The disclosure generally relates to a baling assembly with a housing defining an interior and having an access opening selectively covered by a closure, a baling chamber within the housing and having a first wall movable along a first axis for compression of material within the baling chamber, and a ram adjacent the baling chamber. The ram includes a driving mechanism operably coupled to a support structure.

Compaction press includes a support structure provided with an abutment surface; a first compaction lid, which is provided with a first flat compaction surface and is rotatably constrained to a first delimitation edge of the support structure; a second compaction lid, which is provided with a second curved compaction surface and is rotatably constrained to a second delimitation edge of the support structure. The abutment surface of the support structure and the first and second compaction surfaces of the first and second compaction arms delimit a pressing chamber, in which a mass of material to be compacted is intended to be deposited. In addition, the second compaction lid includes a first arm and a second arm which are rotatably constrained to each other.

A plunger for an agricultural baler includes: a plurality of plunger sections held together to form the plunger, the plurality of plunger sections including a pair of plunger end sections, each of the plunger sections including at least one tube holding portion having a tube opening formed therein; at least one of at least one roller or at least one sliding block attached to and extending laterally from each of the plunger end sections; and a tube placed within the tube opening of each tube holding portion such that an interference fit is formed between the tube and the at least one tube holding portion of each plunger section to hold the plunger sections together.

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 compaction head for use with a hydraulic ram of a compaction baler includes an first plate operably coupled to the hydraulic ram, a second plate operably coupled to the first plate. The first and second plates are movable between a first position, where the first and second plates are spaced from each other by a distance, and a second position, where the first and second plates are in contact. The compaction head also includes a plurality of springs, a plurality of spikes extending from the first plate, and a plurality of apertures on the second plate. The plurality of springs is disposed between the first and second plates. In the first position, the plurality of spikes is at least partially withdrawn from the plurality of apertures, and in a second position, the plurality of spikes extends through the plurality of apertures.

Embodiments of the present disclosure are directed to new and improved self-contained compactor systems incorporating a straight-push cylinder design, in which the compactor system is actuated in a horizontal direction. The improved design accommodates increased storage volume, long wear parts, simplified reservoir cleaning, and easier external access to the components, cylinders, and hoses of the self-contained compactor system.

Improved balers may include a traveling chute that may reduce wear and tear and maintenance, and/or improve efficiency by reducing downtime. The traveling chute may include moving guides that include channels that engage tongues of stationary guide rails disposed on a baler. For example, the channels may be substantially rectangular channels that run the length of the moving guide. Similarly, the stationary guides may include substantially rectangular tongues and the moving guides may slide across the tongues and upper surfaces of the stationary guides as the traveling chute moves between various positions. The moving guides may include polyoxymethylene inserts in which the channels may be provided. The moving guides and stationary guides may be provided as a kit for attachment to various baling apparatuses. Additional features and components also are described.

A scraper assembly for a baler includes a mounting plate attached to a face of a plunger. The mounting plate includes an annular countersunk region and a concentric mounting bore. A follower plate includes an annular aperture. A scraper plate is attached to the follower plate for scraping a wall of a compression chamber. A cam insert includes a first annular projection seated within the annular aperture of the follower plate, and a second annular projection seated within the annular countersunk region of the mounting plate. The cam insert further includes a through bore extending through the second annular projection. The second annular projection and the through bore are eccentric from a center of the annular aperture and the first annular projection. A threaded fastener extends through the through bore of the cam insert and into threaded engagement with the mounting bore in the mounting plate.

A container packer system includes a transfer base, which receives a container packer adapted for movement longitudinally between retracted and extended positions with respect to the transfer base. The transfer base includes a power subsystem with a motor or engine driving a hydraulic pump for powering hydraulic piston-and-cylinder units of the system, including a container packer piston-and-cylinder unit for hydraulically extending and retracting the container packer. The container packer generally encloses an interior adapted for receiving bulk material for transfer to a transport container, which can comprise a standard shipping container, a trailer or some other bulk material receptacle. The container packer includes a push blade assembly longitudinally movably mounted in its interior and actuated by a push blade piston-and-cylinder unit.

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.