A waste compaction system for a vehicle includes a moveable trolley for storing waste, and a docking station integratable into a cabin monument for inserting the trolley. The trolley includes a housing having an opening for inserting waste, a vacuum waste compacting mechanism inside the housing and a first suction port accessible from outside the housing, the first suction port being couplable with the vacuum waste compacting mechanism. The docking station and the trolley are adapted to each other such that the trolley is engageable with the docking station, and wherein the docking station includes a second suction port couplable with a suction line in the vehicle and the first suction port. Resultantly, a lightweight and efficient waste compaction system is provided, which allows moving the trolley for collecting waste inside a cabin of the vehicle.

An agricultural harvesting machine for crop material including a crank arm connected to a rotational power source, a plunger having an extended position which is located further rearward in a compression chamber than a retracted position, and a connecting link connected between the crank arm and the plunger. The movement plunger is decoupled from the movement of the crank arm during a startup mode of the agricultural harvesting machine. The movement plunger is coupled to the movement of the crank arm during a run mode of the agricultural harvesting machine. The connecting link, crank arm, or both have a variable length.

An agricultural harvesting machine for crop material may include a crank arm connected to a rotational power source, a plunger having an extended position which is located further rearward in a compression chamber than a retracted position, and a connecting link connected between the plunger and the crank arm, with one of the connecting link and the crank arm having a variable length. The agricultural harvesting machine may include a startup mode and a run mode. The movement of the plunger can be decoupled from the movement of the crank arm at the beginning of the startup mode. The plunger can move to a predetermined position during the startup mode. The movement of the plunger can be coupled to the movement of the crank arm during the run mode.

A method and system for compacting waste materials in a collection container. The container can be a freestanding waste container, a self-container compaction container, or a container on a waste collection vehicle. A hydraulically operated compactor blade is positioned in the raised upper portion of the container with its bottom edge a distance above the floor. A platform with a hinged portion can be included to divide the container volume into two separate compartments in order to collect different types of waste materials.

A feeder system for advancing a compressible material has a hydraulic circuit associated with a final compression stage. The hydraulic circuit includes a platen attached to a primary ram configured to travel within a primary cylinder. The platen is operatively connected to a main piston cylinder assembly and at least two ancillary piston cylinder assemblies. In a first mode of operation, the hydraulic circuit forces the ancillary piston cylinder assemblies to advance the platen and ram in a forward compression direction until they reach a first predetermined position between travel extremes, while the main piston cylinder assembly passively travels along in the forward compression direction. Once the first predetermined position is reached, in a second mode of operation, the hydraulic circuit additionally forces the main piston cylinder assembly to compress the compressible material. In a third mode of operation, the hydraulic circuit retracts the platen and primary ram.

A baler and methods of operating a baler. For example, the baler includes a housing defining an interior volume, the interior volume comprising 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 baler for forming a pressed bale includes a baling chamber and a press means mounted within the baling chamber. The press means is operable in a bale formation cycle, where the bale formation cycle comprises bale formation cycle parameters. A primary power source is operably coupled with the press means to transmit a power to the press means, and an auxiliary power source is coupled to the press means. The auxiliary power source is operable in a power transmitting mode to transmit an auxiliary power to the press means. A control means is electrically coupled to the auxiliary power source such that the control means is configured for controlling operation of the auxiliary power source. The operation of the auxiliary power source is operably controlled manually or by the control means according to the bale formation cycle parameters.

An extension for connection to a vehicle can include a first side, a second side, a ceiling, and a bottom, the first side opposing the second side and the ceiling opposing the bottom, each of the first side and second side connected to the ceiling and the bottom; a partition arranged between the first side and the second side; and a baler, wherein the ceiling, the first side, the bottom, and the partition define a storage compartment, wherein the ceiling, the second side, the bottom, and the partition define a baler compartment, and wherein the baler is arranged within the baler compartment, the baler comprising a compression system and a baling system.

Improved bales may be formed using methods that include using baling equipment with an air blasting crumb chute that may reduce wear and tear and maintenance, and/or improve efficiency by reducing material waste, imperfections, and/or contamination. The crumb chute may include an air inlet and a plurality of apertures in fluid communication with the air inlet. Air may be provided through the apertures to prevent crumbles from accumulating on the baling assembly as they fall through the chute to the press chamber and/or to blast already accumulated residual crumbles from components of the baling assembly, such as a traveling chute, and into the press chamber. The crumb chute may include a polyoxymethylene insert in which the air inlet and apertures are provided. The crumb chute may be provided as a kit for attachment to various baling apparatuses. Additional features and components also are described.

A feeder system for advancing a compressible material has a hydraulic circuit associated with a final compression stage. The hydraulic circuit includes a platen attached to a primary ram configured to travel within a primary cylinder. The platen is operatively connected to a main piston cylinder assembly and at least two ancillary piston cylinder assemblies. In a first mode of operation, the hydraulic circuit forces the ancillary piston cylinder assemblies to advance the platen and ram in a forward compression direction until they reach a first predetermined position between travel extremes, while the main piston cylinder assembly passively travels along in the forward compression direction. Once the first predetermined position is reached, in a second mode of operation, the hydraulic circuit additionally forces the main piston cylinder assembly to compress the compressible material. In a third mode of operation, the hydraulic circuit retracts the platen and primary ram.