Crop processing rolls are provided for operative use in forage harvesters wherein the crop processing rolls are formed with spiraled grooves that are oriented in opposing slopes extending from the opposite ends of the crop processing roll toward the center of the roll. The formation of these spiraled grooves defines teeth from the ridges created with the formation of vertical grooves into the circumferential surface of the crop processing roll. In one configuration, the spiraled grooves meet at the center of the crop processing roll in a V-shaped intersection to provide a chevron shape to the spiraled grooves. In a second configuration, the spiraled grooves do not intersect at the center and form a semi-chevron pattern that does not form a short tooth that the chevron configuration creates at the V-shaped intersection.

A juicer for juicing produce can have a first juicing gear. The first juicing gear can include a first main body. The first main body can be configured to rotate in a first direction. The main body can have a plurality of first teeth. The first teeth can include a first top surface with a first exposed cavity. The first exposed cavity can be formed on the first top surface of the first teeth. The first exposed cavity can include a first leading edge. The first leading edge can be configured bite the portion of the produce from a remainder of the produce, as the juicing gear rotates in the first direction. The first teeth can be configured to crush the portion of the produce and/or the remainder of the produce, as the juicing gear rotates in the first direction, thereby releasing juice from the produce.

A juicer for juicing produce can have a first juicing gear. The first juicing gear can include a first main body. The first main body can be configured to rotate in a first direction. The main body can have a plurality of first teeth. The first teeth can include a first top surface with a first exposed cavity. The first exposed cavity can be formed on the first top surface of the first teeth. The first exposed cavity can include a first leading edge. The first leading edge can be configured bite the portion of the produce from a remainder of the produce, as the juicing gear rotates in the first direction. The first teeth can be configured to crush the portion of the produce and/or the remainder of the produce, as the juicing gear rotates in the first direction, thereby releasing juice from the produce.

A crusher having (a) a crusher frame, (b) a crusher rotor with teeth supported on the crusher frame, (c) counter-blade structures within the crusher frame; and (c) upper and lower hatches. The crusher rotor and the counter-blade structures are configured within the crusher so that material fed into the crusher frame can be crushed between the crusher teeth and the counter-blade structures. The upper and lower hatches are hinged to the crusher so that the hatches can be separated to provide an opening through which foreign material may be removed from the crusher while preventing material feeding into the crusher rotor from flowing out of the crusher.

A crusher having (a) a crusher frame, (b) a crusher rotor with teeth supported on the crusher frame, (c) counter-blade structures within the crusher frame; and (c) upper and lower hatches. The crusher rotor and the counter-blade structures are configured within the crusher so that material fed into the crusher frame can be crushed between the crusher teeth and the counter-blade structures. The upper and lower hatches are hinged to the crusher so that the hatches can be separated to provide an opening through which foreign material may be removed from the crusher while preventing material feeding into the crusher rotor from flowing out of the crusher.

A device, system and method, according to various embodiments, for processing a granular material to produce a flowable granular composition having a flowable form, without the addition of an additive. The granular material is passed between multiple rotating screws, the particles within the granular material are broken down, and moisture within the granular material is released until it assumes a condition such that the flowable granular composition will not substantially clump or form bridges when the flowable granular composition is in a humid environment, in a subsequent process, during transport or during storage.

A device, system and method, according to various embodiments, for processing a granular material to produce a flowable granular composition having a flowable form, without the addition of an additive. The granular material is passed between multiple rotating screws, the particles within the granular material are broken down, and moisture within the granular material is released until it assumes a condition such that the flowable granular composition will not substantially clump or form bridges when the flowable granular composition is in a humid environment, in a subsequent process, during transport or during storage.

A conveying and conditioning roller for a harvesting machine is provided on the surface thereof with teeth in the form of toothed strips which extend over the longitudinal extent of the roller and in each case have a leading tooth flank and a trailing tooth flank as well as a tooth edge. The roller is provided with wear protection zones continuously or in partial regions, the wear resistance thereof being greater than that of the material of the base body of the roller. The base body has a tooth structure determining the shape of the teeth and tooth wear protection zones are formed on the trailing tooth flanks by a high energy radiation process, substantially maintaining the geometry of the tooth structure, roller wear protection zones being formed together thereby on the rollers, as well as a method for producing such a roller wear protection zone.

A system of crushing and processing grain without destroying germ pouches in the grain by: (a) pneumatically transporting grain from truck to a cyclone and processing bin to a pre-crushing area; (b) dropping the grain from the pre-crushing area down into a single pass crushing machine while simultaneously releasing air from the pre-crushing area such that the grain falls from the pre-crushing area into a single-pass crushing machine under the force of gravity and is not blown down into the single-pass crushing machine; and then (c) crushing the grain in the single-pass crushing machine that has three or more roller pairs such that from one successive roller pair down to the next roller pair the grain is crushed smaller and smaller when moving downwardly in the machine. Also included are air locks with attached dust sleeves.

A system of crushing and processing grain without destroying germ pouches in the grain by: (a) pneumatically transporting grain from truck to a cyclone and processing bin to a pre-crushing area; (b) dropping the grain from the pre-crushing area down into a single pass crushing machine while simultaneously releasing air from the pre-crushing area such that the grain falls from the pre-crushing area into a single-pass crushing machine under the force of gravity and is not blown down into the single-pass crushing machine; and then (c) crushing the grain in the single-pass crushing machine that has three or more roller pairs such that from one successive roller pair down to the next roller pair the grain is crushed smaller and smaller when moving downwardly in the machine. Also included are air locks with attached dust sleeves.