A vehicle latch (10), including: a cinching mechanism (40) internal to the vehicle latch (10), the cinching mechanism including: a cinching lever (18) operably coupled to an actuator (20) via a cable (30), the cinching lever (18) being rotatably mounted to the latch (10) for movement about a pivot (16), the cinching lever (18) being secured to a cinch blank lever (48), the cinch blank lever (48) being pivotally mounted to a cinch drive link (14) via a pivot (26); a claw (22) pivotally mounted to the latch for movement between an open position and a primary position, the cinch drive link (14) being configured to contact a claw blank (41) of the claw (22) in order to move the claw (22) into the primary position during a cinching operation of the latch (10); a bearing (24) secured to the cinch drive link (14) via a pivot (27), the bearing (24) travels through a canal (9) of an override lever (8) during interaction between the claw blank (41) and the cinch drive link (14); an override clutch lever (12); a pawl release lever (4) operably coupled to a pawl; and an override clutch link (2) pivotally secured to the override clutch lever (12) and the pawl release lever (4), wherein the override clutch link (2) includes a lateral tab (72) that interacts with a door ajar cam (6) operably coupled to the claw (22) of the latch (10) in order to limit movement of the override clutch lever (12) when the claw (22) the latch (10) is in the open position.

A vehicle latch (10), including: a cinching mechanism (40) internal to the vehicle latch (10), the cinching mechanism including: a cinching lever (18) operably coupled to an actuator (20) via a cable (30), the cinching lever (18) being rotatably mounted to the latch (10) for movement about a pivot (16), the cinching lever (18) being secured to a cinch blank lever (48), the cinch blank lever (48) being pivotally mounted to a cinch drive link (14) via a pivot (26); a claw (22) pivotally mounted to the latch for movement between an open position and a primary position, the cinch drive link (14) being configured to contact a claw blank (41) of the claw (22) in order to move the claw (22) into the primary position during a cinching operation of the latch (10); a bearing (24) secured to the cinch drive link (14) via a pivot (27), the bearing (24) travels through a canal (9) of an override lever (8) during interaction between the claw blank (41) and the cinch drive link (14); an override clutch lever (12); a pawl release lever (4) operably coupled to a pawl; and an override clutch link (2) pivotally secured to the override clutch lever (12) and the pawl release lever (4), wherein the override clutch link (2) includes a lateral tab (72) that interacts with a door ajar cam (6) operably coupled to the claw (22) of the latch (10) in order to limit movement of the override clutch lever (12) when the claw (22) the latch (10) is in the open position.

A frunk latch emergency opening structure includes: a base configured to be fixed to a vehicle body; a pawl provided on the base so as to be rotatable; a first cable connected to one end of the pawl and configured such that tension is applied to the first cable by operating a vehicle inside handle; an emergency lever configured to be rotatable in an interlocking manner with the pawl at one end of the emergency lever; a second cable connected to another end of the emergency lever and configured such that tension is applied to the second cable by operating a frunk inside handle; and a safety hook configured to be coupled to the base so as to be rotatable and to move due to operation of a front outside lever.

A frunk latch emergency opening structure includes: a base configured to be fixed to a vehicle body; a pawl provided on the base so as to be rotatable; a first cable connected to one end of the pawl and configured such that tension is applied to the first cable by operating a vehicle inside handle; an emergency lever configured to be rotatable in an interlocking manner with the pawl at one end of the emergency lever; a second cable connected to another end of the emergency lever and configured such that tension is applied to the second cable by operating a frunk inside handle; and a safety hook configured to be coupled to the base so as to be rotatable and to move due to operation of a front outside lever.

A latch mechanism for a motor vehicle includes a latch body, a claw rotatably mounted in the latch body and operable to selectively retain a hood latch element, and a motor operatively connected to the claw. The motor is operably to rotate the claw to selectively release the hood latch element. A latch controller is operatively connected to the motor, and a speed sensor operatively connected to the latch controller. The speed sensor detects a speed of the motor vehicle. The latch controller operates the motor to rotate the claw based on the speed of the motor vehicle.

A system for detecting an obstacle between a closure panel and a body of a vehicle, comprising: an actuator for moving the closure panel from a partially closed position to a closed position; a sensor for sensing a position of the closure panel between the partially closed and the closed position; and a controller for receiving position signals from the sensor and for controlling operation of the actuator; wherein the controller is adapted to inhibit moving of the closure panel when the sensor detects an improper change in the position of the closure panel during operation of the actuator.

A system for detecting an obstacle between a closure panel and a body of a vehicle, comprising: an actuator for moving the closure panel from a partially closed position to a closed position; a sensor for sensing a position of the closure panel between the partially closed and the closed position; and a controller for receiving position signals from the sensor and for controlling operation of the actuator; wherein the controller is adapted to inhibit moving of the closure panel when the sensor detects an improper change in the position of the closure panel during operation of the actuator.

A method performs autonomous travel control of a subject vehicle to a target stop position on the basis of a remote operation command from a remote operation device. The subject vehicle has an autonomous travel control function and an automatic locking/unlocking function for a vehicle door. The autonomous travel control is executed under a precondition that a locking/unlocking device for the door is unlocked. The method includes prohibiting the automatic locking/unlocking function from locking the door while the vehicle is executing autonomous travel control; detecting a distance between the vehicle and the remote operation device when the vehicle stops at the target stop; setting a temporal interval from when the vehicle stops until the locking/unlocking device for the door is locked using the automatic locking/unlocking function to a temporal interval in accordance with the distance; and locking the door using the automatic locking/unlocking function when the temporal interval has elapsed.

An anti-theft and rollaway prevention handle assembly integrated into a park release mechanism of a vehicle. A housing has a recessed configuration supporting a park release pull handle engaged to the housing in a stowed position and preventing access to the handle. An unlock mechanism communicates with the handle via a latch such that, upon actuating the unlock mechanism, the latch being displaced to release the handle to project outwardly from the recessed configuration, permitting grasping of the same by a user in order to actuate the vehicle from the park position.

An anti-theft and rollaway prevention handle assembly integrated into a park release mechanism of a vehicle. A housing has a recessed configuration supporting a park release pull handle engaged to the housing in a stowed position and preventing access to the handle. An unlock mechanism communicates with the handle via a latch such that, upon actuating the unlock mechanism, the latch being displaced to release the handle to project outwardly from the recessed configuration, permitting grasping of the same by a user in order to actuate the vehicle from the park position.