In the method of the invention for conveying bulk goods by means of a conveying device comprising a conveying channel and at least two conveying elements (266, 269) arranged loosely in the conveying channel, the conveying elements are mechanically driven in the conveying direction in a first section of the conveying channel, before bulk goods are fed into the conveying channel in a second section of the conveying channel. The bulk goods are conveyed by movement of the conveying elements along the conveying direction in a third section of the conveying channel, wherein in this third section of the conveying channel the first conveying element (269) is pressed by the second conveying element (266) and/or the bulk goods through the conveying channel in the conveying direction. The invention also comprises a conveying device for carrying out this method.

A grain elevator system and method are disclosed, where the grain elevator system includes a grain elevator, a grain elevator paddle, and/or a grain elevator paddle insert. When the grain elevator system includes a sensor attached to a side of the grain elevator, the grain elevator paddle may be configured to include a divider piece for biasing grain towards the side of the grain elevator having the sensor attached. When the grain elevator system includes a sensor attached to a side of the grain elevator, a grain elevator paddle insert may be positioned on top of the grain elevator paddle for biasing grain towards the side of the grain elevator having the sensor attached.

A grain elevator system and method are disclosed, where the grain elevator system includes a grain elevator, a grain elevator paddle, and/or a grain elevator paddle insert. When the grain elevator system includes a sensor attached to a side of the grain elevator, the grain elevator paddle may be configured to include a divider piece for biasing grain towards the side of the grain elevator having the sensor attached. When the grain elevator system includes a sensor attached to a side of the grain elevator, a grain elevator paddle insert may be positioned on top of the grain elevator paddle for biasing grain towards the side of the grain elevator having the sensor attached.

A method of production of a conveying wire that includes a fiber wire with disc-shaped conveying members, the fiber wire including twisted strands each made from synthetic plastic threads or fibers, includes coating at least one section of the fiber wire with an outer jacket by a continuous injection molding process and connecting disc-shaped conveying members by injection molding directly onto the at least one section of the outer jacket or directly onto the fiber wire, and connecting opposed end parts of each section of the outer jacket to opposed end parts of disc-shaped conveying members, while maintaining the fiber wire under tension during unwinding and during winding.

A method of production of a conveying wire that includes a fiber wire with disc-shaped conveying members, the fiber wire including twisted strands each made from synthetic plastic threads or fibers, includes coating at least one section of the fiber wire with an outer jacket by a continuous injection molding process and connecting disc-shaped conveying members by injection molding directly onto the at least one section of the outer jacket or directly onto the fiber wire, and connecting opposed end parts of each section of the outer jacket to opposed end parts of disc-shaped conveying members, while maintaining the fiber wire under tension during unwinding and during winding.

An improved conveyor belt is disclosed for conveying granular material through a curvilinear structure at operating incline angles of at least 30 degrees. The belt has a first surface, a longitudinal axis, a transverse axis, and a plurality of cleat members extending from the first surface of the belt. The cleat members are arranged to cooperate together to form a plurality of longitudinally spaced-apart cleat walls during movement of the conveyor belt through the curvilinear structure. In this way, the cleat wall supports at least a portion of the granular material during movement of the conveyor belt through the curvilinear structure. The longitudinal space between subsequent cleat walls is between 4.5 inches and 5.5 inches.

An improved conveyor belt is disclosed for conveying granular material through a curvilinear structure at operating incline angles of at least 30 degrees. The belt has a first surface, a longitudinal axis, a transverse axis, and a plurality of cleat members extending from the first surface of the belt. The cleat members are arranged to cooperate together to form a plurality of longitudinally spaced-apart cleat walls during movement of the conveyor belt through the curvilinear structure. In this way, the cleat wall supports at least a portion of the granular material during movement of the conveyor belt through the curvilinear structure. The longitudinal space between subsequent cleat walls is between 4.5 inches and 5.5 inches.

In one aspect, an apparatus includes an elongated housing, first and second spaced-apart material inlet openings in a top wall of the housing, an outlet opening in a bottom wall of the housing, a first conveyor configured to move material received from the first material inlet toward the outlet opening, and a second conveyor configured to move material received from the first material inlet toward the outlet opening. The outlet opening is longitudinally disposed between the first and second spaced-apart material inlet openings. In another aspect, an apparatus includes a housing having first and second opposite ends and an outlet opening in a bottom wall of the housing. The first end is configured to receive a portion of a first conveyor and the second end is configured to receive a portion of a second conveyor. The first and second conveyors are configured to move material toward the outlet opening.

A grain elevator system and method are disclosed, where the grain elevator system includes a grain elevator, a grain elevator paddle, and/or a grain elevator paddle insert. When the grain elevator system includes a sensor attached to a side of the grain elevator, the grain elevator paddle may be configured to include a divider piece for biasing grain towards the side of the grain elevator having the sensor attached. When the grain elevator system includes a sensor attached to a side of the grain elevator, a grain elevator paddle insert may be positioned on top of the grain elevator paddle for biasing grain towards the side of the grain elevator having the sensor attached.

A grain elevator system and method are disclosed, where the grain elevator system includes a grain elevator, a grain elevator paddle, and/or a grain elevator paddle insert. When the grain elevator system includes a sensor attached to a side of the grain elevator, the grain elevator paddle may be configured to include a divider piece for biasing grain towards the side of the grain elevator having the sensor attached. When the grain elevator system includes a sensor attached to a side of the grain elevator, a grain elevator paddle insert may be positioned on top of the grain elevator paddle for biasing grain towards the side of the grain elevator having the sensor attached.