Synchronous belt systems include two or more sprockets, a first endless belt, and a second endless belt. The belts are connected together with belts attachment hardware through belt ports, and a belts gap is defined between the first endless belt and the second endless belt. Each of the sprockets includes sprocket teeth and sprocket tooth spaces between adjacent teeth of the sprocket teeth, and each of the sprockets has a sprocket center ridge. The belts each include a plurality of belt split teeth, and each split tooth of the plurality of belt split teeth has a first belt ridge, a second belt ridge and a belt split tooth space disposed between the belt ridges. The belts gap engages the sprocket center ridge of each of the sprockets, and each of the belts attachment hardware is disposed within the adjacent belt split tooth spaces of the belts.

Synchronous belt systems include two or more sprockets, a first endless belt, and a second endless belt. The belts are connected together with belts attachment hardware through belt ports, and a belts gap is defined between the first endless belt and the second endless belt. Each of the sprockets includes sprocket teeth and sprocket tooth spaces between adjacent teeth of the sprocket teeth, and each of the sprockets has a sprocket center ridge. The belts each include a plurality of belt split teeth, and each split tooth of the plurality of belt split teeth has a first belt ridge, a second belt ridge and a belt split tooth space disposed between the belt ridges. The belts gap engages the sprocket center ridge of each of the sprockets, and each of the belts attachment hardware is disposed within the adjacent belt split tooth spaces of the belts.

Synchronous belt systems include two or more sprockets, a first endless belt, and a second endless belt. The belts are connected together with belts attachment hardware through belt ports, and a belts gap is defined between the belts. Each of the sprockets includes sprocket teeth and sprocket tooth spaces between adjacent teeth of the sprocket teeth, and each of the sprockets has a sprocket center ridge. The belts each include a plurality of belt teeth which engage sprocket tooth spaces. The belts gap engages the sprocket center ridge of each of the sprockets. Each of the belts attachment hardware includes a connecting bar which renders a parallel and adjacent configuration of the first endless belt and the second endless belt.

Synchronous belt systems include two or more sprockets, a first endless belt, and a second endless belt. The belts are connected together with belts attachment hardware through belt ports, and a belts gap is defined between the belts. Each of the sprockets includes sprocket teeth and sprocket tooth spaces between adjacent teeth of the sprocket teeth, and each of the sprockets has a sprocket center ridge. The belts each include a plurality of belt teeth which engage sprocket tooth spaces. The belts gap engages the sprocket center ridge of each of the sprockets. Each of the belts attachment hardware includes a connecting bar which renders a parallel and adjacent configuration of the first endless belt and the second endless belt.

A conveyor device includes a first axis equipped with at least two first pulleys rotating coaxially around a first rotation axis and spaced apart, a second axis provided with at least two second pulleys coaxially rotating around a second rotation axis and spaced apart, wherein each first pulley is aligned with a corresponding second pulley along a movement direction of the conveyor device. A conveyor belt extends between the first and the second axis and is wrapped around said first and second pulleys. Said conveyor belt includes a substantially flat base body made of rubberized cloth and having a first face, a second face and a traction body made in one piece with its lateral zone, projecting from the first face and couplable to a first pulley and to the respective second pulley for moving the conveyor belt, and a plurality of cross bars extending transversely to said movement direction between the lateral zones.

A conveying device is provided for an upwardly oriented, in particular vertical, conveyance of turnips or other root crops in harvesting machines. A conveyor belt with at least two lateral conveyor belt portions is moved in a conveying direction during operation. Between the conveyor belt portions is defined a particularly planar conveyor belt surface, and at least one carrier unit which projects from the conveyor belt surface and is supported by the conveyor belt. The carrier unit delimits a receiving space extending on both sides of the conveyor belt surface. The part of the receiving space which is arranged on the side of the conveyor belt surface which is opposite the carrier unit is formed by at least one detachably fastened pocket module and harvesting machines for turnips or other root crops having a conveying device.

A conveying device is provided for an upwardly oriented, in particular vertical, conveyance of turnips or other root crops in harvesting machines. A conveyor belt with at least two lateral conveyor belt portions is moved in a conveying direction during operation. Between the conveyor belt portions is defined a particularly planar conveyor belt surface, and at least one carrier unit which projects from the conveyor belt surface and is supported by the conveyor belt. The carrier unit delimits a receiving space extending on both sides of the conveyor belt surface. The part of the receiving space which is arranged on the side of the conveyor belt surface which is opposite the carrier unit is formed by at least one detachably fastened pocket module and harvesting machines for turnips or other root crops having a conveying device.

Screening belt unit is provided for a harvesting machine or harvested material transport device, and in particular for a root crop harvester or root crop transport belt, and for screening extraneous material out of a mixture of harvested material and extraneous material. A screening belt has at least two endless carriers, preferably in the form of carrier belts or chains, between which screening bars are arranged in a direction transversely to the conveying direction. The screening bars forming a plurality of screening bar units that comprise in particular in each case at least two screening bars. At least a part of the screening bars is fixed so as to be movable relative to the endless carriers. The screening belt unit has a positioning means which is arranged at least partially along the screening belt and acts on the movable screening bars. In the screening zone S, as seen in the screening direction, a spacing A in the conveying direction F of successive screening bars is defined and in particular settable in a variable manner, and associated flap unit.

Screening belt unit is provided for a harvesting machine or harvested material transport device, and in particular for a root crop harvester or root crop transport belt, and for screening extraneous material out of a mixture of harvested material and extraneous material. A screening belt has at least two endless carriers, preferably in the form of carrier belts or chains, between which screening bars are arranged in a direction transversely to the conveying direction. The screening bars forming a plurality of screening bar units that comprise in particular in each case at least two screening bars. At least a part of the screening bars is fixed so as to be movable relative to the endless carriers. The screening belt unit has a positioning means which is arranged at least partially along the screening belt and acts on the movable screening bars. In the screening zone S, as seen in the screening direction, a spacing A in the conveying direction F of successive screening bars is defined and in particular settable in a variable manner, and associated flap unit.

A separating device is provided for separating a harvested mixture of root crops and admixtures. The separating device includes at least one conveyor element which circulates in operation at least for supplying the harvested mixture to a separation region, or for discharging the root crops from the separation region in a conveying direction. The separating device includes at least one fluid flow generator and at least one directing device for directing a fluid flow in a fluid flow direction to the separation region. The directing device is at least realized in at least one directing portion by the conveyor element itself.