A system for post-harvest or at-harvest determination of pre-harvest strength of a corn stalk wherein the system comprises a stalk stump cutter structured and operable to cut a discarded post-harvest stalk stump to provide a substantially flat and even cross-sectional surface of the stalk stump, an imaging device structured and operable to acquire image data of the stalk stump cross-section, and a computer based data processing system structured and operable to analyze the image data and determine a pre-harvest stalk strength of the corresponding stalk.

A multi-positional stalk stomper assembly for attaching a stalk stomper to a toolbar of a farm implement comprises a mounting bracket and a pivotal shoe assembly. The mounting bracket is adaptable to be attached to the toolbar of the farm implement and includes a rectangular plate, the plate having first and second major sides, the first side engageable with the toolbar. A first connecting member outwardly extends perpendicular from the second major side of the plate. The shoe assembly includes a torsion spring assembly, a second connecting member outwardly extending from the torsion spring assembly, the second connecting member mateable with the first connecting member, a shoe bracket pivotally connected to the torsion spring assembly, and a downwardly extending shoe attached to the shoe bracket. Upon mating the second connecting member with the first connecting member, the shoe assembly is lockable to the mounting bracket at a selected position.

The Multipurpose Leaf Crop Harvesting Apparatus and Processing Method will accomplish seven steps in one pass of the combine harvester. This apparatus and processing method harvests leaf crops and is configured to perform multiple processing operations, including fractionation of the leaf crop, leaf maceration, leaf sizing, elevating the leaf fraction to a transport vehicle, and stem conditioning, cutting and windrowing, in a single pass through the crop field. These steps are accomplished using a header unit, an adapter feeder macerator and a forage harvester vehicle, expeditiously removing the leaf fraction from the field. Following leaf fraction harvesting, the leaf fraction is processed by densification into forage feed products. The processed leaf fraction can be combined with other feeds to make up customized feed rations. The stem fraction is also processed. The present invention can also be used to harvest grass crops.

A stomping shoe assembly for an agricultural harvester header including a stomping shoe having a substantially planar proximal end for connecting to an agricultural harvester header, and a curved distal end for engaging crop. The assembly further includes a stalk cutter having an elongated body mounted to the stomping shoe and extending from the stomping shoe from the curved distal end to the substantially planar proximal end. Also provided is an agricultural harvester header including the stomping shoe assembly.

An agricultural working apparatus, for the separation of ground vegetation, in particular a mulching, mowing or a milling apparatus, includes at least one cutting device, having a cutting rail, and at least one adjusting device for the adjustment of the cutting rail. The cutting device has at least one connecting piece, which is arranged laterally in the transverse direction and by means of which the cutting rail is connected to the adjusting device.

A stalk puller to be used with or without a mower/shredder utilizes a pair of independently mounted discs converging along their lower edge to grasp and pull stalks from the ground as the stalk puller is moved down the row by a prime mover. At least one of the discs is urged against the other by a spring such that the associated disc may allow rocks and debris to pass between the discs without damage. The spring mounting reduces adjustments due to normal wear as well as damage from debris.

The present invention relates to a no-till stem and root extractor system that has directionality, extracting the root ball from the soil. A conveyor chain crop remnant extractor assembly has a pair of flexible conveyor chains, a pair of coupling conveyor arms, two pairs of rotatable wheels, a pinch cylinder, and a plurality of cross-slat bars. As the device moves along the crop remnants, the pair of flexible conveyor chains, guided and retained by the two pairs of rotatable wheels, pull the stalks and root balls from the earth, pinch, and pulverize the complete crop remnants.

A verge-cutting mower device (20, 30), for example for maintaining roadside verges, has at least one frame (16) intended to be mounted on an automotive agricultural machine (10) and on which there is mounted a piece of cutting/grinding equipment (20) intended to mow or grind plants. The cutting/grinding equipment (20) is actuated using an electric motor (33).

An agricultural system includes a frame configured for attachment to a leading tow bar of a towing vehicle, and at least one roller device attached to the frame and extending between two adjacent parallel strip positions. The roller device is configured to crush standing residual plant matter in the field. The system further includes a fertilizer opener disk attached to the frame and which is configured to prepare, at least in part, a furrow for receiving a fertilizer. The system also includes a fertilizer injector attached to the frame and which is configured to deposit the fertilizer into the furrow in a trailing position relative to the fertilizer opener disk.

The Multipurpose Leaf Crop Harvesting Apparatus and Processing Method will accomplish seven steps in one pass of the combine harvester. This apparatus and processing method harvests leaf crops and is configured to perform multiple processing operations, including fractionation of the leaf crop, leaf maceration, leaf sizing, elevating the leaf fraction to a transport vehicle, and stem conditioning, cutting and windrowing, in a single pass through the crop field. These steps are accomplished using a header unit, an adapter feeder macerator and a forage harvester vehicle, expeditiously removing the leaf fraction from the field. Following leaf fraction harvesting, the leaf fraction is processed by densification into forage feed products. The processed leaf fraction can be combined with other feeds to make up customized feed rations. The stem fraction is also processed. The present invention can also be used to harvest grass crops.