The invention is directed to a vehicle door handle assembly (10) comprising: a rotatable flap (20), said flap (20) extending along and configured to rotate about a rotation axis (Y), a mechanical actuation switch (28) generating an electrical signal to be sent to a vehicle door controller to release the vehicle door, rotation of the rotatable flap (20) causing the activation of said mechanical actuation switch (28), and a locking mechanism generating an electrical signal to be sent to a vehicle door controller to lock the vehicle door comprising a lock switch button,

The handle assembly (10) comprises an elongated base plate (14) made of one piece extending along the rotation axis (Y) of the flap (20). The flap (20) is hinged on the base plate (14). The base plate (14) encases the mechanical actuation switch (28) and the lock switch button (48). The mechanical actuation switch (28) and the lock switch button (48) are disposed on either side of the flap (20).

The invention is directed to a vehicle door handle assembly (10) comprising: a rotatable flap (20), said flap (20) extending along and configured to rotate about a rotation axis (Y), a mechanical actuation switch (28) generating an electrical signal to be sent to a vehicle door controller to release the vehicle door, rotation of the rotatable flap (20) causing the activation of said mechanical actuation switch (28), and a locking mechanism generating an electrical signal to be sent to a vehicle door controller to lock the vehicle door comprising a lock switch button,

The handle assembly (10) comprises an elongated base plate (14) made of one piece extending along the rotation axis (Y) of the flap (20). The flap (20) is hinged on the base plate (14). The base plate (14) encases the mechanical actuation switch (28) and the lock switch button (48). The mechanical actuation switch (28) and the lock switch button (48) are disposed on either side of the flap (20).

A tailgate opening/closing device has a simplified tailgate opening/closing structure, reduced manufacturing cost, reduced weight, and improved quality. The device includes a release gear configured to be rotated forwards and backwards by a rotational force from a motor, a cinching gear engaged with the release gear, a linkage mechanism configured to receive force from the cinching gear to rotate toward a claw, the claw being caught by the linkage mechanism to rotate together therewith so as to be engaged with a striker, and a pawl unit configured to be caught by the claw in the state in which the claw is engaged with the striker so as to restrict rotation of the claw and configured to allow rotation of the claw in a release operation direction only when the release gear rotates in the release operation direction.

A door handle assembly for a vehicle door includes a handle which is to be actuated by an operator, a lever element which supports the handle on a handle housing, and a motor-driven actuating element. The handle is designed to be movable out of an actuation position into a servo-opening position by being actuated by an operator. A detection means is formed on the handle housing in order to detect a movement of the handle out of the actuation position into the servo-opening position so as to produce a movement of the motor-driven actuating element out of the handle extended position into a door opening position. Upon being moved out of the handle extended position into the door opening position, the motor-driven actuating element moves a vehicle door opening lever out of a ready position into an unlocked position, in which the vehicle door can be opened.

A door handle assembly for a vehicle door includes a handle which is to be actuated by an operator, a lever element which supports the handle on a handle housing, and a motor-driven actuating element. The handle is designed to be movable out of an actuation position into a servo-opening position by being actuated by an operator. A detection means is formed on the handle housing in order to detect a movement of the handle out of the actuation position into the servo-opening position so as to produce a movement of the motor-driven actuating element out of the handle extended position into a door opening position. Upon being moved out of the handle extended position into the door opening position, the motor-driven actuating element moves a vehicle door opening lever out of a ready position into an unlocked position, in which the vehicle door can be opened.

A locking mechanism of a door leaf of a motor vehicle includes a latch, an electric actuator, and a transmission arrangement. The latch includes a pawl and a bolt configured to cooperate in such a manner to allow the locking or unlocking of the door leaf. The transmission arrangement is configured to transmit a movement of the electric actuator to the bolt in order to displace the bolt of the latch between an unlocking position in which the bolt is released from the pawl and a locking position in which the bolt is blocked by the pawl. The transmission arrangement includes a downstream transmission member configured to transmit a movement to the bolt, an upstream transmission member configured to transmit a movement of the actuator to the downstream transmission member; and a blocking member movable relative to the downstream transmission member and/or the upstream transmission member.

A locking mechanism of a door leaf of a motor vehicle includes a latch, an electric actuator, and a transmission arrangement. The latch includes a pawl and a bolt configured to cooperate in such a manner to allow the locking or unlocking of the door leaf. The transmission arrangement is configured to transmit a movement of the electric actuator to the bolt in order to displace the bolt of the latch between an unlocking position in which the bolt is released from the pawl and a locking position in which the bolt is blocked by the pawl. The transmission arrangement includes a downstream transmission member configured to transmit a movement to the bolt, an upstream transmission member configured to transmit a movement of the actuator to the downstream transmission member; and a blocking member movable relative to the downstream transmission member and/or the upstream transmission member.

A door handle device for a vehicle includes a handle base including an inertia stopper and an operation handle including a stopper protruding portion. The operation handle is movable from an initial position to a use position and to a latch operation position. The inertia stopper has two stopper surfaces and is to rotate from a standby position to a regulation position due to inertia when a collision force is applied to the vehicle. The stopper protruding portion includes a first stopper to, when the operation handle is at the initial position, limit a movement of the operation handle toward the use position by abutting against one of the stopper surfaces, and a second stopper to, when the operation handle is at the use position, limit the movement of the operation handle toward the latch operation position by abutting against another one of the stopper surfaces.

A latch assembly for a closure panel of a vehicle includes a power release actuator, a pawl, a ratchet, and a multi-stage geartrain. The multi-stage geartrain includes a first compound gear and a second sector gear in meshed engagement with the compound gear. The sector gear includes an arm extending radially therefrom. In a rest position, a gap is defined between the arm and a cam surface of a pawl. Actuation of the power release actuator actuates the multi-stage geartrain and pivots the arm through the gap and into contact with the pawl. During pivoting through the gap, inertia is increased and the arm contacts the pawl with an impulse force. Continued rotation of the arm causes further rotation of the pawl and release of the ratchet. The arm is disposed within an axial height defined by the multi-stage geartrain, and torque applied to the arm increases during rotation.

A latch assembly for a closure panel of a vehicle includes a power release actuator, a pawl, a ratchet, and a multi-stage geartrain. The multi-stage geartrain includes a first compound gear and a second sector gear in meshed engagement with the compound gear. The sector gear includes an arm extending radially therefrom. In a rest position, a gap is defined between the arm and a cam surface of a pawl. Actuation of the power release actuator actuates the multi-stage geartrain and pivots the arm through the gap and into contact with the pawl. During pivoting through the gap, inertia is increased and the arm contacts the pawl with an impulse force. Continued rotation of the arm causes further rotation of the pawl and release of the ratchet. The arm is disposed within an axial height defined by the multi-stage geartrain, and torque applied to the arm increases during rotation.