An exemplary closure system includes, among other things, a striker assembly, a latch assembly, and a hooked structure. In response to the striker assembly and the latch assembly being laterally displaced from each other, the hooked structure engages one of the striker assembly or the latch assembly to block separation of the striker assembly from the latch assembly. An exemplary latching method includes, among other things, engaging a hooked structure in response to a striker assembly being laterally displaced relative to a latch assembly. The engaging blocks the striker assembly from separating relative to the latch assembly.

An opening/closing body opening/closing device includes: an opening/closing body; a closing mechanism; an opening/driving body driving section; a control section; and a position detection section. The closing mechanism includes an engaging portion, an engaged portion, a closing mechanism-side driving section, and an interaction detection section. The control section causes the closing mechanism-side driving section to perform closing driving and, after the closing driving, sets the engaging part to an open state so as to allow the closing mechanism to lock the opening/closing body through engagement between the engaging portion and the engaged portion when a positional difference between a current position and an engageable position of the opening/closing body is outside a predetermined range. Use of the opening/closing body opening/closing device makes a zero position of the opening/closing body settable in an originally supposed position even when the closing mechanism operates while the opening/closing body is in an improper position.

An activation device for at least two spatially separated motor vehicle closure units, for example for a tailgate latch on the one hand and a fuel filler door latch on the other hand. The activation device possesses a linear drive with a linear actuator. Dependent on its activation direction, the linear drive impinges either the first motor vehicle closure unit or the other second motor vehicle closure unit. According to the invention, dependent on its actuating direction, the linear actuator impinges at least a pivotable activation lever to interact with either the first motor vehicle closure unit or the other second motor vehicle closure unit.

An activation device for at least two spatially separated motor vehicle closure units, for example for a tailgate latch on the one hand and a fuel filler door latch on the other hand. The activation device possesses a linear drive with a linear actuator. Dependent on its activation direction, the linear drive impinges either the first motor vehicle closure unit or the other second motor vehicle closure unit. According to the invention, dependent on its actuating direction, the linear actuator impinges at least a pivotable activation lever to interact with either the first motor vehicle closure unit or the other second motor vehicle closure unit.

A latch system includes a double pull latch, where a fully open state is achieved following two release actuations. A coupling assembly is disposed on an actuation cable between a release mechanism and the latch. The coupling assembly is in the form of a switch that blocks or allows a pull on the actuation cable to pass to the latch depending on a predetermined condition of the vehicle. The switch may include a connecting lever that is moveable into and out of coupling engagement between first and second portions of the actuation cable. The connecting lever may de-couple the cable portions only after a first actuation is complete, thereby allowing a partial opening of the trunk but preventing a fully opening if the predetermined condition is satisfied, such as exceeded a threshold vehicle speed.

A latch system includes a double pull latch, where a fully open state is achieved following two release actuations. A coupling assembly is disposed on an actuation cable between a release mechanism and the latch. The coupling assembly is in the form of a switch that blocks or allows a pull on the actuation cable to pass to the latch depending on a predetermined condition of the vehicle. The switch may include a connecting lever that is moveable into and out of coupling engagement between first and second portions of the actuation cable. The connecting lever may de-couple the cable portions only after a first actuation is complete, thereby allowing a partial opening of the trunk but preventing a fully opening if the predetermined condition is satisfied, such as exceeded a threshold vehicle speed.

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 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 latch assembly includes a forkbolt biased to rotate in a first direction about a first pivot point, and a detent biased to rotate in a second direction about a second pivot point, the detent configured to engage with the forkbolt in at least two different positions. The latch assembly further includes a lever having a first end coupled to the detent and a second end biased toward the forkbolt. The latch assembly further includes a switch configured to detect a position of both the forkbolt and the combined lever and detent.

A latch assembly includes a forkbolt biased to rotate in a first direction about a first pivot point, and a detent biased to rotate in a second direction about a second pivot point, the detent configured to engage with the forkbolt in at least two different positions. The latch assembly further includes a lever having a first end coupled to the detent and a second end biased toward the forkbolt. The latch assembly further includes a switch configured to detect a position of both the forkbolt and the combined lever and detent.