In one aspect, a method for creating merged triple windrows within a field may include performing a first cutting pass across a first triple windrow set of the field in a first harvesting direction so as to sever materials from the ground and deposit the severed materials within a first cut strip to form a first deposit of severed materials. The method may also include performing a second cutting pass across a second triple windrow set of the field subsequent to the first cutting pass in a second harvesting direction opposite the first harvesting direction so as to sever materials from the ground and deposit the severed materials within a second cut strip to form a first separate deposit of severed materials. Moreover, the method may include performing subsequent cutting passes across the first triple windrow set to create a merged triple windrow within the first cut strip.

An agricultural vehicle includes: a chassis; a header carried by the chassis and configured to cut crop material; a chopper carried by the chassis downstream of the header; a spreader assembly carried by the chassis downstream of the chopper; and a windrow assembly carried by the chassis downstream of the chopper. The windrow assembly includes: a windrow chute defining a chute surface and a leading edge downstream from the chopper; and a rotatable conveyor associated with the leading edge and having a surface with at least one conveyor projection extending from the surface, the at least one conveyor projection being configured to convey crop material toward at least one of the chute surface and the spreader assembly during rotation.

An agricultural vehicle includes: a chassis; a header carried by the chassis and configured to cut crop material; a chopper carried by the chassis downstream of the header; a spreader assembly carried by the chassis downstream of the chopper; and a windrow assembly carried by the chassis downstream of the chopper. The windrow assembly includes: a windrow chute defining a chute surface and a leading edge downstream from the chopper; and a rotatable conveyor associated with the leading edge and having a surface with at least one conveyor projection extending from the surface, the at least one conveyor projection being configured to convey crop material toward at least one of the chute surface and the spreader assembly during rotation.

A windrower implement includes a merger controller operatively coupled to a merger attachment for controlling the merger attachment between a deployed position and a stowed position. The merger controller receives a user command selecting one of a single pass windrow configuration in which the windrow is formed from a belly pass, or a double pass windrow configuration in which the windrow is formed from the belly pass and a first merger pass. When the double pass windrow configuration is selected, the merger controller automatically controls the merger attachment into the stowed position when executing the belly pass for the double pass windrow configuration and then automatically controls the merger attachment into the deployed position when executing the first merger pass for the double pass windrow configuration.

A windrower implement includes a merger controller operatively coupled to a merger attachment for controlling the merger attachment between a deployed position and a stowed position. The merger controller receives a user command selecting one of a single pass windrow configuration in which the windrow is formed from a belly pass, or a double pass windrow configuration in which the windrow is formed from the belly pass and a first merger pass. When the double pass windrow configuration is selected, the merger controller automatically controls the merger attachment into the stowed position when executing the belly pass for the double pass windrow configuration and then automatically controls the merger attachment into the deployed position when executing the first merger pass for the double pass windrow configuration.

A self-propelled windrow merger includes a motor and a chassis. At the front of the merger are a first pickup and transfer assembly, a second pickup and transfer assembly and a third pickup and transfer assembly. A cab is above and behind the second pickup and transfer assembly. A folding mechanism for moves each of the pickup and transfer assemblies between a first position wherein the first, second and third pickup and transfer assemblies are laterally aligned and a second position wherein the first and third pickup and transfer assemblies are positioned rear of the cab.

A self-propelled windrow merger includes a motor and a chassis. At the front of the merger are a first pickup and transfer assembly, a second pickup and transfer assembly and a third pickup and transfer assembly. A cab is above and behind the second pickup and transfer assembly. A folding mechanism for moves each of the pickup and transfer assemblies between a first position wherein the first, second and third pickup and transfer assemblies are laterally aligned and a second position wherein the first and third pickup and transfer assemblies are positioned rear of the cab.

A work vehicle for working a swath of crop has at least one ground-engaging wheel or track mounted to the work vehicle and movable in a travel direction along a tread path. A first redistribution device is mounted to the work vehicle to move crop that is ahead of the at least one ground-engaging wheel or track relative to the travel direction. A second redistribution device is mounted to the work vehicle to move crop that is behind the at least one ground-engaging wheel or track relative to the travel direction. The first redistribution device is configured to open the swath of crop along substantially only the tread path ahead of the at least one ground-engaging wheel or track relative to the travel direction, and the second redistribution device is configured to close the swath of crop along the tread path behind the at least one ground-engaging wheel or track relative to the travel direction.

A plain mower includes a plurality of rotary cutters for cutting a crop and a swathing unit for forming the cut crop material into a swath. The swathing unit includes an auger that rotates about an axis to transport crop material axially through the swathing unit. The swathing unit can be configured in a first configuration in which the crop material is ejected axially from the auger, and can be reconfigured in a second configuration in which the crop material is ejected radially from the auger.

A plain mower includes a plurality of rotary cutters for cutting a crop and a swathing unit for forming the cut crop material into a swath. The swathing unit includes an auger that rotates about an axis to transport crop material axially through the swathing unit. The swathing unit can be configured in a first configuration in which the crop material is ejected axially from the auger, and can be reconfigured in a second configuration in which the crop material is ejected radially from the auger.