Provided are embodiments of a chute for articles, in particular packages and/or consignments, having a chute base for the article to slide down and comprising at least two chute-base sections is described, wherein the at least two chute-base sections form a height offset between one another, wherein at least one guiding device is provided between the at least two chute-base sections in order to guide the article from one chute-base section to the next chute-base section, wherein the at least one guiding device has a vertically adjustable free end that points in the direction of the next chute-base section, and wherein the guiding device has, transversely to the chute base, a plurality of finger elements that are arranged alongside one another and are at least in part vertically adjustable independently of one another.

Provided are embodiments of a chute for articles, in particular packages and/or consignments, having a chute base for the article to slide down and comprising at least two chute-base sections is described, wherein the at least two chute-base sections form a height offset between one another, wherein at least one guiding device is provided between the at least two chute-base sections in order to guide the article from one chute-base section to the next chute-base section, wherein the at least one guiding device has a vertically adjustable free end that points in the direction of the next chute-base section, and wherein the guiding device has, transversely to the chute base, a plurality of finger elements that are arranged alongside one another and are at least in part vertically adjustable independently of one another.

A flowable-material transfer station includes a mobile frame and a conveyor coupled thereto. A hopper mounted on the mobile frame has a side wall with an opening. A chute's loading end is rigidly coupled to the hopper at the side wall opening thereof wherein the chute is in fluid communication with the hopper via the opening. The hopper is hingedly coupled to the mobile frame and the chute's dispensing end is positioned over a first end of the conveyor. A lift mechanism is provided to move the hopper between a lowered position and a raised position. The chute's dispensing end is above the chute's loading end when the hopper is in its lowered position, and is below the chute's loading end when the hopper is in its raised position.

A modular chute system for providing safe convenient access to an inside cavity of the chute system from a variety of locations to enhance safer serviceability features a chute channel formed from a plurality of chute sections. Each chute section is formed from a plurality of rigid structural panels. An edge flange is disposed on each panel edge encompassing an entire panel outer periphery, and the edge flange of one panel is connected to the edge flange of another structural panel. Upon removal of a structural panel or set of adjacent structural panels, the chute channel is self-supporting and non-collapsing. Chute serviceability, such as replacement of interior liners or panels, can be accomplished by removing panels and replacing liners without entering the chute cavity.

A modular chute system for providing safe convenient access to an inside cavity of the chute system from a variety of locations to enhance safer serviceability features a chute channel formed from a plurality of chute sections. Each chute section is formed from a plurality of rigid structural panels. An edge flange is disposed on each panel edge encompassing an entire panel outer periphery, and the edge flange of one panel is connected to the edge flange of another structural panel. Upon removal of a structural panel or set of adjacent structural panels, the chute channel is self-supporting and non-collapsing. Chute serviceability, such as replacement of interior liners or panels, can be accomplished by removing panels and replacing liners without entering the chute cavity.

An unloader for a shipping container includes a supporter having a frame structure and a pallet base supported by the frame structure and configured to receive the pallet and support the shipping container in an elevated position. A gate moving mechanism is supported by the pallet base and configured to engage the moveable gate assembly when the full shipping container is positioned onto the pallet base. A material director has a first end located beneath the pallet base subjacent of the gate moving mechanism. The material director extends downwardly from the pallet base and terminates at a second end opposite the first end. Bulk material is dispensed from the shipping container into the first end and is discharged from the second end of the material director. Shipping containers may be positioned onto and removed from the pallet base without disassembly of the unloader.

The invention relates to a chute for articles, in particular packages and/or consignments, having a chute base for the article to slide down, having at least one storage installation, preferably assigned to the lower end of the chute, for the articles that have slid down along the chute base, wherein the storage installation is configured to be adjustable, in particular pivotable, from an upper receiving position for receiving the articles sliding down the chute into a lower discharging position for discharging the received articles, and back again.

Within a sortation center, robotic drives may coordinate to sort packages. In some instances, first robotic drives on a third floor may deposit packages into first chutes that transfer the packages to a second floor. Awaiting second robotic drives on the second floor may receive the packages and may deposit the packages into second chutes that transfer the packages to a first floor. At the first floor, the packages may arrive into a container associated with shipping the packages. Depositing the packages in the first chutes may align the packages with a respective container on the first floor in a first direction and depositing the packages in the second chutes may align the packages with their respective container on the second floor in a second direction.

An inventory container diverter system is described. The system includes a conveyor to move totes through a shipment processing area and a redirection device to push totes perpendicularly off the conveyor at predetermined locations. Adjacent the redirection device is a chute which the tote slides down to present the tote to a user at an easily accessible height and tilted at such an angle to enable simple and efficient access to the interior of the tote. The chute includes a door to help prevent totes from falling out of the chute. A tote sensor detects when the chute is occupied by a tote or when it is clear and a door sensor detects when the door of the chute is closed. When the door is closed and the chute is clear the system directs a new tote to the redirection device and pushes it into the chute.

A system and a method for gently loading, transporting and unloading frangible products using totes is provided. The system includes a loading station at a first location, an unloading station at a second location and a plurality of totes for use in storing the frangible products for transportation from the first location to the second location. The totes include an interior space that is upwardly curved and concave for gently receiving the frangible products therein as they are laterally discharged off of a lateral discharge portion of the reciprocating conveyor. Two or more totes can be sequentially loaded along the lateral discharge portion of the reciprocating conveyor using backpressure caused by accumulation of frangible product along the edge of the lateral discharge portion of the reciprocating conveyor to redirect incoming frangible products towards a downstream section of the lateral discharge portion of the reciprocating conveyor.