In a rotary mower having ten generally horizontal cutter disks forming a total cutting length along the cutter bar of 16 feet, the discharge opening containing the parallel conditioner rolls and a parallel transfer roll has a width of at least 125 inches. This allows a first outermost one of the ten disks and approximately one half of the next adjacent disk to be mounted on the cutter bar outwardly of the discharge opening. A convergence system then includes only first and second impellers with the first impeller mounted on the first disk for rotation therewith and the second impeller mounted on an upper support above the impeller so that the second impeller hangs downwardly toward the second disk for contacting the cut crop and mounted immediately adjacent with the second impeller having a peripheral edge located at or immediately adjacent the vertical plane of the side of the discharge opening.

An agricultural machine system includes: an agricultural work vehicle including an agricultural work vehicle frame; a mower-conditioner machine coupled with the agricultural work vehicle frame and including: a mower-conditioner machine frame; a conditioner coupled with the mower-conditioner machine frame; a swath gate coupled with the mower-conditioner machine frame and configured for encountering a flow of a crop material; and a device coupled with the mower-conditioner machine frame, and including a plurality of fins configured for directing a flow of the crop material from the conditioner.

An agricultural machine system includes: an agricultural work vehicle including an agricultural work vehicle frame; a mower-conditioner machine coupled with the agricultural work vehicle frame and including: a mower-conditioner machine frame; a conditioner coupled with the mower-conditioner machine frame; a swath gate coupled with the mower-conditioner machine frame and configured for encountering a flow of a crop material; and a device coupled with the mower-conditioner machine frame, and including a plurality of fins configured for directing a flow of the crop material from the conditioner.

An agricultural machine system, includes: an agricultural machine; a control system operatively coupled with the agricultural machine, the control system including: a sensor configured for: sensing a cut stubble of a plant material; outputting a cut stubble signal corresponding to the cut stubble; a controller system operatively coupled with the sensor and configured for: receiving the cut stubble signal; determining a cut stubble characteristic based at least in part on the cut stubble signal; outputting an output signal based at least in part on the cut stubble characteristic.

An agricultural machine system, includes: an agricultural machine; a control system operatively coupled with the agricultural machine, the control system including: a sensor configured for: sensing a cut stubble of a plant material; outputting a cut stubble signal corresponding to the cut stubble; a controller system operatively coupled with the sensor and configured for: receiving the cut stubble signal; determining a cut stubble characteristic based at least in part on the cut stubble signal; outputting an output signal based at least in part on the cut stubble characteristic.

A harvesting apparatus includes a crop conditioning element coupled to a frame, and a hood moveable relative to the crop conditioning element. An actuating system moveably connects the hood to the frame. The actuating system includes a driven lever arm rotatably attached to the frame and including a first lever connection and a second lever connection positioned opposite each other across a lever rotation axis. A first pivot assembly is rotatably attached to the frame and includes a first pivot connection coupled to the first lever connection of the driven lever arm, and a second pivot connection coupled to a first lift connection of the hood. A second pivot assembly is rotatably attached to the frame and includes a third pivot connection coupled to the second lever connection of the driven lever arm, and a fourth pivot connection coupled to a second lift connection of the hood.

A harvesting apparatus includes a crop conditioning element coupled to a frame, and a hood moveable relative to the crop conditioning element. An actuating system moveably connects the hood to the frame. The actuating system includes a driven lever arm rotatably attached to the frame and including a first lever connection and a second lever connection positioned opposite each other across a lever rotation axis. A first pivot assembly is rotatably attached to the frame and includes a first pivot connection coupled to the first lever connection of the driven lever arm, and a second pivot connection coupled to a first lift connection of the hood. A second pivot assembly is rotatably attached to the frame and includes a third pivot connection coupled to the second lever connection of the driven lever arm, and a fourth pivot connection coupled to a second lift connection of the hood.

Mower (1), has a plurality of mowing elements (2), forming a mower bar (3), a roller conditioner (4), behind the mower bar (3), and an upper conditioning roller (5) and a lower conditioning roller (6), the lower conditioning roller (6) is rotatable about a lower, positionally fixed axis of rotation (8), wherein the upper conditioning roller (5) is rotatable about an upper, shiftable axis of rotation (9) that, as a result of shifting the upper axis of rotation (9), a gap (7) between the conditioning rollers (5, 6) is changeable, wherein the lower conditioning roller (6) and the upper conditioning roller (5) are coupled to each other via a scissors-like transmission (10), and wherein first and second transmission parts (11,12) are coupled to the lower conditioning roller (6) and the upper conditioning roller (5) respectively and are operatively connected to each other and are shiftable in a scissors-like manner.

An agricultural machine system includes: a mower-conditioner machine including a mower-conditioner machine frame, a plurality of conditioner rolls coupled with the mower-conditioner machine frame, and a pivotable swath gate coupled with the mower-conditioner machine frame; a control system operatively coupled with the mower-conditioner machine frame, the control system including: a controller system configured for: determining a swath gate position adjustment based at least in part on a conditioner speed of the plurality of conditioner rolls.

In one embodiment, a system, comprising: one or more pairs of oppositely rotatable, laterally extending rolls, wherein for each pair, at least one of the rolls is moveable relative to the other of the rolls; a hydraulic circuit, comprising: a tensioner circuit comprising: for each pair of rolls, one or more pairs of hydraulic cylinders arranged in parallel, each configured to resist movement of the at least one of the rolls at a respective end of the at least one of the rolls; an accumulator arranged in parallel to the hydraulic cylinders; and plural control valves; and a computing system configured to cause the one or more pairs of hydraulic cylinders to adjust the resistance to movement of the at least one of the rolls of the respective pair of rolls by sending signals to one or more of the plural control valves.