A baler includes a housing forming a baling chamber. The baling chamber has an inlet that defines an inlet width perpendicular to a central longitudinal axis of the baler. A pre-cutter is disposed forward of the inlet along the central longitudinal axis and includes a cutter width perpendicular to the central longitudinal axis. The cutter width is substantially less than the inlet width. A crop distributor is disposed between the pre-cutter and the inlet and conveys the crop material from the pre-cutter to the inlet. A pick-up head is disposed forward of the pre-cutter and lifts the crop material from the ground and conveys it to the pre-cutter.

A hay bale feeder is described. Embodiments of the hay bale feeder include a frame, one or more bale support members, and a pair of spaced apart drum assemblies. The hay bale feeder can be implemented to shred a square hay bale. The hay bale feeder can typically be attached to a tractor or other vehicle. The pair of spaced apart drum assemblies can include a pair of drums having protrusions that are adapted to shred a square hay bale as the square hay bale is gravity fed to the pair of drum assemblies.

A hay bale feeder is described. Embodiments of the hay bale feeder include a frame, one or more bale support members, and a pair of spaced apart drum assemblies. The hay bale feeder can be implemented to shred a square hay bale. The hay bale feeder can typically be attached to a tractor or other vehicle. The pair of spaced apart drum assemblies can include a pair of drums having protrusions that are adapted to shred a square hay bale as the square hay bale is gravity fed to the pair of drum assemblies.

An agricultural vehicle includes a chassis; a header carried by the chassis and configured to cut crop material; a chopper carried by the chassis downstream of the header; and a windrow assembly carried by the chassis downstream of the chopper. The windrow assembly includes a windrow chute defining a leading edge downstream from the chopper and a trailing edge downstream from the leading edge; and a roller associated with the leading edge to form an active leading edge of the windrow chute during rotation.

A method for electrification of a field chopper comprising the steps of: providing a cable drum and a winding drive on the field chopper, the cable drum and winding drive allowing at least one of the winding and unwinding of an energy supply line about the cable drum; providing a cable arm on the field chopper, the cable arm configured to adjust in at least one of an orientation and extension length to provide guided winding or unwinding of the energy supply line along a field surface; providing a pivotable ejection chute on the field chopper, the ejection chute extending beyond the cable arm and configured to transfer a chopped harvested material onto a transport vehicle driving alongside the field chopper; unwinding the energy supply line while along a first processing strip from the cable drum using the winding drive and cable arm; and winding the energy supply while along a second processing strip about the cable drum using the winding drive and the cable.

A conveying device (1) for picking up a sward of crop material from the ground and feeding the crop material to, for example, a baler (4), comprises a conveying channel (28) through which the crop material is conveyed from a pick-up mechanism (18) to the baler (4) by a feed rotor 34. The conveying channel (28) comprises a base (30) comprising an upstream base part (43) and a downstream base part (44). The upstream base part (43) is pivotal adjacent its upstream end (45) about a transversely extending first pivot axis (57). The downstream base part (44) is pivotal about a second transversely extending second pivot axis (76) towards the downstream end (51) thereof. The downstream end (46) of the upstream base part (43) is supported on a pair of first resilient mounting members (59) and the upstream end (50) of the downstream base part (44) is supported on a pair of second resilient support members (85) through a pair of carrier arms (78) which are pivotal about a transversely extending carrier pivot axis (74). The resilience of the first and second resilient support members (59) and (85) is such that on the force with which crop material is being urged by the feed rotor 34 against the upstream and downstream base parts (43) and (44) exceeding respective first and second predefined values, the first and second resilient support members (59) and (85) yield, thereby permitting downward displacement of the downstream end (46) of the upstream base part (43) and the upstream end (50) of the downstream base part (44) in order to permit crop material to pass through the conveying channel (28) without becoming jammed between the feed rotor (34) and the upstream and downstream base parts (43) and (44).

An agricultural vehicle includes a chassis; a header carried by the chassis and configured to cut crop material; a chopper carried by the chassis downstream of the header; and a windrow assembly carried by the chassis downstream of the chopper. The windrow assembly includes a windrow chute defining a leading edge downstream from the chopper and a trailing edge downstream from the leading edge; and a roller associated with the leading edge to form an active leading edge of the windrow chute during rotation.

A chopping drum is provided for a forage harvester including a plurality of blade holders distributed around the periphery of the chopping drum, and a plurality of chopping blades. Each of the chopping blades is selectively coupled to at least one blade holder in one of at least two different positions specified by a form-fitting means.

A bale processor of a type for tearing apart a bale of forage material into filamentary material includes a shredder rotor with blades that remove filamentary portions of the bale and delivers such filamentary material directly to a multiple fan blower for blowing such filamentary material directly to and out of a delivery chute. An independent dual discharge feature permits discharge out of either side and/or one or more blowers placed closer to the shredder rotor can be used independently of the dual discharge feature and the multiple fan blower feature.