An arrangement for actuating a component of a vehicle, wherein the component has a manually actuable actuating portion which is mounted on the vehicle so as to be movable between a closed position and an open position, wherein the arrangement comprises a control element and an electric drive which is connected to the control element via an electrical connection, wherein, when the actuating portion moves into its open position, the control element activates the electric drive, and therefore the electric drive actuates the component, wherein a centrifugal weight element is mounted movably on the arrangement, wherein the centrifugal weight element is moved from an inoperative position into an interruption position by a predetermined acceleration acting on the component and moving the actuating portion into the open position, wherein, in the interruption position, the centrifugal weight element interrupts the electrical connection between the control element and the electric drive.

An arrangement for actuating a component of a vehicle, wherein the component has a manually actuable actuating portion which is mounted on the vehicle so as to be movable between a closed position and an open position, wherein the arrangement comprises a control element and an electric drive which is connected to the control element via an electrical connection, wherein, when the actuating portion moves into its open position, the control element activates the electric drive, and therefore the electric drive actuates the component, wherein a centrifugal weight element is mounted movably on the arrangement, wherein the centrifugal weight element is moved from an inoperative position into an interruption position by a predetermined acceleration acting on the component and moving the actuating portion into the open position, wherein, in the interruption position, the centrifugal weight element interrupts the electrical connection between the control element and the electric drive.

A latching mechanism for securing a door mounted to a door frame comprises a striker pin mounted to the door frame; a pawl comprising a first arm for holding the striker pin captive when the pawl is in a latching position; and an actuator moveable relative to the door for opening or closing the door. The actuator is configured to pivot the pawl from the latching position to an open position according to movement of the actuator. The actuator comprises a biasing mechanism for urging the pawl to remain in the latching position until a resistance of the biasing mechanism is overcome by operation of the actuator.

A door opening and closing device includes a motor that outputs driving force causing a back door of a vehicle to be opened or closed, and a controller that controls the motor. The controller executes automatic opening and closing control for automatically opening or closing the back door by the motor, and if the controller detects a stop command causing the back door to be stopped when the automatic opening and closing control is being executed, the controller decreases a target velocity of the back door at a predetermined deceleration 1 until the back door stops.

A door opening and closing device includes a motor that outputs driving force causing a back door of a vehicle to be opened or closed, and a controller that controls the motor. The controller executes automatic opening and closing control for automatically opening or closing the back door by the motor, and if the controller detects a stop command causing the back door to be stopped when the automatic opening and closing control is being executed, the controller decreases a target velocity of the back door at a predetermined deceleration 1 until the back door stops.

A method of forming a motor vehicle door lock includes arranging a lever, providing an electric drive that pivots the lever to place the motor vehicle door lock in an open state and includes a motor and a wheel gear that is driven by the motor and has a circumferential face, forming at least one damping stop on the wheel gear that protrudes axially from the circumferential face of the wheel gear and extends from the circumferential face toward a stop plane that is spaced from and parallel to an actuating plane in which the wheel gear and the lever are rotatable, providing a housing stop surface that is engageable by the damping stop along the stop plane in a rotational direction of the wheel gear, and forming the damping stop and the wheel gear as a single piece using a two-component injection molding process.

A method of forming a motor vehicle door lock includes arranging a lever, providing an electric drive that pivots the lever to place the motor vehicle door lock in an open state and includes a motor and a wheel gear that is driven by the motor and has a circumferential face, forming at least one damping stop on the wheel gear that protrudes axially from the circumferential face of the wheel gear and extends from the circumferential face toward a stop plane that is spaced from and parallel to an actuating plane in which the wheel gear and the lever are rotatable, providing a housing stop surface that is engageable by the damping stop along the stop plane in a rotational direction of the wheel gear, and forming the damping stop and the wheel gear as a single piece using a two-component injection molding process.

A computer-implemented method selectively controls locks on a self-driving vehicle. One or more processors receive sensor readings from sensors on a self-driving vehicle (SDV) that describe a vehicle context assessment of the SDV and a passenger context assessment of a passenger in the SDV. One or more processors transmit a signal to a lock controller mechanism on the SDV to selectively lock and unlock a lock in the SDV based on the vehicle context assessment and the passenger context assessment.

The disclosure relates to a door handle for a vehicle door which can be installed as such from the door inner side on a handle recess of the outer skin of the vehicle door, wherein the handle unit has a handle module and an especially elongate handle part which is accommodated by the handle module, wherein the handle module has a mechanism for the motorized adjustment of the handle part, wherein the handle unit can be pre-installed on the door. The door handle unit can have a fastening slide which, with the handle unit pre-installed is connected to the handle module on one side and to the motor vehicle door on the other side, wherein for the final installation of the door handle unit an installation movement can be introduced into the fastening slide by a tool in an installation direction from a narrow side of the vehicle door.

A blocking mechanism for a handle arrangement comprising, at least one catch member arranged on a first shaft extending along a first axis, a blocking member arranged on a second shaft extending along a second axis, wherein the first axis and the second axis are substantially perpendicular to each other, wherein the blocking member is rotatable around the second axis between a blocking position, in which it is engageable with the catch member to prevent the catch member from rotation around the first axis, and an unblocked position in which rotation of the catch member is enabled.