A rotary latch assembly is provided which can be configured as right-handed and left-handed using the same rotor and catch components, without reconfiguring the front and back plates. The axles for the rotor and catch are identical so that the rotor and catch can be interchanged on the axles. The latch biasing springs are mirror images so as to be used on either the rotor or the catch. The latch includes multiple connection points for single or dual actuators, and a lifting block to align the assembly with a striker.

A latch assembly having primary position, a secondary position, and an unlatched position is disclosed. The latch assembly includes a striker and a retention member. A slot of the retention member is shaped to receive the striker when the latch assembly is in the primary position. The latch assembly includes a detent lever defining a catch configured to engage with the retaining feature of the retention member to secure the latch assembly in the secondary position. The latch assembly includes a linking member coupled to the detent lever, a memory lever moveable about a pivot axis, and a release lever. The memory lever defines a retention surface configured to engage with the linking member when the latch assembly is in the unlatched position. The release lever is rotatable about a shared axis of rotation and operatively connected to the memory lever when the latch assembly is in the unlatched position.

A rotary drive actuation system for actuating a latch including: an output shaft having a member affixed at one end of the output shaft for coupling to a component of the latch; a common drive element affixed to the output shaft at the other end of the output shaft; and a plurality of motors coupled to the common drive element for simultaneously driving the common drive element and the output shaft in a first rotary direction to effect actuation of the latch.

A latch assembly for a closure member is provided. The latch assembly includes a housing and a ratchet pivotally coupled to the housing for selectively retaining a striker to secure the closure member. A cinch lever assembly is coupled to the housing and includes a cinch lever for engaging the ratchet. The cinch lever cinches the striker in the ratchet in response to the cinch lever being actuated by a cable coupled to the cinch lever assembly to move the closure panel from a partially closed position to a fully closed position. A cinch subassembly is operatively coupled to the cinch lever assembly with the cable coupled to the cinch lever assembly. The cinch subassembly is configured to freely move between a plurality of positions relative to the housing to accommodate a plurality of orientations of the cable coupled to the cinch lever assembly.

An actuator mechanism of a vehicle latch assembly includes an electric motor having an output shaft. Also included is a worm coupled to the output shaft. Further included is a worm gear driven by the worm. Yet further included is a spring operatively coupled to the worm gear and to a latch housing, the spring having a first leg extending through an aperture defined by the worm gear and a second leg extending into a receiving hole defined by the housing, the first leg including a first segment extending along a first leg axis and a second segment oriented at a non-parallel angle to the first leg axis, the second segment contacting a face of the worm gear to prevent removal of the spring.

A latch having: a fork bolt movably mounted thereto; a detent lever movably mounted thereto, wherein the detent lever prevents the fork bolt from moving from a closed position to an open position when the detent lever is in a latched position; a bell crank lever movably mounted to the latch for movement between a first position and a second position, wherein the bell crank lever moves the detent lever from the latched position to the released position as the bell crank lever moves from the first position to the second position; a release lever movably mounted to the latch for movement between a first position and a second position; and an intermittent pin operatively coupled to bell crank lever and the release lever, wherein movement of the release lever is not transferred to the bell crank lever when the intermittent pin is in the second position.

The invention relates to a securing device (1; 101) for a motor vehicle, having a front hood (2, 102) and a hood lock (3, 103) with a lock holder (10, 110). The hood lock (3, 103) has a rotary latch (4, 104) with a pre-locking position and a main locking position and an electric drive (5, 105) which causes a switchover of the rotary latch (4, 104) from the main locking position into the pre-locking position. In the main locking position, a release of the lock holder (10, 110) is blocked, and the front hood (2, 102) is closed. In the pre-locking position, the lock holder (10, 110) can be manually moved between a closed position, in which the lock holder (10, 110) is engaged with the rotary latch (4, 104) and the front hood (2, 102) is locked, and an open position, in which the lock holder (10, 110) is released from the rotary latch (4, 104) and the front hood (2, 102) is unlocked.

A linkage system for vehicle door latch is provided. The system having: a sill button; a latch; a cable operatively coupled to the latch and the sill button; and a sill button interface directly secured to an end of the cable at one end and the sill button at another end, wherein the cable extends directly from the sill button interface to the latch.

A motor vehicle door latch which is equipped with a locking bolt and a locking mechanism interacting with the locking bolt, including a catch and a pawl. The motor vehicle door latch possesses a stop lever pivotably located on the control lever, which interacts with a protrusion on the catch beyond a main ratchet position and a pre-ratchet position, whereby the protrusion corresponds to a third ratchet position with an increased distance of the locking bolt in respect of the main ratchet and pre-ratchet position compared to a catch axis. The stop lever impinges a triggering lever lifting the pawl from the catch in order to open the locking mechanism.

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.