A threshing and separating system including a rotor cage, a first vane rail movably connected to the rotor cage, and a first vane portion with a first constrained end pivotably connected to the rotor cage and a first movable end linked to the first vane rail. The threshing and separating system further including a second vane rail movably connected to the rotor cage, and a second vane portion with a second constrained end pivotably connected to the rotor cage and a second movable end linked to the second vane rail, the second vane portion and the first vane portion together define a substantially continuous vane.

An agricultural combine has a threshing drum and a matching concave, the threshing drum comprising multiple threshing slats having an outer surface segment which, when the drum is rotated with respect to the concave with crop material in the drum, beats and squeezes the crop material thereby releasing grain from residue in the crop material, wherein at least the outer surface segment is formed from a material having a Shore A hardness higher than 90 and lower than 95.

An agricultural combine has a threshing drum and a matching concave, the threshing drum comprising multiple threshing slats having an outer surface segment which, when the drum is rotated with respect to the concave with crop material in the drum, beats and squeezes the crop material thereby releasing grain from residue in the crop material, wherein at least the outer surface segment is formed from a material having a Shore A hardness higher than 90 and lower than 95.

A transition cone for a threshing system of an agricultural harvesting machine has an inner surface with a tapering inner circumference between a wider upstream end and a narrower downstream end, and a plurality of vanes in the transition cone. Each vane extends between the upstream end and the downstream end and at least partly around the tapering inner circumference. Each vane includes an upstanding segment extending away from the inner surface, and a base segment extending from the upstanding segment along the inner surface on the downstream side of the upstanding segment. The base segment has a thicker proximal region adjacent the upstanding segment and a thinner distal edge opposite thereto, with a curved exposed surface extending there between.

A transition cone for a threshing system of an agricultural harvesting machine has an inner surface with a tapering inner circumference between a wider upstream end and a narrower downstream end, and a plurality of vanes in the transition cone. Each vane extends between the upstream end and the downstream end and at least partly around the tapering inner circumference. Each vane includes an upstanding segment extending away from the inner surface, and a base segment extending from the upstanding segment along the inner surface on the downstream side of the upstanding segment. The base segment has a thicker proximal region adjacent the upstanding segment and a thinner distal edge opposite thereto, with a curved exposed surface extending there between.

Methods and systems utilize multiple components to improve the threshing operation within an agricultural combine. The methods and systems include a unique concave design, open valley rasp bars, and restrictor plates. Application of the methods and systems' components allows more efficient threshing operations for large grains such as corn and, also, for small grains such as soybeans resulting in an increased capture and retention of seed from the threshing operation.

A harvest weighing mechanism utilizes a variable speed conveyor comprised of evenly spaced solid rods such that marketable product is suspended on the rods while small foreign material falls between the rods. The product moves at the same velocity as the conveyor until discharged and directed into an impact plate attached to an impact sensor. As the product collides with the impact plate the resultant deflection of the impact plate is converted to an electronic signal which is sent to a control box which uses an algorithm to convert radial velocity to linear velocity and through laws of energy conservation determines the weight of the product required to cause the deflection measured by the impact sensor.

A harvest weighing mechanism utilizes a variable speed conveyor comprised of evenly spaced solid rods such that marketable product is suspended on the rods while small foreign material falls between the rods. The product moves at the same velocity as the conveyor until discharged and directed into an impact plate attached to an impact sensor. As the product collides with the impact plate the resultant deflection of the impact plate is converted to an electronic signal which is sent to a control box which uses an algorithm to convert radial velocity to linear velocity and through laws of energy conservation determines the weight of the product required to cause the deflection measured by the impact sensor.

A harvester lifts plant material and usable product off the ground using a header to create one or more distinct ribbons of material which are each fed axially into the front of rotating foraminous drums carrying stripper springs and within which a rotor with threshing springs and a screw conveyor on its outer surface is cooperatively mounted. The usable product thus separated from the plant material exits the foraminous drums to be collected and conveyed to the cleaning portion of the harvester. The product and foreign material are mechanically sized using a series of rollers and an air stream separates the product for subsequent trimming of stems therefrom. The product is then deposited on a sizing conveyor further separation and weighing.

A threshing and separating system for an agricultural vehicle includes: a rotor cage; a first vane rail movably connected to the rotor cage; a first vane portion pivotably connected to the rotor cage and linked to the first vane rail; a second vane rail movably connected to the rotor cage, the second vane rail being movable independently of the first vane rail; and a second vane portion pivotably connected to the rotor cage and linked to the second vane rail, the second vane portion and the first vane portion together defining a substantially continuous vane.