A boom conveyor includes a boom that carries a conveyor, a support structure for the boom, a rear pivot joint that connects a rear end of the boom to the support structure, and a pivot drive that controls pivoting movement of the boom about the rear pivot joint. The boom conveyor apparatus includes an operator platform and an attachment mechanism at a front end of the boom whereby the operator platform may be attached to the boom or detached therefrom. The attachment mechanism includes a leveling mechanism that is configured to apply a leveling adjustment to the operator platform.

A boom conveyor includes a boom that carries a conveyor, a support structure for the boom, a rear pivot joint that connects a rear end of the boom to the support structure, and a pivot drive that controls pivoting movement of the boom about the rear pivot joint. The boom conveyor apparatus includes an operator platform and an attachment mechanism at a front end of the boom whereby the operator platform may be attached to the boom or detached therefrom. The attachment mechanism includes a leveling mechanism that is configured to apply a leveling adjustment to the operator platform.

A boom conveyor includes a boom that carries a conveyor, a support structure for the boom, a rear pivot joint that connects a rear end of the boom to the support structure, and a pivot drive that controls pivoting movement of the boom about the rear pivot joint. The boom conveyor apparatus includes an operator platform and an attachment mechanism at a front end of the boom whereby the operator platform may be attached to the boom or detached therefrom. The attachment mechanism includes a leveling mechanism that is configured to apply a leveling adjustment to the operator platform.

A boom conveyor includes a boom that carries a conveyor, a support structure for the boom, a rear pivot joint that connects a rear end of the boom to the support structure, and a pivot drive that controls pivoting movement of the boom about the rear pivot joint. The boom conveyor apparatus includes an operator platform and an attachment mechanism at a front end of the boom whereby the operator platform may be attached to the boom or detached therefrom. The attachment mechanism includes a leveling mechanism that is configured to apply a leveling adjustment to the operator platform.

An exemplary method for monitoring a package on a conveyor may include emitting a plurality of infrared beams, detecting one or more of the emitted infrared beams, calculating a package height using the detected infrared beams, determining whether the package height exceeds a predetermined threshold, and when the package height meets or exceeds the predetermined threshold, sending a signal indicating a height of the package exceeds the predetermined threshold. A package size detector may include a transmitter including a plurality of light sources and positioned on a first side of a conveyor, and a receiver positioned on a second, opposite side of the conveyor, including a plurality of light sensors, each of the plurality of light sensors being configured to detect light emitted from the plurality of light sources. A controller may be configured to determine whether a package height exceeds a predetermined threshold.

A cart for transport and storage of items, including odd-size or over-size luggage of airline passengers, comprises a chassis comprising a plurality of wheels, and a storage section comprising at least one shelf. A drawer is provided below the storage section, the drawer comprising a compartment, which is inaccessible when the drawer is in a closed state, in which the drawer is overlapped by a bottom portion of the storage section. The compartment is accessible when the drawer is in an open state, in which the drawer is extracted from and extends beyond the bottom portion of the storage section.

A sorting system has a sorting area and a controller system that receives luggage-related sorting information for each piece of luggage. A transport mechanism transports the luggage into a sorting area which includes a sorting area with at least one make-up-place connected to the transport mechanism. The make-up-place sorts the luggage according to at least one item of luggage-related sorting information. Movable load devices receive the pieces of luggage sorted by the at least one make-up-place. The controller system assigns each piece of luggage according to at least one luggage-related information to a particular movable load device and the controller system is also adapted to select a make-up-place for each piece of luggage and to send the piece of luggage to the selected make-up-place to be loaded into the assigned movable load device.

A sorting system has a sorting area and a controller system that receives luggage-related sorting information for each piece of luggage. A transport mechanism transports the luggage into a sorting area which includes a sorting area with at least one make-up-place connected to the transport mechanism. The make-up-place sorts the luggage according to at least one item of luggage-related sorting information. Movable load devices receive the pieces of luggage sorted by the at least one make-up-place. The controller system assigns each piece of luggage according to at least one luggage-related information to a particular movable load device and the controller system is also adapted to select a make-up-place for each piece of luggage and to send the piece of luggage to the selected make-up-place to be loaded into the assigned movable load device.

Disclosed herein are systems, methods, and apparatuses for locating, engaging, and shifting objects. The systems may be used to unload objects from a storage space, e.g., inside a vehicle or facility, including one associated with a logistics network operation. The systems disclosed herein may operate in automated or semi-automated fashion, e.g., at the direction of a control system associated with a computing device. The systems may further utilize shifter mechanisms that each include one or more belt-driven mechanisms and position-changing mechanisms that facilitate the locating, engaging, and shifting of objects in a storage space. The components of these systems may operate independently, or in coordination, thereby increasing the efficiency of an object-handling operation.

An automatic case loader for loading product in a trailer is disclosed. A mobile base structure provides a support framework for a drive subassembly, conveyance subassembly, an industrial robot, a distance measurement sensor, and a control subassembly. Under the operation of the control subassembly, product advances through a powered transportation path to an industrial robot which places the product within the trailer. The control subassembly coordinates the selective articulated movement of the industrial robot and the activation of the drive subassembly based upon the distance measurement sensor detecting objects within a detection space, dimensions of the trailer provided to the control subassembly, and dimensions of the product provided to the control subassembly.