A container stop mechanism and method for controlled braking, stopping, and separating of containers, such as glass beverage bottles. The abstract of the disclosure is submitted herewith as required by 37 C.F.R. §1.72(b). As stated in 37 C.F.R. §1.72(b): A brief abstract of the technical disclosure in the specification must commence on a separate sheet, preferably following the claims, under the heading “Abstract of the Disclosure.” The purpose of the abstract is to enable the Patent and Trademark Office and the public generally to determine quickly from a cursory inspection the nature and gist of the technical disclosure. The abstract shall not be used for interpreting the scope of the claims. Therefore, any statements made relating to the abstract are not intended to limit the claims in any manner and should not be interpreted as limiting the claims in any manner.

A singulation conveyor for conveying and separating piece goods, in particular packages and/or consignments, along at least one transport track bearing the piece goods items is described, wherein in the transport track, in some sections, finger elements adjustable between a lower setting and an upper setting are provided, and wherein the free ends of the finger elements in the upper setting are arranged in an upper position above an adjoining region of the transport track in such a way as to manipulate the motional direction and/or the motional speed of respectively individual piece goods items independently of other piece goods items.

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 system is provided comprising a carton conveyor and a bypass carton accumulator adjacent to, and interfaced with, the carton conveyor. The bypass carton accumulator may comprise: a carton pick apparatus comprising a carton pick head; at least one stop device comprising a stopper movable between a first and a second position; and a storage apparatus. When in the first position, the stopper does not interfere with the flow of cartons along the conveyor and when in the second position, the stopper engages with a carton to stop a flow of cartons along the conveyor. The carton pick apparatus may be configured to pick up via the carton pick head a set of cartons from a pick-up zone of the carton conveyor after the stopper has moved to its second position and place the set of cartons in the storage apparatus.

A system is provided comprising a carton conveyor and a bypass carton accumulator adjacent to, and interfaced with, the carton conveyor. The bypass carton accumulator may comprise: a carton pick apparatus comprising a carton pick head; at least one stop device comprising a stopper movable between a first and a second position; and a storage apparatus. When in the first position, the stopper does not interfere with the flow of cartons along the conveyor and when in the second position, the stopper engages with a carton to stop a flow of cartons along the conveyor. The carton pick apparatus may be configured to pick up via the carton pick head a set of cartons from a pick-up zone of the carton conveyor after the stopper has moved to its second position and place the set of cartons in the storage apparatus.

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.

Elongate workpieces are transported in a transport direction and assembled to a string in the transport direction. A leading elongate workpiece is removed from the string and accelerated in a downstream discharge device such that a gap is formed between the leading elongate workpiece and a following elongate workpiece of the string. A stop is moved into the gap and prevents the following elongate workpiece of the string from being transported farther. The stop is removed when the leading elongate workpiece has left the discharge device and then the following elongate workpiece is removed from the string.

A switch arrangement for the selection of joining elements, which comprises a switch that comprises at least three supply points in which joining elements can be supplied to the switch in a position-oriented manner. Furthermore, an output point is provided where joining elements can be output in a position-oriented manner, the switch comprising a conveying element which has at least three receiving compartments each being adapted to receive a supplied joining element each at the supply point. A conveying element can convey the joining elements from a receiving position to an output position from the supply point to an output point, which is fixed relative to the supply points, and output.

A switch arrangement for the selection of joining elements, which comprises a switch that comprises at least three supply points in which joining elements can be supplied to the switch in a position-oriented manner. Furthermore, an output point is provided where joining elements can be output in a position-oriented manner, the switch comprising a conveying element which has at least three receiving compartments each being adapted to receive a supplied joining element each at the supply point. A conveying element can convey the joining elements from a receiving position to an output position from the supply point to an output point, which is fixed relative to the supply points, and output.