The present invention relates to a method for performing an alternating functional movement for producing a secondary function with a hand grip (30) of an electric door handle (10) of a vehicle door (100), comprising the following steps: receiving a function request (FA) for activating the secondary function, performing the alternating functional movement, wherein the hand grip (30) is moved back and forth multiple times between at least two different functional positions (FUP).

Various disclosed embodiments include illustrative devices, systems, and methods. In an illustrative embodiment, a device includes a latch motor configured to generate a power value, a position sensor configured to generate a striker pin position signal, a processor configured to communicate with the latch motor and the position sensor, and a memory configured to store computer-executable instructions. The computer-executable instructions are configured to cause the processor to determine the striker pin position in response to the generated striker pin position signal, detect an obstruction in response to the striker pin position and the power value, and perform an anti-pinch function in response to the detected obstruction.

Various disclosed embodiments include illustrative devices, systems, and methods. In an illustrative embodiment, a device includes a latch motor configured to generate a power value, a position sensor configured to generate a striker pin position signal, a processor configured to communicate with the latch motor and the position sensor, and a memory configured to store computer-executable instructions. The computer-executable instructions are configured to cause the processor to determine the striker pin position in response to the generated striker pin position signal, detect an obstruction in response to the striker pin position and the power value, and perform an anti-pinch function in response to the detected obstruction.

An actuating apparatus (1) for opening and closing a cover in or on a vehicle, having a locking and/or arresting kinematics that cooperate with the cover. The actuating apparatus includes a housing (2) and an actuating part (3) received in the housing (2) and movably supported relative to the housing (2). The actuating part (3) cooperates with the cover in such a way that the actuating part (3) performs a movement relative to the housing (2) between a first position and a second position upon a movement of the cover between a closed position and an open position, wherein, in the first position, the actuating part (3) is in a locked state. The actuating apparatus (1) further includes an elastically deformable spring system (4) associated with the actuating part (3), in particular having a progressive spring characteristic.

An actuating apparatus (1) for opening and closing a cover in or on a vehicle, having a locking and/or arresting kinematics that cooperate with the cover. The actuating apparatus includes a housing (2) and an actuating part (3) received in the housing (2) and movably supported relative to the housing (2). The actuating part (3) cooperates with the cover in such a way that the actuating part (3) performs a movement relative to the housing (2) between a first position and a second position upon a movement of the cover between a closed position and an open position, wherein, in the first position, the actuating part (3) is in a locked state. The actuating apparatus (1) further includes an elastically deformable spring system (4) associated with the actuating part (3), in particular having a progressive spring characteristic.

A motor vehicle lock, in particular a motor vehicle bonnet lock. Same is designed with a locking mechanism substantially formed by a rotatory latch and a pawl for cooperating with a locking bolt. In addition, a catch hook is provided for independent and additional securing of a locking bolt. The locking mechanism is provided with a locking mechanism drive and the catch hook is provided with a catch hook drive. According to the invention, the locking mechanism drive and the catch hook drive are optionally actuated by motor vehicle signals.

A motor vehicle lock, in particular a motor vehicle bonnet lock. Same is designed with a locking mechanism substantially formed by a rotatory latch and a pawl for cooperating with a locking bolt. In addition, a catch hook is provided for independent and additional securing of a locking bolt. The locking mechanism is provided with a locking mechanism drive and the catch hook is provided with a catch hook drive. According to the invention, the locking mechanism drive and the catch hook drive are optionally actuated by motor vehicle signals.

An electronic latch includes a housing, a motor having an output shaft, a gear arrangement comprising at least one gear that is configured to be driven by the output shaft of the motor, a rack coupled to the gear arrangement and configured to move in response to motion of the gear arrangement, and at least one pawl or pawl connector that is connected to the rack. Motion of the rack causes or permits the at least one pawl or pawl connector to move between (i) a withdrawn position and (ii) a deployed position in which the pawl or pawl connector is extended further from the housing as compared with the withdrawn position.

An electronic latch includes a housing, a motor having an output shaft, a gear arrangement comprising at least one gear that is configured to be driven by the output shaft of the motor, a rack coupled to the gear arrangement and configured to move in response to motion of the gear arrangement, and at least one pawl or pawl connector that is connected to the rack. Motion of the rack causes or permits the at least one pawl or pawl connector to move between (i) a withdrawn position and (ii) a deployed position in which the pawl or pawl connector is extended further from the housing as compared with the withdrawn position.

A closure latch assembly for a dual-door closure system in a motor vehicle includes an anti-chucking mechanism and cinching mechanism in cooperation with a latch mechanism. The anti-chucking mechanism cooperates with the latch mechanism to provide an anti-chucking feature, while the cinching mechanism cooperates with the latch mechanism to provide a cinching feature, wherein an anti-chucking cancellation mechanism prevents interference of the anti-chucking mechanism with the cinching mechanism.