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 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 self-cleaning gauge wheel assembly having a gauge wheel mounted for rotation on an agricultural planter and adjustable to set the depth of the planting. A pulley having a diameter at least 1/7.sup.th and less of the diameter of the gauge wheel is journaled about an axis spaced from and behind and elevated from the gauge wheel. An endless belt is provided around the gauge wheel and the pulley in tension so that movement of the planter, and associated rotation of the gauge wheel causes the pulley to accelerate any accumulated moist soil and expel it from the belt to provide a self-cleaning feature.

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 spreader includes a frame having wheels mounted on an axle. A gear assembly on the axle is coupled with a shaft. A hopper is mounted on the frame and holds particulate that empties through an opening within the bottom wall. An impeller is mounted on the shaft and receives the particulate emptied from the hopper. A controlled-release assembly is mounted about the shaft and includes a drive housing secured to the hopper. The drive housing has a funnel opening to dispense the particulate therethrough. A transfer wheel within the drive housing is rotatably coupled to the shaft. When the shaft is rotating, the transfer wheel rotates whereby the particulate is delivered to the funnel. When the shaft is stationary, the transfer wheel is stationary whereby particulate is not delivered to the funnel.

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 distributor includes two distributor disks, which are driven rotatably by a drive train, to be attached to a power take-off shaft of a traction unit or of a tractor. The drive train includes a central input shaft driving a cross shaft to drive distributor disks via a central gear. The distributor disks can be rotated at different speeds with a reducing gear with variable output speed, arranged downstream of the central gear. The reducing gear is configured as a mechanical coaxial transmission with an input shaft connected to the cross shaft and an output shaft arranged coaxially to the cross shaft. A speed reduction ratio is changed by an adjusting element between a normal position, with an input speed of the input shaft corresponding to the output speed of the output shaft, and a speed reduction position with the input speed not equal to the output speed.

A small hand-guided self-propelled garlic planter includes a driving mechanism disposed on a rack and connected to an upright planting mechanism and a material taking mechanism in a stock bin. The upright planting mechanism includes a material receiving mechanism fixed to the rack and an insertion type planting mechanism below the material receiving mechanism. The insertion type planting mechanism is connected to a turnable mechanism mounted to the rack and connected to the driving mechanism. Feed bowls are disposed on the material receiving mechanism and are connected to a first opening mechanism. Movement of the insertion type planting mechanism causes a first acting member to drive the first opening mechanism. Duckbills are disposed on the insertion type planting mechanism and are connected to a second opening mechanism. Movement of the insertion type planting mechanism causes a second acting member to drive the second opening mechanism.

A small hand-guided self-propelled garlic planter includes a driving mechanism disposed on a rack and connected to an upright planting mechanism and a material taking mechanism in a stock bin. The upright planting mechanism includes a material receiving mechanism fixed to the rack and an insertion type planting mechanism below the material receiving mechanism. The insertion type planting mechanism is connected to a turnable mechanism mounted to the rack and connected to the driving mechanism. Feed bowls are disposed on the material receiving mechanism and are connected to a first opening mechanism. Movement of the insertion type planting mechanism causes a first acting member to drive the first opening mechanism. Duckbills are disposed on the insertion type planting mechanism and are connected to a second opening mechanism. Movement of the insertion type planting mechanism causes a second acting member to drive the second opening mechanism.

A manually operable spreader which can be moved from behind on a surface is especially suitable for distributing salt and other particulate materials which tend to conglomerate or clump in a hopper of the spreader. Wheels are mounted to a frame also support the hopper. A horizontal drive shaft between the wheels is coupled to rotate a vertical shaft. A distributor below the hopper rotates with vertical shaft rotation to distribute particulate material which drop via openings in the bottom of the hopper. The vertical shaft extends via a hole in bottom of hopper and carries at the top thereof an auger having a helical vane. The auger is rotatable with the vertical shaft as the spreader is moved on its wheels. The auger circulates the particulate material in the hopper as the spreader moves while directing material in the hopper towards the bottom thereof.