A seatback for a vehicle comprises: a lid having a closed position preventing access to a storage area and an open position allowing access to the storage area; and a locking element having an engaged position that prevents the lid from transitioning from the closed position to the open position and a disengaged position that does not prevent the lid from transitioning from the closed position to the open position; wherein, the locking element transitions from the disengaged position to the engaged position via the force of gravity when the seatback transitions from a fold down position to an upright position, and transitions from the engaged position to the disengaged position when the seatback transitions from the upright position to fold down position. The lid can pivot upward from a rearward portion of the seatback in the fold down position, as the lid transitions to the open position.

The application is directed to a motor vehicle lock for a door arrangement, wherein the catch may be brought into holding engagement with a lock striker, wherein the pawl may be brought into an engagement position, wherein the pawl may be deflected into a release position, wherein an actuation lever is provided for deflecting the pawl, wherein a switchable lock arrangement is in an actuation drive train between the actuation lever and the pawl, wherein the switchable lock arrangement may be brought into a functional state, wherein, with the switchable lock arrangement being in the unlocked state, an actuation movement of the actuation lever deflects the pawl and a drive train component of the actuation drive train is decoupled from the pawl for letting the actuation movement of the actuation lever run free or a drive train component is blocked for blocking an actuation movement of the actuation lever.

The invention relates to a door handle (30) for a vehicle door (40) of a vehicle with a tension means (10), wherein the tension means (30) can in particular be mechanically operatively connected with a detachable cover element (31), and a container element (20), wherein the container element (20) is situated inside of the door handle (30), and designed to accept a functional element (33) of the door handle (30).

An opening control device including a base, a handle lever configured to be pivotally mounted on the base about a handle axis, a kinematic chain configured to transmit a movement from the handle lever toward a latch of the opening control device to unlock the door leaf, the chain including at least one active branch of the handle lever, an inertial safety member including a main body forming an inertial mass and a blocking element linked to the body and configured to prevent by wedging the transmission of movement by the kinematic chain. According to the invention, the inertial member is kinematically coupled to the secondary branch of the handle lever and extends on the side of the secondary branch with respect to the handle axis opposite to a gripping main branch.

An inertial blocking member subassembly of a handle assembly for a vehicle door includes a blocking member pivotally rotatable about an axis of rotation, and the blocking member has a center of gravity offset from the axis of rotation. The blocking member is responsive to an acceleration force acting thereon to rotate about the axis of rotation from an at rest position in which the blocking member does not prevent unlatching of the vehicle door, to an engagement position in which the blocking member prevents unlatching of the vehicle door. In the engagement position, the center of mass is positioned between the axis of rotation and a vector of the acceleration force acting in a direction toward the center of mass and the axis of rotation, and the center of mass, the axis of rotation and the vector of the acceleration force are approximately in line with one another.

A door latch assembly includes a handle bezel, a rotatable handle coupled to the handle bezel, and a bezel cap. The handle bezel includes a main body portion and a rib extending from the main body portion. The rotatable handle includes a handle lever extending through the main body portion of the handle bezel, wherein the handle lever extends alongside the rib of the handle bezel. The bezel cap is positioned in a first position at an end of the rib so as to provide clearance for the handle lever of the rotatable handle to rotate thereby. The bezel cap is configured to move along the rib toward the main body portion of the handle bezel to interfere with a rotation of the handle lever during a side impact condition.

The invention relates to a motor vehicle door lock with a locking mechanism comprising a rotary latch and a pawl, a trigger lever which acts on the pawl, a blocking lever which acts on the trigger lever, a first actuating lever which acts on the trigger lever and which acts on the blocking lever via a first leg spring, and a second actuating lever which acts on the trigger lever and which acts on the blocking lever via a second leg spring.

The disclosure relates to a motor vehicle lock, wherein the motor vehicle lock comprises an actuating lever which is pivotable about an actuating lever axis. The motor vehicle lock has an adjustable crash element which is adjustable into a released position in which the locking pawl is disengageable by an actuation of the actuating lever and into a crash position in which the crash element blocks the actuating lever in a blocked position or decouples the actuating lever from the locking pawl. It is proposed that the crash element is coupled to the actuating lever such that, with an actuation of the actuating lever and depending on the actuating lever speed, the crash element reaches the released position from a central position either in a first adjusting direction or the crash element reaches the crash position in a second adjusting direction and is latched in the crash position.

A vehicle door includes a door structure and a movable door handle that is connected to a latch mechanism by a cable. A rotatably biased stop member is connected to the cable. The vehicle door further includes a housing having a channel that receives portion of the stop member. The channel includes first and second linear portions and a transverse stop portion that is engaged by the follower to prevent further lengthwise movement of the lock member and cable if a speed of the cable exceeds an allowable value.

An inertial blocking member subassembly being part of a release handle assembly associated with a vehicle door, the inertial blocking member subassembly being activated by an acceleration force associated with an impact event, the release handle assembly having a release handle framework supporting a bell crank assembly and a manually actuatable door handle grip, the door handle grip operatively coupled to the bell crank assembly to unlatch the vehicle door upon manual actuation of the door handle grip. The inertial blocking member subassembly includes a blocking member associated with the release handle assembly framework, movable in at least one of rotation about an axis of rotation and translation along the axis of rotation. The blocking member has a center of gravity which is offset from the axis of rotation. The blocking member is movable between an at-rest position, in which the blocking member does not interfere with the bell crank assembly to prevent unlatching of the vehicle door by actuation of the door handle grip, and an engagement position, in which the blocking member interferes with the bell crank assembly to prevent unlatching of the vehicle door by manual actuation of the door handle grip. In the engagement position of the blocking member, the center of gravity is approximately aligned with a vector of the acceleration force and the axis of rotation; whereby, as a result of the acceleration force acting on the blocking member center of gravity, the blocking member is moved to the engagement position.