A hinge is coupled to a first component and a second component. The hinge supports the second component for movement relative to the first component between a closed position covering an opening through the first component and an opened position displaced from the opening. The hinge includes a first bracket coupled to the second component, a second bracket coupled to the first component, a support link coupled to the first and second brackets, and a control link coupled to the first and second brackets. Rotation of the support link relative to the first bracket causes rotation of the first component relative to the second component and relative to the support link.

A hinge for door leaves of furniture which comprises a fixed part which is connectable to a side wall of the item of furniture and a movable part which is connectable to a door leaf, which are mutually connected so as to oscillate by at least one articulation axis; and a movement control device for controlling a closing/opening movement of the hinge, in the form of a damping device for damping the closing movement of the hinge or of an elastic opening device for opening the hinge. The fixed part of the hinge has a flat housing body that extends along a plane parallel to or passing through the articulation axis, the body of the fixed part being shaped so as to be insertable and fixable in a flat seat which is provided in a thickness of the side wall of the item of furniture.

A rebounding pivot module includes a mounting shaft, and a bouncing device set including a barrel having one end tooth shaped, a connecting tube mounted in the other end of the barrel, a connection rod connected to the connecting tube, a socket and a first guide block mounted onto the connection rod, the first guide block having one end beveled, a bouncing barrel mounted around the connecting rod, a second guide block supported on an elastic member in the bouncing barrel and defining therein a guide hole and having one end tooth shaped and abutted at the beveled edge of the first guide block, and a lock device fastened to connection rod that is inserted through the second guide block, the elastic member and the through hole of the bouncing barrel to lock the bouncing barrel to the connection rod.

A hinge has two arms that can be pivoted relative to one another between a closed initial position and a second position. A first arm has a first guide slide. A second guide slide can be shifted along the pivot axis and can contact the first guide slide. When the two arms are moved towards the initial position, at least one cylinder-piston unit can be loaded by means of the second guide slide. The second guide slide can be rotationally fixedly coupled to the second arm in a first pivoting angle sub-range bordering the initial position and to the first arm in a second pivoting angle sub-range bordering the second position. The hinge has a first control slide rigidly connected to the second arm and a second control slide that makes contact with the first control slide and that is coupled against rotation to the first guide slide.

A switch hinge structure used for a charging door or a fuel door of a vehicle includes: a structure housing having an inner wall on which a first boss is disposed; a guide member concentrically installed in the structure housing, and having a groove track on an outer wall thereof; a first spring installed in the structure housing to provide thrust to the guide member in a direction toward an outside of the vehicle; a rotation member installed on an end of the structure housing, having an annular shape, and having a second boss on an interior circumference thereof; and a second spring providing torque to the guide member through the second boss. The first and second bosses are accommodated in the groove track, and guide movement of the guide member when the guide member moves out of the vehicle by an action of the first and second springs.

The invention relates to a hinge (10) comprising a pivotable hinge part (12), a fixed hinge part (14) and a biasable spring element, wherein the pivotable hinge part (12) is pivotably mounted on the fixed hinge part (14) about a pivot axis (S) via a bearing (16), and wherein the biasable spring element is arranged on the bearing (16). The invention is characterized in that the spring element is designed as a flat spiral spring (18).

A drive device for a movable furniture part includes an ejection force accumulator which can be tensioned, and an ejection element mechanically loaded by the ejection force accumulator and used to carry out an ejection movement of the moveable furniture part from a closed position into an open position. The ejection movement can be initiated by a compression movement of the movable furniture part into a compression position which is behind the closed position. The drive device also comprises a tensioning device for tensioning the ejection force accumulator with energy which can be emitted by the ejection movement. During the compression movement, at least 50% of the energy emitted by the ejection force accumulator during the ejection movement can be introduced into the ejection force accumulator by the tensioning device.

A hinge includes a first hinge member including a first barrel, a second hinge member including a first end barrel opposite a second end barrel, a spring having a first axially extending end and a second axially extending end opposite the first axially extending end, a spring tensioner having a first depression for receiving the first axially extending end of the spring and a second depression for receiving a driver. A retainer is coupled to the spring tensioner and includes an opening that is penetrable by the driver when the driver is being received in the second depression. A method of adjusting the hinge includes compressing an end of the spring and twisting the same.

A vehicle interior component comprising a cover rotatably coupled to a base at a pivot joint is disclosed. The component may comprise a mechanism comprising a projection engaging a first surface when the cover is closed and engaging a ramp as the cover is rotated between closed and open positions. The pivot joint may comprise an axle to provide an axis of rotation. The pivot joint may comprise the projection on the axle. One of the projection and the ramp may slide along the other as the cover opens and/or closes. The mechanism may comprise a cam surface and a follower. The base and/or cover may flex at the pivot joint. The cover may comprise a door, bin or sunglass bin. The component may comprise a console, center stack/console, floor console, overhead console, instrument panel, door panel, etc.

A hinge arrangement having a first hinge part and having a second hinge part, which are connected to one another such that they can pivot, a first hinge pin being formed on the first hinge part, on which a first hinge sleeve is pivotably mounted, which forms a first sliding bearing with the first hinge pin, a dimensionally stable support part being connected to the first hinge sleeve. A first axial protrusion is formed on a first axial end face of the first hinge pin, which engages in an arcuate first groove of the first hinge sleeve, wherein a circumferential first side wall of the first groove together with the first axial end face and an inner side of an end cover fixed at the end of the first hinge sleeve delimits a working space which is filled with a damping fluid for damping a relative movement of the first axial protrusion with respect to the first groove.