An apparatus for splitting bales and retaining wrap includes a frame having an interior framework oriented at an angle relative to forwardly-projecting tines, the framework and tines together defining an upwardly-opening cradle that supports and centers a bale of forage bound with a wrap above an inverted apex of the cradle. The apparatus also includes an elongate hooking mechanism extending laterally across the underside of the wrapped bale and configured to capture the wrap together with a thin layer of forage, and an elongate blade rotatably supported on the frame and configured to rotate downward through the bale toward the inverted apex of the cradle. The apparatus further includes a first actuation device that activates the hooking mechanism to capture the wrap and layer of forage, and one or more second actuation devices that rotate the elongate blade downward through the forage to split the bale.

An extractor may include an extractor housing extending from an inlet to an outlet. The housing may define an airflow channel for directing debris through the extractor from the inlet to the outlet, with the housing forming an outer perimeter of the extractor. The extractor may also include at least one flow-generating device configured to generate an airflow directed through the airflow channel that creates a negative pressure at the inlet to draw debris into the housing. In addition, the flow-generating device(s) may be positioned adjacent to the housing along the outer perimeter of the extractor such that a central flow region is defined within the airflow channel at the location of the flow-generating device(s) that extends from a center of the housing radially outwardly towards the outer perimeter of the extractor, with the central flow region defining an unobstructed flow path for the debris through the housing.

Disclosed is a straw crushing device capable of driving a sharpening structure, relating to the field of straw crushing. The straw crushing device includes a main housing, the main housing is internally provided with a crushing chamber and a suction chamber, a feeding nozzle is installed outside the main housing, and the feeding nozzle communicates with a feeding end of the crushing chamber. A spline transmission shaft is installed inside the main housing, and penetrates through the crushing chamber and the suction chamber. A driving motor is installed outside the main housing, and the driving motor is connected to the spline transmission shaft. A Y-shaped tool rest is installed on the spline transmission shaft, and the Y-shaped tool rest is located in the crushing chamber.

A knife and blade for agricultural machines, in particular mower knife blades, straw chopper knives, corn header knives, feed mixer knives, loader wagon knives and baler knives, has at least one toothed cutting edge extending from a cutting edge beginning to a cutting edge end on a blade surface. The cutting edge has a straight or curved configuration and the blade surface has a mounting section. The toothing of the cutting edge is varied along its length with regard to the tooth pitch and/or the tooth geometry.

A knife and blade for agricultural machines, in particular mower knife blades, straw chopper knives, corn header knives, feed mixer knives, loader wagon knives and baler knives, has at least one toothed cutting edge extending from a cutting edge beginning to a cutting edge end on a blade surface. The cutting edge has a straight or curved configuration and the blade surface has a mounting section. The toothing of the cutting edge is varied along its length with regard to the tooth pitch and/or the tooth geometry.

A chopper knife for an agricultural machine has a plate-shaped blade having a front region and a rear region. The blade is confined in transversal direction by longitudinal edges. The front region comprises at least one elongate cutting edge provided with a coating extending along a surface of the blade over a width perpendicular to a longitudinal edge. The width of the coating decreases in a direction from the front region towards the rear region of the blade.

A chopper knife for an agricultural machine has a plate-shaped blade having a front region and a rear region. The blade is confined in transversal direction by longitudinal edges. The front region comprises at least one elongate cutting edge provided with a coating extending along a surface of the blade over a width perpendicular to a longitudinal edge. The width of the coating decreases in a direction from the front region towards the rear region of the blade.

A harvesting machine including a frame, a rotor assembly rotatably coupled to the frame configured to move crop material, and a plurality of knives movably attached to the harvesting machine. The rotor assembly includes a plurality of spaced apart rotating blades, wherein one or more of the plurality of knives extends into the spaces between the blades. Each of the plurality of knives includes a knife body and a cutting edge having a plurality of teeth, wherein each of the teeth includes a scallop or valley. Each one of the plurality of valleys extends from the knife body to the leading edge of one of the plurality of teeth, wherein adjacent valleys are located on opposite sides of the knife body. The valleys are lined with a wear resistant material to increase the longevity of the cutting edge and cutting ability.

A cutter device for an agricultural harvester, including: a rotor with a plurality of tines; a sub-assembly including a pivot shaft, a knife, and a first bottom plate located beneath the rotor in a working condition; a support frame; a positioning device mounted to the support frame, and a control mechanism mounted to the support frame. The sub-assembly is moveably mounted to the support frame and is arranged to move relative to the support frame in a lateral direction that is transverse to the forward moving direction of the cutter device between i) a working position in which the sub-assembly is aligned with the support frame in a manner that enables the knife to be engageable by the positioning device, and ii) a maintenance position in which the knife is laterally spaced apart from the positioning device and the sub-assembly protrudes laterally outwards from the support frame.

A cutter device for an agricultural harvester includes: a rotor with a plurality of tines, the rotor being rotatable to transfer agricultural crop along a feed path; a knife, the position of the knife being adjustable; a bottom plate located beneath the rotor, the feed path being located between the rotor and the bottom plate, and the bottom plate including an opening through which the knife extends when in a cutting position; a control mechanism including a control element which is movable between primary and secondary positions. The control element control movements of the knife between a first position in which the knife is in a cutting position in the feed path, a second position in which the knife is substantially out of the feed path in a non-cutting position, and a third position in which the knife is located at an intermediate position between the cutting and non-cutting positions.