A seed delivery device including a frame defining at least one seed chamber. The frame includes a sidewall and an air permeable floor. Seed can be received and deposited on the air permeable floor through an input port. An air input channel is utilized to introduce an air stream into the seed chamber and direct it through the air permeable floor such that seed is lifted from the air permeable floor to an outlet port. An air bypass channel is configured to separate the air stream into a first stream that is directed through the air permeable floor and a second stream that is directed through the bypass channel and recombined with the first stream, at a point prior to the output port.

An inductor box for an agricultural implement having compression limiters. One inductor box includes a housing having a first side configured to receive an agricultural product from a tank. The first side has a sealable surface, and the sealable surface has plates attached thereto. The inductor box includes a first gasket disposed on the sealable surface and configured to establish a seal between the sealable surface and a corresponding surface of the tank. The plates are configured to extend through respective openings in the gasket, and to block compression of the first gasket beyond a desired compression limit.

A system for distributing a plurality of seeds includes a storage tank operable to store the plurality of seeds. A first meter is downstream of the storage tank. A second meter is downstream of the first meter and is operable to individually meter the plurality of seeds. An outlet conduit is located downstream of the second meter. The first meter is configured to adjust the flow of the plurality of seeds in response to a signal from a sensor located between the first meter and the outlet conduit.

A potato seed planting apparatus has: a frame configured to be advanced over a subjacent field into which potato seed is planted; at least one container on the frame for a supply of potato seed; and a plurality of laterally spaced planting units on the frame. Each of the planting units is configured to cause potato seed from the at least one container to be discharged to the subjacent field at controlled time intervals as the potato seed planting apparatus is advanced in a travel path. First and second of the planting units are configured so that the discharge time intervals for potato seeds from the first planting unit are different than the discharge time intervals for potato seeds from the second planting unit with the potato seed planting apparatus advanced at a first speed in the travel path.

A row planting unit closing system including a first stage closing unit adapted to be attached to a row planting unit and including: a first stage frame; and a set of at least one row closing wheel having a closing angle orientation non-perpendicular relative to the ground; and wherein the first stage frame is attached at a first end to the row planting unit, the first stage frame comprising a linkage mechanism for setting a toe in angle orientation of the set of at least one row closing wheel relative to the first stage frame.

An air cart for an agricultural air seeding system includes a frame; at least one tank for holding a material, and a metering system associated with the at least one tank. The metering system is configured for metering the material from the at least one tank at an output rate. A sensor senses a parameter associated with an angular orientation of the air cart relative to a reference plane, and provides an output signal indicative of the angular orientation. An actuator adjusts an output rate of the metering system and moves at least one of the at least one tank and the metering system relative to the frame. A controller is coupled with each of the actuator and the sensor and receives the output signal from the sensor. The controller is configured for controlling the actuator and adjusting the output rate of the metering system, dependent upon the output signal.

An inductor box for an agricultural implement having compression limiters. One inductor box includes a housing having a first side configured to receive an agricultural product from a tank. The first side has a sealable surface, and the sealable surface has plates attached thereto. The inductor box includes a first gasket disposed on the sealable surface and configured to establish a seal between the sealable surface and a corresponding surface of the tank. The plates are configured to extend through respective openings in the gasket, and to block compression of the first gasket beyond a desired compression limit.

A metering device for an agricultural implement to apply a field input, for example, pneumatically delivered granular product including seed or fertilizer, to an agricultural field. the rate of application of dispensers of one section of the implement can be collectively varied in relation to the rate of application of the dispensers of a different section of the implement frame.

A metering system for an agricultural system includes a singulator. The singulator includes a hopper configured to provide a flow of plantlet casings from a storage tank of the agricultural system, a pair of counter-rotating rods configured to receive the plantlet casings from the hopper at a feed rate, where the pair of counter-rotating rods are spaced apart from one another to form a gap, and where the gap is configured to direct the plantlet casings from a first end of the pair of counter-rotating rods to a second end of the pair of counter-rotating rods, and a drive assembly configured to drive rotation of the pair of counter-rotating rods.

An automated seed planter may include at least two vacuum cylinders which simultaneously and/or independently pick up and deliver seeds to a single tray. The vacuum cylinders may have a common rotational axis about which the vacuum cylinders rotate. The automated seed planter may include a plurality of vertical seed chutes which receive seeds therein. The vertical seed chutes have open upper and lower ends. A shutter assembly of the seed planter is associated with the lower ends of the vertical seed chutes. The shutter assembly is selectively opens and closes the lower ends of the seed chutes to plant the seeds on the tray. The automated seed planter may include a seed correction assembly including seed wells which receive seeds therein. The seed correction assembly selectively displaces one or more of the seeds from the seed wells to deliver the one or more seeds toward the tray for planting.