A torque transfer control mechanism that suppresses output-side displacement, and including a rotation control unit that maintains a locked state when an input torque rotating a transfer mechanism is not applied, and releases the locked state when the transfer mechanism rotates. The rotation control unit includes an internal gear and lock plates that include outer teeth that can engage with inner teeth of the internal gear. When an input torque is not applied, the inner teeth of the internal gear engage with the outer teeth of the lock plates, and when the transfer mechanism is rotated, engagement between the inner teeth and the outer teeth is released. Thus, even when torque is applied from the output unit side, engagement between the inner teeth and the outer teeth is not released by the torque.

A seat actuation control system is disclosed. The seat actuation control system may permit multiple functions to be controlled by a single actuator. For example, a seat floor tracking function, and a seat pan track and swivel function may be individually controlled by a single actuator, such as a rotary actuator.

A latching device for automotive applications, in particular a backrest latch for the bolting and unbolting of seat backrests in motor vehicles, with a locking mechanism fundamentally comprising a catch and at least one pawl, and with a manually and/or mechanically impingeable unbolting element for the locking mechanism, wherein the unbolting element is a component of an exchangeable unbolting module which defines a latch casing together with a basic module incorporating the locking mechanism is proposed. A latching device where only the unbolting module is adapted to the specific purpose of use is provided, considerably reducing manufacturing, installation and warehousing costs.

The present invention is a simplified pawl and sector adjustable armrest device. Both the pawl and sector have a toothed edge, which engage one another in the locked position. The locked position prevents the armrest from rotating. A pawl-return torsional spring maintains engagement between the pawl and sector. A release cable can disengage the pawl from the sector, unlocking the adjustable armrest, allowing it to rotate in either position. A protrusion from the sector limits the rotation by butting up against a built-in stop.

An interlock mechanism prevents erroneous operation of a vehicle rear seat. The vehicle seat has a seat back rotatably coupled to a seat cushion. The interlock mechanism includes a handle pivot link, a latch pivot link, and an interlock bracket rotatably coupled to a pivot pin. When the seat back is in an upright position, the interlock bracket releasably couples the handle pivot link to the latch pivot link such that rotation of the handle pivot link rotates the latch pivot link causing the cushion latches to be released. When the seat back is folded towards the seat cushion, the interlock bracket is moved to an interlock position decoupling the handle pivot link and the latch pivot link such that rotating the handle pivot link does not rotate the latch pivot link and does not release the cushion latches.

An autonomous can include one or more configurable passenger seats to accommodate a plurality of different seating configurations. For instance, the one or more passenger seats can include a passenger seat defining a seating orientation. The passenger seat can be configurable in a first configuration in which the seating orientation is directed towards a forward end of the autonomous vehicle and a second configuration in which the seating orientation is directed towards a rear end of the autonomous vehicle. The passenger seat can include a seatback rotatable about a pivot point on a base of the passenger seat to switch between the first configuration and the second configuration. Alternatively, or additionally, the autonomous vehicle can include a door assembly pivotably fixed to a vehicle body of the autonomous vehicle such that a swept path of the door assembly when moving between an open position and a closed position is reduced.

A floor lock release mechanism includes an arm member, a lever, a switching member, a lever biasing member, and a switching member biasing member. The lever is rotatable between a rearward rotational position and a forward rotational position. The lever biasing member biases the lever toward a neutral position. The switching member is rotatable between a locked position and an unlocked position. The switching member biasing member biases the switching member toward the locked position. The lever includes a pressed portion and a pressing portion. The pressing portion is arranged on the same side as a side on which the pressed portion is arranged with respect to a straight line orthogonal to a straight line connecting the pressed portion and a rotation center.

The embodiments described and claimed herein are improved vehicle access systems. In particular, one embodiment includes three compact, motorized mechanisms for pivoting a passenger seat toward a door opening, extending the passenger seat outside the door opening, lowering the passenger seat, and tilting the passenger seat to help the passenger stand. The first mechanism concurrently pivots the passenger seat and moves it sideways during the pivoting operation so that it is aligned with the door opening. The second mechanism extends the passenger seat outside the door opening. The third mechanism lowers the seat.

A method for manufacturing a recliner mechanism may include movably attaching a first plate of a recliner heart to a second plate of the recliner heart, positioning a gap ring onto the first plate of the recliner heart, positioning an encapsulation ring around the first and second plates such that the gap ring is disposed axially between the first plate and the encapsulation ring, and removing at least a portion of the gap ring from between the first plate and the encapsulation ring to form a clearance gap between the first plate and the encapsulation ring.

A support member may be configured for selective connection with and removal from track assemblies. A support member may include a body and a rolling member rotatably connected to the body to facilitate movement of the support member along a track. The rolling member may include a grooved configuration to limit movement of the support member relative to said track in a Y-direction. The rolling member may include a groove configured to engage a protrusion or ridge of said track. The rolling member may include a first portion and a second portion separated in an axial direction by the groove.