A baling system comprising a high capacity baler, and an electronic display configured to display baling information to an operator of the baling high capacity baler. The baler additionally comprises a first bale-forming area in which a first series of first individual bales can be formed, and a second bale-forming area in which a second series of second individual bales can be formed. The baler further comprises one or more first sensors configured to sense one or more parameters related to at least one of the first bales, and one or more second sensors configured to sense one or more parameters related to at least one of the second bales. The electronic display is configured to simultaneously display data generated from at least one of the first sensors and at least one of the second sensors.

A baling system including a first bale-forming area configured to form a first series of first individual bales, and a second bale forming-area configured to from a second series of second individual bales. The baling system further includes a bale bundler configured to receive the first and second individual bales from the first and second bale forming-forming areas and to tie a group of at least six bales together to form a bale bundle.

A stuffer assembly includes a stuffer chute and a stuffer for transferring crop material from the stuffer chute into a baling chamber. The stuffer includes a tine bar having a plurality of tines. Each tine is slidably connected to the tine bar to be linearly movable with respect to the tine bar between an extended position and a retracted position parallel to a radial direction of the tine bar. A method accordingly includes retracting a tine from the extended position into the retracted position in case of an overload.

A rotor assembly that has a support tube having a first diameter, at least one tooth coupled to the support tube, wherein the tooth rotates with the support tube to direct crop toward a chamber, and an undershot auger having an auger flight extending radially away from an auger core, the auger flight configured to cause the crop to flow towards a bale chamber region of the rotor assembly when rotation of the rotor assembly causes the crop to flow under the rotor assembly. Wherein, the auger core has a second diameter that is greater than the first diameter.

A method for determining parameters associated with bale charges formed within agricultural balers includes transmitting microwave signals through a charge of crop material located within a pre-compression chamber of an agricultural baler or into a wall of the pre-compression chamber. Additionally, the method includes determining at least one wave-related property associated with the microwave signals as transmitted through the charge of crop material or into the wall of the pre-compression chamber, and estimating a filling degree of at least a portion of the pre-compression chamber based at least in part on the at least one wave-related property associated with the microwave signals.

An agricultural baler includes a feeder duct communicating with a bale chamber for charges of crop material to be transferred into a bale chamber. The baler also includes a door that defines at least a portion of a bottom wall of the feeder duct. The door is movable between: (i) a door-open-position, in which an opening in the bottom wall is provided; and (ii) a door-closed-position in which the opening is closed. The baler further includes a pick-up device that is movable between: (i) a lowered-position in which it is operable to convey crop material into the feeder duct; and (ii) a raised-position in which it is spaced further away from the ground than in the lowered-position. The pick-up device is mechanically coupled to the door of the bottom wall such that movement of the pick-up device causes the door to move from the door-open-position to the door-closed-position.

An agricultural baler includes a main bale chamber having an inlet for receiving crop material. A strawhook arrangement includes a plurality of strawhooks and an actuation mechanism for moving the strawhooks between an open position wherein the inlet to the main bale chamber is open, and a closed position wherein the inlet to the main bale chamber is closed. The actuation mechanism includes a two-bar linkage and an actuator. The two-bar linkage has a first bar with a first end and a second end, and a second bar with a first end and a second end. The first end of the first bar is pivotally coupled with the strawhooks, and the first end of the second bar is pivotally coupled with a fixed structure of the baler. The actuator is coupled with the second ends of the first bar and the second bar. The actuator is operable to apply pushing or pulling forces to each of the second ends and thereby selectively move the strawhooks between the open position and the closed position.

An agricultural baler includes a bale chamber for the compression of crop material into bales. The bale chamber has a floor that comprises an inlet opening. The baler also has a plunger for forcing the crop material from an inlet end of the bale chamber towards an outlet end, and a feeder duct communicating with the bale chamber through the inlet opening. The feeder duct has an upper end facing generally upwardly and communicating with the inlet opening in the bale chamber and a lower end facing generally in a forward direction. The feeder duct also has a top wall and a bottom wall extending between the lower end and the upper end of the feeder duct. The baler also has one or more actuators that are configured to move the top wall and/or the bottom wall; and a controller configured to activate the one or more actuators during a baling operation in order to adjust the volume of the feeder duct.

A stuffer assembly includes a clutch assembly for selectively coupling an input shaft to an output shaft of a drive mechanism, the clutch assembly including a first rotary element and a second rotary element, one of which is provided on the input shaft and the other one on the output shaft, a plurality of engagement elements, and an electronically controllable actuator configured to engage and disengage the plurality of engagement elements with both of the first rotary element and the second rotary element.

A baler implement includes a lower passage wall defining a lower boundary of a pre-compression passageway. The lower passage wall includes a forward portion and an access panel. A pivotable connection interconnects the forward portion and the access panel at a lower and forward transverse edge of the access panel such that a rearward and upper transverse edge of the access panel moves vertically to provide access into the pre-compression passageway. Access is obtained from the rear of the baler implement, between the rearward transverse edge of the access panel and a bottom wall of the compression chamber, without the access panel hanging down from the compression chamber and obscuring access into the pre-compression passageway.