A door latch device includes a latch mechanism, an inner lever having a connection lever and an actuation lever, and a lock mechanism switching between unlocked and locked state. The lock mechanism includes a connection member capable of transmitting operation of the connection lever to the actuation lever, a first rotating lever rotated by a motor to first and second working positions, a second rotating lever rotatable to a first rotation position where the connection member is moved to an unlock position and a second rotation position where the connection member is moved to a lock position, a connection spring connecting the first rotating lever and the second rotating lever while allowing relative rotation of them, and a holding spring having a biasing force stronger than a biasing force of the connection spring and holds the first rotating lever at the first and second working positions.

A fuel door opener assembly for a push type fuel door includes a pop-up part installed inside a housing and a locking part installed inside the housing. The pop-up part includes a plunger installed to be slidable inside the housing in a state of being elastically supported, a door catch connected to the fuel door, installed to pass through the housing, disposed coaxially with the plunger, brought into contact with an end portion of the plunger, and configured to pop up the fuel door, a cam being selectively restrained by the locking part and configured to restrain sliding of the door catch when restrained by the locking part, and a plunger spring configured to elastically support the plunger toward the door catch inside the housing.

A fuel door opener assembly for a push type fuel door includes a pop-up part installed inside a housing and a locking part installed inside the housing. The pop-up part includes a plunger installed to be slidable inside the housing in a state of being elastically supported, a door catch connected to the fuel door, installed to pass through the housing, disposed coaxially with the plunger, brought into contact with an end portion of the plunger, and configured to pop up the fuel door, a cam being selectively restrained by the locking part and configured to restrain sliding of the door catch when restrained by the locking part, and a plunger spring configured to elastically support the plunger toward the door catch inside the housing.

A device for switching and actuating multiple functions of a charging and/or filler-neck compartment system having a charging and/or filler-neck compartment and a cover which is movable relative to the charging and/or filler-neck compartment. The device has a drive element with a drive shaft, wherein the drive shaft is operatively connected to the cover such that, when the drive shaft rotates, the cover is movable relative to the charging and/or filler-neck compartment. The device furthermore has a mechanical control or switching mechanism, in particular in the form of or with a gearing mechanism, wherein the mechanical control or switching mechanism is designed such that, when the drive shaft rotates, a rotational movement of the drive shaft can be picked off by the mechanical control or switching mechanism for the purposes of manipulating at least one functional component of the charging and/or filler-neck compartment system as required.

A door latch device includes a latch mechanism, an inner lever having a connection lever and an actuation lever, and a lock mechanism switching between unlocked and locked state. The lock mechanism includes a connection member capable of transmitting operation of the connection lever to the actuation lever, a first rotating lever rotated by a motor to first and second working positions, a second rotating lever rotatable to a first rotation position where the connection member is moved to an unlock position and a second rotation position where the connection member is moved to a lock position, a connection spring connecting the first rotating lever and the second rotating lever while allowing relative rotation of them, and a holding spring having a biasing force stronger than a biasing force of the connection spring and holds the first rotating lever at the first and second working positions.

The present disclosure relates to a closure latch for a vehicle door, and more particularly to a closure latch for a vehicle door equipped with a passive entry feature. To this end, the present disclosure relates to the use of a bidirectional power release mechanism operable in a first mode to release a latch mechanism under normal operating conditions and which is operable in a second mode to release the latch mechanism under emergency operating conditions.

The present disclosure relates to a closure latch for a vehicle door, and more particularly to a closure latch for a vehicle door equipped with a passive entry feature. To this end, the present disclosure relates to the use of a bidirectional power release mechanism operable in a first mode to release a latch mechanism under normal operating conditions and which is operable in a second mode to release the latch mechanism under emergency operating conditions.

A fuel door opener assembly for a push type fuel door includes a pop-up part installed inside a housing and a locking part installed inside the housing. The pop-up part includes a plunger installed to be slidable inside the housing in a state of being elastically supported, a door catch connected to the fuel door, installed to pass through the housing, disposed coaxially with the plunger, brought into contact with an end portion of the plunger, and configured to pop up the fuel door, a cam being selectively restrained by the locking part and configured to restrain sliding of the door catch when restrained by the locking part, and a plunger spring configured to elastically support the plunger toward the door catch inside the housing.

A fuel door opener assembly for a push type fuel door includes a pop-up part installed inside a housing and a locking part installed inside the housing. The pop-up part includes a plunger installed to be slidable inside the housing in a state of being elastically supported, a door catch connected to the fuel door, installed to pass through the housing, disposed coaxially with the plunger, brought into contact with an end portion of the plunger, and configured to pop up the fuel door, a cam being selectively restrained by the locking part and configured to restrain sliding of the door catch when restrained by the locking part, and a plunger spring configured to elastically support the plunger toward the door catch inside the housing.

A vehicle door latch apparatus has latch mechanism, powered release means, manual release means and lock mechanism that is switched between a locked state and an unlocked state. Powered release means has cam wheel that is rotated in normal and in reverse rotational directions from a reference position by motor power. When cam wheel is rotated in the normal rotational direction from the reference position, latch mechanism is released while lock mechanism is held in the locked state When cam wheel is rotated in the reverse rotational direction from the reference position, cam wheel switches lock mechanism to the unlocked state. Cam wheel returns lock mechanism to the locked state when cam wheel is rotated in the normal rotational direction back to the reference position in the unlocked state.