In an embodiment, a latch includes a ratchet and pawl. A lock includes a link pivotable between unlocked and locked positions wherein a release lever operates the pawl, and the lever disconnects from the pawl respectively. A cam rotates between unlocking and locking positions wherein the link can move to the unlocked position, and the link pivots to the locked position respectively. An override member rotates between actuatable and non-actuatable positions wherein the lever can engage the override member to unlock the cam, and the lever disconnects from the override member respectively. The lock is positionable in an unlocked state wherein the link is unlocked, a locked state wherein the link is locked, the cam is in the locking position and the override member is actuatable, and a second locked state wherein the link is locked, the cam is in the locking position and the override member is non-actuatable.

In an embodiment, a latch includes a ratchet and pawl. A lock includes a link pivotable between unlocked and locked positions wherein a release lever operates the pawl, and the lever disconnects from the pawl respectively. A cam rotates between unlocking and locking positions wherein the link can move to the unlocked position, and the link pivots to the locked position respectively. An override member rotates between actuatable and non-actuatable positions wherein the lever can engage the override member to unlock the cam, and the lever disconnects from the override member respectively. The lock is positionable in an unlocked state wherein the link is unlocked, a locked state wherein the link is locked, the cam is in the locking position and the override member is actuatable, and a second locked state wherein the link is locked, the cam is in the locking position and the override member is non-actuatable.

A vehicle door presenting system includes an actuator striker positioned at one of a vehicle body surface or a vehicle door, and an actuator positioned at the other of the vehicle body surface or the vehicle door and engagable with the actuator striker. The actuator is configured to move the vehicle door between a fully closed position and a partially open position via interaction between the actuator and the actuator striker. The actuator includes a retaining portion to maintain engagement with the actuator striker. The retaining portion retains the vehicle door in the partially open position to prevent the vehicle door from moving toward a fully open position.

A motor vehicle door lock apparatus includes a meshing mechanism to mesh with a striker, a locking and unlocking mechanism switches between an unlocking state where a meshing can be released and a locking state where a meshing cannot be released, a control unit to authenticate a transmitter signal and to enable an outside operation switch when the transmitter is authenticated with the transmitter situated outside a vehicle, and an electric releasing mechanism to release a meshing as a result of the control unit driving the releasing motor to activate a releasing operation based on the outside operation switch when the control unit authenticates the transmitter, and the control unit switches from an authenticating state to a non-authenticating state when the transmitter outside the vehicle leaves an authenticating area and drives a locking and unlocking motor activating a locking operation when the control unit is switched to the non-authenticating state.

A closure latch assembly for a motor vehicle closure system having a latch mechanism, a latch release mechanism for releasing the latch mechanism, and an outside backup release mechanism operable, in cooperating with the latch mechanism and the latch release mechanism, to provide an external latch release function and a separate and distinct latch reset function. The external latch release function is initiated by a first-key actuation operation associated with a door-mounted key release mechanism. The latch reset function is initiated, after the external latch release function, via a second key-actuated operation associated with a reset device on the closure latch assembly.

A closure latch assembly for a motor vehicle closure system includes a power release mechanism and an inside handle release mechanism mechanically connected to an inside door handle. The power release mechanism is used to shift the inside handle release mechanism from a normally Disengaged operating state to an Engaged operating state. In the Disengaged state, the inside handle release mechanism is uncoupled from the latch release chain of components to prevent latch release via actuation of the inside door handle. In the Engaged state, the inside handle release mechanism is coupled for the latch release chain of components to permit latch release via actuation of the inside door handle. The power release mechanism only shifts the inside release mechanism from its Disengaged state into its Engaged state in the event of an emergency condition.

The invention relates to a locking device, in particular for a motor vehicle, having a catch mechanism and a coupling device for connecting to a motor drive. The coupling device comprises a coupling lever, which by virtue of a plurality of engagement lugs is able to pivot a coupling lever. The engagement lugs can be detected in succession by the coupling lever and are arranged in this respect one behind the other. The invention further relates to a plastics component for the locking device. An engagement lug is formed by an element protruding from a main face of the coupling lever in order to simplify production and to keep material costs and installation space to a minimum.

The subject matter of the present invention is a motor-vehicle door lock which is equipped with a locking mechanism, further with an opening drive (3, 4) which acts on the locking mechanism, and also with an operating lever mechanism (6, 7). At least one sensor (8) for checking an operator opening request is further provided. Finally, a safety device (9, 10, 11), which prevents the locking mechanism (3, 4) from opening at least in its safe position, is provided. The invention makes provision for an intermediate lever (7) of the operating lever mechanism (6, 7), which intermediate lever mechanically converts the operator opening request, to selectively act on or not act on the sensor (8) which actuates the opening drive (3, 4), depending on the position of the safety device (9, 10, 11).

The invention relates to a motor vehicle door lock comprising an actuation/locking lever mechanism, with a first lever and a second lever, both levers being couplable with each other in at least two different relative positions. At least the one, first lever comprises a detent spring connected thereto for engagement with at least one detent recess on the other, second lever.

A user-actuatable vehicle door control, comprising: at least one force sensing member disposed beneath at least one force transfer member, the at least one force sensing member operative to detect the intensity of forces applied thereto, and the at least one force transfer member moveable upon user application thereto of one or more forces so as to transfer the one or more user-applied forces to one or more locations on the at least one force sensing member; and a controller operatively connected to the at least one force sensing member. The controller operates to: map the location and intensity of each of the one or more user-applied forces as detected by the at least one force sensing member; compare the mapped location and intensity information received from the at least one force sensing member to pre-defined force profiles, each pre-defined force profile corresponding to at least one pre-defined vehicle command; and direct the execution of one or more of the pre-defined vehicle commands when the mapped location and intensity information received from the at least one force sensing member corresponds to a pre-defined force profile associated with a vehicle command (such as, for instance, unlocking the vehicle's door(s), turning on exterior and/or interior lights, etc.).