Systems and methods for providing gaps in article or package processing. In some embodiments, the system can include a conveying path along which a first advanced article and a second advanced article can be advanced. The system can further include a first stop location and a second stop location. The first stop location can include movable fingers that are configured to raise to stop the advance of the articles and then lower at specific times to allow the articles to advance with specific distances between the articles. Additionally, the system can include a paddle that also raises and lowers. The paddle lowers to stop an advancing article again, and in doing so, front-end registers the article. Then the paddle can raise to allow the package to advance again along the conveyor.

Systems and methods for providing gaps in article or package processing. In some embodiments, the system can include a conveying path along which a first advanced article and a second advanced article can be advanced. The system can further include a first stop location and a second stop location. The first stop location can include movable fingers that are configured to raise to stop the advance of the articles and then lower at specific times to allow the articles to advance with specific distances between the articles. Additionally, the system can include a paddle that also raises and lowers. The paddle lowers to stop an advancing article again, and in doing so, front-end registers the article. Then the paddle can raise to allow the package to advance again along the conveyor.

A loading station (10) for loading automatically a primary load carrier (36) of an overhead conveyor (18) with a secondary load carrier (38) for hanging goods, comprising: an accumulation line (12), wherein the accumulation line is configured to accumulate primary load carriers, which are movable along the accumulation line, in the conveying direction one behind the other; a separating device (18), which is arranged laterally to the accumulation line, comprising: first and second stopping elements (68) being respectively supported transversally to the accumulation line in a movable manner, wherein each of the stopping elements, in its stopping position, is moved into a conveying path of the primary load carriers, and, in its release position, is moved out of the conveying path; and a switch (76); a control unit (40); a feeding device (16) arranged laterally to the accumulation line, and configured to guide a hanger-shaped head portion of the secondary load carriers through a transport opening in the primary load carrier for loading the primary load carriers, when the primary load carrier is located in a loading position; wherein the switch is arranged oppositely to the feeding device so that the primary load carrier is located in the loading position between the switch and the feeding device.

A control system for an automated singulation system is provided. The control system detects a presence of a first item on a first conveyor and detects a presence of a second item on a second conveyor while the first item is present on the first conveyor. The second conveyor transfers items onto the first conveyor and is at a lower height than the second conveyor. The first conveyor is oriented perpendicularly with respect to the second conveyor. In response to detecting the presence of the second item, a location of the first item along a length of the first conveyor is determined. The first conveyor and the second conveyor are controlled based at least on the location of the first item.

A conveying system employs independently controlled flights. The flights are controlled separately from a conveying surface using a linear transport system. The linear transport system allow the position of the flights to be controlled based on a parameter, such as the length of a conveyed object. The flights are pivotally mounted to a mover of the linear transport system and can pivot relative to the conveying surface to allow the flights to fit in a space between an end of carryway and a receptacle.

A control system for an automated singulation system is provided. The control system detects a presence of a first item on a first conveyor and detects a presence of a second item on a second conveyor while the first item is present on the first conveyor. The second conveyor transfers items onto the first conveyor and is at a lower height than the second conveyor. The first conveyor is oriented perpendicularly with respect to the second conveyor. In response to detecting the presence of the second item, a location of the first item along a length of the first conveyor is determined. The first conveyor and the second conveyor are controlled based at least on the location of the first item.

The modular lumber stacker utilizes a single fork and board width sensor to load layers of boards with varying widths onto a lift table. The single-fork loader allows a fork lift to readily access the opposing side of the lift table to remove a multi-layer stack of boards. An adjustable unloading stop may be used to justify the stack by distributing the dead space in each layer between the boards to justify the stack to avoid jagged stack edges and improve stacking stability.

The modular lumber stacker utilizes a single fork and board width sensor to load layers of boards with varying widths onto a lift table. The single-fork loader allows a fork lift to readily access the opposing side of the lift table to remove a multi-layer stack of boards. An adjustable unloading stop may be used to justify the stack by distributing the dead space in each layer between the boards to justify the stack to avoid jagged stack edges and improve stacking stability.

A loading station (10) for loading automatically a primary load carrier (36) of an overhead conveyor (18) with a secondary load carrier (38) for hanging goods, comprising: an accumulation line (12), wherein the accumulation line is configured to accumulate primary load carriers, which are movable along the accumulation line, in the conveying direction one behind the other; a separating device (18), which is arranged laterally to the accumulation line, comprising: first and second stopping elements (68) being respectively supported transversally to the accumulation line in a movable manner, wherein each of the stopping elements, in its stopping position, is moved into a conveying path of the primary load carriers, and, in its release position, is moved out of the conveying path; and a switch (76); a control unit (40); a feeding device (16) arranged laterally to the accumulation line, and configured to guide a hanger-shaped head portion of the secondary load carriers through a transport opening in the primary load carrier for loading the primary load carriers, when the primary load carrier is located in a loading position; wherein the switch is arranged oppositely to the feeding device so that the primary load carrier is located in the loading position between the switch and the feeding device.

A sampling apparatus is provided, which includes a pressing-up unit configured to press up a sheet piece that is being conveyed by a conveying unit, from a lower side of a conveyance course of the sheet piece to above the conveyance course; and a holding unit configured to hold the sheet piece pressed up by the pressing-up unit.