A shield assembly for a shaft includes a first tubular section having a first end and a second end and a second tubular section having a first end and a second end. The first and second tubular sections are each hollow receiving the shaft. The first tubular section includes a first outer diameter and the second tubular section includes a second outer diameter, the first outer diameter being greater than the second outer diameter. The first tubular section and the second tubular section are telescopically coupled to one another where the second tubular section is movably disposed at least partially within the first tubular section.

A front PTO implement auto connect system includes a frame having a drive over surface and a pair of rear attachment members automatically and releasably engageable by a tractor rear draft linkage. The system includes a PTO coupling member mounted on the frame, and a front PTO shaft extending forwardly from the frame to a front PTO housing. A front attachment member on the front PTO housing is automatically and releasably engageable by a tractor front hanger. The front PTO implement auto connect system may be picked up with the same or similar linkages used to pick up a mid-mounted implement such as a mower deck.

A safety guard support for a power take off shaft, the safety guard support including a bearing; and a retainer ring. The bearing and the retainer ring including corresponding interlocking formations configured to prevent rotation of the bearing relative the retainer ring about a longitudinal axis.

A protective covering for a shaft output of a transfer gearbox, comprising a solid, inelastic protective covering body, wherein the protective covering body has substantially the form of a frustoconical casing in order to surround a shaft in the region of the shaft output, having a first opening at a first axial end and a second opening at a second axial end, situated opposite from the first end, of the protective covering body, wherein the first opening is larger than the second opening, wherein the second opening is formed to surround the shaft, wherein, in the region of the first opening, a flange portion, lying at the top in the installed position, of the protective covering body is formed to be fastened to a housing of the transfer gearbox, wherein, in the region of the first opening, a portion, lying at the bottom in the installed position, of the protective covering body is formed to provide an outflow opening when the flange portion is fastened to the housing of the transfer gearbox.

A shield assembly for a shaft includes a first tubular section having a first end and a second end and a second tubular section having a first end and a second end. The first and second tubular sections are each hollow receiving the shaft. The first tubular section includes a first outer diameter and the second tubular section includes a second outer diameter, the first outer diameter being greater than the second outer diameter. The first tubular section and the second tubular section are telescopically coupled to one another where the second tubular section is movably disposed at least partially within the first tubular section.

A shielding element for protecting at least one suspension and/or driveline component. The shielding element is connected to a suspension component. The suspension component extends in a first axial direction and includes a mounting portion at one end for mounting the suspension component to a vehicle. The suspension component further includes a second end for mounting the suspension component to a knuckle. The second mounting portion is capable of receiving a suspension mounting component, which may be or include a ball joint. The shielding element is located near the second mounting portion. The shielding element extends from a surface of the suspension component in a second direction different from the first direction. The portion of the protection element that extends in the second direction may protect at least one of the mounting point, the suspension mounting component, and the driveline component from contact with debris.

A universal joint shaft with universal joint shaft protection comprises at least one shaft element for transmitting torque, at least one protective tube element arranged around the shaft element, and an intermediate bearing, by means of which the shaft element is rotatably mounted about an axis of rotation (L) in the protective tube element, wherein the intermediate bearing comprises an outer ring fixed to the protective tube element and an inner ring fixed to the shaft element, which are rotatable relative to each other, and a clamping mechanism by means of which the inner ring is fixed on the shaft element.

A front PTO implement auto connect system includes a frame having a drive over surface and a pair of rear attachment members automatically and releasably engageable by a tractor rear draft linkage. The system includes a PTO coupling member mounted on the frame, and a front PTO shaft extending forwardly from the frame to a front PTO housing. A front attachment member on the front PTO housing is automatically and releasably engageable by a tractor front hanger. The front PTO implement auto connect system may be picked up with the same or similar linkages used to pick up a mid-mounted implement such as a mower deck.

In one embodiment, a drive axle, comprising: a first axle frame comprising a first pair of gears at opposing sides of one end of the first axle frame, each of the gears comprising a hole; a second axle frame comprising a second pair of gears at opposing sides of one end of the second axle frame adjacent the one end of the first axle frame, each of the gears comprising a hole, the first pair of gears intermeshing with the second pair of gears throughout an articulation range; a center frame disposed between the first and second axle frames, the first and second axle frames coupled to the center frame by plural pins disposed in the holes of the first and second pairs of gears; a driving shaft surrounded at least in part by the first axle frame and comprising a first yoke; a driven shaft surrounded at least in part by the second axle frame and comprising a second yoke; and a double cardan joint, the double cardan joint coupled to the first and second yokes, wherein the center frame surrounds at least a portion of the double cardan joint.

A dual plunging constant velocity (CV) drive shaft is provided for communicating rotational forces from a transaxle to a drive wheel of a vehicle. The dual plunging CV drive shaft comprises a drive shaft that transfers torque from the transaxle to the drive wheel. An inboard plunging CV joint is coupled between the transaxle and the drive shaft, and an outboard plunging CV joint is coupled between the drive shaft and the drive wheel. The inboard and outboard plunging CV joints each comprises an elongate housing that receives a CV joint coupled with the drive shaft. The inboard and outboard plunging CV joints communicate rotational forces from the transaxle to the drive wheel during vertical pivoting of a trailing arm coupled with the outboard plunging CV joint. The elongate housings allow the drive shaft to float longitudinally, as needed, during extreme pivoting motion of the suspension.