An earth working roller comprises a support structure (11), wherein to form a roller body (36) rotatable about a roller axis of rotation (A) on a radially outer region of the support structure (11), a plurality of first earth working units (30) is provided extending substantially in the direction of the roller axis of rotation (A) and/or a plurality of second earth working units (38) is provided extending substantially in the circumferential direction.

A system for monitoring basket plugging for agricultural implements includes a basket assembly configured to be supported by an agricultural implement and a plugging sensor positioned relative to the basket assembly such that the plugging sensor is configured to transmit detection signals across a field of detection towards an interior of the basket assembly and receive return signals based on reflection of the detection signals off at least one surface. The field of detection extends across a portion of a lateral width of the basket assembly such that the detection signals are transmitted towards multiple locations along the portion of the lateral width. The system also includes a controller communicatively coupled to the plugging sensor. The controller is configured to analyze data received from the plugging sensor as the basket assembly rotates relative to the plugging sensor to determine when the basket assembly is experiencing a plugged condition.

An apparatus for use in a rolling basket of a tillage implement, the rolling basket comprising a plurality of elongated bars or blades spaced apart around a plurality of spaced apart rings, the bars or blades attached to the spaced apart rings, the apparatus includes an elongated support structure extending through a central axis of the rolling basket and a plurality of vertical stationary paddles spaced apart along the elongated support structure between the horizontally spaced apart rings.

A system for monitoring basket plugging for agricultural implements includes a basket assembly configured to be supported by an agricultural implement and a range sensor positioned relative to the basket assembly such that the range sensor is configured to transmit detection signals towards an interior of the basket assembly and receive return signals based on reflection of the detection signals off at least one surface. The system also includes a controller communicatively coupled to the range sensor. The controller is configured to analyze data received from the range sensor as the basket assembly rotates relative to the range sensor to determine when the basket assembly is experiencing a plugged condition.

An implement has an implement frame, a wheel for supporting the implement frame on soil in a direction of travel, a first basket coupled to the implement frame, and a second basket coupled to the implement frame. The first basket works the soil such that any convolutions in the soil are reoriented to be substantially perpendicular to the direction of travel of the implement. The second basket is positioned rearward of the first basket, and works the soil such that the convolutions in the soil that are substantially perpendicular to the direction of travel of the implement are flattened.

In one aspect, a system for regulating the flow of fluid supplied to actuators of an agricultural implement may include a tool and a fluid-driven actuator configured to actuate the tool relative to a surface. The system may also include a pump configured to supply fluid to the fluid-driven actuator and a valve configured to control a flow of the fluid supplied to the fluid-driven actuator. Furthermore, the system may include a first sensor configured to detect a parameter indicative of a first pressure upstream of the valve and a second sensor configured to detect a parameter indicative of a second pressure downstream of the valve. Additionally, the system may include a controller communicatively coupled to the first and second sensors, with the controller configured to determine a pressure differential across the valve based on measurement signals received from the first and second sensors.

A rolling basket assembly for an agricultural tillage implement. The rolling basket assembly includes a bracket, a first disk and a second disk rotatably connected to the bracket, a plurality of chain assemblies. Each chain assembly includes a first end connected to the first disk and a second end connected to the second disk and a plurality of links looped around one another and collectively forming each chain assembly. Each link includes a first loop, a second loop that is looped around the first loop, and at least one projection extending outwardly from one of the first loop and the second loop.

In one aspect, a system for rotationally driving ground engaging tools of an agricultural implement may include a rotational actuator configured to rotationally drive a ground engaging tool of the implement about a rotational axis. A controller may be configured to determine a current ground speed of the implement based on data received from a sensor. Moreover, the controller may be further configured to determine a rotational output for the rotational actuator based on the current ground speed of the implement such that the tool rotates at a predetermined rotational speed relative to soil within a field. In addition, the controller may be configured to control the operation of the rotational actuator such that the actuator provides the determined rotational output to the tool while the tool is disposed at a working position relative to a soil surface of the field.

An agricultural implement includes a frame and a basket assembly supported on the frame. The basket assembly, in turn, includes including a plurality of circumferentially arranged blades such that the basket assembly is configured to roll relative to a surface of a field as the agricultural implement travels across the field. Furthermore, the plurality of circumferentially arranged blades define a plurality of voids and at least partially defining an interior cavity within the basket assembly, with each void being defined between an adjacent pair of the plurality of circumferentially arranged blades. Additionally, the agricultural implement includes a bladder positioned within the interior cavity, with the bladder configured to be inflated and deflated such that the bladder expands and contracts relative to the plurality of circumferentially arranged blades to force field materials present within the interior cavity outward through the plurality of voids.

A system for identifying plugging of ground engaging tools of an agricultural implement may include a ground engaging tool configured to be supported by an agricultural implement and a signal transmission device provided in operative association with the ground engaging tool, with the signal transmission device being configured to transmit wireless signals. The system may also include an antenna spaced apart from the signal transmission device and configured to receive the wireless signals transmitted from the signal transmission device, and a controller communicatively coupled to the antenna. The controller is configured to determine when the ground engaging tool is experiencing a plugged condition based at least in part on at least one of an attenuation parameter of the wireless signals received by the antenna from signal transmission device or a lack of wireless signals received by the antenna from signal transmission device.