A chopping module which pulls plants inside the module and chops them into billets, comprising a box-shaped body with three open sides, a front inlet for plants to be chopped, a rear outlet for chopped plants and a lower outlet for residues. Plants are pulled by two crosswise pairs of rollers, after which plants are chopped by a rotating blade assembly and a fixed shearbar, which are aligned parallel to the pulling rollers. Between the pulling rollers, a passageway is formed for the plants to be chopped. After the fixed shearbar, said passageway continues in the form of a slide sloping downwards to the rear outlet. The rotating blade assembly is located above the slide and next to the fixed shearbar.

A chopping module which pulls plants inside the module and chops them into billets, comprising a box-shaped body with three open sides, a front inlet for plants to be chopped, a rear outlet for chopped plants and a lower outlet for residues. Plants are pulled by two crosswise pairs of rollers, after which plants are chopped by a rotating blade assembly and a fixed shearbar, which are aligned parallel to the pulling rollers. Between the pulling rollers, a passageway is formed for the plants to be chopped. After the fixed shearbar, said passageway continues in the form of a slide sloping downwards to the rear outlet. The rotating blade assembly is located above the slide and next to the fixed shearbar.

An apparatus for disintegrating large rectangular bales of forage or bedding material and reforming the disintegrated material into small rectangular bales includes an inclined conveyor having spikes projecting therefrom to remove slices of material from the large bale and a spiked roller to move the slice rearwardly onto a tumbler bed that receives the slice and affects disintegration thereof. The tumbler bed includes a plurality of transverse assemblies having disks interleaving with the disks on adjacent assemblies, each assembly rotating faster than the assembly immediately forwardly thereof. The disintegrated material falls through the tumbler bed as discrete components that land on a collecting conveyor that conveys the material rearwardly to a small rectangular baler for repackaging. The apparatus further includes a hold-down mechanism that presses the slices toward the tumbler bed to enhance disintegration. An approach conveyor feeds the large rectangular bales loaded thereon to the inclined conveyor for processing.

An apparatus for disintegrating large rectangular bales of forage or bedding material and reforming the disintegrated material into small rectangular bales includes an inclined conveyor having spikes projecting therefrom to remove slices of material from the large bale and a spiked roller to move the slice rearwardly onto a tumbler bed that receives the slice and affects disintegration thereof. The tumbler bed includes a plurality of transverse assemblies having disks interleaving with the disks on adjacent assemblies, each assembly rotating faster than the assembly immediately forwardly thereof. The disintegrated material falls through the tumbler bed as discrete components that land on a collecting conveyor that conveys the material rearwardly to a small rectangular baler for repackaging. The apparatus further includes a hold-down mechanism that presses the slices toward the tumbler bed to enhance disintegration. An approach conveyor feeds the large rectangular bales loaded thereon to the inclined conveyor for processing.

A three-point bale spreader attachable to a tractor includes an arm capable of lifting a bale into a processing chamber. A pair of rotors with a plurality of flail knives is rotated to shred the bale. A conveyor feeds the bale into the rotating rotors, while a door can be opened to varying degrees to allow the shredded material to exit the bale spreader.

A three-point bale spreader attachable to a tractor includes an arm capable of lifting a bale into a processing chamber. A pair of rotors with a plurality of flail knives is rotated to shred the bale. A conveyor feeds the bale into the rotating rotors, while a door can be opened to varying degrees to allow the shredded material to exit the bale spreader.

A method of loading bales into a bale processing chamber of a bale processor. The bale processing chamber is mounted on a chamber frame mounted on wheels for travel on a ground surface in a forward operating travel direction. A bale fork is pivotally mounted on the chamber frame such that in a lowered position the bale fork is oriented substantially horizontally and rests on the ground surface. The chamber frame is moved rearward such that the bale fork slides under a bale resting on the ground surface with a bale axis oriented substantially horizontally in a first direction substantially perpendicular to the operating travel direction. The bale fork and the bale supported thereon are raised above the ground surface. The bale fork is turned such that the bale axis turns to a second direction substantially parallel to the operating travel direction while maintaining the bale rearward of the bale processing chamber. The bale fork is raised to a raised position where the bale falls into the bale processing chamber with the bale axis oriented in the second direction.

A method of loading bales into a bale processing chamber of a bale processor. The bale processing chamber is mounted on a chamber frame mounted on wheels for travel on a ground surface in a forward operating travel direction. A bale fork is pivotally mounted on the chamber frame such that in a lowered position the bale fork is oriented substantially horizontally and rests on the ground surface. The chamber frame is moved rearward such that the bale fork slides under a bale resting on the ground surface with a bale axis oriented substantially horizontally in a first direction substantially perpendicular to the operating travel direction. The bale fork and the bale supported thereon are raised above the ground surface. The bale fork is turned such that the bale axis turns to a second direction substantially parallel to the operating travel direction while maintaining the bale rearward of the bale processing chamber. The bale fork is raised to a raised position where the bale falls into the bale processing chamber with the bale axis oriented in the second direction.

A connection arrangement for use in a forage harvester between a feed roller and a gear box of a forage harvester is disclosed. A gearbox shaft with a central through bore is rotatingly supported in a gearbox housing around an axis of rotation, an outer surface of a distal end of the gearbox shaft being provided with ridges. A feed roller shaft is rotatingly supported around the axis of rotation, the feed roller shaft having a central blind bore aligned with the central through bore of the gearbox shaft, an outer surface of a distal end of the feed roller shaft being provided with ridges. A connecting shaft is located within the central bores of the gearbox shaft and the feed roller shaft. A sleeve having internal splines is provided, surrounding the distal ends of the gearbox shaft and the feed roller shaft. The splines of the sleeve match the ridges of the gearbox shaft and the feed roller shaft so as to provide torque transmission between the gearbox shaft and the feed roller shaft. A locking element secures the splined sleeve axially in position about the distal ends of the gearbox shaft and the feed roller shaft.

A conveying arrangement conveys loose material in a conveying direction, in particular agricultural material. Several knives of a cutting assembly are mounted below a cutting area guiding surface. The material is first conveyed along the cutting area guiding surface and afterwards along a further guiding surface. Both guiding surfaces are mechanically supported by a connecting assembly. A positioning mechanism can pivot the connecting assembly upwards and downwards. This pivotal movement causes both guiding surfaces to be moved upwards and downwards. The cutting area guiding surface together with the cutting assembly can be shifted laterally, i.e. perpendicular to the conveying direction, and is guided during this lateral movement.