In an arrangement which includes: a seat support body slidably supported on a fixed rail fixed to a floor; a power supply device supplying power to an electrical component on a seat side; and a drive device driving the seat support body in a front-and-rear direction and having a motor and a transmission member disposed so as to pass longitudinally through an interior of the fixed rail, the power supply device includes: a housing an electric wire for power supply; and a slider linked to the seat support body and slidable within the fixed rail. The electric wire is drawn out from the housing, retained by the slider and slidable within the fixed rail. The slider has an interference-avoiding portion for avoiding interference with the transmission member disposed so as to pass longitudinally through the interior of the fixed rail. Accordingly, the transmission member of the drive device and the slider for retaining the electric wire, which slides within the fixed rail, can be arranged in proximity to each other within the fixed rail while avoiding interference therebetween, thus enabling simplification and a reduction in the size of a rail structure.

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.

A sliding device for a vehicle seat includes a pair of tracks, each having a lower rail and an upper rail, and a locking arrangement having a pair of locking assemblies, each including locking pins for locking a respective one of the upper rails to a respective one of the lower rails. The locking arrangement includes a releasing assembly for driving the locking pins of each of the locking assemblies to an unlocking configuration. The releasing assembly includes a releasing member and a pair of connecting members. The connecting members are each in a force transmission connection with the releasing member and with the locking pins of a respective one of the locking assemblies. The connecting members are entirely received within the tracks, and the releasing assembly is configured to convert rotational movement of the releasing member into linear movement of the locking pins of each of the locking assemblies.

A sliding device includes a fixed rail, a movable rail, a lock plate, a spring member, and a first stopper and a second stopper provided on the lock plate. The lock plate is held by the movable rail, and is displaceable between a locking position where the lock plate engages with the fixed rail and a non-locking position where the engagement is released. The spring member can exert an elastic force to maintain the lock plate in the locking position. The first stopper locks and fixes a first end of the lock plate to the spring member. The second stopper locks and fixes a second end of the lock plate to the spring member.

A longitudinal adjusting device for the motorized longitudinal adjustment of a motor vehicle seat may have a first rail and a second rail. The device may also have a spindle gearbox, a spindle cooperating with the spindle gearbox for the longitudinal adjustment, and a mount for receiving the spindle gearbox. The spindle gearbox may be at least partly held in the inner channel so as to be fixed relative to the first rail. Laterally projecting protrusions of the holding legs of the mount, which legs may be each arranged in front of and behind the spindle gearbox in the longitudinal direction, engage through lateral openings in the first rail. An abutment device having a contact section may be arranged in the region of the lateral openings. The contact section contacts the holding leg arranged in the particular opening. A vehicle seat with the device is also provided.

A vehicle seat longitudinal adjustment device has a floor rail, a seat rail, and a locking unit substantially accommodated in a cavity formed by the rails, and a housing. A bearing shaft is disposed in this housing and extends in the displacement direction. The device includes at least two flat blocking parts, pivotable independently of each other about the bearing shaft and elastically biased, independently of each other, by one blocking spring each, and a releasing part. The structurally identical blocking parts each have two arms, between which the bearing shaft is located. The seat rail has, for each blocking part, shear slots accommodating the first and second arms. The floor rail has a perforated strip cooperating with the first arms, with first blocking slots, and a perforated strip cooperating with the second arms, with second blocking slots. The slots are periodically disposed one behind the other in the displacement direction.

A long rail assembly for use in a vehicle includes a lower channel, an inverted U-shaped upper channel, a gearbox, a rack, a pinion, a drive shaft, and a motor. The lower channel is adapted to extend longitudinally along a floor of the vehicle. The upper channel is slidably coupled to the lower channel. The gearbox is fixedly secured to and housed within the upper channel. The rack is fixedly coupled to the lower channel and includes gear teeth extending along the rack in a longitudinal direction. The pinion is meshingly engaged with the gear teeth. The drive shaft operatively couples the gearbox to the pinion. The motor is operatively coupled to the gearbox to power drive the upper channel along the lower channel.

An end cap for a rail of a longitudinal adjuster has a covering portion, for covering an end-face end of the rail, and a fastening portion, for fastening the end cap to the rail. The fastening portion may be connected to the covering portion forming a four-bar-linkage coupling mechanism. The longitudinal adjuster for a vehicle seat may have at least one pair of rails which is formed from the first rail and the second rail, which is guided displaceably in the longitudinal direction relative to the first rail. At least the first rail or the second rail has at least one opening for the fastening of the end cap for an end of the respective rail. The longitudinal adjuster may have an end cap fastened in the opening.

Provided is a slide device which includes: a lower rail; an upper rail movably attached to the lower rail; a load sensor attached to the upper rail by a first attachment member; and a bracket attached to the load sensor by a second attachment member. The bracket has an insertion hole into which the first attachment member is inserted, a deformation suppressing member is attached to a tip end portion of the first attachment member, the first attachment member has a first bolt and a first nut screwed onto the first bolt, the tip end portion of the first attachment member is positioned on a tip end side of the first bolt with respect to the first nut, and the deformation suppressing member is configured to reduce deformation of the bracket in a direction of separating from the upper rail.

A vehicle track assembly includes a conductive rail coupled to the track assembly. The conductive rail includes an electrically insulative substrate and one or more conductive strips attached to the substrate. The vehicle track assembly further includes a track-mounted component electrically coupled to the conductive rail. The track-mounted component includes a cantilevered biasing member and one or more electrical contacts. The cantilevered biasing member biases the one or more electrical contacts toward the one or more conductive strips to maintain an electrical connection between the one or more electrical contacts and the one or more conductive strips as the track-mounted component is moved along the conductive rail.