A power actuator is configured for a hinged vehicle door with a generally vertical hinge axis. The power actuator includes a motor-gearbox assembly, a slip clutch, a friction brake, a threaded spindle with a motor-side bearing, and a spindle nut affixed to a spindle tube, configured to travel along the threaded spindle during a rotation of the spindle. The slip clutch and the friction brake are operatively positioned between the motor-gearbox assembly and the motor-side bearing. The power actuator does not need to include a biasing element acting on the spindle nut toward an extended position because such a biasing element is unnecessary where the hinge axis is generally parallel to the direction of gravity.

A mounting mechanism for mounting a moveable bearing part relative to a counter-bearing part, including the moveable bearing part with a plurality of bearing elements, the counter-bearing part with counter-bearing elements which are locally moveable relative to the remaining counter-bearing part from a starting position into a deformation position and vice versa, wherein the bearing elements a contact surface each lie on a counter-contact surface of the counter-bearing elements each for the force transmission from the bearing elements to the counter-bearing elements so that the bearing elements are in mechanical operative connection with the counter-bearing elements because of the contact between bearing elements and the counter-bearing elements and a movement of the bearing part with the bearing elements causes a local relative movement of those counter-bearing elements from the starting position into the deformation position, which counter-bearing elements are in mechanical operative connection with the bearing elements and the local relative movement of the counter-bearing elements from the starting position into the deformation position causes an elastic deformation of elastic components and following the termination of the mechanical operative connection an elastic recovery of the elastic component causes a return movement of these counter-bearing elements from the deformation position into the starting position.

A bifold door includes a first hinge and a second hinge configured to rotatably couple the bifold door to a doorframe. The bifold door includes a slider configured to slide within a track of the doorframe as the bifold door is opened and closed. At least one of the first hinge, the second hinge, and the slider includes a spherical bearing and a pin.

A novel electric strut is disclosed, including an electric strut casing in which a supporting pipe casing is sleeved. A supporting pipe is installed in the supporting pipe casing, a screw rod has a front end connected with the rear end of the supporting pipe, a front end of the supporting pipe is connected with a ball-and-socket joint, a special-shaped conduit is sleeved outside the screw rod and located in the electric strut casing, a spring is sleeved on surfaces of the supporting pipe and the special-shaped conduit, an adjustable damper is mounted at a tail portion of the screw rod, a motor is mounted in the electric strut casing at a rear end of the screw rod and connected with the screw rod, a rear end of the electric strut casing is sealed through an integrated motor joint integrally fixed to a tail portion of the motor.

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 vehicle is disclosed that includes: a vehicle body defining a door frame; a vehicle door that is movably connected to the vehicle body; and an actuation system. The vehicle door includes: an inner panel that is secured to the door frame; an outer panel that is secured to the inner panel; a reinforcement that is secured between the inner panel and the outer panel; and a support bracket that is secured to the reinforcement and which includes a body with a generally planar configuration. In contrast to the door frame, which includes a metallic material, the inner panel and the outer panel each include a non-metallic material. The actuation system is connected to the vehicle door to facilitate opening and closure thereof and extends through the reinforcement and the support bracket.

A sliding door for a vehicle, which is applicable to a door portion to which a straight rail is difficult to be applied, may include a door rail mounted in a door which is configured to be closed to a vehicle body in a vertical direction of the vehicle; a vehicle body rail mounted in the vehicle body to which the door is configured to be closed in a longitudinal direction of the vehicle; and a moving arm having one end portion which is movably coupled along the door rail in the vertical direction to open or close the door in a transverse direction of the vehicle body during moving, and the other end portion which is movably coupled along the vehicle body rail in a longitudinal direction to allow the door to be slidingly moved in a longitudinal direction of the vehicle body during moving.

A novel electric strut is disclosed, including an electric strut casing in which a supporting pipe casing is sleeved. A supporting pipe is installed in the supporting pipe casing, a screw rod has a front end connected with the rear end of the supporting pipe, a front end of the supporting pipe is connected with a ball-and-socket joint, a special-shaped conduit is sleeved outside the screw rod and located in the electric strut casing, a spring is sleeved on surfaces of the supporting pipe and the special-shaped conduit, an adjustable damper is mounted at a tail portion of the screw rod, a motor is mounted in the electric strut casing at a rear end of the screw rod and connected with the screw rod, a rear end of the electric strut casing is sealed through an integrated motor joint integrally fixed to a tail portion of the motor.

A hinge device includes a fixed element with a plate that can be anchored to a stationary supporting structure, and a movable element with a hinge body that can be anchored to a closing element. Adjustment elements for the position of the hinge body and the plate include a pair of opposite longitudinal projections integrally joined to a pin that can be inserted into a slot defined in the plate. A pair of adjustment grub screws at the slot promotes the joined rotation of the longitudinal projections and the pin. The hinge body further includes a seat, for the mutual movement of the pin and of the hinge body, with a damping system interacting by friction with the pin to differentially dampen the rotation of the pin and the hinge body. The hinge device may be fixed to the closing element with a pair of clamping elements.

A linear drive assembly for use with a vehicle including a vehicle body and a closure. The linear drive assembly may include a stationary portion and a translating portion. The translating portion may include a first end portion and a second end portion. The first end portion may be configured to pivot and translate about a vehicle attachment member. The second end portion may be configured to pivot and translate about a closure attachment member and be coupled to a cable operatively coupled to an actuator. When the second end translates about the closure attachment member, the cable may be pulled to actuate the actuator.