A motor vehicle lock, in particular for a vehicle rear door, having a lock cover and a locking mechanism consisting essentially of a rotary latch and at least one pawl, also comprising at least one coupling element, and at least one electric drive, wherein the coupling element can assume different positions, and the coupling element interacts with a drive element of the drive and a central locking mechanism, wherein the coupling element is connected to the drive element in order to take up its positions.

An opening/closing assembly for a door configured to actuate certain latches during a powered operation and to actuate not all the same latches during a manual (emergency) operation. The assembly operates to decouple the operation of levers associated to the various latches of the door. The assembly is configured such that a hold-close latch is actuated for both a powered operation and a manual operation, while a hold-open latch is not actuated during the manual operation and is only actuated during the powered operation.

An opening/closing assembly for a door configured to actuate certain latches during a powered operation and to actuate not all the same latches during a manual (emergency) operation. The assembly operates to decouple the operation of levers associated to the various latches of the door. The assembly is configured such that a hold-close latch is actuated for both a powered operation and a manual operation, while a hold-open latch is not actuated during the manual operation and is only actuated during the powered operation.

An apparatus (1) for opening and closing a lid (lid body) of a vehicle includes a linearly-movable shaft (10) supported by a housing (90) such that the shaft (10) is linearly movable along, and nonrotatable around, an axial center (X10); and a rotary shaft (30) supported by the linearly-movable shaft (10) such that it is linearly movable along and rotatable around the axial center (X10). A stopper (50) is supported by the housing (90) and is displaceable between a blocking position at which the stopper (50) prohibits the linearly-movable shaft (10) from moving from a second position to a first position, and a nonblocking position at which the stopper (50) is separated from the linearly-movable shaft (10). The stopper (50) is biased toward the blocking position and displaces to the nonblocking position in response to a manual opening operation for displacing the lid to the open position.

An apparatus (1) for opening and closing a lid (lid body) of a vehicle includes a linearly-movable shaft (10) supported by a housing (90) such that the shaft (10) is linearly movable along, and nonrotatable around, an axial center (X10); and a rotary shaft (30) supported by the linearly-movable shaft (10) such that it is linearly movable along and rotatable around the axial center (X10). A stopper (50) is supported by the housing (90) and is displaceable between a blocking position at which the stopper (50) prohibits the linearly-movable shaft (10) from moving from a second position to a first position, and a nonblocking position at which the stopper (50) is separated from the linearly-movable shaft (10). The stopper (50) is biased toward the blocking position and displaces to the nonblocking position in response to a manual opening operation for displacing the lid to the open position.

Systems and methods for integrated graphics rendering are disclosed. In certain embodiments, the systems and methods utilize a graphics engine, a video encoding engine, and remote client coding engine to render graphics over a network. The systems and methods involve the generation of per-pixel motion vectors, which are converted to per-block motion vectors at the graphics engine. The graphics engine injects these per-block motion vectors into a video encoding engine, such that the video encoding engine may convert those vectors into encoded video data for transmission to the remote client coding engine.

An actuator for motor vehicle applications, in particular for motor vehicle closing devices, comprising an electric motor, an actuating element which can be directly or indirectly acted upon via a drive train, and, arranged on a drive shaft of the electric motor, a drive wheel with an evoloid toothing, the drive train having at least one crown gear stage.

An actuator for motor vehicle applications, in particular for motor vehicle closing devices, comprising an electric motor, an actuating element which can be directly or indirectly acted upon via a drive train, and, arranged on a drive shaft of the electric motor, a drive wheel with an evoloid toothing, the drive train having at least one crown gear stage.

A vehicular door lock device includes a rotary member being movable between a releasing position and an unlocking correspondent position by rotation of an electric motor and being elastically urged to a neutral position, a release lever switching a latch mechanism to an unlatched state by rotation of the rotary member from the neutral position to the releasing position, an active lever switching the vehicular door lock device to an unlocked state by rotational movement of the rotary member from the neutral position to the unlocking correspondent position and switching the vehicular door lock device to a locked state by rotational movement of the rotary member to a locking correspondent position, and a block lever blocking rotational movement of the rotary member from the locking correspondent position to the releasing position when switching from the unlocked state to the locked state is made.

A vehicular door lock device includes a rotary member being movable between a releasing position and an unlocking correspondent position by rotation of an electric motor and being elastically urged to a neutral position, a release lever switching a latch mechanism to an unlatched state by rotation of the rotary member from the neutral position to the releasing position, an active lever switching the vehicular door lock device to an unlocked state by rotational movement of the rotary member from the neutral position to the unlocking correspondent position and switching the vehicular door lock device to a locked state by rotational movement of the rotary member to a locking correspondent position, and a block lever blocking rotational movement of the rotary member from the locking correspondent position to the releasing position when switching from the unlocked state to the locked state is made.