A residue deflector is disposed in a combine body, and positioned along an airflow path to guide residue from an exit end of a cleaning shoe and a threshing and separation assembly, to a residue chopper. The deflector is configured with a plurality of spaced fingers so that air can pass through the deflector between the fingers.

Shredder for shredding agricultural products, such as bales of straw, the shredder comprising: a shredding device (20) for shredding the loaded agricultural products and a blowing device (5) for blowing the shredded agricultural products from the shredding device (20) toward and through an outlet opening (3), wherein the blowing device (5) comprises at least two blowing elements (21a, 21b), wherein the two blowing elements (21a, 21b) are arranged rotatably about their respective blowing rotational axis, wherein rotating the blowing elements (21a, 21b) about their blowing rotational axis causes the shredded agricultural products to be blown from the shredding device (20) toward and through the outlet opening (3).

Shredder for shredding agricultural products, such as bales of straw, the shredder comprising: a shredding device (20) for shredding the loaded agricultural products and a blowing device (5) for blowing the shredded agricultural products from the shredding device (20) toward and through an outlet opening (3), wherein the blowing device (5) comprises at least two blowing elements (21a, 21b), wherein the two blowing elements (21a, 21b) are arranged rotatably about their respective blowing rotational axis, wherein rotating the blowing elements (21a, 21b) about their blowing rotational axis causes the shredded agricultural products to be blown from the shredding device (20) toward and through the outlet opening (3).

A windrow system of a combine includes a chopper and a spreader. The chopper includes a chopper housing having a roof and a rotor assembly positioned in the chopper housing, and the spreader is pivotably coupled to the chopper and includes a top surface and an impellor that is positioned below the top surface and includes one or more blades for rotatably conveying crop residue rearwardly and outwardly from the spreader. The windrow system also includes top segment coupled to a main body of the combine, a first curtain, and a second curtain having a portion thereof positioned outwardly of the first curtain. Each of the curtains are movable relative to the main body of the combine when the spreader and/or chopper move between at least one of wide and narrow positions, chopping and windrowing positions, and chopping and stowed positions.

A windrow system of a combine includes a chopper and a spreader. The chopper includes a chopper housing having a roof and a rotor assembly positioned in the chopper housing, and the spreader is pivotably coupled to the chopper and includes a top surface and an impellor that is positioned below the top surface and includes one or more blades for rotatably conveying crop residue rearwardly and outwardly from the spreader. The windrow system also includes top segment coupled to a main body of the combine, a first curtain, and a second curtain having a portion thereof positioned outwardly of the first curtain. Each of the curtains are movable relative to the main body of the combine when the spreader and/or chopper move between at least one of wide and narrow positions, chopping and windrowing positions, and chopping and stowed positions.

A cutting device for agricultural crop has cutting elements and a rotor element rotating in operation about a rotor axis. The cutting elements are arranged in a cutting position stationarily relative to the rotor element and are able to yield in a springy fashion. The rotor element has a central body that is provided with a central conveying section and with at least one axial conveying section. The central conveying section has central conveying elements correlated with the cutting elements. The at least one axial conveying section is provided with an axial conveying element extending spirally at least in sections about the rotor axis. The at least one axial conveying section of the central body has a first radius and the central conveying section of the central body has a second radius, wherein the first radius is larger than the second radius.

A planar tine plate having a number of tines. The tine plate is configured to be arranged on a rotor shaft of a rotor cutter apparatus of an agricultural baler. The tine plate is for moving or conveying crop material collected by the agricultural baler, for example by a pickup apparatus of the agricultural baler. The tine plate has at least one first tine and at least one second tine spaced angularly from the at least one first tine. The at least one first tine has a length greater than that of the at least one second tine. An increase in the cleaning efficiency and the crop conveying efficiency of an area to be swept by the tine plate as the rotor shaft rotates may be achieved.

A planar tine plate having a number of tines. The tine plate is configured to be arranged on a rotor shaft of a rotor cutter apparatus of an agricultural baler. The tine plate is for moving or conveying crop material collected by the agricultural baler, for example by a pickup apparatus of the agricultural baler. The tine plate has at least one first tine and at least one second tine spaced angularly from the at least one first tine. The at least one first tine has a length greater than that of the at least one second tine. An increase in the cleaning efficiency and the crop conveying efficiency of an area to be swept by the tine plate as the rotor shaft rotates may be achieved.

A rotor assembly for an agricultural baler. The rotor assembly has a rotor shaft having a central portion and first and second end portions either side of the central portion. The rotor assembly further has a number of tine plates to be arranged axially along the rotor shaft, each of the tine plates having one or more tines. The tine plates are arranged such that there is an angular spacing between the tines of adjacent ones of the tine plates. A magnitude of the angular spacing is greater or smaller at the central portion than at the first and second end portions of the rotor shaft. This can help to ensure that collected crop is more evenly distributed when it is moved into a pre-compression chamber of the baler in the case of relatively narrow or wide windrows, in particular that the crop that fills the sides of the pre-compression chamber is optimal, which means that a desired bale shape and bale rate may be more readily achieved.

An organic material and plant vine chopper assembly has two plant vine chopper rotor drum assemblies that chop plant vines and other organic material. Each rotor drum assembly has a plurality of rotor rings each ring having a plurality of angled blades that effectively cooperate with each other to guard each blade and the drum against the wrapping of clogging fibrous strands and other clogging material around the drum. Each chopper rotor drum assembly incorporates a plurality of rotor rings spaced along and encircling and attached to a main drum tube and distributed in a cutting zone along and surrounding the longitudinal rotational axis of the drum tube with each rotor ring having a pair or a plurality of pairs of cutting blades attached to respective alternately angled mounting tabs that alternate to the left and to the right to the general plane of the rotor ring.