A vacuum seed meter includes a vacuum channel and a seed disc having seed cells defined as openings through a perimeter region of the seed disc, which rotates through the vacuum channel. The seed meter includes a sensor that addresses the seed cells in a way that enables prediction of imminent seed starvation of the seed meter.

A multiple variety planter has a direct vacuum system that allows for planting multiple varieties of seed while reducing occurrences of mis-planting events or planting inconsistencies such as multiples and skips by providing highly controllable seed meter vacuum performance characteristics that are controllable on a row-by-row basis. The direct vacuum system may include a vacuum unit at each row unit of the planter to apply a vacuum pressure to a seed meter at the row unit. Each vacuum unit may be individually and variably controlled to apply different vacuum pressures based on which seed variety is being planted with the respective seed meter at a given time.

A seed meter is provided for planting multiple types of seed and rapidly switching between the types being planted in a single planting pass of a planting session of row-crop planting. The seed meter has a split seed meter reservoir with a pair of seed meter chambers flanked by or next to a pair of seed disks. Activation and deactivation of the seed disks within the seed meter are synchronized to selectively deliver one type of seed from one of the seed meter chambers for delivery out of a single seed tube of the seed meter, which may provide absolute and instantaneous on-the-go seed switching within a single row from each seed meter.

An agricultural machine includes a seeding system comprising a plurality of planting units, each planting unit configured to meter and deliver seed and a control system configured to obtain a seed planting model that identifies a plurality of seed planting locations on a worksite, identify a machine path on the worksite, identify, based on the machine path, a set of the seed planting locations for each of the planting units, and control each planting unit to deliver seeds to the set of seed planting locations identified for the planting unit.

A seed meter is provided for planting multiple types of seed and rapidly switching between the types being planted in a single planting pass of a planting session of row-crop planting. The seed meter has a segmented seed meter reservoir with multiple seed meter chambers arranged between two pairs of seed disks that may be better parallel to each other or angled with respect to each other to define an X-shaped arrangement of the seed disks in the seed meter. Activation and deactivation of the seed disks within the seed meter are synchronized to selectively deliver a single one of the multiple types of seed from the respective seed meter chamber for delivery out of a single seed tube of the seed meter, which may provide absolute and instantaneous on-the-go seed switching within a single row from each seed meter.

A seed placement device connected to a machine to transfer seed to a furrow includes a housing having a first opening through which seed is received and a second opening through which seed is discharged. An endless member positioned within the housing, and a drive member that controls movement of the endless member in cooperation with movement of the machine. The machine operates in a seeding direction at a travel speed, and the endless member discharges seed at a discharge speed and in a discharge direction. The discharge direction is approximately opposite to the seeding direction, and the discharge speed of the seed is at least 1.2 times the travel speed of the machine.

An apparatus and methods for delivering seed from a metering device to a furrow. In one embodiment, a seed meter entrains and releases seed from a seed disc at a seed release location. The released seed is directed into a seed conveyor by a loading wheel. The seed conveyor conveys the seed toward the soil and releases the seed with a rearward relative velocity.

Disclosed is an air filtration module for seed planters. The filtration module includes a filter cartridge with a filter media disposed therein. The cartridge is sized and shaped to fit into the stock seed hopper. The filter media is configured to filter out and contain particles of seed coating materials that contain neonicotinoids and/or other airborne contaminants. The filter cartridge can replace the porous seed container wall through which compressed air is discharged out the seed hopper air discharge vent.

The present invention is directed to a seed discharge system is that employs a pair of rotating belts spaced from one another to receive the seeds from a seed metering device and to direct the seeds into the desired location within a trench over which the discharge system is positioned. The seeds are received within a gap formed between the belts and are clamped and held between the belts as the belts move, consequently moving the seeds from the seed metering device to the discharge opening of the discharge system. The constant engagement of the seeds with the belts through the discharge system prevents the seeds from bouncing, thereby maintaining a constant residence time for the seeds within the discharge system.

A row planter assembly having offset track assemblies, a downforce control assembly, a furrow assembly, a seed metering assembly, and a seed delivery assembly.