A dual-disk seed meter for a planter may include a housing defining a first seed chamber configured to receive first seeds of a first seed type and a second seed chamber configured to receive second seeds of a second seed type. The seed meter may also include a first seed disk rotatable within the housing to convey the first seeds from the first seed chamber, a second seed disk rotatable within the housing to convey the second seeds from the second seed chamber, and a drive assembly configured to simultaneously rotate the first and second seed disks. In addition, the seed meter may include a seed deflector movable relative to the first seed disk and/or the second seed disk to control which of the seed types is discharged from the housing based on a selected seed type to be delivered by the seed meter.

A seed metering system, for use on a row crop planter, selects individual seeds from a seed reservoir and dispenses the seeds singularly at a controlled rate. A direct drive seed metering system includes a seed disc having a plurality of suction apertures with a recessed pocket adjacent to an aperture. The recessed pockets act to agitate seeds in the seed reservoir and to direct seed flow towards the apertures. A seed path relief system allows the placement of the seeds such that they are released from an outer edge of the seed disc. An adjustable seed singulator is mounted adjacent to the face of the seed disc where inner and outer blades are adjusted radially to compensate for the singulation of various seed sizes and shapes. The seed disc is driven via engagement of an internal gear with the external gear of an independent drive motor.

A row unit of an agricultural planter includes a seed meter. The seed meter includes first and second disks within a seed meter housing. The first and second seed disks are positioned in the seed meter housing such that the disks rotate in the same rotation direction and include a common seed release point. A single drive member is operatively connected to both the first and second seed disks such that the drive member selectively rotates one or both of the first or second seed disks at a time. The seed disks may be angularly positioned and conical-shaped member with a central axis and comprising seed cells radially positioned about an outer portion and being substantially non-perpendicular to the central axis. An air pressure source also is included to adhere seed to the disks.

A row planter system having a seed meter assembly and a seed delivery system. The seed meter assembly has at least one seed plate disposed within a housing and a vacuum assembly having a single vacuum port connection in the housing.

The row planter system also includes a volumetric granular meter that is interchangeable with the seed meter assembly and adapted for co-application of a second product variety. The seed delivery system is adapted to hold and deliver a seed from the seed meter to a furrow while reducing and/or eliminating roll and bounce.

A seed metering system, for use on a row crop planter, selects individual seeds from a seed reservoir and dispenses the seeds singularly at a controlled rate. A direct drive seed metering system includes a seed disc having a plurality of suction apertures with a recessed pocket adjacent to an aperture. The recessed pockets act to agitate seeds in the seed reservoir and to direct seed flow towards the apertures. A seed path relief system provides for allowing the placement of the seeds such that they are released from an outer edge of the seed disc. An adjustable seed singulator is mounted adjacent to the face of the seed disc where inner and outer blades are adjusted radially to compensate for the singulation of various seed sizes and shapes. The seed disc is driven via engagement of an internal gear with the external gear of an independent drive motor.

A seed metering system, for use on a row crop planter, selects individual seeds from a seed reservoir and dispenses the seeds singularly at a controlled rate. A direct drive seed metering system includes a seed disc having a plurality of suction apertures with a recessed pocket adjacent to an aperture. The recessed pockets act to agitate seeds in the seed reservoir and to direct seed flow towards the apertures. A seed path relief system provides for allowing the placement of the seeds such that they are released from an outer edge of the seed disc. An adjustable seed singulator is mounted adjacent to the face of the seed disc where inner and outer blades are adjusted radially to compensate for the singulation of various seed sizes and shapes. The seed disc is driven via engagement of an internal gear with the external gear of an independent drive motor.

A singulating meter includes a seed disc with seed apertures rotates in a vertical plane through a seed reservoir. A horizontal seed tube has an inlet adjacent to the top of the seed disc and the seed apertures move along a seed aperture path toward the inlet. Pressurized air flows into the tube inlet, and through each seed aperture as it rotates upward out of the seed reservoir pushing a seed into each seed aperture which seed then moves along the seed aperture path through about 180 degrees of rotation to a release position at the top of the path where the seed is carried horizontally into the seed tube. An ejector pushes debris out of the seed apertures into the seed tube. An alignment guide moves the singulator element of the meter into the operating position where same is magnetically secured.

A singulating device (171) for singulating granular material in an agricultural implement comprises a metering member (1714), which is movably arranged in a meter chamber (1710) and which presents a plurality of through holes (1715, 1715a, 1715b), which are arranged along a direction of movement of the metering member (1714). The through holes (1715, 1715a, 1715b) are provided as at least one first row of holes and at least one second row of holes (1715, 1715a, 1715b), said rows of holes extending in parallel along the direction of movement. The rows of holes (1715, 1715a, 1715b) are spaced from each other in a direction perpendicular to the direction of movement. The singulating device (171) is connectable to a pressurization device (16), for providing a pressure difference across the metering member (1714), sufficient to cause granules of the material to attach to the metering member (1714) at the holes (1715, 1715a, 1715b). The singulating device comprises an excess material pickup prevention device (17161, 17162, 17163). The excess material pickup prevention device (17161, 17162, 17163) is operable only in an area radially between said rows of holes (1715a, 1715b). There is disclosed an agricultural implement comprising such singulating device and a method of operating a singulating device.

Systems, implements, and methods for seed orientation during planting operations of agricultural plants include a system for seed orientation having a vision system positioned in proximity to a seed disk. The vision system determines seed orientation data for seed on the seed disk. A seed belt receives seed from the seed disk and the seed belt adjusts an orientation of the seed from the seed disk to a desired seed orientation within a furrow during planting.

Systems, methods and apparatus for selecting an agricultural input. First and second inputs are in communication with a seed meter. A selection apparatus constrains the seed meter to deposit only one of the input sources such that the seed meter is enabled to alternate between depositing the first and second inputs. Processing circuitry controls the selection apparatus to alternate between the first and second inputs.