This disclosure is directed to automated warehouse facilities that are configured to assemble mixed pallets. The warehouse facilities can include one or more layer handling devices that are configured to remove layers from pallets in a delayering operational mode, and to add layers to pallets in a palletizing operation mode. The warehouse facilities also may include one or more item retrieval devices that are configured to retrieve individual items from storage racks. The warehouse facilities can include other automated devices as well.

This disclosure is directed to automated warehouse facilities that are configured to assemble mixed pallets. The warehouse facilities can include one or more layer handling devices that are configured to remove layers from pallets in a delayering operational mode, and to add layers to pallets in a palletizing operation mode. The warehouse facilities also may include one or more item retrieval devices that are configured to retrieve individual items from storage racks. The warehouse facilities can include other automated devices as well.

An insertion system (e.g., in a warehouse or other item-fulfillment environment) can include a chassis. A bottom conveying surface, a first side conveying surface, and a second side conveying surface may be fastened to the chassis respectively along the chassis's bottom face, first lateral face, and second lateral face. A chamber may be bounded by the conveying surfaces and by a rear wall defined at least in part by the front face of the chassis. A linear actuator coupled with the chassis may move the chassis from a home position and toward an extended position to advance the bottom conveying surface, the first side conveying surface, and the second side conveying surface along with the rear wall of the chamber to decrease a size of the chamber and advance contents of the chamber in a depth direction toward a receiving zone.

A sorting system and a method for sorting piece goods provide for conveying the piece goods to be sorted on a delivery level to a delivery point and delivering them there into or onto a receiving device moving on a collection level receiving the piece goods. The collection level is disposed below the delivery level. The receiving device travels over an individually determined route on the collection level.

A method to sort objects in a sorting installation. The objects are conveyed on a sorter of the sorting installation. In a first distribution pass a few of the objects conveyed on the sorter are brought by the sorter into retrieval end stations of the sorting installation and others of the objects conveyed on the sorter are brought by the sorter into a collection end station of the sorting installation and, with a transport facility of the sorting installation, objects are automatically transported away from the collection end station and automatically brought back to the sorter. The objects brought back from the collection end station to the sorter by the transport facility are brought by the sorter into one of the end stations in a second distribution pass.

An apparatus (10, 60) for storage of elongate elements, such as pipes, tubes and conduits. The apparatus (10, 60) includes a frame (12) that supports a plurality of trays (15, 63). The trays (15, 63) are arranged in two vertical columns of storage positions, except for the trays located at the top or bottom of the apparatus as they are moved about sprockets (71, 72) by a drive motor (73). Each tray (15, 63) is configured to support a plurality of elongate items. The trays (15, 63, which may embodied as cradles or racks, may be moved between a storage position and an access position, wherein in the access position, the elongate items can be accessed from substantially vertically above the tray (15, 63).

A swing arm changes a position of a placement surface of a placement body between a horizontal position and a tilted position by swinging between a reference position at which the swing arm extends along an opposing surface facing a lower surface of the placement body and a standing position at which the swing arm is tilted relative to the opposing surface. The opposing surface is provided with a guide member configured to guide swinging movement of the swing arm, and the guide member is configured to support the swing arm by sandwiching the swing arm from both sides in an axial direction within a prescribed guide range including the reference position in a total swing range of the swing arm.

A container assembly processing system is disclosed that includes a container lifting assembly for lifting a container vertically from a carrier on a conveyor system.

This disclosure is directed to automated warehouse facilities that are configured to assemble mixed pallets. The warehouse facilities can include one or more layer handling devices that are configured to remove layers from pallets in a delayering operational mode, and to add layers to pallets in a palletizing operation mode. The warehouse facilities also may include one or more item retrieval devices that are configured to retrieve individual items from storage racks. The warehouse facilities can include other automated devices as well.

A tray handler for transporting a tray into or out from a selectable position within a tray stack stowed in the tray handler has an unload station to stow a tray during a sort procedure, a tray elevator configured to vertically transport the tray stack to the selectable position such that the tray is positioned to be horizontally received from or by the unload station, and a separator above the tray elevator and coupled to the unload station, the separator configured to vertically split the tray stack for opening the selectable position and horizontally transporting the tray into or out from the unload station.