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.

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 plunger and the crank arm. One of the connecting link and the crank arm has a variable length. The plunger moves between the retracted and extended positions during a run mode as the crank arm rotates. The plunger changes speeds during an event phase based upon one of the connecting link and the crank arm varying lengths.

A baler implement includes an upper compression panel and a first side compression panel. A compression frame is disposed around the upper compression panel and the first side compression panel. A panel support structure includes a top portion positioned proximate the upper compression panel, and a first side portion attached to the top portion and positioned proximate the left side compression panel. An actuator interconnects the compression frame and the panel support structure. The actuator is operable to extend to move the panel support structure and the upper compression panel in a first vertical direction along a first compression axis. A first wedging system includes a wedge for converting movement of the first side portion in the first vertical direction along the first compression axis into movement of the first side compression panel in a first horizontal direction along a second compression axis.

A drive system of a utility vehicle comprises a drive motor, a load drive train to drive a load, a propulsion drive train to driver propulsion means of the utility vehicle, and a control unit, which is connected to an actuator for setting the transmission ratio of the propulsion drive train, can be provided with a signal concerning the power consumption of the load, and generates the correction value sent to the actuator on the basis of the signal, so that the propulsion speed of the utility vehicle remains at least approximately constant even if there is a change of the power consumption of the load and/or a pitching motion of the utility vehicle caused by a change of the power consumption of the load is minimized.

An Agricultural baler having a flywheel that is driven via a drive shaft. The flywheel is connected to a pressing component of the baler via a central shaft, wherein the flywheel is mounted over the central shaft via bearings. Further mounted on the central shaft is a shear pin flange which is connected via a shear pin to the flywheel for the purpose of transmitting a rotation movement of the flywheel to the central shaft, wherein the flywheel is held over the central shaft via first fixing component and wherein the shear pin flange is connected to the central shaft via second fixing component.

A method is provided for assembling a bale tag and twine assembly to a baled crop during a baling process. The method includes providing the bale tag having a body with a first end and a second end, and a piece of twine having a defined length. The method also includes indicating at a location on the bale tag an identification indicia that corresponds to the bale tag, and orienting the first end of the bale tag relative to the twine such that the first end of the bale tag is to be passed through a twine tensioner during the baling process before the second end. The method further includes coupling the bale tag to the twine before executing the baling process, forming the baled crop during execution of the baling process, and assembling the bale tag and twine assembly to the baled crop.

A baler including a flywheel driven by a PTO of a tractor, an input shaft which connects to the PTO, an output shaft which connects to the flywheel, an intermediate gear mounted for rotation between the input shaft and the output shaft, the intermediate gear being parallel to the input shaft and adapted to drive the output shaft, wherein the input shaft includes a displaceable geared collar adapted to engage the intermediate gear with either a first lower gear ratio or a second higher gear ratio. This allows the tractor PTO a lower ratio (speed) range to start the flywheel and then accelerate the flywheel to an intermediate speed before shifting and accelerating to the final desired operating speed.

A rotor feeder unit for an agricultural machine, such as an agricultural baler. The rotor feeder unit includes a rotor feeder, and a drive for driving the rotor feeder. The drive of the rotor feeder unit include an input that is configured to be coupled to a power source, an output coupled to the rotor feeder for rotating the rotor feeder about its axis of rotation, and a variable ratio transmission coupling the input and the output. The variable ratio transmission includes a variable-diameter input pulley, a variable-diameter output pulley, and a belt arranged between the input pulley and the output pulley.

Reversing mechanism for an agricultural baler wherein the reversing mechanism includes a driving pulley mounted for rotation together with the conveying elements provided to be connected to the axis such that the axis and the conveying elements can be rotated along the working direction by a driving belt engaging the driving pulley. A tensioning pulley is provided for controlling the tension of the driving belt such that by engaging the driving belt, the driving belt engages the driving pulley such that the axis is rotationally driven by the driving belt, and by sufficiently releasing the driving belt, the driving belt no longer engages the driving pulley and the axis is no longer rotationally driven by the driving belt.