Various embodiments are directed to conveyor apparatuses and methods of using the same. In various embodiments, a conveyor apparatus comprises a conveyor frame including a plurality of opposing sidewalls extending in a length direction and a bottom panel comprising a hinged configuration relative to the opposing sidewalls such that the bottom panel is configured for movement throughout a range of rotational motion between a closed position and an open position; and a bottom panel positioning assembly comprising: a mounting bracket secured to one of the opposing sidewalls; a positioning element slidably engaged relative to the mounting bracket and configurable between a nominal position and an engaged position; and a retention element configured to bias the positioning element towards the nominal position; wherein the bottom panel positioning assembly is configured to facilitate selective arrangement of the bottom panel based at least in part on an arrangement of the positioning element.

Various embodiments are directed to conveyor apparatuses and methods of using the same. In various embodiments, a conveyor apparatus comprises a conveyor frame including a plurality of opposing sidewalls extending in a length direction and a bottom panel comprising a hinged configuration relative to the opposing sidewalls such that the bottom panel is configured for movement throughout a range of rotational motion between a closed position and an open position; and a bottom panel positioning assembly comprising: a mounting bracket secured to one of the opposing sidewalls; a positioning element slidably engaged relative to the mounting bracket and configurable between a nominal position and an engaged position; and a retention element configured to bias the positioning element towards the nominal position; wherein the bottom panel positioning assembly is configured to facilitate selective arrangement of the bottom panel based at least in part on an arrangement of the positioning element.

Various embodiments are directed to conveyor apparatuses and methods of using the same. In various embodiments, a conveyor apparatus comprises a conveyor frame including a plurality of opposing sidewalls extending in a length direction and a bottom panel comprising a hinged configuration relative to the opposing sidewalls such that the bottom panel is configured for movement throughout a range of rotational motion between a closed position and an open position; and a bottom panel positioning assembly comprising: a mounting bracket secured to one of the opposing sidewalls; a positioning element slidably engaged relative to the mounting bracket and configurable between a nominal position and an engaged position; and a retention element configured to bias the positioning element towards the nominal position; wherein the bottom panel positioning assembly is configured to facilitate selective arrangement of the bottom panel based at least in part on an arrangement of the positioning element.

The present invention relates to a roll shuttle and a suspended roll shuttle, which are each displaceable and equipped with a load mandrel (22) for transporting at least one roll to be stored. In the case of the roll shuttle, the load mandrel (22) is pivotably fastened to the running slide (16) in a plane that is substantially parallel to the storage plane of a shelf system. The suspended roll shuttle (42) can be moved along a sliding rail (40). The present invention also relates to a shelf system and a suspended rail system including distributing stations as well as to a method for operating the shelf system according to the invention.

A mobile, self-powered, horticultural processing unit capable of facilitating the processing of a large number of plants, is disclosed. In particular a modular unit with a multi-level configuration and a compact footprint capable of performing a variety of different horticultural operations is the subject of present embodiments. The unit may utilize a wheel and suspension assembly attached to a hydraulic lift and towing hardware which permits the unit to be towed as a trailer. The unit may comprise a plurality of conveying platforms which permit access by a forklift, as to allow many plants to be input and removed from the unit at once. The unit may assist in the fully or partially automated pruning, canning, fertilizing, treating, and spacing of plants potted in individual containers. Collectively, the cost and labor involved with growing and maintaining plants in the field may be greatly reduced.

A mobile, self-powered, horticultural processing unit capable of facilitating the processing of a large number of plants, is disclosed. In particular a modular unit with a multi-level configuration and a compact footprint capable of performing a variety of different horticultural operations is the subject of present embodiments. The unit may utilize a wheel and suspension assembly attached to a hydraulic lift and towing hardware which permits the unit to be towed as a trailer. The unit may comprise a plurality of conveying platforms which permit access by a forklift, as to allow many plants to be input and removed from the unit at once. The unit may assist in the fully or partially automated pruning, canning, fertilizing, treating, and spacing of plants potted in individual containers. Collectively, the cost and labor involved with growing and maintaining plants in the field may be greatly reduced.

This invention relates to a fastening system (100) for a hood for protecting conveyor belts, which takes advantage of the strength and elasticity of the hood material for fastening to a conveyor belt structure (200), comprising: a hood (1) comprising ends of the hood (1) configured by a folding portion (4); a vertical/horizontal fastening comprising a rail (101), which is arranged longitudinally on each side of the structure (200), which engages with the folding portion (4) of the end of the cover; and a fastening comprising a plurality of latches (103) arranged on the folding portion (4) of the hood (1), for the fastening thereof to the rail (101).

A modular processing machine includes a first module comprising a first mounting plate including a first hole, and a first rail extending along a longitudinal axis, the first rail having a first axial end facing the first hole, the first hole being coaxially aligned with the longitudinal axis. A second module comprises a second mounting plate including a second hole coaxially aligned with the longitudinal axis, and a second rail extending coaxially aligned with the longitudinal axis, the second rail having a second axial end facing the second hole. The first rail has a first alignment feature at the first axial end thereof, and the second rail has a second alignment feature at the second axial end thereof. The first alignment feature is engaged with the second alignment feature to coaxially align the first rail with the second rail along the longitudinal axis.

A contact protection structure can be positioned on a belt body to prevent a pinching gap, where the belt body presents a conveyor belt deflected by a roller, and where a roller holder supporting the roller and attachable to the belt body also supports the contact protection structure.

A support station includes a frame, at least two support rollers separated transversely by a gap, and a nip angle protector, which includes, for the or each gap, a gap protector placed longitudinally opposite the gap on an upstream side of the gap. The support station can be manufactured by obtaining a profile with a continuous upper edge and a continuous lower part along its entire length, and cutting the space and the slots, by T-punching the profile.