The invention relates to stabilizer bar (10) for use with the suspension of a vehicle such as a truck. The stabilizer bar (10) comprises a shaft (12) supported by bearings (18), cranked parts for example in the form of crank arms (30) being provided at or adjacent each end of the shaft (12), each cranked part having a connection point (32) for connection, in use, to a respective link member (34), wherein each connection point (32) is substantially aligned with a respective one of the bearings (18) relative to the axis of the shaft (12). The invention also relates to a vehicle incorporating such a stabilizer bar (10) and to a roll stabilization method using such a stabilizer bar (10).

An anti-roll bar link for a vehicle suspension may be positioned between an anti-roll bar and an articulating arm. The link selectively transfers movement of the arm to the bar, depending on a locked or unlocked state. The link includes a body interfacing a slidable shaft. A valve selectively controls flow of a damping fluid between an inner chamber of the body and a remote chamber. In the locked state, flow of the damping fluid is restricted at least in a direction from the inner chamber to the remote chamber, and movement of the arm is transferred through the link to the bar. In the unlocked state, flow of the damping fluid is permitted in this direction, and movement of the arm causes the shaft to translate with respect to the body such that at least a portion of the movement is not transferred to the bar.

The present invention provides a shock absorber serving as a cylinder device capable of securing a clearance between an outer tube and a peripheral member and improving bending rigidity of the outer tube. An outer tube 104 housing an inner tube 103 is provided with a pair of knuckle bracket fastening plates 110a and 110b protruding in one direction from an outer surface of the outer tube 104. The pair of knuckle bracket fastening plates 10a and 110b has wide surfaces facing each other, and the wide surfaces are provided along an axial direction of the outer tube 104. When the inside of a vehicle is defined as a virtual region I 192 and the outside of the vehicle is defined as a virtual region II 193 with a virtual line 191, which passes through a stroke center line 71 and matches the inside and outside of the vehicle, as a boundary in an orthogonal cross section at an arbitrary axial position of the outer tube 104 orthogonal to the stroke center line 71 of a piston rod 102, a cross-sectional area A.sub.i1 of the outer tube 104 in the virtual region I 192 is made larger than a cross-sectional area A.sub.o1 of the outer tube 104 in the virtual region II 193.

A sway bar linkage assembly includes a socket joint, a shank extending from the socket joint, a bolt, and a bushing. The shank has a first bore with a first bore diameter and a second bore extending between the first bore and the socket joint. The second bore has a second bore diameter less than the first bore diameter such that a flange extends between the first bore and the second bore. The bolt has a head, a shaft extending from the head and a stud extending between the shaft is included. The shaft has a first diameter and the stud has second diameter less than the first diameter such that a ledge extends between the shaft and the stud. The bushing is compressed a predefined by the bolt when the bolt extends through the bushing and the ledge of the bolt abuts against the flange of the shank.

The present invention relates to all terrain vehicles having at least a pair of laterally spaced apart seating surfaces.

The suspension system includes a stabilizer bar which has an opening. The suspension system also includes a linkage, which includes a rod-shaped link and a pair of bushings that are made of a compressible material. The link presents male threads which extend to an end face and a stop out which is spaced from the end face, and the link extends through the opening of the stabilizer bar. One of the bushings is disposed on the rod-shaped link between the stop out and the opening of the stabilizer bar, and the other bushing is disposed on the link between the opening of the stabilizer bar and the locking nut. A locking nut is threadedly engaged with the link such that the end face of the link contacts a closed end of the locking nut. The bushings are partially compressed against the stabilizer bar.

Suspension systems for recreational vehicles are disclosed. The suspension systems may include at least one adjustable member coupling a sway bar to respective suspensions. The suspension systems may include a torque actuator associated with a sway bar.

A sway bar linkage assembly includes a socket joint, a shank extending from the socket joint, a bolt, and a bushing. The shank has a first bore with a first bore diameter and a second bore extending between the first bore and the socket joint. The second bore has a second bore diameter less than the first bore diameter such that a flange extends between the first bore and the second bore. The bolt has a head, a shaft extending from the head and a stud extending between the shaft is included. The shaft has a first diameter and the stud has second diameter less than the first diameter such that a ledge extends between the shaft and the stud. The bushing is compressed a predefined by the bolt when the bolt extends through the bushing and the ledge of the bolt abuts against the flange of the shank.

A structural panel joining part for a vehicle having an underbody hold-down panel, a floor panel, a dash panel, and a cowl side panel includes an underbody coupling first portion configured to couple to at least one of the underbody hold-down panel and the floor panel, a dash panel coupling second portion configured to couple to the dash panel, and a cowl side coupling third portion configured to couple to the cowl side panel. The structural panel joining part maintains structural integrity between the underbody hold-down panel, the floor panel, the dash panel, and the cowl side panel to provide structural reinforcement during small overlap rigid barrier impacts to facilitate reducing structural intrusion into an occupant compartment of the vehicle.

A stabilizer link includes a support bar, and ball joints. The ball joint includes a ball stud including a ball portion and a stud portion, and a housing that turnably supports the ball portion of the ball stud. The stabilizer is formed of a rod-shaped member made of metal. Mounting portions to which the stabilizer links are to be joined are respectively provided at both ends of the stabilizer. Through-holes through which the stud portions of the ball studs are to be inserted are respectively provided in the mounting portions. The stabilizer link is joined to the stabilizer by press-fitting the stud portion of the ball stud into the through-hole of the mounting portion.