A system for managing opening and closing a pocket door includes a spindle, an actuator, and brackets. The spindle extends along a longitudinal axis between first and second ends, and is configured to be coupled to the pocket door. The actuator is coupled to the spindle and is configured to cause the spindle to move axially along the longitudinal axis. The brackets are connected to the spindle at each end and are constrained from longitudinal motion relative to the spindle. The brackets are configured to affix the spindle to the pocket door. A bushing system couples each bracket to the spindle and is configured to dampen impact between the spindle and the brackets. For example, the bushing system may include lobed elements, made of a rubber material, that engage each other to transmit azimuthal forces. In some embodiments, another actuator is included to improve cycle like and redundancy.

A system for managing opening and closing a pocket door includes a spindle, an actuator, and brackets. The spindle extends along a longitudinal axis between first and second ends, and is configured to be coupled to the pocket door. The actuator is coupled to the spindle and is configured to cause the spindle to move axially along the longitudinal axis. The brackets are connected to the spindle at each end and are constrained from longitudinal motion relative to the spindle. The brackets are configured to affix the spindle to the pocket door. A bushing system couples each bracket to the spindle and is configured to dampen impact between the spindle and the brackets. For example, the bushing system may include lobed elements, made of a rubber material, that engage each other to transmit azimuthal forces. In some embodiments, another actuator is included to improve cycle like and redundancy.

A stabilizer comprises housing, a lever, and a plate spring. The lever has a shaft, a main body extending radially from the shaft, an elongated portion extending at an angle from the main body, and a cam portion extending from the shaft in a substantially opposite direction to the main body. A tip of the elongated portion extends outward through an opening in the housing. The plate spring has a plane portion fixed to the housing, and a curved portion pushed by the lever cam portion. When the stabilizer is attached to a fixed member (case). The lever tip portion extends from the opening of the housing and abuts to the surface of a slide member (holder). The lever tip exerts a constant load to the surface of the slide member, even if the distance between the fixed member and the slide member changes.

A stabilizer comprises housing, a lever, and a plate spring. The lever has a shaft, a main body extending radially from the shaft, an elongated portion extending at an angle from the main body, and a cam portion extending from the shaft in a substantially opposite direction to the main body. A tip of the elongated portion extends outward through an opening in the housing. The plate spring has a plane portion fixed to the housing, and a curved portion pushed by the lever cam portion. When the stabilizer is attached to a fixed member (case). The lever tip portion extends from the opening of the housing and abuts to the surface of a slide member (holder). The lever tip exerts a constant load to the surface of the slide member, even if the distance between the fixed member and the slide member changes.

A run-up type swing-out door retainer structure includes in a door retainer for a vehicle, a body retainer mounted at a body of the vehicle; and a door retainer mounted at a door of the vehicle to abut the body retainer. A depression formed at the end portion of the body retainer and a protrusion formed at the end portion of the door retainer are divided into an inclined section and a round section to abut each other.

A system for managing opening and closing a pocket door includes a spindle, an actuator, and brackets. The spindle extends along a longitudinal axis between first and second ends, and is configured to be coupled to the pocket door. The actuator is coupled to the spindle and is configured to cause the spindle to move axially along the longitudinal axis. The brackets are connected to the spindle at each end and are constrained from longitudinal motion relative to the spindle. The brackets are configured to affix the spindle to the pocket door. A bushing system couples each bracket to the spindle and is configured to dampen impact between the spindle and the brackets. For example, the bushing system may include lobed elements, made of a rubber material, that engage each other to transmit azimuthal forces. In some embodiments, another actuator is included to improve cycle like and redundancy.

A carrier for a vehicle window lifter configured to be connected to a window pane and adjusted by the vehicle window lifter. The carrier including a guide for a cable of the vehicle window lifter. The guide forms a guide surface and the cable lies along the guide surface when the vehicle window lifter is properly mounted. The guide surface defines at least one cutout configured to receive discharged particles from the guide surface of the carrier.

A carrier for a vehicle window lifter configured to be connected to a window pane and adjusted by the vehicle window lifter. The carrier including a guide for a cable of the vehicle window lifter. The guide forms a guide surface and the cable lies along the guide surface when the vehicle window lifter is properly mounted. The guide surface defines at least one cutout configured to receive discharged particles from the guide surface of the carrier.

A composite vibration-damping body including a first elastic body and a second elastic body overlapped with each other, wherein the first elastic body is formed of a material having higher attenuation than that of the second elastic body, the first elastic body includes a recessed part opening onto a surface of the first elastic body, and the recessed part forms a gap, and a strain concentration part configured to be subjected to an increased strain during load input is set to a wall of the gap of the of the first elastic body.

A buffer with a self-adjustable stopper including a buffer head, a base having a guide profile, and a central body having a groove cooperating with the profile, the central body being mounted on the base by a translation movement, in a first direction (X) in a plane of movement, the central body at least partially receiving the buffer head. The buffer head includes a locking member inserted into the central body in a second direction (Y) and blocks in a third direction (Z) the buffer head in the central body and blocking in the first direction the central body on the base. The locking element and the buffer head include, respectively, at least one thrust ramp and at least one housing adapted to receive said at least one ramp adapted to, when the locking member is translationally actuated, produce a camming effect and to allow raising of the buffer head.