A mounting assembly for a gauge wheel on a row unit allows for infinite lateral adjustment of the gauge relative to an opening disc on the row unit. The mounting assembly includes an arm with a threaded bore extending through a split end of the arm. A threaded bushing is adjustably mounted in the bore and secured in a desired position with a bolt standing through the split end to clamp bushing in position. The split end mounting arm provides a method of quickly and easily adjusting the lateral position of the gauge wheel on the row unit in infinite increments.

A mounting assembly for a gauge wheel on a row unit allows for infinite lateral adjustment of the gauge relative to an opening disc on the row unit. The mounting assembly includes an arm with a threaded bore extending through a split end of the arm. A threaded bushing is adjustably mounted in the bore and secured in a desired position with a bolt standing through the split end to clamp bushing in position. The split end mounting arm provides a method of quickly and easily adjusting the lateral position of the gauge wheel on the row unit in infinite increments.

A system for adjusting the spacing between ground engaging tools of an agricultural implement may include a plurality of ground engaging tools including a first end tool, a second end tool, and at least one intermediate tool positioned between the first and second end tools, with an adjustable ground engaging width being defined between the first and second end tools. The system may further include a biasing element positioned between each respective pair of adjacent engaging tools and configured to apply a biasing force against its respective pair of adjacent tools such that an inter-tool spacing between each respective pair of adjacent tools is maintained substantially uniform across the plurality of ground engaging tools as the ground engaging width is adjusted.

A system for adjusting the spacing between ground engaging tools of an agricultural implement may include a plurality of ground engaging tools including a first end tool, a second end tool, and at least one intermediate tool positioned between the first and second end tools, with an adjustable ground engaging width being defined between the first and second end tools. The system may further include a biasing element positioned between each respective pair of adjacent engaging tools and configured to apply a biasing force against its respective pair of adjacent tools such that an inter-tool spacing between each respective pair of adjacent tools is maintained substantially uniform across the plurality of ground engaging tools as the ground engaging width is adjusted.

A monitoring system for an agricultural implement includes a sensor configured to output a sensor signal indicative of a position of at least one scraper of the agricultural implement relative to a surface of at least one respective disc. The at least one scraper is configured to engage the surface of the at least one respective disc to remove accumulated soil from the surface of the at least one respective disc. The monitoring system also includes a controller communicatively coupled to the sensor. The controller is configured to determine an amount of wear on the at least one scraper based on the position of the at least one scraper relative to the surface of the at least one respective disc, and the controller is configured to output a wear signal indicative of the amount of wear on the at least one scraper.

A monitoring system for an agricultural implement includes a sensor configured to output a sensor signal indicative of a position of at least one scraper of the agricultural implement relative to a surface of at least one respective disc. The at least one scraper is configured to engage the surface of the at least one respective disc to remove accumulated soil from the surface of the at least one respective disc. The monitoring system also includes a controller communicatively coupled to the sensor. The controller is configured to determine an amount of wear on the at least one scraper based on the position of the at least one scraper relative to the surface of the at least one respective disc, and the controller is configured to output a wear signal indicative of the amount of wear on the at least one scraper.

A tillage implement, a tillage machine, and a method of tilling soil is provided. The tillage implement includes a mounting bracket that couples to a rolling frame, a shank pivotably coupled to the mounting bracket via a hinge assembly, a soil working tool operatively coupled to a distal end of the shank, and a preload assembly for moving the shank to a loaded position that is rotationally offset from an unloaded position. The tillage machine includes a rolling frame that is pulled by a tow vehicle when tilling a field and multiple ones of the tillage implements operatively coupled to the rolling frame that contact and till the field. And the method includes attaching the tillage implement to a rolling frame, preloading the hinge assembly by moving the shank to a loaded position that is rotationally offset from the unloaded position, and contacting the soil with the soil working tool.

A row unit for a seeding implement features a coulter disc, an angularly variable link on which the disc is carried, a scraper body supported on the link, and a wing projecting laterally from an outer side of the scraper body. The scraper body is supported in an adjustable manner selectively repositionable into a plurality of differently pitched orientations, relative to the link, about a reference axis that transversely penetrates the disc plane. By adjusting the pitch angle of the scraper body in a local reference frame of the link, one can better achieve a proper effective working orientation of the wing for each of a plurality of differently angulated link positions, each of which corresponds to a different working depth of the row unit. Though this novel adjustability, winged scrapers previously limited to use on parallel link row units can now be effectively used on other row units.

A row unit for a seeding implement features a coulter disc, an angularly variable link on which the disc is carried, a scraper body supported on the link, and a wing projecting laterally from an outer side of the scraper body. The scraper body is supported in an adjustable manner selectively repositionable into a plurality of differently pitched orientations, relative to the link, about a reference axis that transversely penetrates the disc plane. By adjusting the pitch angle of the scraper body in a local reference frame of the link, one can better achieve a proper effective working orientation of the wing for each of a plurality of differently angulated link positions, each of which corresponds to a different working depth of the row unit. Though this novel adjustability, winged scrapers previously limited to use on parallel link row units can now be effectively used on other row units.