A seat slide apparatus for a vehicle includes a lower rail, an upper rail, a lock member, a stopper portion, a lever member that rotates in a release direction in association with a forward folding of a seatback, and a memory link being released from the lever member in a state where the lever member rotates in the release direction and rotating to an engageable position at which the memory link is engageable with the stopper portion, the memory link being configured to pass through the stopper portion in a case where the upper rail moves to a front side of the seat, the memory link engaging with the stopper portion to restrict the upper rail from moving to a rear side of the seat in a case where the upper rail moves to the rear side of the seat after the memory link passes through the stopper portion.

A seat track assembly including a first rail and a second rail spaced apart by a distance and extending parallel with respect to one another, wherein at least one of the first and second rails having a first receiver, a second receiver, the first and second receivers longitudinally translatable with respect to each other, and a sliding member disposed therebetween, wherein the sliding member defines an aperture extending at least partially therethrough.

To reduce energy loss to increase power transmission efficiency, as well as to suppress unusual sound resulting from whirling vibration. A driving force transmission mechanism includes a drive unit that generates a rotation force and consists of a motor, as well as an independent rotating mechanism that is disposed between the drive unit and one of a pair of left and right gear mechanisms so as to be connected to the output shaft of the drive unit and has greater kinetic energy than the rotating parts of the gear mechanisms. Flexible shafts that rotate by smaller kinetic energy than any of the kinetic energy of the drive unit, the kinetic energy of the rotating mechanism, and the friction forces and damping forces of the rotating parts of the gear mechanisms connect between the drive unit and rotating mechanism, between the rotating mechanism and one gear mechanism, and between the drive unit and the other gear mechanism.

To provide a simple seat fastening device with enhanced flexibility and the possibility of an easy movement of vehicle seats, a seat fastening device for fastening vehicle seats in a vehicle is provided comprising a seat track and a slider in a sliding engagement with the seat track. The slider includes a seat fixation element to fix a foot of a vehicle seat, wherein the seat track includes a C-shaped profile and the slider includes a base inserted in the C-shaped profile and wherein the slider includes a clamp to clamp the slider against an inner surface of the C-shaped profile. At least one linear roller contact bearing is located between the C-shaped profile and the slider.

A step garnish for a rail and carrier seat system for motor vehicle is disclosed. The rail and carrier seat system includes two rails fixedly attached to and positioned laterally along a floor of the motor vehicle, a carrier laterally slidable within the rails, a handle attached to a laterally exterior side of the carrier, and a seat attached to the carrier. The step garnish includes an inner step garnish portion, the inner step garnish portion being installed below the handle on the carrier, the inner step garnish having an exposed portion; and an outer step garnish portion, the outer step garnish portion including a cut out clearance shape for being installed from above the handle, the cut out clearance shape having a shape substantially similar to the exposed portion of the inner step garnish.

A removable seat of a motor vehicle includes first and second cross brackets laterally spaced apart and arranged perpendicular to first and second upper rails located in a floor of the motor vehicle, the first and second cross brackets being connected to the first and second upper rails, a cover connected to and extending between the first and second cross brackets, a handle extending laterally outward from the cover, a spring-loaded lock that holds the first upper rail in place with one of a first lower rail and second lower rail the floor, and a towel bar that releases the lock, enabling the first and second upper rails to slide within the first and second lower rails.

A rail and carrier system for a removable seat of a motor vehicle includes two lower rails fixedly attached laterally along a floor of the motor vehicle. a first upper rail is nested with and laterally slidable within the first lower rail, and a second upper rail is nested with and laterally slidable within the second lower rail. First and second cross brackets are laterally spaced apart and arranged perpendicular to the first and second upper rails are connected to the first and second upper rails. A cover is connected to and extends between the first and second cross brackets. A spring-loaded lock holds the first upper rail in place with the first lower rail, and a towel bar releases the lock, enabling the first and second upper rails to slide within the first and second lower rails.

A power adjuster (30) for adjusting the position of an upper track (16) relative to a lower track (18) of a seat track assembly (10). The power adjuster includes a lead screw (22) fixedly secured to the upper track, a drive assembly (32) operatively coupled to the upper track and selectively coupled to the lead screw, a driven assembly (34) operatively coupled to the lead screw and selectively coupled to the drive assembly, and a release mechanism (36) coupled to the upper track. The release mechanism is operable between a locked condition coupling the driven assembly to the drive assembly and the upper track wherein the driven assembly and the drive assembly move longitudinally along the lead screw with the upper track relative to the lower track and an unlocked condition wherein the driven assembly is decoupled from the upper track and retained along the lead screw during movement of the upper track relative to the lower track.

A passenger compartment has a flat floor, a movable component and a positioning system for positioning the movable component on the floor. The positioning system has a lower rail extending along a first direction attached to the floor, a carriage slidably engaging with the lower rail for sliding along the first direction, and an upper rail extending along a second direction not coinciding with the first direction and slidably engaging with the carriage for sliding along the second direction. An interface member is attached to the upper rail and provided with openings for being removably connected to the movable component and making the movable component integral with the upper rail in a movement along the first and second directions. The lower rail has continuous-track electrical contacts extending along the lower rail. The carriage has sliding electrical contacts arranged in contact with the continuous-track electrical contacts for transmitting electrical signals.

A method of welding a support on a slide profile, which comprises: a) providing a support having a wall with an inner face, and providing a profile having a wall with an outer face, b) positioning the interface support with the inner face of its wall against the outer face of the wall of the profile, c) creating a welding joint between the wall of the support and the wall of the profile by moving a laser beam relative to the wall of the profile, while keeping the laser beam in a position such that it successively passes through, from an emitting source: the wall of the profile, then the wall of the support, while remaining within the material of the wall of the support.