A damping hinge for damping a hinge rotational movement about a hinge rotational axis comprises a housing extending along the hinge rotational axis, the housing comprising a first housing part, a second hosing part, which is rotatable relative to the first housing part about the hinge rotational axis, and a piston arranged in the working chamber such as to be displaceable along the hinge rotational axis, a piston rod for displacing the piston, and an adjustment device for adjusting a damping effect of the damping hinge, the adjustment device having a plurality of discrete adjustment stages each providing a different damping effect.

The present invention relates to a rotary drive (100) comprising: an output shaft (330); a motor (20), acting on the output shaft (330) via a downstream gear mechanism (30); an energy-store module with a linear line of action and with transmission elements (32, 326) to apply pressure circumferentially to an eccentric cam disk (331) arranged on the output shaft (330) for conjoint rotation therewith; and an intermediate shaft (320), being offset in relation said line of action and being provided between the motor (20) and the output shaft (330). The transmission elements (32, 326) comprise a roller lever (32), having a cam-follower roller (326) spaced apart from the intermediate shaft (320), wherein the cam-follower roller (326), pressed circumferentially against the eccentric cam disk (331), interacts with the output shaft (330). The energy-store module is arranged on the motor side in relation to the intermediate shaft (320).

A device for moving a leaf door, including an electric motor (30), a reduction gear box (40) and a crown wheel-pinion transmission system (50) is provided. The electric motor (30) is kinematically connected to the reduction gear box (40), which in turn is kinematically connected to the crown wheel-pinion transmission system (50). The reduction gear box (40) is reversible.

A collection tank for a mobile vacuum excavator includes a front with a closed end, a rear with an open end, a door configured to be closed over the open end, and a linkage assembly having a first end attached to the door and a second end attached to the body. A first pivotal movement drives the first end and second end away from each other, and a second pivotal movement moves the first end and the second end toward each other. An actuator is attached to the first arm and to the second arm so that actuation of the actuator in a first direction drives the first pivotal movement and actuation of the actuator in a second direction drives the second arm the second pivotal movement.

The present disclosure relates to a vehicle carrier box having a lid and a base. The carrier box has first and second longitudinal sides and first and second transverse sides. The lid and the base are connected by a first and a second lid lifter, the first lid lifter being arranged at the first transverse side and the second lid lifter being arranged at the second transverse side. Moreover, the first lid lifter includes a first pivotable link arm connecting the lid to the base, and the second lid lifter comprises a second pivotable link arm connecting the lid to the base, the first and second lid lifters furthermore including an equalization arrangement for equalization of the forces exerted by the first and second lid lifters on the lid upon opening of the lid.

A hinge assembly includes a tailgate bracket securable to a vehicular tailgate, a support bracket securable to a vehicular bed, a torque shaft, and a crank. The tailgate bracket includes a socket. The support bracket includes a support. The torque shaft is supported by the support for axial rotation. The torque shaft includes a tailgate-side head and a crank-side head. The tailgate-side head and the socket are configured to make a head-and-socket connection with one another. The crank-side head includes an external profile. The crank includes a shaft-side base and an actuator-side base, a load arm extending therebetween, and at least one of a dogleg along the shaft-side base, the load arm and the actuator-side base, and an embossed rib extending along the load arm. The shaft-side base includes an internal profile. The external profile and the internal profile are configured to make a shaft-and-hub connection with one another.

A pivot device includes first and second shafts. A first torque component unit is coupled to an end of the first shaft. A second torque component unit is coupled to an end of the second shaft. A positioning unit is coupled to another ends of the first and second shafts and includes a first positioning board, a second positioning board, and a positioning block. A first transmission unit is disposed between the first and second positioning boards. A second transmission unit is disposed between the second positioning board and the positioning block. Each of the first and second transmission units includes a wheel mounted on the first shaft, a cam mounted on the second shaft, and a sliding block movable between the wheel and the cam, with each sliding block selectively stopping the wheel or the cam to prevent rotation of the first or second shaft, providing multi-stage switching.

A drive system includes a first rotary component configured to be rotated by an actuator, a second rotary component selectively coupled to the first component, and a third rotary component selectively coupled to the first component. A coupling arrangement is configured to, in a first range of angular positions of the first component, couple the first and second components and decouple the first and third components and configured to, in a second range of angular positions of the first component that does not overlap with the first range, couple the first and third components and decouple the first and second components.

A drive carriage for a door, in particular garage door, comprising a body which is linearly shiftably mountable in a rail of a door drive, and a door driver pivotally mounted on the body, wherein a carriage driver which is shiftable relative to the body and is connectable with a power transmission means of the door drive, a latch mounted in the body via a flexible element and is pushable into a recess of the carriage driver by the flexible element, and a latching slide which urges the latch against the flexible element into an unlocking position in which the latch is not pushed into the recess by the flexible element, and which in a drive position permits pushing of the latch into the recess of the carriage driver by the flexible element in order to take a locking position in which the carriage driver is coupled with the body.

A multi-axis hinge mechanism for a vehicle door. The multi-axis hinge mechanism moves the vehicle door laterally and vertically by means of multiple axial rotations. An actuator pivots the door hinges attaching the door to the vehicle to move the door away from the vehicle while a set of gears translates the motion of the actuator into a vertical rotation of the door.