A brake module for a drive system, in particular for doors, including at least one thrust washer and at least one brake disc, wherein the at least one thrust washer and the at least one brake disc each have at least one friction surface rubbing against each other during braking operation is provided. The embodiments also relate to a drive system, in particular for doors, including such a brake module. The embodiments further relate to a production method for a brake module of the abovementioned type. Known brake modules have a high variation in the braking force on the one hand in the course of their service life and on the other hand as a function of the temperature.

A brake module for a drive system, in particular for doors, including at least one thrust washer and at least one brake disc, wherein the at least one thrust washer and the at least one brake disc each have at least one friction surface rubbing against each other during braking operation is provided. The embodiments also relate to a drive system, in particular for doors, including such a brake module. The embodiments further relate to a production method for a brake module of the abovementioned type. Known brake modules have a high variation in the braking force on the one hand in the course of their service life and on the other hand as a function of the temperature.

The present invention relates to a damping system for closets with sliding doors (2) comprising: a damping device (1) and an actuating element (3), wherein the damping device (1) can be fitted in the upper guide (2a) of a door (2) through deformation of flanges (7) of respective supporting parts (5, 6) of said damping device (1) to allow the damping device (1) to be secured in the closet itself and to allow said damping device (1) to slide driven by the actuating element (3) during the relative movement between both; or the element actuating element (3) can be fitted in the upper guide (2a) of the door (2) through deformation of flanges (3c) of said actuating element (3), which allows it to be secured and to slide driven by the damping device (1) during the relative movement between both.

A door restraint system includes a retractor, a retractor brake, and a retractor-deployed stay for selectively restraining opening of a vehicle door. The retractor-deployed stay is configured to spool to and from the retractor as vehicle door is translated between a closed configuration and one or more opened configurations. Door check systems including the door restraint system are described.

A door restraint system includes a retractor, a retractor brake, and a retractor-deployed stay for selectively restraining opening of a vehicle door. The retractor-deployed stay is configured to spool to and from the retractor as vehicle door is translated between a closed configuration and one or more opened configurations. Door check systems including the door restraint system are described.

A sliding cover assembly for a vehicle, in particular a waterborne vehicle, the sliding cover assembly having a cover element displaceable between a closed position, in which a roof opening is closed, and an open position, in which the roof opening is at least partially open, and a displacement mechanism for the cover element, the displacement mechanism having a slider on either side of a longitudinal center plane of the cover element, each slider being guided in a sliding manner in a respective guide rail attached to the roof, and a raising lever connected to the cover element being hinged to each slider. The sliders each have a slider body and a control element which is mounted on the slider body in such a manner that it can rotate about an axis of rotation and to which the respective raising lever is hinged eccentrically relative to the axis of rotation.

A door system with a deceleration mechanism may be adapted to control an opening of a door module that separates compartments of an aircraft and includes a door panel and a door frame. During the opening of the door module, the door panel performs a rotational movement 389 above a floor structure of the aircraft. The deceleration mechanism is operable in a normal operation mode and a deceleration mode and comprises a hinge, a wedge-shaped component that is rotatably attached to the hinge, and an activation device. The activation device is coupled to the wedge-shaped component and switches the deceleration mechanism from operating in the normal operation mode to operating in the deceleration mode when a difference in pressure between the compartments exceeds a predetermined threshold.

A door system with a deceleration mechanism may be adapted to control an opening of a door module that separates compartments of an aircraft and includes a door panel and a door frame. During the opening of the door module, the door panel performs a rotational movement 389 above a floor structure of the aircraft. The deceleration mechanism is operable in a normal operation mode and a deceleration mode and comprises a hinge, a wedge-shaped component that is rotatably attached to the hinge, and an activation device. The activation device is coupled to the wedge-shaped component and switches the deceleration mechanism from operating in the normal operation mode to operating in the deceleration mode when a difference in pressure between the compartments exceeds a predetermined threshold.

To provide a power slide window in which, irrespective of the assembly accuracy, the step between the slide panel and the window glass pane in the closed state can be reduced, at least one pin drive groove (30) formed in a slider (20) to engage at least one pin (16) extends in a direction crossing a panel surface (2b) of the window glass pane (2) and inclined to the direction of extension of a groove main portion (26a) of a pin guide groove (26). A stopper (23) configured to limit the movement of the slider (20) toward the closed position is provided in a slider guide groove (27), and a position adjustment structure (32) capable of adjusting the position of the stopper (23) in the direction of extension of the slider guide groove (27) is provided. By adjusting the position of the stopper (23) by the position adjustment structure (32), it is possible to limit the movement of the slider (20) toward the closed position at a position where the slide panel (3) aligns with the window glass pane (2).

A damper providing varying damping force is provided. The damper may include a housing and a rotary member rotatably received the housing. The rotary member may rotate within the housing between defined end points of travel to define an angular range of travel of the rotary member. An outermost surface of the rotary member may be spaced inwardly from an inner surface of the housing defined between the end points of travel to define a gap between the outermost surface of the rotary member and the inner surface of the housing throughout the angular range of travel. The gap may vary in dimension depending on a rotational position of the rotary member to provide varying damping rates within the angular range of travel of the rotary member.