A flexible transmission system having a connection element for cables, which transmit rotation from the drive shaft to the dispensers, transmission housings are used. These are arranged in a manner to allow that possible vertical oscillations of the equipment, caused by irregularities in the ground, so not to interfere in the consistency and regularity of the rotation transmission, maintaining the product deposition rate for which the machine was initially regulated, to guarantee its productivity and using, to achieve this, a reduced number of component parts. This facilitates not only the assembly but also the maintenance of the equipment, with direct consequences on its production cost.

A flexible transmission system having a connection element for cables, which transmit rotation from the drive shaft to the dispensers, transmission housings are used. These are arranged in a manner to allow that possible vertical oscillations of the equipment, caused by irregularities in the ground, so not to interfere in the consistency and regularity of the rotation transmission, maintaining the product deposition rate for which the machine was initially regulated, to guarantee its productivity and using, to achieve this, a reduced number of component parts. This facilitates not only the assembly but also the maintenance of the equipment, with direct consequences on its production cost.

A spreading machine, in particular a precision seed drill, includes at least one seed hopper, at least one fertilizer tank, and a several spreading units. Each of the spreading units includes at least one pneumatically operated separating device, to or from which a separation air flow is suppliable or dischargeable, and a fertilizer application device. The spreading machine includes a conveying air-driven seed feeding device for providing seed from the seed hopper to the spreading units, and an energy-powered fertilizer supply device for providing fertilizer to the fertilizer application devices. To refine a spreading machine that includes a plurality of consumers, it is provided that the spreading machine includes at least two separate energy suppliers, in particular blowers or pumps, for providing the separation air flows to the separating devices, the conveying air to the seed feeding device, and the energy to the fertilizer supply device.

An apparatus includes a shaft, a first barrel, and a second barrel. The shaft has a first end, a second end, and a longitudinal axis of rotation. The first barrel surrounds a first portion of the shaft and is fixed to the shaft to rotate therewith. The second barrel surrounds a second portion of the shaft and is configured to rotate about the axis independent of a rotation of the shaft.

An electrically operated agricultural planting implement is used with an agricultural vehicle. The planting implement may include a generator to generate electric power to power electronic components located on the row units of the planting implement as well as to power other functionality of the planting implement such as lifting and/or pivoting. Operating the planting implement via electric power rather than hydraulic power eliminates the need for hydraulic plumbing. A wireless data communication and control system is used with an agricultural planting implement and an agricultural vehicle. The system provides for bidirectional data communication and control between a control unit and the planting implement. The system eliminates the need for wiring and also provides the ability to communicate with and control the planting implement remotely. A user can wirelessly and remotely control the planting implement by inputting commands into the control unit.

A seed meter drive system includes a clutch having a toolless fastener configured to selectively couple the clutch to a downstream component. The clutch is configured to receive a rotational input via a flexible drive shaft, and to drive the downstream component in rotation while the clutch is engaged.

A seed meter drive system includes a clutch having a toolless fastener configured to selectively couple the clutch to a downstream component. The clutch is configured to receive a rotational input via a flexible drive shaft, and to drive the downstream component in rotation while the clutch is engaged.

An apparatus for transmitting power from a drive shaft (24) to a seed meter shaft of a seed metering device includes a transmission (26). A transmission housing (28) has a first housing section (30) and an identical second housing section (30). The first housing section (30) and the second housing section (30) together define a first internal passageway (44) and a second internal passageway (50). The transmission further includes a first transmission element (46) rotatably supported by the first housing section (30) and the second housing section (30) in the first internal passageway (44). The first transmission element (46) connects to one of the drive shaft (24) and the seed meter shaft. The transmission further includes a second transmission element (54) rotatably supported by the first housing section (30) and the second housing section (30) in the second internal passageway (50). The second transmission element (54) engages the first transmission element (46) and connects to the other of the drive shaft (24) and the seed meter shaft.

An apparatus for transmitting power from a drive shaft (24) to a seed meter shaft of a seed metering device includes a transmission (26). A transmission housing (28) has a first housing section (30) and an identical second housing section (30). The first housing section (30) and the second housing section (30) together define a first internal passageway (44) and a second internal passageway (50). The transmission further includes a first transmission element (46) rotatably supported by the first housing section (30) and the second housing section (30) in the first internal passageway (44). The first transmission element (46) connects to one of the drive shaft (24) and the seed meter shaft. The transmission further includes a second transmission element (54) rotatably supported by the first housing section (30) and the second housing section (30) in the second internal passageway (50). The second transmission element (54) engages the first transmission element (46) and connects to the other of the drive shaft (24) and the seed meter shaft.

An assembly includes first and second shafts and first and second sprockets. The first shaft has a first and second ends and a first longitudinal axis of rotation. The first sprocket is attached to the first shaft proximate the first end of the first shaft. The first sprocket rotates with the first shaft. The second shaft is spaced from the first shaft by a distance, the second shaft having a first end spaced from the first end of the first shaft by the distance, a second end spaced from the second end of the first shaft by the distance, and a second longitudinal axis of rotation substantially parallel to the first longitudinal axis of rotation. The second sprocket is attached to the second shaft proximate the second end of the second shaft. The second sprocket rotates with the second shaft. The distance is adjustable.