An apparatus is described for interconnecting a steering knuckle and lower suspension arm. The apparatus includes a ball joint assembly having a height adjustment feature and a non-concentric ball and shaft that together allow for increased range of camber adjustment.

A subframe assembly for a vehicle and a method for manufacturing the same is disclosed. The subframe assembly includes a crossmember, a straight arm, and a side bracket. The crossmember includes an end bracket disposed at an end thereof. The straight arm is received into and metallurgically bonded to the end bracket of the crossmember. The side bracket includes a base, and a rear bracket arm. The base is metallurgically bonded to a side of the straight arm adjacent to the end of the crossmember. The rear bracket arm extends from an end of the base and defines a hole adapted to receive a screw or pin for connecting a control arm of a wheel suspension to the subframe assembly. The rear bracket arm is at least partially received into and metallurgically bonded to the end bracket of the crossmember.

An adjustable floating traction bar is disclosed. The traction bar comprises a rigid body having a threaded portion on a first distal end to receive a threaded eyelet having a spherical joint to provide a connection point to an axle of a vehicle. The traction bar further comprises an opposing distal slip end being machined and fitted with a UHMW (ultra high molecular weight) polyethylene bushing that acts as a slip-joint the slip joint having a first end that mounts to the UHMW polyethylene bushing of the tubular body and an opposing end having an eyelet to provide a connection point to a vehicle frame. A two-stage nested coil spring located inside the slip end of the rigid body that rests against the slip joint end when it is inserted into rigid body.

A vehicle suspension arrangement includes a mounting bracket, a trailing arm, an air spring assembly configured to bias a second end of the trailing arm from a vehicle frame member, an axle assembly couple to the trailing arm, and a trailing arm connection assembly that includes a connector having a first portion received within an aperture of the mounting bracket, and a second portion extending outwardly from the first portion and including an aperture, a bushing member received within a first end of the trailing arm, a pin member received within the bushing member and including a first aperture, and a first mechanical fastener received within the first aperture of the pin member and within the aperture of the second portion of the first connector, thereby pivotably securing the trailing arm to the mounting bracket.

An axle hanger includes a web, a first flange extending in a first direction perpendicular to the web, and a second flange extending in the first direction perpendicular to the web, spaced from and parallel to the first flange. A first return extends from the first flange toward the second flange parallel to the web, and a second return extends from the second flange toward the first flange parallel to the web. The axle hanger is easier to install and access in the event a hanger spring needs replacement, and the hanger can be more stably secured to the axle.

A shroud for a heavy-duty vehicle component that includes structure enabling the component to be mounted and housed within an interior space of the shroud, such that the component is substantially enclosed and protected when the shroud is mounted on the heavy-duty vehicle frame. In one embodiment, the component is a valve of a pin release/locking system of a moveable subframe. The shroud enables mounting of the component in a location within the interior space of the shroud that provides relatively safe, sufficient clearance for components of a forward mounted down-stop employed in some axle/suspension systems depending from the heavy-duty vehicle frame. The shroud includes structure that enables the shroud to be temporarily attached to a heavy-duty vehicle moveable subframe during shipping at a location on the subframe so that the component and associated structure are within the longitudinal length of main members of the subframe.

A traction bar prevents rotation of an axle housing for a vehicle utilizing leaf springs. A traction bar has a rigid rail member having a first end and a second end. The traction bar also has a pivoting shackle member having a proximal end and a distal end. The proximal end of the shackle member is pivotally attached to the vehicle frame or to a vehicle frame bracket attached to the vehicle's frame. The distal end of the shackle member is pivotally attached to the first end of the rigid rail member. An axle bracket is pivotally attached to the second end of the rigid rail member. The three pivots provided with the traction bar provide for normal movement of the suspension without binding. However, upon acceleration or high torque load, the shackle member is thrust into axial alignment with the rigid rail member, stopping forward motion of the rigid rail member.

A work vehicle according to the present invention includes left and right axle cases of a rigid axle type, and left and right suspension mechanisms movable in the up-down direction relative to body frames and separately supporting the left and right axle cases, respectively. The work vehicle also includes (i) a first projection projecting downward from the left or right one of the body frames, (ii) a second projection projecting upward from that position on either the left and right axle cases or a frame body integrated with the axle cases which is opposite to the first projection in the left-right direction, and (iii) a lateral rod having a first end connected with the first projection and a second end connected with the second projection.

A method for producing a mounting arrangement for a link of a motor vehicle suspension that is or can be pivotably mounted on a subframe of the motor vehicle, having the following steps: providing the subframe, which has a first and a second mounting flange for mounting the link; providing at least one intermediate product of a bracket; integrally joining the intermediate product to a mounting flange of the subframe by welding; forming an elongated hole in the intermediate product by punching of the same; and forming at least one stop on the intermediate product for an adjusting eccentric for chassis adjustment by stamping the intermediate product.

A vehicle suspension position adjustment arrangement including a frame member having a plurality of apertures, and a trailing arm having a first end pivotally coupled to a slide member and a second end biased away from the frame member. A locking pin movable between an unlocked position where the locking pin is withdrawn from one of the apertures and the slide member is free to slide along the frame member, and a locked position where the locking pin engages one of the apertures preventing the slide member from sliding along the frame member, and a plurality of sensors spaced along the frame member, wherein a single sensor of the plurality of sensors is configured to sense both the locking condition of the locking pin and the location of the locking pin along the frame member.