A system for sequencing a preparing station that sequences loads coming from an external unit via an entering outbound conveyor. The system includes a paternoster, a buffer location and a managing unit, which processes each load that comes to an entrance of the paternoster according to one of the following modes (selected as a function of a place desired for the load in a sequence): (a) after introduction into the paternoster, the load undergoes a bypass transfer between two nacelles positioned face to face and then presented to an exiting outbound conveyor; (b) after introduction into the paternoster, the load undergoes a buffer transfer towards a given buffer location and then subsequently re-positioned again in the paternoster and finally presented to the exiting outbound conveyor; (c) after introduction into the paternoster, the load is transported therein without bypass transfer or buffer transfer and then presented to the exiting outbound conveyor.

A system for sequencing a preparing station that sequences loads coming from an external unit via an entering outbound conveyor. The system includes a paternoster, a buffer location and a managing unit, which processes each load that comes to an entrance of the paternoster according to one of the following modes (selected as a function of a place desired for the load in a sequence): (a) after introduction into the paternoster, the load undergoes a bypass transfer between two nacelles positioned face to face and then presented to an exiting outbound conveyor; (b) after introduction into the paternoster, the load undergoes a buffer transfer towards a given buffer location and then subsequently re-positioned again in the paternoster and finally presented to the exiting outbound conveyor; (c) after introduction into the paternoster, the load is transported therein without bypass transfer or buffer transfer and then presented to the exiting outbound conveyor.

A grain conveyor chain for a harvesting vehicle includes a chain made of standard chain elements and multiple scoops. The scoops are fastened on the chain and the standard chain elements have inner plates, outer plates, pins, and/or sleeves, with each scoop being in direct contact with a standard chain element.

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.

The invention relates to a grain conveyor chain for a harvesting vehicle having a chain made of standard chain elements, wherein the standard chain elements comprise inner plates, outer plates, pins and/or sleeves, and a plurality of scoops, wherein the scoops are fastened on the chain and wherein the chain has chain links, which are partially back-rigid, and to a method for operating the grain conveyor chain according to the invention in a harvesting vehicle.

A flatwire conveyor belt assembly includes pickets defining a leading link and a trailing link, wherein adjacent pickets are coupled with a cross-rod that extends through openings formed in the leading link and in the trailing link of adjacent pickets. Top plates are coupled to the pickets and define a conveying surface.

A gripper (12) is disclosed having a base (24) that extends from a first end a second end and includes resilient (32) fingers that extend from the base between the first end and the second end. The resilient fingers (32) may be configured to generally conform to and engage with articles (34) being transferred when the base is mounted to a conveyor.