A side plate configured for a tillage shank having a point on a forward edge of the tillage shank and a point base on a bottom edge of the tillage shank to dampen abrasive forces from soil flow includes a modified side plate extension portion having a modified side plate extension portion front edge, the modified side plate extension portion being configured such that the modified side plate extension portion front edge abuts a rear edge of the point on the forward edge of the tillage shank from the point base on the bottom edge of the tillage shank to above a soil line; an attachment portion having an attachment portion front edge, the attachment portion being configured such that the attachment portion front edge does not abut the rear edge of the point on the forward edge of the tillage shank above the soil line; a projection configured to engage the point base; a slot configured to engage the point base; and an opening configured to receive a transverse bolt.

The invention relates to a soil-working device (1) for the agricultural preparation of earth, in particular for the planar cutting of earth, comprising a main body (2) and cutting elements (3) arranged on the latter, the main body (2) having a carrier face (7) and a sliding face (6), cutting elements (3) being arranged on the carrier face (7), and earth being able to slide off over the sliding face (6). According to the invention, to avoid smearing over a soil when working same, the sliding face (6) adjoins the carrier face (7) at an angle so that the distance of the sliding face from the earth increases away from the carrier face (7).

A consumable shin for a tillage shank includes an integral U-shaped shin having a first side, a second side, and a bottom; the first side and the second side being spaced apart to form a volume therebetween; the first side having a first side surface having first side length and a first side width; the second side having a second side surface having a second side length and a second side width; the first side length being from a rear edge of a guard of a shoe engaging the tillage shank to a forward edge of a first side shield engaging the tillage shank; the second side length being from the rear edge of the guard of the shoe engaging the tillage shank to a forward edge of a second side shield engaging the tillage shank.

A consumable shin for a tillage shank includes an integral U-shaped shin having a first side, a second side, and a bottom; the first side and the second side being spaced apart to form a volume therebetween; the first side having a first side surface having first side length and a first side width; the second side having a second side surface having a second side length and a second side width; the first side length being from a rear edge of a guard of a shoe engaging the tillage shank to a forward edge of a first side shield engaging the tillage shank; the second side length being from the rear edge of the guard of the shoe engaging the tillage shank to a forward edge of a second side shield engaging the tillage shank.

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.

The invention relates to a cutting element (1) made of cemented carbide for an agricultural soil cultivation tool for cutting into the earth, comprising a top side (2) and a bottom side as well as a front side (3), a back side (4) opposite of the front side (3), and at least one lateral surface (5), wherein the top side (2) and bottom side are connected via the front side (3), back side (4), and the at least one lateral surface (5) and the front side (3) comprises a cutting region having multiple teeth, wherein at least one tooth is formed with a first flank (6) and a second flank (7). To achieve an efficient cutting into the earth with a complete cut through the weeds or herbaceous plants present in the earth, it is provided according to the invention that a profile line of the first flank (6) and a profile line of the second flank (7) have different lengths. In this manner, the weeds can be completely severed and thus killed, whereby a use of sprays for killing weeds is reduced and the environment can be protected to a considerable degree.

The invention relates to a cutting element (1) made of cemented carbide for an agricultural soil cultivation tool for cutting into the earth, comprising a top side (2) and a bottom side as well as a front side (3), a back side (4) opposite of the front side (3), and at least one lateral surface (5), wherein the top side (2) and bottom side are connected via the front side (3), back side (4), and the at least one lateral surface (5) and the front side (3) comprises a cutting region having multiple teeth, wherein at least one tooth is formed with a first flank (6) and a second flank (7). To achieve an efficient cutting into the earth with a complete cut through the weeds or herbaceous plants present in the earth, it is provided according to the invention that a profile line of the first flank (6) and a profile line of the second flank (7) have different lengths. In this manner, the weeds can be completely severed and thus killed, whereby a use of sprays for killing weeds is reduced and the environment can be protected to a considerable degree.

A carbide insert for a soil tillage implement for agriculture, which is formed using or from at least one hard material and at least one binding metal. Iron is provided as a binding metal.

A wearing part arrangement (1) provided with a holder (11) providing releasable attachment of a wearing part (12) by means of a socket-and-pin type quick-fit coupling, wherein the holder (11) comprises a pair of opposing first guide portions (1132) being arranged to face corresponding supporting faces (1221) provided on the wearing part (12), and a pair of second guide portions (1134) arranged to face corresponding top faces (1223) of the wearing part (12), wherein one of the pair of the opposing first guide portions (1132) and the corresponding side supporting faces (1221) of the wearing part (12) is provided with at least one elevation (1222), and the other one of the pair of the opposing first guide portions (1132) and the corresponding side supporting faces (1221) is provided with a corresponding recess (1135) arranged for receipt of the elevation (1222) when the wearing part (12) is in engagement with the holder (11).

A system for monitoring wear of shank attachment members of an agricultural implement includes a shank extending between a proximal end and a distal end, the proximal end configured to be pivotally coupled to a portion of the agricultural implement, a shank attachment member coupled to the distal end of the shank, a non-contact sensor positioned remote to the shank attachment member, the non-contact sensor configured to detect a parameter indicative of wear of the shank attachment member, and a controller communicatively coupled to the non-contact sensor. The controller is configured to determine a status of the wear of the shank attachment member based on sensor data received from the non-contact sensor while the shank attachment member is above ground.