An example retention assembly has a motor assembly and a self-locking worm drive coupled thereto. A cam is fixed to a worm gear of the worm drive. The retention assembly has an actuation shaft including a follower. The actuation shaft is displaceable over a displacement range via rotation of the cam. The retention assembly has a securement member with a securement member follower, the securement member coupled to a portion of the actuator shaft. The retention assembly has a housing cam included as part of the retention assembly housing and against which the securement member follower is biased. The securement member are in an open state when the actuation shaft is in a first position. The securement member swings outward to a retaining position as the actuation shaft is moved to a second position.

A method for positioning a movably arranged panel comprises the steps of determining a panel braking distance based on a physical property of the moveable panel and a physical property of at least one of a drive assembly and a drive motor. The panel braking distance corresponds to a distance covered by the moveable panel in a period of time starting from a decision to switch off the drive motor until stand-still of the moveable panel. The drive motor is switched off when an expected stop position is within a predetermined range around a desired stop position.

A system for adjusting a vehicle door relative to a vehicle body including an electromotive adjusting device, a control device configured to control the adjusting device and receive an operating command and control the adjusting device based on the receipt of the operating command for adjusting the vehicle door. A sensor device for detecting an object, the control device configured for collision protection monitoring, in order to recognize an object detected by the sensor device in a recognition area as a collision obstacle. The control device is configured to limit an adjustment of the vehicle door on recognition of a collision obstacle to an adjustment path dependent on the location of the collision obstacle, in that the control device determines a projection of the collision obstacle and defines the adjustment path in dependence on the projection.

An automated window mechanism having a motor and a force measuring component. A movement path is defined for the window movement relative to a window frame. The force-measuring component measures the force required to move the window along the movement path. The force required is stored as a force map and is a function of position along the path. Deviations from the force map cause the motor to take measures which may include stopping the motor.

An automated window mechanism has a motor that moves a sliding window along a frame to open and close the window. A position sensor, such as an encoder, monitors a position of the sliding window relative to the frame. The automated window mechanism can receive an instruction to calibrate to the frame by disengaging the motor while the position sensor remains engaged. The user then manually moves the sliding window between two end points and then reengages the motor. The position sensor records the end points, and then the automated window mechanism uses the end points as limits of movement for the sliding window.

Switch arrangements for powered doors are disclosed. A door includes a panel and a track to guide movement of the panel between an open position and a closed position. The track defines a track slot extending along an exterior length of the track. The door further includes a sensor target to be carried by the panel within the track. The door also includes a sensor selectively attachable to an exterior of the track via the track slot. The sensor to detect the sensor target when the panel is in a first position. The track defines an aperture to be positioned between the sensor target and the sensor when the panel is in the first position.

A vehicle having a powered tailgate is provided. The vehicle includes a body, a powered tailgate pivotally connected to the body, an actuator operatively coupled to the tailgate to move the tailgate between open and closed positions, and sensors configured to sense an object in a swing path of the tailgate. The vehicle also includes a controller for processing signals output from the sensor and identifying and classifying the object, and controlling the actuator to move the tailgate between the open and closed positions based on the classified object.

The present invention relates to a method for determining the door position in a door system which has a rail for guiding a movable door element and a sensor element (10) for detecting a free movement path of the door element (50), the method comprising the steps of: detecting the state of the at least one sensor element (10), which can either be free of the door element (50) or covered by the door element (50), such that, in the event of a change in the state of the sensor element (10), the arrangement position of the sensor element (10) corresponds to the door element (50), and a door control lines the door position with the aid of this information.

A retention assembly may comprise a motor assembly and a self-locking worm drive coupled thereto. A cam may be fixed to a worm gear of the worm drive. The retention assembly may further comprise an actuation shaft including a follower. The actuation shaft may be displaceable over a displacement range via rotation of the cam. The retention assembly may further comprise a securement member with a securement member follower, the securement member coupled to a portion of the actuator shaft. The retention assembly may further comprise a housing cam included as part of the retention assembly housing and against which the securement member follower may be biased. The securement member may be in an open state when the actuation shaft is in a first position. The securement member may swing outward to a retaining position as the actuation shaft is moved to a second position.

A vehicular slider window assembly includes a frame having upper and lower rails. A fixed window has an opening and the rails are attached at the fixed window. A movable window is movable between a closed position and an opened position. A carrier disposed at a lower edge of the movable window moves with the movable window between the opened and closed positions. A sensing system determines when the movable window is in the closed position and includes a switch assembly that is actuated when the movable window is in the closed position. The switch assembly includes a switch device within a housing. A portion of the housing is an end stop configured to limit movement of the carrier when the movable window is in the closed position. The switch device includes a contact and, when the movable window is in the closed position, the contact actuates the switch device.