An agricultural system includes a tow bar, a first row-cleaning device, and a second row-cleaning device. The first row-cleaning device is attached to the tow bar via a first frame and includes a first roller device in a trailing position relative to a first furrow-opener disk and configured to crush standing residual plant matter along a first path on a field. The second row-cleaning device is attached to the tow bar via a second frame and includes a second roller device in a trailing position relative to a second furrow-opener disk and configured to crush standing residual plant matter along a second path on the field. The second roller device is offset longitudinally from the first roller device.

A roller assembly for smoothing an expanse of granular media such as golf bunker sand, snow, horse race track dirt, or other media. The assembly has one or more rollers having a longitudinal axis. Each roller includes wires spaced from the axis to define a roller surface. Each wire is resiliently flexible to distort inwardly in response to force of contact on, and to recover during release of force from, the granular media as the roller rotates about the axis on the granular media. A shaft extends along the axis of the roller assembly between the arms of a yoke with a handle extending therefrom. As the roller surface traverses the media, at least some of the media is flung outwardly of the roller, smoothing the expanse. The roller assembly may be manually operated or may be towed behind a towing apparatus.

An agricultural system for monitoring plugging of a ground-engaging tool of an agricultural implement includes a signal transmission device configured to transmit wireless signals and a target provided in operative association with the ground-engaging tool, with the target being configured to receive the wireless signals transmitted from the signal transmission device. Additionally, the agricultural system includes a computing system configured to receive moisture data indicative of a moisture content within the field, adjust an output frequency for the signal transmission device to transmit the wireless signals from a current output frequency to an adjusted output frequency based at least in part on the moisture data, and determine when the ground-engaging tool is experiencing a plugged condition based at least in part on an attenuation parameter of the wireless signals transmitted by the signal transmission device at the adjusted output frequency and received by the target.

A roll member having an outer circumferential surface in which a plurality of grooves are formed, wherein the plurality of grooves are arranged at an angle relative to a direction parallel to a central axis of the roll member. A coating device for coating a film member with a coating liquid, the coating device comprising the roll member. A separator production device for producing a separator in which a heat-resistant layer is laminated over a substrate. The separator production device comprising the coating device. A secondary battery production device for producing a secondary battery comprising a positive electrode plate, a negative electrode plate, and a pair of separators that sandwich the positive electrode plate or the negative electrode plate therebetween. The secondary battery production device comprising the separator production device.

A rolling basket assembly for use with an agricultural tillage implement having a frame. The rolling basket assembly includes a rolling basket and at least one arm assembly. The arm assembly has a first and second structural member, a biased device, a bracket and an actuator. The first structural member extends from the frame. The biased device is pivotally coupled to the first structural member or the frame. The bracket is coupled to the first structural member and to the biased device. The second structural member is pivotally coupled to the first structural member. The rolling basket is rotationally coupled to the second structural member. The actuator is pivotally coupled to both the second structural member and the bracket.

A finishing attachment for a tillage implement has a support arm configured to mount to the frame so that a long dimension of the support arm extends in a fore-aft direction of the implement. A cross-bar having a long dimension extending transverse to the fore-aft direction is coupled to a free end of the support arm. A roller basket is mounted to the cross-bar for rotation with respect to the cross-bar. A pivot bracket couples the free end of the support arm to the cross-bar. The pivot bracket forms a pivot axis extending substantially in the fore-aft direction of travel about which the roller basket pivots.

A system for detecting material accumulation relative to basket assemblies of an agricultural implement includes a frame assembly, and a basket assembly configured to be supported by the frame assembly relative to a surface of a field. The system also includes a load sensor configured to detect a load indicative of a draft load associated with the basket assembly, and a computing system communicatively coupled to the load sensor. The computing system is configured to monitor the load based on data provided by the load sensor, compare the monitored load to a load threshold, and determine that field materials have accumulated relative to the basket assembly when the monitored load differs from the load threshold.

Machines that plant crop seed generally compact the seed rows with their tires. The solution to this problem is to cut or mold notches into the tire lugs in the area that would pass directly above the planted seeds and adjacent to the planted seeds. Tires could also be molded with the notches in place during the tire manufacturing process. If lateral beaming strength is needed in the tire, ribs can be formed on the inside of the tire either intermittent or continuous across the width of the tire. Notching also could be done selectively on tires after molding.

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.

An agricultural system can include an implement including a frame assembly. A basket assembly can be operably coupled with the frame assembly. A basket assembly actuator can be operably coupled with the basket assembly and the frame assembly. The basket assembly actuator can be configured to alter a position of the basket assembly relative to the frame assembly. A computing system can be communicatively coupled to the basket assembly actuator. The computing system can include a processor and associated memory, the memory storing instructions that, when implemented by the processor, configure the computing system to receive a defined soil finish, receive data indicative of a soil profile, determine a soil compaction limit based on the soil profile, and determine a defined basket assembly actuator position based at least partially on the soil compaction limit and the defined soil finish.