An apparatus (10) is provided, configured for use with a trailer (48) of a tractor trailer (44), that includes forward and rearward axles (12, 28) that each have a central body. The forward axle (12) has first and second mounting portions (16, 20) that are configured to receive first and second wide base tires (24, 26). The rearward axle (28) has first and second rearward mounting portions (32, 36) configured to receive third and fourth wide base tires (40, 42). The first forward mounting portion axis (18) is oriented at an angle (56) from +0.75-+0.95 degrees to the lateral direction, and the second forward mounting portion axis (22) is oriented at an angle (58) from +0.08-+0.28 degrees to the lateral direction. The first rearward mounting portion axis (34) is oriented at an angle (60) from +0.65-+0.85 degrees to the lateral direction, and the second rearward mounting portion axis (38) is oriented at an angle (62) from −0.05-+0.15 degrees to the lateral direction.

An apparatus (10) is provided, configured for use with a trailer (48) of a tractor trailer (44), that includes forward and rearward axles (12, 28) that each have a central body. The forward axle (12) has first and second mounting portions (16, 20) that are configured to receive first and second wide base tires (24, 26). The rearward axle (28) has first and second rearward mounting portions (32, 36) configured to receive third and fourth wide base tires (40, 42). The first forward mounting portion axis (18) is oriented at an angle (56) from +0.75-+0.95 degrees to the lateral direction, and the second forward mounting portion axis (22) is oriented at an angle (58) from +0.08-+0.28 degrees to the lateral direction. The first rearward mounting portion axis (34) is oriented at an angle (60) from +0.65-+0.85 degrees to the lateral direction, and the second rearward mounting portion axis (38) is oriented at an angle (62) from −0.05-+0.15 degrees to the lateral direction.

A quick-release axle system includes two bicycle elements, particular two chain stays. They are connected to each other by means of a quick-release axle. Two clamping elements are provided for the connection, so that a non-positive connection is realized between the two bicycle elements and the quick-release axle.

A quick-release axle system includes two bicycle elements, particular two chain stays. They are connected to each other by means of a quick-release axle. Two clamping elements are provided for the connection, so that a non-positive connection is realized between the two bicycle elements and the quick-release axle.

A wheel end support assembly and method of assembly. The assembly may include a spindle, a brake torque plate, and a locator bushing. The locator bushing is received in a first locator hole of the spindle and a second locator hole of the brake torque plate and aligns the brake torque plate to the spindle.

A wheel end support assembly and method of assembly. The assembly may include a spindle, a brake torque plate, and a locator bushing. The locator bushing is received in a first locator hole of the spindle and a second locator hole of the brake torque plate and aligns the brake torque plate to the spindle.

An adjustable front axle includes an axle housing; an axle tube connected to an end of the axle housing; an inner-C-forging disposed on the axle tube at an end away from the axle housing; and a mounting apparatus configured for detachably fixing the inner-C-forging to the axle tube. The inner-C-forging is provided with a first angle adjustment structure, the axle tube is provided with a second angle adjustment structure. The mounting apparatus is disposed on the axle tube, and capable of cooperating with the inner-C-forging to fix the inner-C-forging to the axle tube. The first angle adjustment structure and the second angle adjustment structure have different cooperation positions such that the inner-C-forging has different installation angles relative to the axle tube. A vehicle is also provided.

Systems and apparatuses include a tag axle system including an axle assembly, a linkage coupling the axle assembly to a vehicle chassis, and a hydraulic cylinder coupled between the vehicle chassis and the axle assembly. The hydraulic cylinder actuates the axle assembly between a raised position and a lowered position, and acts as a spring damper suspension component.

The twist axle assembly includes a cross beam that extends along a length between opposite ends, and a pair of trailing arms are fixedly attached with the opposite ends. A spindle plate is fixedly attached with each of the trailing arms. For each spindle plate and trailing arm combination, the spindle plate and trailing arm are provided with cooperating orbital adjustment features which allow an orientation of the spindle plate relative to the trailing arm to be adjusted prior to the spindle plate being fixedly attached with the trailing arm for allowing preselection of a camber angle, a caster angle, and a toe angle for a wheel to be coupled with the spindle plate.

The twist axle assembly includes a cross beam that extends along a length between opposite ends, and a pair of trailing arms are fixedly attached with the opposite ends. A spindle plate is fixedly attached with each of the trailing arms. For each spindle plate and trailing arm combination, the spindle plate and trailing arm are provided with cooperating orbital adjustment features which allow an orientation of the spindle plate relative to the trailing arm to be adjusted prior to the spindle plate being fixedly attached with the trailing arm for allowing preselection of a camber angle, a caster angle, and a toe angle for a wheel to be coupled with the spindle plate.