A farm implement for tilling soil including a frame having a transverse axis. The farm implement includes a plurality of ground engaging tools coupled to the frame extending parallel to the transverse axis. At least one of the plurality of ground engaging tools includes a roller having a solid outer surface.

A control system for an agricultural tillage implement includes a controller configured to receive a first pressure sensor signal indicative of a first fluid pressure within a rolling basket cylinder and a second pressure sensor signal indicative of a second fluid pressure within a wheel frame actuator. The rolling basket cylinder is configured to couple to a main frame and to a rolling basket frame, and the wheel frame actuator is configured to control a position of a wheel frame relative to a hitch assembly. The controller is also configured to decrease a target fluid pressure in response to the second fluid pressure being below a minimum wheel frame actuator pressure threshold, and the controller is configured to control a tilt force applied to the main frame to maintain the first fluid pressure within a range of the target fluid pressure.

An agricultural device associated with reduced tillage techniques in a field includes a frame and a separator supported by the frame. The separator is configured to form a strip of exposed soil in residual plant matter in the field. A crimping device associated with the separator is configured to at least partially crush stems of residual plant matter while maintaining the strip.

A drawbar apparatus is provided for coupling an earth-working tool to a frame of an agricultural implement. The drawbar apparatus comprises a drawbar. The drawbar comprises a first portion coupled to the frame and a second portion. A joint comprises a first bracket comprising a protrusion. The protrusion defines a first aperture. The first bracket is coupled to one of the second portion of the drawbar and the earth-working tool. A second bracket defines a channel configured to receive the protrusion. The channel defines a second aperture on a first side of the channel and a third aperture on a second side of the channel. The second bracket is coupled to the other of the second portion of the drawbar and the earth-working tool. A fastener is positioned through the first aperture, the second aperture, and the third aperture. The protrusion is configured to move laterally in the channel.

An agricultural tillage implement including a main frame section having a pull hitch tube extending in a travel direction, which may be a telescoping pull hitch tube, and a tool bar coupled with and extending transverse to the pull hitch tube, and a plurality of pivotally coupled wing sections coupled with the main frame section. Each of the plurality of wing sections have at least one pivotal wing front shank frame. A main shank frame straddles the pull hitch tube. The main shank frame, the pivotal wing front shank frames, and the wing sections articulate from an operating configuration to a transport configuration.

An agricultural implement including a main frame having a pull hitch tube extending in a travel direction and a main frame tool bar coupled with and extending transverse to the pull hitch tube, and a plurality of pivotal wings coupled with the main frame. Each of the plurality of wings have at least one pivotal wing front section and at least one pivotal wing rear section. The pivotal wing front sections and the pivotal wing rear sections pivot from a generally horizontal position to a generally vertical position, and the wings fold from a perpendicular position to a position parallel with the pull hitch tube.

An agricultural implement having a rolling basket is disclosed. A stationary blade is disposed inside an inner chamber of the rolling basket and attached at ends of the rolling basket near the bearings that are connected to the rolling basket. The rolling basket rotates around its major axis via the bearings, while the blade is held stationary. The stationary blade has sleeves at the ends, and each of the sleeves is connected to a post of a support arm and locked into the posts via a pin.

An agricultural implement having a rolling basket is disclosed. A stationary blade is disposed inside an inner chamber of the rolling basket and attached at ends of the rolling basket near the bearings that are connected to the rolling basket. The rolling basket rotates around its major axis via the bearings, while the blade is held stationary. The stationary blade has sleeves at the ends, and each of the sleeves is connected to a post of a support arm and locked into the posts via a pin.

An agricultural tillage implement including a main frame section having a pull hitch tube extending in a travel direction, and a tool bar coupled with and extending transverse to the pull hitch tube, and a plurality of pivotally coupled wing sections coupled with the main frame section. The plurality of pivotally coupled wing sections including a first wing section and an adjacent second wing section. Each of the plurality of wing sections have at least one pivotal tool frame. The pivotal tool frame of the first wing section is foldable upward at a first angle, and the pivotal tool frame of the second wing section being foldable upward to a second angle. The first angle and the second angle being different from each other.

An agricultural system for monitoring plugging of basket assemblies of an agricultural implement includes a plugging sensor positioned within an interior of a monitored basket assembly, where the plugging sensor is configured to transmit detection signals at different frequencies across a field of detection along the interior of the basket assembly and along the rotational axis, and generate data indicative of return signals received based on reflection of the detection signals at the different frequencies off at least one surface. Additionally, the agricultural system includes a computing system configured to receive the data generated by the plugging sensor and determine when the basket assembly is experiencing a plugged condition based at least in part on the data generated by the plugging sensor.