A system for detecting the levelness of ground engaging tools of a tillage implement including an agricultural implement including a frame and tool assemblies supported relative to the frame. The tool assemblies each include a toolbar coupled to the frame and one or more ground engaging tools coupled to the toolbar. The system further includes sensors coupled to two of the tool assemblies and configured to capture data indicative of a load acting on the one or more ground engaging tools of the tool assemblies. Additionally, the system includes a controller configured to monitor the data received from the sensors and compare at least one monitored value associated with the load acting on the ground engaging tool(s) of each of the tool assemblies. Moreover, the controller is further configured to identify the ground engaging tool(s) are not level when the monitored value(s) differ by a predetermined threshold value.

A system for monitoring the levelness of an agricultural implement may include first and second tools rotatably supported on the agricultural implement, with the first and second tools being spaced apart from each other in at least one of a longitudinal direction or a lateral direction of the agricultural implement. The system may further include a first rotational speed sensor configured to detect a rotational speed of the first tool and a second rotational speed sensor configured to detect a rotational speed of the second tool. Additionally, the system may include a controller communicatively coupled to the first and second rotational speed sensors, with the controller being configured to identify a levelness state of at least a portion of the agricultural implement based at least in part on the rotational speeds of the first and second tools.

A system for monitoring the levelness of an agricultural implement may include first and second tools rotatably supported on the agricultural implement, with the first and second tools being spaced apart from each other in at least one of a longitudinal direction or a lateral direction of the agricultural implement. The system may further include a first rotational speed sensor configured to detect a rotational speed of the first tool and a second rotational speed sensor configured to detect a rotational speed of the second tool. Additionally, the system may include a controller communicatively coupled to the first and second rotational speed sensors, with the controller being configured to identify a levelness state of at least a portion of the agricultural implement based at least in part on the rotational speeds of the first and second tools.

A system for limiting plugging within an agricultural implement. The system includes a ground engaging tool configured to be supported by the agricultural implement. An actuator is coupled to the ground engaging tool. The actuator is operable to apply a down pressure on the ground engaging tool. A soil moisture sensor is positioned forward of the ground engaging tool. The soil moisture sensor is configured to measure a soil moisture forward of the ground engaging tool. A controller is communicatively coupled to the soil moisture sensor. The controller is configured to receive, from the soil moisture sensor, a signal that corresponds to the soil moisture forward of the ground engaging tool. The controller is further configured to adjust the down pressure on the ground engaging tool applied by the actuator based at least in part on the signal from the soil moisture sensor.

A system for limiting plugging within an agricultural implement. The system includes a ground engaging tool configured to be supported by the agricultural implement. An actuator is coupled to the ground engaging tool. The actuator is operable to apply a down pressure on the ground engaging tool. A soil moisture sensor is positioned forward of the ground engaging tool. The soil moisture sensor is configured to measure a soil moisture forward of the ground engaging tool. A controller is communicatively coupled to the soil moisture sensor. The controller is configured to receive, from the soil moisture sensor, a signal that corresponds to the soil moisture forward of the ground engaging tool. The controller is further configured to adjust the down pressure on the ground engaging tool applied by the actuator based at least in part on the signal from the soil moisture sensor.

A trench closing assembly having an actuator for applying a force to the trench closing assembly in which the force is divided between closing wheels and a press wheel disposed rearward of the closing wheels.

A trench closing assembly having an actuator for applying a force to the trench closing assembly in which the force is divided between closing wheels and a press wheel disposed rearward of the closing wheels.

A system for monitoring tillage conditions of a field may include an agricultural implement and a tillage sensor supported on the agricultural implement. The tillage sensor has a field of view directed towards a portion of the field disposed relative to the agricultural implement, with the tillage sensor being configured to generate data indicative of a tillage floor levelness associated with a tillage floor of the field disposed below a surface of the field. The system may further include a controller configured to receive the data from the tillage sensor indicative of the tillage floor levelness as the agricultural implement moves across the field and monitor the tillage floor levelness based at least in part on the data received from the tillage sensor.

A system for monitoring tillage conditions of a field may include an agricultural implement and a tillage sensor supported on the agricultural implement. The tillage sensor has a field of view directed towards a portion of the field disposed relative to the agricultural implement, with the tillage sensor being configured to generate data indicative of a tillage floor levelness associated with a tillage floor of the field disposed below a surface of the field. The system may further include a controller configured to receive the data from the tillage sensor indicative of the tillage floor levelness as the agricultural implement moves across the field and monitor the tillage floor levelness based at least in part on the data received from the tillage sensor.

A system for limiting plugging within an agricultural implement. The system includes a ground engaging tool configured to be supported by the agricultural implement. An actuator is coupled to the ground engaging tool. The actuator is operable to apply a down pressure on the ground engaging tool. A soil moisture sensor is positioned forward of the ground engaging tool. The soil moisture sensor is configured to measure a soil moisture forward of the ground engaging tool. A controller is communicatively coupled to the soil moisture sensor. The controller is configured to receive, from the soil moisture sensor, a signal that corresponds to the soil moisture forward of the ground engaging tool. The controller is further configured to adjust the down pressure on the ground engaging tool applied by the actuator based at least in part on the signal from the soil moisture sensor.