A turning plowing device 1 with blade-like cutting elements 3 situated on both sides of a plow beam 2 is provided, in which at least one first cutting element 4 on one side, having a hollow disc-like design, is provided. This first cutting element 4 is swivelably arranged, and may be swiveled from a first position on a first side of the plow beam 2 into a second position. In the first position, the second cutting element 3 is associated with a respective first cutting element 4 in such a way that a complete module made up of these two cutting elements is formed. A row of second cutting elements 3 formed at the plow beam 2 represents semi-modules, which likewise form a complete module only after the respective first cutting elements 4 swivel into the corresponding working position. Plowing takes place only using a formed complete module. For this purpose, after the plowing of a furrow in the first direction, the plow and the first cutting element 4 having a hollow disc-like design are turned in such a way that during back-plowing in a plowing direction 5 opposite the previous direction, plowing may be carried out with identical angles. For this purpose, after the swivel arm 6 together with the first cutting element 4 is swiveled with respect to the cutting element 3 and the turning plowing device is turned by 180?, the plow rotates in a manner of speaking, so that an identical plow pattern may be created in the opposite direction.

A system for monitoring an installation status of shank attachment members of agricultural implements may include a shank assembly. The shank assembly may have a shank and at least one mounting element configured to couple the shank to a portion of an agricultural implement. The system may further include a shank attachment member coupled to the shank and a signal transmission device provided in operative association with the shank attachment member. The system may further include an antenna provided in operative association with the shank assembly, where the antenna is configured to receive wireless signals transmitted by the signal transmission device. Additionally, the system may include a controller communicatively coupled to the antenna and configured to determine an installation status of the shank attachment member based at least in part on the wireless signals received by the antenna.

A system for monitoring an installation status of shank attachment members of agricultural implements may include a shank assembly. The shank assembly may have a shank and at least one mounting element configured to couple the shank to a portion of an agricultural implement. The system may further include a shank attachment member coupled to the shank and a signal transmission device provided in operative association with the shank attachment member. The system may further include an antenna provided in operative association with the shank assembly, where the antenna is configured to receive wireless signals transmitted by the signal transmission device. Additionally, the system may include a controller communicatively coupled to the antenna and configured to determine an installation status of the shank attachment member based at least in part on the wireless signals received by the antenna.

A subsoil tool for ameliorating soil compaction having a shank attached to a toolbar of a tractor, wings on forward wing links pivotally engaged to the shank, and following wings on a wing rod pivotally engaged with the forward wing link. The forward wing links are positioned near the bottom of the shank in front of the rear of the shank. The wing rod is positioned behind the shank. A drive box having a hydraulic cylinder is engaged to the toolbar and pivotally engaged with the wing rod. In use, a portion of the subsoil tool may be inserted below a surface of the soil, the height of the subsoil tool may be adjusted, the subsoil tool may be rotated, and the hydraulic cylinder may be cycled to move the forward wings and following wings.

A subsoil tool for ameliorating soil compaction having a shank attached to a toolbar of a tractor, wings on forward wing links pivotally engaged to the shank, and following wings on a wing rod pivotally engaged with the forward wing link. The forward wing links are positioned near the bottom of the shank in front of the rear of the shank. The wing rod is positioned behind the shank. A drive box having a hydraulic cylinder is engaged to the toolbar and pivotally engaged with the wing rod. In use, a portion of the subsoil tool may be inserted below a surface of the soil, the height of the subsoil tool may be adjusted, the subsoil tool may be rotated, and the hydraulic cylinder may be cycled to move the forward wings and following wings.

Soil working tool for an agricultural machine, in particular a cultivator, which is fixed on a tool holder and has a tine-like region to which a preferably guide plate-like element is attached. In order to achieve an improved soil flow across the soil working tool with good wear protection and thus a sufficient service life of the soil working tool, the tine-like region has two side strips which run in the longitudinal direction of the soil working tool and have notch-like recesses extending in the transverse direction, and that an at least approximately smooth center strip region is located between the two side strips in the center in the longitudinal direction of the tine-like region of the soil working tool.

Soil working tool for an agricultural machine, in particular a cultivator, which is fixed on a tool holder and has a tine-like region to which a preferably guide plate-like element is attached. In order to achieve an improved soil flow across the soil working tool with good wear protection and thus a sufficient service life of the soil working tool, the tine-like region has two side strips which run in the longitudinal direction of the soil working tool and have notch-like recesses extending in the transverse direction, and that an at least approximately smooth center strip region is located between the two side strips in the center in the longitudinal direction of the tine-like region of the soil working tool.

A soil cultivation tool, in particular a plowshare, includes a base body on which cartridges are optionally arranged and at least first cutting elements that are attached to the base body or the cartridges in order to cut into the earth along a working direction. The first cutting elements are arranged in separate seats.

A soil cultivation tool, in particular a plowshare, includes a base body on which cartridges are optionally arranged and at least first cutting elements that are attached to the base body or the cartridges in order to cut into the earth along a working direction. The first cutting elements are arranged in separate seats.

The present invention relates generally to agricultural tillage equipment and, more specifically, to a vertical tillage sweep providing low surface disturbance. The sweep comprises a wing structure with a downward and generally vertical fin, and having specific wear coating placed on the various wear surfaces.