Disclosed are embodiments of a system and method for baling recyclable materials and managing the baling of recyclable materials. The apparatus for baling includes a finger baler for continuous compressing and baling recyclable materials, a scale, label printer, and a processor. Certain embodiments further comprise at least one digital camera, RFID dispenser, and internet connection that allows the processor to transmit collected data to a remote database for further analysis. The disclosed method for baling recyclable materials comprising the steps of continuously adding and compressing materials; forming a completed bale; weighing the bale automatically using a digital scale operably connected to the processor; recording the bale weight automatically; and printing a label. Additionally, the method may comprise inputting information and/or automatically recording data, and/or automatically transmitting the data associated with a bale to a remote database.

A waste material compaction device includes an auger cone having a base skirt; a hopper for containing said auger cone; a support located inside the auger cone and fitted to the hopper; an auger flight arranged on an outer surface of the auger cone; a first bearing located adjacent the base skirt of the auger cone; a second bearing positioned inside the auger cone at a distance from the first bearing; and an electric motor and a gearbox for driving the auger cone and the auger flight such that waste material placed in the hopper is compacted in a predetermined direction; the first and second bearings bearing a working load of the waste material compaction device.

A baler and methods of operating a baler. The baler includes a housing defining an interior volume, the interior volume including a compression portion and a loading portion. The baler also includes a first closure movably coupled with the housing and operative to enclose the compression portion and a second closure movably coupled with the housing and operative to enclose the loading portion. Further, the baler includes a reciprocating compression assembly including a linear actuator and a platen operably coupled with the linear actuator. The platen is movable between a retracted position and an extended position in response to actuation of the linear actuator. Additionally, the first closure defines at least one recess therein and a lip extending about at least a portion of the at least one recess. The lip is operative to engage with compressible material disposed in the compression portion.

A pickup unit of an agricultural baler that includes a reel with a plurality of tines configured for lifting a crop material from a field, the reel is rotatable in an operating direction and a reverse direction, and a drive system configured for driving the reel. The drive system includes a gearbox configured for receiving motive power from a power take off (PTO) shaft, a drive shaft operably connected to the gearbox, and a first clutch connected to the drive shaft. The first clutch is configured for operably disconnecting motive power to the reel so that the reel is manually rotatable as the PTO shaft remains operably engaged with the gearbox.

An actuation system for moving a movable platen of a bale recompression system includes one or more actuators, a first scissors linkage, a second scissors linkage and a cross-member. The first scissors linkage has a first link end coupled to a frame of the bale recompression system and has a second link end coupled to the movable platen. The second scissors linkage has a third link end coupled to the frame and has a fourth link end coupled to the movable platen. The cross-member interconnects the first scissors linkage and the second scissors linkage. Actuation of the one or more actuator pivots the first link end of the first scissors linkage and the third link end of the second scissors linkage relative to the frame and translates the movable platen from a first position to a second position. The first scissors linkage and the second scissors linkage are configured to maintain a fixed orientation of the movable platen in the first position and in the second position.

A system for recompressing a round bale into a square bale includes a bottom platen to receive the round bale and a movable platen translatable relative to the bottom platen. The system includes an upper platen rotatable relative to the bottom platen. The upper platen is rotatable between a first position to receive the round bale between the bottom platen, the movable platen and the upper platen, and a second position in which the upper platen cooperates with the movable platen and the bottom platen to recompress the round bale into the square bale.

A system for recompressing a round bale into a square bale includes a bottom platen and a fixed platen proximate the bottom platen. The system includes a transfer table to receive the round bale. The transfer table is movable relative to the bottom platen to transfer the round bale to the bottom platen and to recompress the round bale. The system includes an upper platen rotatable relative to the bottom platen and the fixed platen. The upper platen is rotatable between a first position to receive the round bale between the bottom platen, the fixed platen and the upper platen, and a second position in which the upper platen cooperates with the transfer table to recompress the round bale into the square bale.

A system is configured to prepare and band a crop package. The system includes an agricultural baler configured to move relative to a surface. The agricultural baler includes a formation chamber configured to form the crop package into a substantially cylindrical shape. The agricultural baler also includes a banding mechanism configured to band the crop package within the formation chamber in the cylindrical shape with a first banding element. The system also includes a mobile reconfiguration and bander assembly configured to move relative to the surface. The reconfiguration and bander assembly is configured to form the cylindrical shaped crop package into a substantially different shape and to band the crop package in the different shape with a second banding element.

In an embodiment of a core compressor, the core compressor includes a housing and a first pair of rollers and a second pair of rollers, both positioned in the housing. For each of the pair of rollers, an upper roller is positioned in vertical alignment relative to a lower roller. The first pair of the rollers is located proximate to a first end of the core compressor, and the second pair of the rollers is located proximate to a second and opposing end of the core compressor. The upper roller of the first pair of rollers is located a first distance from the lower roller of the first pair of rollers. The upper roller of the second pair of rollers is located a second distance from the lower roller of the second pair of rollers. The first distance is greater than the second distance. Each roller includes at least one row of teeth extending generally perpendicularly away from the surface of the roller.

A bale forming apparatus including a bale forming device providing a bale forming chamber, a rotatable driving member, a shaft, and a free-wheel clutch provided between the shaft and the rotatable driving member. The shaft drives at least temporarily the rotatable driving member. The free-wheel clutch transfers a rotation of the shaft onto the driving member. The rotated driving member drives at least one part of the bale forming device. The bale forming device forms a bale in the provided bale forming chamber. At least one time the rotatable driving member is rotated with respect to the shaft. The free-wheel clutch enables this rotation of the rotatable driving member.