In a seat-rotating device that enables a seat to be rotated on a base member, a rattle-suppressing member operating in association with a lock member, which switches between the locked state in which rotation of an annular rotating member supporting a seat frame is prevented and release of the locked state, is in close contact with both a support member and the annular rotating member when the lock member is at the locked position, and a gap is created between the support member and the annular rotating member when the lock member attains the lock release position. Accordingly, it is possible to prevent the seat from rattling when it is in a stationary state and to facilitate rotation by releasing the rattle-preventing state when the seat is rotating.

A longitudinal adjustment mechanism (3) for a vehicle seat, in particular for a motor vehicle seat, includes at least one first seat rail (5) and at least one second seat rail (7) that is movable relative to the first seat rail (5). A spindle (11) is associated with the first seat rail (5) and cooperates with a gear mechanism (55) associated with the second seat rail (7). At least one spindle holder (20, 40, 80) secures the spindle (11) relative to the first seat rail (5). At least one floor attachment connects the first seat rail (5) to a vehicle structure. The floor attachment and the at least one spindle holder (20, 40, 80) are separate components.

A longitudinal adjustment mechanism (3) for a vehicle seat, in particular for a motor vehicle seat, includes at least one first seat rail (5) and at least one second seat rail (7) that is movable relative to the first seat rail (5). A spindle (11) is associated with the first seat rail (5) and cooperates with a gear mechanism (55) associated with the second seat rail (7). At least one spindle holder (20, 40, 80) secures the spindle (11) relative to the first seat rail (5). At least one floor attachment connects the first seat rail (5) to a vehicle structure. The floor attachment and the at least one spindle holder (20, 40, 80) are separate components.

A sliding block for a pair of rails of a longitudinal adjusting mechanism may have a base which has a lower sliding surface and an upper sliding surface. At least the upper sliding surface, along its longitudinal extent, may have alternating contact regions and/or parts of the upper sliding surface having one contact region each. Two pairs of the rails may be used with a vehicle seat.

A sliding block for a pair of rails of a longitudinal adjusting mechanism may have a base which has a lower sliding surface and an upper sliding surface. At least the upper sliding surface, along its longitudinal extent, may have alternating contact regions and/or parts of the upper sliding surface having one contact region each. Two pairs of the rails may be used with a vehicle seat.

A track system for a vehicle seat includes a lower track with a slide block with lateral slide bar extending along an upper surface of the lower track. The slide block includes a cross web system connecting the first slide bars with a central cross web portion, a forward cross web portion and a rearward cross web portion. A lower track to slide block fastening system includes a central fastener fixing the central cross web portion to the lower track in lateral and longitudinal directions and allowing movement in a direction away from the lower track, a forward fastener fixing the forward cross web portion in the direction away from the lower track and allowing movement in longitudinal directions and a rearward fastener fixing the rearward cross web portion in the direction away from the lower track and allowing movement in the longitudinal directions.

A seat slide device for a vehicle includes a lower rail mounted on a vehicle floor, an upper rail mounted on an underside of a seat part, and a friction reducing member arranged between the lower rail and the upper rail. The friction reducing member includes sliding contact members. Each of the sliding contact members includes a lower column part, an upper column part, and connection parts which connect the upper column part with the lower column part.

A seat slide device for a vehicle includes a lower rail mounted on a vehicle floor, an upper rail mounted on an underside of a seat part, and a friction reducing member arranged between the lower rail and the upper rail. The friction reducing member includes sliding contact members. Each of the sliding contact members includes a lower column part, an upper column part, and connection parts which connect the upper column part with the lower column part.

In a seat-rotating device that enables a seat to be rotated on a base member, a rattle-suppressing member operating in association with a lock member, which switches between the locked state in which rotation of an annular rotating member supporting a seat frame is prevented and release of the locked state, is in close contact with both a support member and the annular rotating member when the lock member is at the locked position, and a gap is created between the support member and the annular rotating member when the lock member attains the lock release position. Accordingly, it is possible to prevent the seat from rattling when it is in a stationary state and to facilitate rotation by releasing the rattle-preventing state when the seat is rotating.

An assembly including an inner component; an outer component; a tolerance ring, comprising an annular band and a plurality of projections projecting radially from the annular band, the tolerance ring being disposed between the inner component and the outer component; and a low friction layer provided radially inside or radially outside the annular band so as to enable sliding movement in an axial direction between the inner component and the outer component, wherein at least one of the inner component or outer component is profiled to transmit a radial load between the inner component and the outer component to appreciably prevent collapse of the projections.