A motor vehicle locking device for a vehicle door includes a door lock that can be released electrically released and, parallel thereto, mechanically released via a mechanical operative connection to a first actuatable door handle. A coupling is arranged in the mechanical operative connection between the door handle and the door lock, which coupling can be engaged and disengaged via a coupling motor. A control unit is connected to a crash sensor for detecting an accident. In the normal operating state, the coupling is always in the disengaged state irrespective of opening requirements and, in addition to the coupling motor, can be engaged and disengaged by an electromagnetic actuating device that engages the coupling when the power is switched off. A first timer can be triggered by the signal of the crash sensor, such that the control unit, after the first timer elapses after receiving a crash signal, activates the coupling motor to engage the coupling. Accordingly, the mechanical active connection between the door handle and the lock is always disengaged, except in an accident situation.

Some embodiments provide a vehicle that includes a protection system configured to mitigate hazards to vehicle occupants posed by dynamic elements located within proximity of the vehicle. The vehicle can, in response to determining that a dynamic element is moving along a trajectory that intersects a sweep volume of a vehicle portal, can selectively restrict operation of the portal so that an occupant is restricted from opening the portal into a volume through which the dynamic element may pass. The vehicle can restrict portal operation in response to detecting external dynamic elements that are not within an occupant's field of vision. The vehicle can communicate a limited selection of vehicle sensor data, including representations of a detected dynamic element, to a user device supporting an authorized user in response to detecting that the dynamic element is located within a certain proximity of the vehicle.

Some embodiments provide a vehicle that includes a protection system configured to mitigate hazards to vehicle occupants posed by dynamic elements located within proximity of the vehicle. The vehicle can, in response to determining that a dynamic element is moving along a trajectory that intersects a sweep volume of a vehicle portal, can selectively restrict operation of the portal so that an occupant is restricted from opening the portal into a volume through which the dynamic element may pass. The vehicle can restrict portal operation in response to detecting external dynamic elements that are not within an occupant's field of vision. The vehicle can communicate a limited selection of vehicle sensor data, including representations of a detected dynamic element, to a user device supporting an authorized user in response to detecting that the dynamic element is located within a certain proximity of the vehicle.

A locking mechanism for pillarless doors includes a first body mounted on a first side door and having a first cavity, a second body mounted on a second side door and having a second cavity opposite the first cavity, a locking member configured to be movably received between the first cavity of the first body and the second cavity of the second body, and a gas generator including a squib and an inflator chamber containing a gas generant configured to be burned by ignition of the squib, wherein the inflator chamber is separated from the first cavity by a burst membrane.

A locking mechanism for pillarless doors includes a first body mounted on a first side door and having a first cavity, a second body mounted on a second side door and having a second cavity opposite the first cavity, a locking member configured to be movably received between the first cavity of the first body and the second cavity of the second body, and a gas generator including a squib and an inflator chamber containing a gas generant configured to be burned by ignition of the squib, wherein the inflator chamber is separated from the first cavity by a burst membrane.

A vehicle interior component is disclosed. The component may comprise a cover moveable relative to a base and a latch mechanism to provide an unlatched state for the cover and a latched state when actuated by an external/inertia force (e.g. in an event such as a rollover). The latch mechanism may comprise a latch/member extending through an opening in the cover into the base when the cover is closed and retracted into the cover when the cover is open. When the cover is closed, the latch mechanism may provide an unlatched state with the latch in an intermediate position (for an occupant's ordinary use) and a latched state with the latch fully extended to engage a catch in the base (upon the event providing the external force to prevent the cover opening). The component may comprise a console providing a storage compartment or an armrest.

A vehicle interior component is disclosed. The component may comprise a cover moveable relative to a base and a latch mechanism to provide an unlatched state for the cover and a latched state when actuated by an external/inertia force (e.g. in an event such as a rollover). The latch mechanism may comprise a latch/member extending through an opening in the cover into the base when the cover is closed and retracted into the cover when the cover is open. When the cover is closed, the latch mechanism may provide an unlatched state with the latch in an intermediate position (for an occupant's ordinary use) and a latched state with the latch fully extended to engage a catch in the base (upon the event providing the external force to prevent the cover opening). The component may comprise a console providing a storage compartment or an armrest.

A locking mechanism for pillarless doors includes a first body mounted on a first side door and having a first cavity, a second body mounted on a second side door and having a second cavity opposite the first cavity, a locking member configured to be movably received between the first cavity of the first body and the second cavity of the second body, and a gas generator including a squib and an inflator chamber containing a gas generant configured to be burned by ignition of the squib, wherein the inflator chamber is separated from the first cavity by a burst membrane.

A locking mechanism for pillarless doors includes a first body mounted on a first side door and having a first cavity, a second body mounted on a second side door and having a second cavity opposite the first cavity, a locking member configured to be movably received between the first cavity of the first body and the second cavity of the second body, and a gas generator including a squib and an inflator chamber containing a gas generant configured to be burned by ignition of the squib, wherein the inflator chamber is separated from the first cavity by a burst membrane.

Emergency access device for a vehicle opening leaf, including:—a graspable pull rod that is movable between a retracted position and a deployed position;—a retention needle that is movable transversely to the pull rod between a position for blocking the pull rod in its retracted position and a position for releasing the pull rod;—an electric ejector designed to release the pull rod;—a mechanical ejector designed to release the pull rod; the pull rod including an oblique path designed to cause the retention needle to move from its blocking position to its releasing position during a movement of the pull rod in translation.