A harvester includes a main frame supported on a ground surface for transport along the ground surface, an inlet for receiving a crop, and a separator for separating the crop into a first portion and a second portion. The separator includes a hood having an outlet, and a fan operable to generate an airflow through the outlet. The hood of the separator is movable relative to the main frame between a transport position and a harvest position. In the transport position, the hood is positioned at a first height above the ground surface. In the harvest position, the hood is positioned at a second height, greater than the first height, above the ground surface.

A harvester includes a main frame supported on a ground surface for transport along the ground surface, an inlet for receiving a crop, and a separator for separating the crop into a first portion and a second portion. The separator includes a hood having an outlet, and a fan operable to generate an airflow through the outlet. The hood of the separator is movable relative to the main frame between a transport position and a harvest position. In the transport position, the hood is positioned at a first height above the ground surface. In the harvest position, the hood is positioned at a second height, greater than the first height, above the ground surface.

A handheld harvester apparatus may include a threshing assembly and a screening assembly within a housing. The threshing assembly may include a threshing drum with a plurality of blades coupled to a first axle. The plurality of blades may include a set of teeth configured to strip a plurality of seeds and plant material from a plant. The screening assembly may include a paddle assembly configured to receive the plurality of seeds and plant material from the threshing assembly, the paddle assembly including a plurality of paddles coupled to a second axle. The screening assembly may include a screen assembly positioned beneath the paddle assembly, the screen assembly including a plurality of pass-through apertures configured to define a threshold for the plurality of seeds. The screening assembly may include a collection chamber configured to receive any of the plurality of seeds that exit the plurality of pass-through apertures.

A threshing pin for use with a threshing cylinder of a harvesting machine is disclosed. The pin has an attachment portion for attaching the pin to the threshing cylinder, and a threshing portion extending from the attachment portion for contacting the material to be threshed, wherein the threshing portion includes a recess in an outer surface of the threshing portion, the recess being occupied by a wear life-extending material. A corresponding method is also disclosed.

A system and a method for automated sorting and trimming a plant. The system includes a trimming station, adapted to identify undesired portions of the plant, and to trim the undesired portions off the plant. The system may further include a guiding assembly adapted to ensure that the plant is aligned with the trimming station. A controller controls operation of the trimming station and of the guiding assembly. The system may further include a sorting station adapted to determine whether the plant is infected or contaminated. The controller may be adapted to control operation of the sorting station.

An axial threshing/separating system having at least one spring tined accelerator cylinder, in where the accelerator cylinder includes a plurality of double torsional spring tine cylinder elements extending from the spring tined accelerator cylinder; and one or more spring tined axial rotors, in where each of the spring tined axial rotors includes a plurality of double torsional spring tine rotor elements extending from each of the spring tined axial rotors, in where each of the spring tined axial rotors is aligned such that a respective longitudinal axis of each spring tined axial rotor is substantially coplanar and substantially parallel to a respective longitudinal axis of each other spring tined axial rotor, and wherein a longitudinal axis of at least one spring tined accelerator cylinder is substantially perpendicular to the longitudinal axis of each spring tined axial rotor.

An axial threshing/separating system having at least one spring tined accelerator cylinder, in where the accelerator cylinder includes a plurality of double torsional spring tine cylinder elements extending from the spring tined accelerator cylinder; and one or more spring tined axial rotors, in where each of the spring tined axial rotors includes a plurality of double torsional spring tine rotor elements extending from each of the spring tined axial rotors, in where each of the spring tined axial rotors is aligned such that a respective longitudinal axis of each spring tined axial rotor is substantially coplanar and substantially parallel to a respective longitudinal axis of each other spring tined axial rotor, and wherein a longitudinal axis of at least one spring tined accelerator cylinder is substantially perpendicular to the longitudinal axis of each spring tined axial rotor.

An apparatus for trimming plant material includes a housing having at least one receptacle configured to removably receive at least one cutting reel system to rest unsecured therein. The housing includes a closeable lid having retention structure configured to operably secure the at least one cutting reel system in the at least one receptacle when the lid is closed. In some embodiments, the housing is further configured to removably receive a knife assembly to rest unsecured in the housing, and the retention structure of the closeable lid further includes a knife retention structure configured to operably secure the knife assembly in engagement with the at least one cutting reel system when the lid is closed.

An axial threshing/separating system having at least one spring tined accelerator cylinder, in where the accelerator cylinder includes a plurality of double torsional spring tine cylinder elements extending from the spring tined accelerator cylinder; and one or more spring tined axial rotors, in where each of the spring tined axial rotors includes a plurality of double torsional spring tine rotor elements extending from each of the spring tined axial rotors, in where each of the spring tined axial rotors is aligned such that a respective longitudinal axis of each spring tined axial rotor is substantially coplanar and substantially parallel to a respective longitudinal axis of each other spring tined axial rotor, and wherein a longitudinal axis of at least one spring tined accelerator cylinder is substantially perpendicular to the longitudinal axis of each spring tined axial rotor.

An axial threshing/separating system having at least one spring tined accelerator cylinder, in where the accelerator cylinder includes a plurality of double torsional spring tine cylinder elements extending from the spring tined accelerator cylinder; and one or more spring tined axial rotors, in where each of the spring tined axial rotors includes a plurality of double torsional spring tine rotor elements extending from each of the spring tined axial rotors, in where each of the spring tined axial rotors is aligned such that a respective longitudinal axis of each spring tined axial rotor is substantially coplanar and substantially parallel to a respective longitudinal axis of each other spring tined axial rotor, and wherein a longitudinal axis of at least one spring tined accelerator cylinder is substantially perpendicular to the longitudinal axis of each spring tined axial rotor.