A windrower implement includes a merger attachment coupled to a frame rearward of an implement head. The merger attachment includes a conveyor positioned relative to the implement head to receive discharged crop material from the implement head and convey the crop material laterally relative to the central longitudinal axis to form a windrow laterally offset from the central longitudinal axis. A forming shield guides the crop material from the implement head to the merger attachment. A crop inflow sensor detects crop inflow rate through the implement head. A crop outflow sensor detects crop outflow rate on the conveyor of the merger attachment. A controller receives and compares signals from the sensors to detect crop material loss.

A crop ramp for a header of an agricultural harvester including a curved plate having an outer surface over which cut crop passes and an inner surface. The crop ramp further includes a roller support extending rearwardly from the curved plate and a roller supported for rotation by the roller support. The roller has an outer circumferential surface configured to be contacted by a fore edge of an upper run of an endless belt draper conveyor in order maintain tracking of the conveyor and eliminate contact between the conveyor and the interior of the crop ramp.

A crop ramp for a header of an agricultural harvester including a curved plate having an outer surface over which cut crop passes and an inner surface. The crop ramp further includes a roller support extending rearwardly from the curved plate and a roller supported for rotation by the roller support. The roller has an outer circumferential surface configured to be contacted by a fore edge of an upper run of an endless belt draper conveyor in order maintain tracking of the conveyor and eliminate contact between the conveyor and the interior of the crop ramp.

A header for an agricultural harvester includes: a header frame; a plurality of cutters carried by the header frame and configured to sever crop material; a draper belt carried by the header frame rearwardly of the cutters and configured to travel in a travel direction; at least one crop ramp associated with at least one of the cutters, the at least one crop ramp including a front edge disposed in front of the draper belt and a rear edge that overlaps the draper belt; and a seed saver that is associated with the draper belt and defines a length extending in the travel direction. The seed saver extends above the draper belt and is disposed rearwardly of the rear edge of the at least one crop ramp.

A high efficiency turf maintenance apparatus having low power consumption, good cutting performance and a mulch plug for a mulching mode is presented herein. The mulch plug can sit conformally within a discharge opening in a mow deck of the high efficiency turf maintenance apparatus. The mulch plug can define multiple flow vanes, including a flow vane that directs material around an interior perimeter of the mow deck to recirculate the material within the mow deck and a flow vane that directs second material away from the interior perimeter and toward a surface on which the high efficiency turf maintenance apparatus rests. The mulch plug can be removed to allow vegetation clippings cut by a blade apparatus to be ejected from the mow deck through the discharge opening to facilitate a bagging or discharge mode of operation.

A high efficiency turf maintenance apparatus having low power consumption, good cutting performance and a mulch plug for a mulching mode is presented herein. The mulch plug can sit conformally within a discharge opening in a mow deck of the high efficiency turf maintenance apparatus. The mulch plug can define multiple flow vanes, including a flow vane that directs material around an interior perimeter of the mow deck to recirculate the material within the mow deck and a flow vane that directs second material away from the interior perimeter and toward a surface on which the high efficiency turf maintenance apparatus rests. The mulch plug can be removed to allow vegetation clippings cut by a blade apparatus to be ejected from the mow deck through the discharge opening to facilitate a bagging or discharge mode of operation.

A windrower implement includes a merger attachment coupled to a frame rearward of an implement head. The merger attachment includes a conveyor positioned relative to the implement head to receive discharged crop material from the implement head and convey the crop material laterally relative to the central longitudinal axis to form a windrow laterally offset from the central longitudinal axis. A forming shield guides the crop material from the implement head to the merger attachment. A crop inflow sensor detects crop inflow rate through the implement head. A crop outflow sensor detects crop outflow rate on the conveyor of the merger attachment. A controller receives and compares signals from the sensors to detect crop material loss.

A windrower implement includes a merger attachment coupled to a frame rearward of an implement head. The merger attachment includes a conveyor positioned relative to the implement head to receive discharged crop material from the implement head and convey the crop material laterally relative to the central longitudinal axis to form a windrow laterally offset from the central longitudinal axis. A forming shield guides the crop material from the implement head to the merger attachment. A crop inflow sensor detects crop inflow rate through the implement head. A crop outflow sensor detects crop outflow rate on the conveyor of the merger attachment. A controller receives and compares signals from the sensors to detect crop material loss.