A suspension strut bearing assembly for connection between a portion of a suspension strut and a vehicle body. The bearing assembly includes an upper spring plate having an upper surface, a lower surface, and an opening defined therethrough, accommodates the piston rod of the shock absorber. The upper surface includes a first, concave race configured to receive rolling elements, and the lower surface includes a spring seat that is adapted to receive a suspension spring. An upper bearing washer that includes a second race that faces the first concave race 26 is provided. Rolling elements are located between the first, concave race and the second race. A retainer retains the upper bearing washer to the spring plate.

Electromechanical apparatuses for controlling vehicle suspension settings. Described herein are electromechanical apparatuses for controlling wheel alignment (e.g., camber, castor and/or toe). In particular, described herein are camber adjusting apparatuses for electromechanically adjusting camber or camber and toe that may be retrofitted onto existing vehicle suspensions.

An offset washer for adjusting the camber angle in a vehicle is disclosed. The offset washer includes a body having an upper surface and a lower surface, an aperture extending through the body, and a protrusion having a longitudinal width different than the body thickness. The protrusion is configured to be inserted into a receiving aperture on a flange of a vehicle suspension system. The protrusion is defined by a formed upset defining a step in the material along a portion of the edge of the aperture, which is formed by upsetting the portion of the edge of the aperture when forming the aperture.

A vehicle height adjusting device which adjusts vehicle height between a vehicle body and a lower arm, may include a suspension spring provided between the vehicle body and the lower arm; a variable portion provided inside an internal diameter of the suspension spring, and whose length is variable by converting a rotary driving motion around an axial direction into an axial rectilinear motion; and a power portion which is provided on the vehicle body, and rotates the variable portion.

A suspension thrust bearing unit for use in an automotive suspension assembly having a lower annular cap rotatable with respect to an upper annular cap and delimiting together an annular chamber that houses a rolling bearing. The lower annular cap provides a subassembly for damping vibrations and distributing stress being provided with a lower support surface that axially supports an upper end of a suspension spring. The subassembly includes an annular stiffening cup made from a metal material and mounted to the lower cap, and an annular damping device made from a resilient material and mounted to the stiffening cup. The stiffening cup having at least one protruding portion formed by stamping and that extends towards the damping device, the damping device being locally deformed by the protruding portion and forming a recess to receive the protruding portion.

Provided are: a slide bearing configured so that degradation in sliding performance caused by the entry of dust, muddy water, etc. can be prevented at low cost; and a strut-type suspension using the slide bearing. A slide bearing (1) is provided with: an upper case (2); a lower case (3) joined to the upper case (2) in a pivotal manner and forming an annular space (5) between the upper case (2) and the lower case (3); and an annular center plate (4) disposed in the annular space (5). An annular lip (43) is formed integrally at the outer peripheral edge (423) of the flange (42) of the center plate (4). The lip (43) is in contact, while deflecting, with an annular protrusion (252) formed in an annular groove (24) in the upper case (2) and covers a thrust bearing surface (422) and a thrust supporting surface (251).

A vehicle suspension support includes a housing including an opening to receive an upper end of a damper and a top mount bushing fixed to an upper surface of the housing, the top mount bushing having an aperture aligned with the opening.

Disclosed herein is a steering linkage system that includes a steering tie bar extending between a first and second spindle of the vehicle and a joint attached to the frame of the vehicle. The system further includes a first steering link attached to and extending between a first steering location that is on or connected directly to the joint and a second steering location that is on or connected directly to the steering tie bar. The system includes a second steering link attached to and extending between a third steering location on or connected directly to a middle of the first steering link located between the first and second steering locations, and a fourth steering location on or connected directly to a pitman arm of the vehicle. Further disclosed is a vehicle having the steering linkage system, and a kit for providing the steering linkage system to a vehicle.

A slide bearing (1) is provided with an upper case (2) attached to an upper support for attaching a strut assembly to a vehicle body, a lower case (3) which is rotatably combined with the upper case (2) and which forms an annular space (7), and an annular center plate (4) and sliding sheet (5) disposed in the annular space (7). The upper case (2) has a load-transmitting surface (27) constituting part of an upper surface of the annular space (7), the center plate (4) is provided with an annular recess (43) filled with a lubricant, and the center plate (4) has a bearing surface (41) for supporting loads exerted on the load-transmitting surface (27). The sliding sheet (5), which is disposed between the load-transmitting surface (27) and the bearing surface (41), has a sliding surface (51) that slides against the bearing surface (41). The sliding sheet (5) is formed of a thermoplastic plastic, and the center plate (4) is formed from a thermoplastic elastomer having a lower modulus of elasticity than the thermoplastic plastic.

A synthetic resin-made sliding bearing 1 includes a synthetic resin-made upper casing 3 having a cylindrical outer peripheral side surface 2; a synthetic resin-made lower casing 6 which has a cylindrical inner peripheral side surface 5 opposed to the outer peripheral side surface 2 in a radial direction A and defining in cooperation with the outer peripheral side surface 2 a cylindrical space 4 as a tubular space extending in a vertical direction B intersecting the radial direction A, and on which the upper casing 3 is mounted; a synthetic resin-made thrust sliding bearing 8 disposed in an annular space 7 between the upper casing 3 and the lower casing 6 in the vertical direction B; and a synthetic resin-made radial sliding bearing 9 disposed in the space 4 with a radial inner clearance [=2.Math.(a+b)] with respect to the upper casing 3 and the lower casing 6.