A control curve arrangement including a base member having a first control curve, a switch element separate from the base member and having a second control curve, a pressure portion to be displaceably supported along the first control curve and the second control curve, and a spring device for applying a force to the pressure portion. The pressure portion, in the first operating position and in a first movement direction, is displaceable along the second control curve of the switch element. The pressure portion, in the second operating position and in a second movement direction opposite the first movement direction, is displaceable along the first control curve of the base member. A timing element is operative between the base member and the switch element, and the switch element can be transferred from the second operating position into the first operating position by the timing element in a time-delayed manner.

A snap hinge with damped closing includes a first articulated quadrilateral defined by a coupling plate associated with a fixed element, a first lever and a third lever, which are articulated to the coupling plate, and a second lever interposed between the preceding levers and is articulated thereto. A second articulated quadrilateral has a fixing plate associated with a movable element with which are associated and articulated respective ends of the second lever and of a fourth lever, the opposite end of which is associated and articulated with the first lever. The plates have various arrangements with respect to each other, rotating about a substantially horizontal rotation axis as the hinge moves between open and closed configurations. The hinge has at least one damping element that acts during closing and is interposed directly between the coupling plate and the second lever.

A snap hinge with damped closing includes a first articulated quadrilateral defined by a coupling plate associated with a fixed element, a first lever and a third lever, which are articulated to the coupling plate, and a second lever interposed between the preceding levers and is articulated thereto. A second articulated quadrilateral has a fixing plate associated with a movable element with which are associated and articulated respective ends of the second lever and of a fourth lever, the opposite end of which is associated and articulated with the first lever. The plates have various arrangements with respect to each other, rotating about a substantially horizontal rotation axis as the hinge moves between open and closed configurations. The hinge has at least one damping element that acts during closing and is interposed directly between the coupling plate and the second lever.

A door system to provide a check function and door closing assistance in a vehicle is provided. The door system comprises a door hinge, a clip assembly attached to the door hinge and a door closing assist device disposed adjacent to the door hinge. The door hinge includes a body leaf fixed to a body of the vehicle, and a door leaf attached to a door of the vehicle and configured to be movable relative to the body leaf and the door leaf includes an engagement member. The clip assembly includes a check member having a distal end and a base end and the check member includes at least a first check portion adjacent to the distal end and a second check portion adjacent to the base end.

A door system to provide a check function and door closing assistance in a vehicle is provided. The door system comprises a door hinge, a clip assembly attached to the door hinge and a door closing assist device disposed adjacent to the door hinge. The door hinge includes a body leaf fixed to a body of the vehicle, and a door leaf attached to a door of the vehicle and configured to be movable relative to the body leaf and the door leaf includes an engagement member. The clip assembly includes a check member having a distal end and a base end and the check member includes at least a first check portion adjacent to the distal end and a second check portion adjacent to the base end.

The invention relates to a furniture hinge with a fastening portion and a hinge part connected thereto via a multi-axis articulated connection, wherein a spring preloads the hinge part directly or indirectly, at least in a subregion of the adjustment path of the hinge part, with respect to the fastening portion, and wherein the spring is mounted or can be mounted under tension between two spring bearings. In order, in such a furniture hinge, to achieve improved movement control and to make the required manual force for hinge opening or closing more even, provision is made according to the invention for the spring (76) to be adjusted in the region of its two spring bearings (74, 84.4) during the adjustment of the hinge part (20) from the opening into the closing position and/or during the adjustment from the closing into the opening position.

The invention relates to a furniture hinge with a fastening portion and a hinge part connected thereto via a multi-axis articulated connection, wherein a spring preloads the hinge part directly or indirectly, at least in a subregion of the adjustment path of the hinge part, with respect to the fastening portion, and wherein the spring is mounted or can be mounted under tension between two spring bearings. In order, in such a furniture hinge, to achieve improved movement control and to make the required manual force for hinge opening or closing more even, provision is made according to the invention for the spring (76) to be adjusted in the region of its two spring bearings (74, 84.4) during the adjustment of the hinge part (20) from the opening into the closing position and/or during the adjustment from the closing into the opening position.

This invention teaches a motion control system for self-closing or self-opening pivot hung doors, gates and windows being disposed within a hollow chamber of a pivot hung door, gate or window connected to the door surrounding structure only at the door pivots. The system stores elastic strain energy as the door is displaced from its nominal position and controllably releases that energy to self restore the system to its nominal position. The system consists of serially connected torsion means and dampening means wherein torsion means includes a torsion bar and a torque modulator, and dampening means includes a housing and a rotor operatively rotational in housing.

This invention teaches a motion control system for self-closing or self-opening pivot hung doors, gates and windows being disposed within a hollow chamber of a pivot hung door, gate or window connected to the door surrounding structure only at the door pivots. The system stores elastic strain energy as the door is displaced from its nominal position and controllably releases that energy to self restore the system to its nominal position. The system consists of serially connected torsion means and dampening means wherein torsion means includes a torsion bar and a torque modulator, and dampening means includes a housing and a rotor operatively rotational in housing.

Provided is a damper device capable of increasing torque of a coil spring without increasing an outer diameter of a case. The damper device includes the case (2), a shaft (3) that is relatively rotatable with respect to the case (2), fluid filled in a damper chamber (5) formed between the case (2) and the shaft (3), a bearing member (4) that forms a partition wall (5a) that closes one end of the damper chamber (5) in an axial direction and is separate from the shaft (3), and a coil spring (9) having one end connected to a side of the case (2) and the other end connected to the shaft (3) or the bearing member (4) to apply torque to the shaft (3) with respect to the case (2). The bearing member (4) is arranged between a winding portion (9a) of the coil spring (9) and the damper chamber.