A catenary idler comprises a cable, a plurality of bearing surfaces disposed along a length of the cable, and a plurality of rollers disposed over the plurality of bearing surfaces. The plurality of bearing surfaces are fixed to the cable. The plurality of bearing surfaces may be a plurality of clamps. The plurality of rollers are rotatably supported upon the plurality of bearing surfaces. The cable may be rotatably supported at its ends. The catenary idler may include a first compression spring at a first end of the cable and a second compression spring at a second end of the cable. The rollers may be formed of an oil filled nylon. A conveyor belt impact bed includes a frame, a plurality of catenary idlers supported upon the frame, and a conveyor belt supported upon the plurality of catenary idlers.

Apparatuses, systems, and methods are disclosed for a dual conveyor sorting system. An apparatus includes a first conveyor belt assembly that includes a first conveyor belt moving at a first rate in a first direction. An apparatus includes a second conveyor belt assembly that includes a second conveyor belt moving at a second rate in a second direction. The first rate is faster than the second rate and the first direction is the same as the second direction. The first conveyor belt assembly is positioned along a first axis perpendicular to the second conveyor belt assembly positioned along a second axis. A first edge of the first conveyor belt assembly is positioned substantially adjacent to a first edge of the second conveyor belt assembly.

Apparatuses, systems, and methods are disclosed for a dual conveyor sorting system. An apparatus includes a first conveyor belt assembly that includes a first conveyor belt moving at a first rate in a first direction. An apparatus includes a second conveyor belt assembly that includes a second conveyor belt moving at a second rate in a second direction. The first rate is faster than the second rate and the first direction is the same as the second direction. The first conveyor belt assembly is positioned along a first axis perpendicular to the second conveyor belt assembly positioned along a second axis. A first edge of the first conveyor belt assembly is positioned substantially adjacent to a first edge of the second conveyor belt assembly.

Radial conveyors and undercarriages therefor are disclosed. Some embodiments include a wheel assembly with transport and operational configurations. In some embodiments, a wheel of the wheel assembly is selectively aligned with a tail pivot of the radial conveyor.

Radial conveyors and undercarriages therefor are disclosed. Some embodiments include a wheel assembly with transport and operational configurations. In some embodiments, a wheel of the wheel assembly is selectively aligned with a tail pivot of the radial conveyor.

A conveyor chain includes a first link, a second link, and a coupler link. The first link includes a first sprocket-engaging portion and a second sprocket-engaging portion, each protruding laterally away from one another. The second link includes a first sprocket-engaging portion and a second sprocket-engaging portion, each protruding laterally away from one another. The coupler link couples the first link to the second link, and the coupler link is positioned laterally between the first sprocket-engaging portion and the second sprocket-engaging portion of each link. The coupler link includes a first joint pivotably coupled to the first link and a second joint pivotably coupled to the second link. The first joint permits pivoting movement of the first link about a plurality of axes, and the second joint permits pivoting movement of the second link about a plurality of axes.

A conveyor chain includes a first link, a second link, and a coupler link. The first link includes a first sprocket-engaging portion and a second sprocket-engaging portion, each protruding laterally away from one another. The second link includes a first sprocket-engaging portion and a second sprocket-engaging portion, each protruding laterally away from one another. The coupler link couples the first link to the second link, and the coupler link is positioned laterally between the first sprocket-engaging portion and the second sprocket-engaging portion of each link. The coupler link includes a first joint pivotably coupled to the first link and a second joint pivotably coupled to the second link. The first joint permits pivoting movement of the first link about a plurality of axes, and the second joint permits pivoting movement of the second link about a plurality of axes.

Described is a component (1) for powering robots, automation systems and the like which comprises, on a frame (2), a series of belts (3, 4) for conveying objects (9) designed to be gripped by a robot. The conveyor belts (3, 4) constitute a closed path and have a first belt (3) and at least a second belt (4) positioned in such a way that the objects (9) pass from the first belt (3) to the second belt (4) cyclically and continuously.

A drive mechanism for a chain conveyor includes an elongated shaft that extends along an axis and is configured to be driven to rotate by a motor. A sprocket is integrally formed with the shaft. The sprocket includes a plurality of lobes that extend around a perimeter of the shaft. Each lobe is spaced apart from an adjacent lobe by a recessed portion. Each of the recessed portions is configured to receive a drive pin of the chain conveyor.

A drive mechanism for a chain conveyor includes an elongated shaft that extends along an axis and is configured to be driven to rotate by a motor. A sprocket is integrally formed with the shaft. The sprocket includes a plurality of lobes that extend around a perimeter of the shaft. Each lobe is spaced apart from an adjacent lobe by a recessed portion. Each of the recessed portions is configured to receive a drive pin of the chain conveyor.