A metering and mixing system of solid particulates for a rotary seed dispenser in agricultural equipment for sowing, wherein the rotary seed dispenser is mounted under a seed feeder. The rotary seed dispenser is driven at the bottom by a planter drive system, which provides rotation to a spinning disc provided with a number of calibrated orifices through which the seeds housed in the disc orifices fall on a given point of the agricultural equipment. The metering and mixing system of solid particulates includes a solid particulate feeder that is positioned between the seed feeder and the rotary seed dispenser.

A seed meter for an agricultural planter in which the seed disc is rotatably mounted within a seed meter housing. As the seed disc rotates, the apertures in the disc rotate along a seed aperture path through a horizontally adjacent seed pool area. The seed disc includes cavities disposed along the seed aperture path to agitate the seeds in the seed pool area. A singulator having multiple co-planar singulator surfaces is biased against the seed side surface of the seed disc.

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.

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.

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.

Disclosed is a rotating conveyor disk of a metering or sowing unit having a plurality of recesses for transporting grains. The conveyor disk rotates within a housing of a metering unit for granular material, such as seeds, fertilizer, or the like. The conveyor disk has at least one recess at the outer periphery for the reception of at least one grain to be separated via at least one revolution of the conveyor disk. In the interaction with a groove-shaped profile of the inner cover surface, the at least one recess forms a conveyor pocket for conveying one grain or a plurality of grains in the direction toward an outlet opening extending approximately tangentially to the inner cover surface. The at least one recess is located at the outer periphery of the conveyor disk in an insert element that is detachably secured in the disk.

The present invention refers to a device for the inoculation of seeds that is attached internally to a seed meter or a seed box on a planting machine. This is done to carry out the inoculation and treatment of seeds at the same time that they are being planted. The device has a reservoir where the inoculant is placed and then subsequently taken by the pump to the cylindrical mixture chamber. At the top of the cylindrical mixture chamber is a nozzle, which is located at the opposite side of where the seeds leave. They leave from the bottom of the device. There is a drive axle and a group of gears that move and give force to the blades that mix the seeds in the fluid located in the inner part of the chamber. The chamber is connected to the seed distributor disc and the flow of seeds is based on the seed distributor disc's consumption.

A motor drives a seeding system. A sensor senses a characteristic of the motor and a motor jam is detected based on the sensed characteristic. The motor is momentarily reversed, when a jam is detected.

A motor drives a seeding system. A sensor senses a characteristic of the motor and a motor jam is detected based on the sensed characteristic. The motor is momentarily reversed, when a jam is detected.

A seed distribution device for precision sowing machines. The device includes a housing for a seed selector disc which is mounted for rotation about a central rotation axis, at least one ring of holes in the seed selector disc which is provided to transport seeds over a circular trajectory, a first singulator and a second singulator which are mounted so as to be radially facing on the housing at opposite sides of the circular trajectory of the seeds and the first and second singulator being distal and proximal with respect to the central rotation axis, respectively, the first singulator and second singulator defining a disruptive selection path for the seeds and being independently and selectively adjustable to modify at least locally the disruptive path so as to eliminate duplicates of seeds from the disc without creating failures.