the end the closing phase and at the beginning of the opening phase.

A snap-acting hinge with damped closure and opening angle of more than 90?, comprising a first articulated quadrilateral and a second articulated quadrilateral, which have a first lever and a second lever in common and are provided with respective base elements constituted by a plate for coupling to a fixed element and by a plate for fixing to a movable element, the hinge being movable between an open configuration and a closed configuration; the hinge further comprises first elastic elements for holding the open configuration which are associated with the first quadrilateral, second elastic elements for holding the closed configuration which are associated with the second quadrilateral and a damper that acts in the transition from the open configuration to the closed configuration and which is interposed between the first lever and the fixing plate.

A closure for a container of the kind use to deliver milk and juice. The closure is a two-piece construction comprise of a lid and a base. The closure preferably has overall dimensions that approximate a standard unitary cap use with the same containers, so that the closure can easily be used with standard feeding equipment in a bottling facility. The closure has a hinge that is formed of a post connected by a tab to the lid, and hinge supports extending upwardly from the closure's base. The hinge supports include a hook and a bridge. The hook allows the tab to slide under the hook during assembly of the lid to the base. Once the tab is positioned between hook and the bridge, the hook blocks disassembly of the lid from the base. The post of the hinge assembly fits within tunnel sections formed by the hook and the bridge, and gripping forces applied by the hook and/or bridge hold the lid in an open position when contents are poured from the container. In an alternative embodiment, the post of the hinge has a rounded protrusion extending axially along the length of the post. A ledge on the upper surface of the base is engaged by the rounded protrusion to hold the lid in a partially open position.

A hinge structure is provided. The hinge structure includes a fixed structure including a first guide rail and a second guide rail, a center of an arc of the first guide rail is a first axis of rotation parallel to an axial direction and a center of an arc of the second guide rail is a second axis of rotation parallel to the axial direction, a first rotary structure including a first guide portion accommodated in the first guide rail and a first helical groove extending around and along the first axis of rotation, a second rotary structure including a second guide portion accommodated in the second guide rail and a second helical groove extending around and along the second axis of rotation, and a sliding structure including a first guide protrusion accommodated in the first helical groove and a second guide protrusion accommodated in the second helical groove.

A hinge mechanism is described wherein a multi-part device (e.g., dual-display device) can move to a snap-open position. In the snap-open position, the parts lock into place when they approach 180 degrees of rotation relative to one another. The locking force in the open position is sufficient that holding or using the multi-part device does not cause an accidental closing action. An unlocking force is required to unlock the device from the open position. Additionally, the locking force drops off precipitously when the two parts are unlocked and rotating away from the locked position.

A hinge component for an electronic device includes a fixing member, a rotating member and a central shaft. The fixing member includes a side plate and two fixing plates, a curved guiding rail is formed on the side plate. The rotating member includes a rotating portion, a connecting portion and an engaging portion. The fixing member and the rotating member are assembled to the casing and the back plate of the electronic device. The fixing member is disposed inside the casing but not exposed. As a result, the electronic device is made thinner. The hinge component is not easily damaged under an external force, and the lifecycle of the hinge component is improved. The rotating portion rotates around the connection of the back plate and the casing as a virtual rotating axis. At the same time, the central shaft is driven to slide in the curved guiding rail.

A domestic refrigerator has a housing and a door pivotably disposed on the housing by way of hinges. At least one hinge has a door closing fitting part on the door side with a closing clip. A bearing element having a closing cam which is coupled to the locking clip in the closed state of the door is formed on the housing. The closing cam has a coupling projection formed, on a coupling contour which faces it in the state in which it is coupled to the locking clip, with a recess in which a projection end piece formed on the locking clip engages in the coupled state.