Mowing characteristics of a mowing operation are detected. The mowing characteristics indicate that the mower is engaged and also whether a merger component is engaged. A center line of a windrow is identified based upon a location of the mower and the mowing characteristics. An action signal is generated based upon the center line of the mower.

A brush attachment system with a first module that has a mounting bracket, an arm support, an arm, and an elongated member. The mounting bracket is configured to mount onto a first side of the turfgrass mower. The arm support is coupled to the mounting bracket and the arm has a first end that is pivotally coupled to the arm support. The second end of the arm is configured to couple with a turfgrass brush. The arm is configured to rotate between an active position in which the arm extends towards the front of the turfgrass mower and an inactive position in which the arm is lifted away from the front of the turfgrass mower. The elongated member is configured to extend through the turfgrass mower to a second side of the turfgrass mower and exert a force on the brush attachment system toward the turfgrass mower.

A brush attachment system for a turfgrass mower with a crossbeam, a brush mount, and left and right mounting brackets. The brush mount is suspended from the crossbeam and is configured to support a brush. The left and right mounting brackets are attached to the left and right ends of the crossbeam, respectively. Each of the mounting brackets may have a bracket plate and a clamp. The bracket plate has a clamping surface, and the clamp is configured to butt against the clamping surface of the bracket plate. Slots extend into the bracket plate and slots extend into the clamp. The slots align when the clamp butts against the clamping surface to form holes through the mounting brackets. The brush attachment system is configured to attach to the turfgrass mower by passing two crossbars of the turfgrass mower through the holes of the mounting brackets.

A brush attachment system for a turfgrass mower with a crossbeam, a brush mount, and left and right mounting brackets. The brush mount is suspended from the crossbeam and is configured to support a brush. The left and right mounting brackets are attached to the left and right ends of the crossbeam, respectively. Each of the mounting brackets may have a bracket plate and a clamp. The bracket plate has a clamping surface, and the clamp is configured to butt against the clamping surface of the bracket plate. Slots extend into the bracket plate and slots extend into the clamp. The slots align when the clamp butts against the clamping surface to form holes through the mounting brackets. The brush attachment system is configured to attach to the turfgrass mower by passing two crossbars of the turfgrass mower through the holes of the mounting brackets.

A windrower includes a header having a crop cutting and a crop conditioning mechanism for conditioning crop material severed from the field and for discharging the conditioned material in a rearwardly directed stream as the windrower moves across the field. The windrower has a crop merger attachment with a conveyor configured to receive crop material from the crop conditioning mechanism and direct the crop material to a side of the windrower to form a windrow on the ground to the side of the windrower when in an operation position or to direct the crop material to the ground beneath the windrower when in a nonoperational position.

A harvesting header of an agricultural machine includes a frame, a cutting mechanism coupled to the frame and configured to cut crop, an auger rotatably coupled to the frame at a location rearward of the cutting mechanism, and an impeller rotatably coupled to the frame at a location rearward of the auger. The impeller is configured to receive crop from the auger and condition the cut crop. The crop is projected by the auger in a rearward and upward direction relative to the impeller.

A split reel assembly for a header of a combine harvester is provided. The split reel has two reel assemblies driven by a central support assembly. A pivotable reel finger assembly is incorporated into a medial end of each reel assembly to deflect crop material away from the central support assembly.

A harvesting header bat having a channel for removably receiving alternating quick-release fingers and spacers is provided. The spacers are capable of production in different lengths to support different applications of the harvesting header. The quick-release finger is provided with projections configured for mating with flanges at the channel opening, enabling the finger to be inserted into the channel in a first orientation and then rotated into a second orientation to engage the flanges and releasably lock the finger in place. The spacers are also configured to engage the flanges of the channel and may be provided in different lengths where a particular harvesting header application requires a certain distance between fingers on the bat.

A feed section for a multi-row sugarcane harvester comprises a first feed train configured to advance a first mat of sugarcane received from a first row of sugarcane, a second feed train configured to advance a second mat of sugarcane received from a second row of sugarcane, and a third feed train. The first and second feed trains merge into the third feed train. Each of the first feed train and the second feed train comprises a first feed roller and a second feed roller, each of which has an axis of rotation. With respect to the first feed train, the axes of rotation of the first and second feed rollers are positioned at different acute angles relative to a fore-aft axis of the feed section.

A feed section for a multi-row sugarcane harvester comprises a first feed train configured to advance a first mat of sugarcane received from a first row of sugarcane, a second feed train configured to advance a second mat of sugarcane received from a second row of sugarcane, and a third feed train. The first and second feed trains merge into the third feed train. Each of the first feed train and the second feed train comprises a first feed roller and a second feed roller, each of which has an axis of rotation. With respect to the first feed train, the axes of rotation of the first and second feed rollers are positioned at different acute angles relative to a fore-aft axis of the feed section.