An advancing/retreating movement mechanism 1 of an advancing/retreating member includes: a lifter 3; a coil spring 5; a lock pin 7 that limits the movement of the lifter 3; a case 2 that accommodates the lifter 3 and the coil spring 5; an advance/retreat position control mechanism 9 that controls an advance position, a retreat position, and a reciprocating movement of the lifter 3; and a receiving seat 11 that receives the coil spring 5 so that the lifter 3 is biased. The receiving seat 11 is arranged in a rearward position side of the lifter 3. An engaging part 27a engaging the lock pin 7 is arranged to the lifter 3. When the lifter 3 moves to the retreat position, the engaging part 27a moves to a rearward side beyond the receiving seat 11 and moves to a position where the engaging part 27a can be engaged with the lock pin 7. Therefore, the size of the advancing/retreating member in a protruding/withdrawing direction can be made small.

An electronic door latching assembly for a side door of a vehicle is disclosed and includes a retaining member and an actuator. The actuator is operably connected to the retaining member and moves the retaining member between a primary position and an unlatched position. The electronic door latching assembly also includes a control module in electrical communication with the actuator. The control module executes instructions to: receive as input a power signal indicating that a loss of electrical power in the vehicle is imminent. After receiving the power signal, the control module receives a door open signal indicating that a door of the vehicle is being opened. In response to receiving the door open signal, the control module commands the actuator to rotate the retaining member from the unlatched position to the primary position where the side door is unable to latch shut.

A vehicle is provided that includes a wiper-integrated tailgate handle switch mounted to a window glass of a tailgate. The wiper-integrated tailgate handle switch includes a tailgate handle switch, which is configured to press a current carrying switch arranged in the internal space thereof using the height of an insertion space defined by a difference in height between transverse and longitudinal bodies of a handle switch housing, and a wiper. Therefore, a degree of freedom in design of the tailgate is increased which improves the aesthetic of the tailgate by removing the tailgate handle switch from the tailgate.

A power unit for a powered cinching mechanism with a favorable level of operational noise is provided. A door latch apparatus includes latch unit and power unit. Latch unit has latch that engages striker, ratchet that engages latch and first cinching lever that displaces latch from a half-latched position to a full-latched position. Latch unit is attached to an end portion of a vehicle door. Power unit includes motor, cable drum, deceleration mechanism and closed-type housing that houses them. Operational noise at 300 mm right above the housing of power unit is 42.2 to 40.9 dB at a supply voltage to the motor of 9V, 47.5 to 43.9 dB at a supply voltage of 12V, and 49.7 to 46.5 dB at a supply voltage of 16 V. Deceleration mechanism includes a worm gear and a helical gear.

A method and apparatus for providing a mechanical seal between two objects is provided. The mechanical interface including a protrusion located on a first component; and a pair of cantilevered beams located on a second component, wherein the pair of cantilevered beams are forced outwardly on opposite sides of the protrusion when a tab portion of the second component is received in an opening of the first component. The method of including the steps of: forcing a pair of cantilevered beams located on a second component outwardly from opposite sides of the protrusion when as a tab portion of the second component is received in an opening of a first component.

A vehicular door actuation system for a door of a vehicle includes a handle assembly, a latch and an actuator. The handle assembly includes a handle portion and a base portion. The base portion is disposed at the door of the vehicle and the handle portion is movable between a recessed position, where the handle portion nests at least partially in the base portion, and a ready position, where the handle portion extends from the base portion. The actuator is disposed at the door of the vehicle separate and remote from the handle assembly. A handle linkage operatively couples operation of the actuator to the handle portion to move the handle portion from the recessed position to the ready position. The latch mechanism latches the door in a closed state, and unlatches the door responsive to a user pulling the handle portion from the ready position to open the door.

A vehicle panel assembly for a motor vehicle and carrier module therefor are provided. The vehicle body panel assembly includes a structural panel body defining an internal cavity with the carrier module secured to the structural panel body at least partially in the internal cavity. The carrier module has a carrier with an actuator attachment region integrally formed thereon and providing a first attachment feature. A latch assembly is secured to the carrier module and an actuator is configured in operable communication with the latch assembly to selectively cinch the latch assembly. The actuator has a housing providing a second attachment feature, wherein the first and second attachment features are configured for attachment to one another.

A lever-lock release system is configured to releasably couple two objects together, for example a parachute and a payload. The lever-lock release system may comprise a first lever and a second lever, each rotatably coupled to a rigid base. When activated, the levers cascadingly rotate to release a first object and a second object. With these systems and related methods, various failure modes may be eliminated, such as undesired premature deployment of recovery parachutes during aerial delivery.

Various embodiments provide a method for operating an opening mechanism which serves for the opening of a motor vehicle lock, wherein the opening mechanism is formed separately from the motor vehicle lock and, for the opening, is coupled mechanically to the motor vehicle lock, wherein the opening mechanism is assigned a control arrangement, a switchable coupling arrangement, an actuating lever and an electric drive arrangement. It is proposed that the overall pivoting region of the actuating lever starting from the starting position comprises a first pivoting region and a second pivoting region following the latter, wherein the motorized opening operation can be triggered by means of the drive arrangement by means of an actuating stroke over the first pivoting region.

A vehicle door lock device includes: a door switch arranged in an actuator housing to which a locking mechanism is assembled; a switch lever; and a lever pivoting amount adjusting mechanism configured to adjust a pivoting amount of the switch lever so that a ratio of the pivoting amount of the switch lever to a pivoting amount of a latch is set smaller in a second pivot state in which the latch is pivoted within a range of from a switching position to an unlatched position than in a first pivot state in which the latch is pivoted within a range of from a fully-latched position to the switching position.