A method of producing flour and/or semolina by raw material being fed into a feed opening of a roller press. The milling gap of the roller press is fixed, or damping of at least one of the rollers with respect to the lateral deflection is set, such that a first subset of the fill containing finer milling material forms a packed particle fill in the milling gap. In addition, the setting is carried out in such a way that individual particles of a second subset of the fill containing coarser milling material are in contact with the first roller and the second roller of the roller press. Subsequently, the bulk material is milled into milled product in the roller press (9) and the milled product is discharged through a discharge opening.

A method of producing flour and/or semolina by raw material being fed into a feed opening of a roller press. The milling gap of the roller press is fixed, or damping of at least one of the rollers with respect to the lateral deflection is set, such that a first subset of the fill containing finer milling material forms a packed particle fill in the milling gap. In addition, the setting is carried out in such a way that individual particles of a second subset of the fill containing coarser milling material are in contact with the first roller and the second roller of the roller press. Subsequently, the bulk material is milled into milled product in the roller press (9) and the milled product is discharged through a discharge opening.

This invention refers to a grain flaking modular system, a grain flaking system, and a method that produces a grain flake within a predetermined specification. The grain flaking modular system comprises: valves (124); a PLC (130) connected to the valves (124); and an external optimization unit (140) connected to the PLC (130), wherein the external optimization unit (140) is configured to define a pressure reference (A). The grain flaking system (100) comprises: flaking rollers (110); and a programmable logic controller, PLC (PLC), configured to: obtain a pressure reference (A), and control a flaking pressure through the pressure reference (A) obtained. The grain flaking method comprises: obtaining (210) the pressure reference; applying (220) a flaking pressure to a flow of grains, wherein the flaking pressure is defined through the pressure reference obtained; and adjusting (230) the pressure reference.

This invention refers to a grain flaking modular system, a grain flaking system, and a method that produces a grain flake within a predetermined specification. The grain flaking modular system comprises: valves (124); a PLC (130) connected to the valves (124); and an external optimization unit (140) connected to the PLC (130), wherein the external optimization unit (140) is configured to define a pressure reference (A). The grain flaking system (100) comprises: flaking rollers (110); and a programmable logic controller, PLC (PLC), configured to: obtain a pressure reference (A), and control a flaking pressure through the pressure reference (A) obtained. The grain flaking method comprises: obtaining (210) the pressure reference; applying (220) a flaking pressure to a flow of grains, wherein the flaking pressure is defined through the pressure reference obtained; and adjusting (230) the pressure reference.

A system processes seeds that are present in crop material. The system includes a first shearing surface, a second shearing surface arranged opposite the first shearing surface, and a clearance between the first shearing surface and the second shearing surface. The system passes crop material between the first and second shearing surfaces, where the crop material contacts the shearing surfaces as it passes through the shearing surfaces. Contact with the first and second shearing surfaces damages seeds that are present in the crop material. The system can be installed in an agricultural harvester to damage seeds that are present in crop residue to prevent the seeds from germinating after the crop residue is discharged from the agricultural harvester back into the field.

To produce flour and/or semolina, raw material is fed into a feed opening of a roller press. The milling gap of the roller press is fixed, or damping of at least one of the rollers with respect to the lateral deflection is set, such that a first subset of the fill containing finer milling material forms a packed particle fill in the milling gap. In addition, the setting is carried out in such a way that individual particles of a second subset of the fill containing coarser milling material are in contact with the first roller and the second roller of the roller press. Subsequently, the bulk material is milled into milled product in the roller press (9) and the milled product is discharged through a discharge opening.

To produce flour and/or semolina, raw material is fed into a feed opening of a roller press. The milling gap of the roller press is fixed, or damping of at least one of the rollers with respect to the lateral deflection is set, such that a first subset of the fill containing finer milling material forms a packed particle fill in the milling gap. In addition, the setting is carried out in such a way that individual particles of a second subset of the fill containing coarser milling material are in contact with the first roller and the second roller of the roller press. Subsequently, the bulk material is milled into milled product in the roller press (9) and the milled product is discharged through a discharge opening.

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.

A system may comprise a frame, a pair of rolls with each of the rolls comprising a roll body having opposite ends and a circumferential surface, a plurality of teeth being formed on the circumferential surface, and at least a portion of the circumferential surface being electrically conductive. The roll may also have a roll shaft having end portions extending from the roll body, with each of the end portions extending from one of the ends of the roll body. The system may also comprise roll supports configured to support the rolls on the frame in a manner such that at least one of the rolls is movable to adjust a separation gap between the rolls, a detection apparatus configured to detect contact between the rolls, and a signaling apparatus configured to produce a signal indicating a change in electrical potential is detected by the detection apparatus.