An agricultural harvesting machine having a multiple stage compression system includes first and second compression systems. The first compression system includes a first compression mechanism which partially compresses the crop material in a compression chamber. The second compression system includes first and second compartments each having at least one open end and positioned rearward of the compression chamber. The second compression system has a first position in which the second compartment is aligned with the compression chamber and the first compartment is operatively positioned with a second compression mechanism. The second compression system has a second position in which the second compartment is operatively positioned with a third compression mechanism and the first compartment is aligned with the compression chamber. The second compression system includes a binding system operatively associated with the second compression mechanism.

An agricultural harvesting machine having a multiple stage compression system includes first and second compression systems. The first compression system includes a first compression mechanism which partially compresses the crop material in a compression chamber. The second compression system includes first and second compartments each having at least one open end and positioned rearward of the compression chamber. The second compression system has a first position in which the second compartment is aligned with the compression chamber and the first compartment is operatively positioned with a second compression mechanism. The second compression system has a second position in which the second compartment is operatively positioned with a third compression mechanism and the first compartment is aligned with the compression chamber. The second compression system includes a binding system operatively associated with the second compression mechanism.

An apparatus for removing twine from a bale is described herein. The apparatus includes a frame having a mounting portion configured to releasably mount to a vehicle and two opposed arms rigidly coupled to and extending in a common direction from the mounting portion. The apparatus also includes a bale grabbing mechanism coupled to the frame and configured to releasably secure the bale against the opposed arms of the frame, a cutting mechanism movably coupled to one of the opposed arms of the frame, the cutting mechanism including a cutting element being configured to cut the twine and a twine grabbing mechanism coupled to the other opposed arm of the frame. The twine grabbing mechanism is configured to retain the twine after the twine has been cut by the cutting mechanism.

Systems and methods for a dual-blade agricultural grinder are disclosed. A dual blade grinder comprises a casing, a hopper, a cutting mechanism, a chute, and a display. The grinder is configured to cut a plant to a desired particle size. The casing is configured to provide rigid structural support for components of the grinder and provide a safety barrier between the user and the cutting mechanism. The hopper is configured to store and distribute a plant to the cutting mechanism. The cutting mechanism comprises a static blade with one or more serrated edges and one or more plain edges, a floating curved blade, and a particle screen. The display is configured to accept input from a user operating the grinder, and to control operational settings of the grinder. The grinder and its components may be comprised of a food-grade quality steel configured to resist bacterial growth.

Systems and methods for a dual-blade agricultural grinder are disclosed. A dual blade grinder comprises a casing, a hopper, a cutting mechanism, a chute, and a display. The grinder is configured to cut a plant to a desired particle size. The casing is configured to provide rigid structural support for components of the grinder and provide a safety barrier between the user and the cutting mechanism. The hopper is configured to store and distribute a plant to the cutting mechanism. The cutting mechanism comprises a static blade with one or more serrated edges and one or more plain edges, a floating curved blade, and a particle screen. The display is configured to accept input from a user operating the grinder, and to control operational settings of the grinder. The grinder and its components may be comprised of a food-grade quality steel configured to resist bacterial growth.

An automatic net wrap remover is shown and described. The automatic net wrap remover includes a housing constructed of a base and a plurality of sidewalls. The housing has an interior volume. The base supports a belt system that will support a round hay bale and help to rotate the bale. A spindle is attached to the top of one of the plurality of sidewalls that will engage the hay bale. A blade is attached adjacent to the spindle that will cut the net wrapping of the hay bale.

An automatic net wrap remover is shown and described. The automatic net wrap remover includes a housing constructed of a base and a plurality of sidewalls. The housing has an interior volume. The base supports a belt system that will support a round hay bale and help to rotate the bale. A spindle is attached to the top of one of the plurality of sidewalls that will engage the hay bale. A blade is attached adjacent to the spindle that will cut the net wrapping of the hay bale.

An automatic net wrap remover is shown and described. The automatic net wrap remover includes a housing constructed of a base and a plurality of sidewalk. The housing has an interior volume. The base supports a belt system that will support a round hay bale and help to rotate the bale. A spindle is attached to the top of one of the plurality of sidewalls that will engage the hay bale. A blade is attached adjacent to the spindle that cut the net wrapping of the hay bale.

An automatic net wrap remover is shown and described. The automatic net wrap remover includes a housing constructed of a base and a plurality of sidewalk. The housing has an interior volume. The base supports a belt system that will support a round hay bale and help to rotate the bale. A spindle is attached to the top of one of the plurality of sidewalls that will engage the hay bale. A blade is attached adjacent to the spindle that cut the net wrapping of the hay bale.

A bale processor has a towed body that includes one or two hay bale shredders in the form of a flail drum. The bale processor is self-loading such that bales may be loaded in the processing tubs by a set of rear mounted arms and various conveyor chains. The processor also includes a grain tank, a grain metering system, and a grain cracker, all mounted in series. The grain cracker may have a choice of outputs, including back to the grain tank. The cracked grain is fed into the tub to be mixed with other feed materials, such as shredded straw, and is then discharged to the opposite side of the unit. There may be a feed chopper mounted downstream of the tub, such that the feed chopper receives both the grain material and the shredded hay feed. The feed chopper and the grain cracker operate independently, and may have different setting of size, speed, and weight or volume per minute or per unit of distance travelled. The output may have a curtain assembly to facilitate deposit in windrows.