A sheeter can include a discharge conveyor mounted to be laterally translatable so as to allow a user to stand close to the discharge side of the dough sheeter and access those components. The discharge conveyor can be mounted to a guide assembly configured to accommodate lateral movement of the discharge conveyor. The guide assembly can include nesting, primary and secondary guide assemblies.

A system for moving loads comprising a cargo compartment floor, at least one roller track comprising rollers arranged one behind the other in the cargo compartment floor, at least one guideway in the floor and extending parallel to the at least one track, and at least one transport vehicle removably accommodated in and movable along the guideway. The transport vehicle comprises at least one connecting element movable between first and second operating positions. In the first operating position, the connecting element is configured so the transport vehicle is positionable beneath a load on the roller track, and in the second operating position, the connecting element is configured to interact with the load to connect the load to the transport vehicle, so the load is entrained when the transport vehicle moves along the guideway. The transport vehicle further comprises a drive mechanism to move the transport vehicle along the guideway.

A system for moving loads comprising a cargo compartment floor, at least one roller track comprising rollers arranged one behind the other in the cargo compartment floor, at least one guideway in the floor and extending parallel to the at least one track, and at least one transport vehicle removably accommodated in and movable along the guideway. The transport vehicle comprises at least one connecting element movable between first and second operating positions. In the first operating position, the connecting element is configured so the transport vehicle is positionable beneath a load on the roller track, and in the second operating position, the connecting element is configured to interact with the load to connect the load to the transport vehicle, so the load is entrained when the transport vehicle moves along the guideway. The transport vehicle further comprises a drive mechanism to move the transport vehicle along the guideway.

A roller track includes a base, parallel guides, roller support bars placed into their respective guides, and a plurality of rollers removably disposed between the roller support bars. The roller support bars preferably are removably secured to the base via the respective guides which are affixed to the base. The base also can be provided with connecting elements sidewalls thereof such that a plurality of bases of roller tracks can be connected laterally to accommodate any width of shelf or display planogram. Thus, the roller tracks can be used either separately roller tracks or as a continuous mat (i.e. a plurality of roller tracks affixed to adjacent roller tracks). Additionally, dividers can be removably affixed to each roller track via securing members comprising an upper body portion formed via a living hinge and at least one lower connector that removably connects the securing member to the roller track.

A roller track includes a base, parallel guides, roller support bars placed into their respective guides, and a plurality of rollers removably disposed between the roller support bars. The roller support bars preferably are removably secured to the base via the respective guides which are affixed to the base. The base also can be provided with connecting elements sidewalls thereof such that a plurality of bases of roller tracks can be connected laterally to accommodate any width of shelf or display planogram. Thus, the roller tracks can be used either separately roller tracks or as a continuous mat (i.e. a plurality of roller tracks affixed to adjacent roller tracks). Additionally, dividers can be removably affixed to each roller track via securing members comprising an upper body portion formed via a living hinge and at least one lower connector that removably connects the securing member to the roller track.

A running rail (1) for a conveyor system, the running rail (1) having a cross-sectional profile comprising at least three interconnected profiled portions which comprise a first profiled portion (2), laterally open to the outside, for receiving first rollers (32) of a carriage (30), a second profiled portion (3), laterally open to the outside, for receiving second rollers (33) of a carriage (30), a third profiled portion (4), open in the vertical direction, for receiving third rollers (34) of a carriage (1), wherein the first (2) and the second profiled portion (3) are mirror symmetrical to a vertical central plane (40) of the running rail (1).

A running rail (1) for a conveyor system, the running rail (1) having a cross-sectional profile comprising at least three interconnected profiled portions which comprise a first profiled portion (2), laterally open to the outside, for receiving first rollers (32) of a carriage (30), a second profiled portion (3), laterally open to the outside, for receiving second rollers (33) of a carriage (30), a third profiled portion (4), open in the vertical direction, for receiving third rollers (34) of a carriage (1), wherein the first (2) and the second profiled portion (3) are mirror symmetrical to a vertical central plane (40) of the running rail (1).

Embodiments provide a conveyor for conveying loads of lumber through a lumber kiln or other structure without the use of lumber carts or pushers. The conveyor may include a plurality of rollers arranged to form a flow path through the lumber kiln. Groups of the rollers may be driven by separate drives that are configured to rotate the rollers in opposite rotary directions and/or at variable speeds. Some or all of the drives may be operable independently of the other drives to transport loads of lumber at different speeds/directions in adjacent areas of the lumber kiln. In the event of a fire or a shut-down, the rollers in the proximal half of the kiln and those in the distal half of the kiln can be rotated in opposite directions to evacuate loads quickly from both ends.

Embodiments provide a conveyor for conveying loads of lumber through a lumber kiln or other structure without the use of lumber carts or pushers. The conveyor may include a plurality of rollers arranged to form a flow path through the lumber kiln. Groups of the rollers may be driven by separate drives that are configured to rotate the rollers in opposite rotary directions and/or at variable speeds. Some or all of the drives may be operable independently of the other drives to transport loads of lumber at different speeds/directions in adjacent areas of the lumber kiln. In the event of a fire or a shut-down, the rollers in the proximal half of the kiln and those in the distal half of the kiln can be rotated in opposite directions to evacuate loads quickly from both ends.

A multistage multi-lane singulator conveyor system for separating side by side packages in stages. A first high friction surface conveying moving articles forward is adjacent a second low friction conveying lane in lateral flow communication having both forward and lateral conveying forces urging parcels forward and away from the first conveying lane, wherein the second conveying lane can be level or transversely inclined and angled upward in lateral flow communication with a third high friction surface conveying surface. Controlling residence time and forward and lateral movement of articles by assembling high friction surface conveying lanes and low friction surface conveying lanes in an end to end and/or lateral arrangement in flow communication with one another and/or shifting articles moving forward and laterally by staggering the high friction conveying surfaces and low friction conveying surfaces and adjusting the width by adjusting the number of high friction conveying surfaces adjacent one another.