The disclosure is directed to a method for manufacturing a Bowden cable, in particular a Bowden cable of a closure element arrangement of a motorized vehicle, comprising the step of applying a noise dampening sleeve to a Bowden cable housing. It is suggested that the noise dampening sleeve is molded onto the Bowden cable housing.

A door lock arrangement of a vehicle door of a vehicle includes a first closing element arranged in a lock mouth of the vehicle door and a second closing element arranged on a body of the vehicle. The first and second closing elements can be brought into positive-locking engagement with each other to hold the door on the body. A damping device absorbs kinetic energy of the door during a closing movement of the door within a predetermined limit opening angle of the vehicle door relative to the body and slows down the closing movement of the door. The damping device has an impact element arranged on the door in a displaceable manner relative to the door or on the body in a displaceable manner relative to the body. The impact element is connected to an actuator, which applies a pre-tensioning force of the door directed in an opening direction of the door while the first and second closing elements are engaged with each other.

A locking device includes a lock portion on one of a fixed body or an opening/closing body, a rod on the other member, and a protrusion protruding from the other member. The rod has a recess surrounded by a pair of first walls facing each other in a sliding direction of the rod and a pair of second walls facing each other in a direction orthogonal to the sliding direction. A first elastic piece extends from one of the first walls toward the other and applies an elastic force against a tip end surface of the protrusion, and a pair of second elastic pieces extend from the second walls. Each of the second elastic pieces has a receiving surface that engages with a back surface of a flange portion of the protrusion, and is configured to elastically abut against a side surface of the protrusion.

In an outer handle device for a vehicle door, a handle lever is operatively linked to an outer handle, the handle lever being driven by an electric actuator so that the outer handle is pivoted from a housed position to a pop-up position. A restriction device operates so as to follow movement of the handle lever toward a side that goes away from an initial position when the handle lever is driven by the electric actuator so that the outer handle is pivoted from the housed position toward the pop-up position side, the restriction device restricting return of the handle lever to the initial position side from a maximum operated position of the handle lever toward the side that goes away from the initial position. Accordingly, it is possible to prevent the outer handle from rattling, thereby enabling marketability to be enhanced.

A handle mechanism includes a handle and control mechanism. The handle is movable between a rest position flush with the door and a working position projecting therefrom. The control mechanism includes a first lever, a second lever, a tie-rod having ends linked to the first lever and the second lever according to hinged linkages at least one of which has a first oblong aperture parallel to the tie-rod, a device for elastically biasing the handle towards the rest position, a cam, a rod linking the cam to the tie-rod and including a pin. The tie-rod further includes a second oblong aperture parallel to the first oblong aperture and through which the pin of the rod extends in order to make the handle slide from the working position to the rest position in a motor-driven way through an over-travel of the cam when the elastic biasing device are not sufficient.

A door lock, in particular a motor vehicle door lock, which is equipped with a locking mechanism that substantially consists of a rotary latch and at least one pawl. Each of the two locking mechanism parts rotatably supported on a base about a respective axis. For this purpose, a bearing surface of each locking mechanism part slides along a fixed support body. According to the invention, the support body is provided with an open bearing trough for receiving the bearing surface.

A power actuator for a latch of a motor vehicle closure panel has an electric motor to rotate a lead screw about an axis. A nut is disposed about the lead screw for selective translation along the lead screw. A clutch plate is configured for selective rotation about the axis when engaged with the nut, with a biasing member biasing the nut out of engagement with the clutch plate when the electric motor is de-energized. A carrier member is coupled with the nut to cause the nut to translate into engagement with the clutch plate during rotation of the lead screw, whereupon the nut and carrier member co-rotate with the clutch plate and leadscrew. A driven member is operably coupled with the clutch plate and with the latch via a cable/rod, such that the driven member maintains the latch in a cinched state when the electric motor is energized.

A motor vehicle lock, in particular a motor vehicle door lock, which is provided with a locking mechanism consisting substantially of a rotary latch and a pawl. In addition, a latching element, which is arranged in the engagement region between two locking mechanism components is provided, wherein said latching element is pivotably mounted on the rotary latch and/or the pawl for the most part in a plane of the locking mechanism (E). According to the invention, the latching element has a guide extension, which projects relative to the plane of the locking mechanism (E), for additional axial and/or radial guidance.

A motor vehicle lock, in particular a motor vehicle door lock, which is provided with a locking mechanism consisting substantially of a rotary latch and a pawl. In addition, a latching element, which is arranged in the engagement region between two locking mechanism components is provided, wherein said latching element is pivotably mounted on the rotary latch and/or the pawl for the most part in a plane of the locking mechanism (E). According to the invention, the latching element has a guide extension, which projects relative to the plane of the locking mechanism (E), for additional axial and/or radial guidance.

A power latch assembly for a vehicle door and method of construction thereof is provided. The power latch assembly includes a pawl configured for movement between a ratchet holding position whereat the pawl maintains a ratchet in a striker capture position and a ratchet releasing position whereat the pawl releases the ratchet to a striker release position. A pawl release lever moves the pawl between the ratchet holding position and the ratchet releasing position. A powered actuator is energizable to control movement of the pawl release lever, wherein upon the pawl reaching the ratchet releasing position, the powered actuator is automatically de-energized without a hard stop feature.