A shredding and baling apparatus provided includes a shredding assembly operatively connected to a baling assembly via a conveyor. A rotatable drum with cutting teeth spirally arranged along the drum is preferably centered within a lower portion of an intake hopper for cutting through material as it is fed into the hopper. Fixed cutting teeth are preferably arranged in a row or rows along each of the longitudinal sidewalls of the hopper, adjacent the cutting drum. A touch screen display and computer may be used in combination with sensors to monitor and control the shredding and baling operation, and a hydraulic system is used to drive the components. The shredding and baling assembly is preferably designed in an industrial size to handle high volumes of material and may be driven or transported from one location to another.

A shredding and baling apparatus provided includes a shredding assembly operatively connected to a baling assembly via a conveyor. A rotatable drum with cutting teeth spirally arranged along the drum is preferably centered within a lower portion of an intake hopper for cutting through material as it is fed into the hopper. Fixed cutting teeth are preferably arranged in a row or rows along each of the longitudinal sidewalls of the hopper, adjacent the cutting drum. A touch screen display and computer may be used in combination with sensors to monitor and control the shredding and baling operation, and a hydraulic system is used to drive the components. The shredding and baling assembly is preferably designed in an industrial size to handle high volumes of material and may be driven or transported from one location to another.

Methods and systems for mapping the distribution of residue material in an environment in which one or more agricultural machines are operable. A sensing arrangement including one or more sensors mounted or otherwise coupled to an agricultural machine operating within the environment is used to obtain sensor data indicative of residue material spread by a spreader tool of the machine. A local distribution of material associated with the spreader tool is determined and used to update a map of a global distribution of the material across the environment. The map of the global distribution comprises one or more sub-regions categorized based on the local distribution dependent on material characteristics at those sub-regions.

A forage bale feed out apparatus is described. The apparatus comprises a chassis arranged to be operatively mounted on or in association with a vehicle in use; feed out means comprising a feed out roller having an axis of rotational symmetry about which the roller is arranged to rotate, a drive motor arranged to rotate the feed out roller, conveying means for urging a bale towards said feed out roller as the size of a bale diminishes. The feed out roller is located at a feed out region, and the conveying means is orientated such that the end of the conveying means proximate the feed out region is elevated towards the axis of rotational symmetry of the feed out roller. The apparatus further comprises a spreader tool adapted to spread and distribute the forage bale portions fed out from the feed roller at the feed out region, wherein the spreader comprises a roller having an axis of rotational symmetry about which the roller is arranged to rotate. The spreader roller has radially extending tines at intervals which tines co operate in use to spread feed from a bale, and further comprising a spreader drive motor arranged to rotate the spreader roller, wherein the feed out roller and the spreader roller are parallel and driven in opposite directions.

A forage bale feed out apparatus is described. The apparatus comprises a chassis arranged to be operatively mounted on or in association with a vehicle in use; feed out means comprising a feed out roller having an axis of rotational symmetry about which the roller is arranged to rotate, a drive motor arranged to rotate the feed out roller, conveying means for urging a bale towards said feed out roller as the size of a bale diminishes. The feed out roller is located at a feed out region, and the conveying means is orientated such that the end of the conveying means proximate the feed out region is elevated towards the axis of rotational symmetry of the feed out roller. The apparatus further comprises a spreader tool adapted to spread and distribute the forage bale portions fed out from the feed roller at the feed out region, wherein the spreader comprises a roller having an axis of rotational symmetry about which the roller is arranged to rotate. The spreader roller has radially extending tines at intervals which tines co operate in use to spread feed from a bale, and further comprising a spreader drive motor arranged to rotate the spreader roller, wherein the feed out roller and the spreader roller are parallel and driven in opposite directions.

The present application is directed to a system and processing method for fractionating pre-formed forage hay bales into a fractionated leaf portion and a fractionated stem portion. More particularly, the system involves grinding, chopping and shredding bales, and fractionating the chopped and shredded bales using a shaker table and grate assembly, into a fractionated leaf portion and a fractionated stem portion using a shaker table. The resulting fractionated leaf portion and fractionated stem portion can then be further processed into pellets for animal feed products, or the fractionated stem portion can be re-baled. Pelletization includes customizing the size of the pellets and the addition of additives to the pellets according to customers specifications for customized animal feed products. Pellets derived from the fractionated leaf portion and the fractionated stem portion are then packaged, typically in bags, for storage and transport.

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 bale processing apparatus include a frame, a bale hopper defining a bale chamber for receiving a bale, a bale shredding assembly including a shredding rotor rotatable in a rotor chamber, and a bale movement assembly configured to move a bale in the bale chamber toward the bale feed opening and the shredding rotor. In embodiments, the apparatus may be mountable on support arms of a loader such that the bale processing apparatus is liftable off of the ground surface, and may include a rotor operating assembly may be mounted on the frame and configured to rotate the shredding rotor, and the operating assembly may include an engine fully mounted on the frame such that the frame and the engine may be removed as a unit from the loader. Other embodiments are also disclosed.

A bale processing apparatus include a frame, a bale hopper defining a bale chamber for receiving a bale, a bale shredding assembly including a shredding rotor rotatable in a rotor chamber, and a bale movement assembly configured to move a bale in the bale chamber toward the bale feed opening and the shredding rotor. In embodiments, the apparatus may be mountable on support arms of a loader such that the bale processing apparatus is liftable off of the ground surface, and may include a rotor operating assembly may be mounted on the frame and configured to rotate the shredding rotor, and the operating assembly may include an engine fully mounted on the frame such that the frame and the engine may be removed as a unit from the loader. Other embodiments are also disclosed.