A material separation device comprises a placement component, a blower, a suction component, a suction pad driver, and a controller. The blower blows air at a plurality of aluminum sheets that have been stacked on the placement component to float an uppermost aluminum sheet. The suction component uses suction pads to chuck and hold the uppermost aluminum sheet from above while the air is being blown. The suction pad driver drives the suction component up and down, using servomotors as a drive source. The controller performs control so that the suction pads chucking the aluminum sheet are raised to a temporary stopping position by the suction pad driver, and the suction pads are stopped for a predetermined length of time at the temporary stopping position while the air is stopped, and the suction pads are then raised by the suction pad drivers to a conveyance position.

A material separation device comprises a placement component, a blower, a suction component, a suction pad driver, and a controller. The blower blows air at a plurality of aluminum sheets that have been stacked on the placement component to float an uppermost aluminum sheet. The suction component uses suction pads to chuck and hold the uppermost aluminum sheet from above while the air is being blown. The suction pad driver drives the suction component up and down, using servomotors as a drive source. The controller performs control so that the suction pads chucking the aluminum sheet are raised to a temporary stopping position by the suction pad driver, and the suction pads are stopped for a predetermined length of time at the temporary stopping position while the air is stopped, and the suction pads are then raised by the suction pad drivers to a conveyance position.

One or more specific embodiments disclosed herein may include an end-of-arm tool for moving payloads or pallet stacks from one location to another, comprising a mast system comprising a mast, a plurality of mast gussets, and a mast plate; a frame; a clamp system comprising a plurality of clamp plates and a plurality of ball screws; and a vacuum system comprising a vacuum plate and one or more vacuum cups. Further, one or more specific embodiments disclosed herein may include a method of moving materials using an end-of-arm tool comprising aligning the end-of-arm tool over a payload, wherein the end-of-arm tool comprises an undercarriage in a retracted position, a plurality of clamp plates in an extended position, and one or more vacuum cups; lowering the end-of-arm tool towards the payload; engaging the payload with the one or more vacuum cups; engaging the payload with the plurality of clamp plates; and raising the payload into the interior of the end-of-arm tool.

One or more specific embodiments disclosed herein may include an end-of-arm tool for moving payloads or pallet stacks from one location to another, comprising a mast system comprising a mast, a plurality of mast gussets, and a mast plate; a frame; a clamp system comprising a plurality of clamp plates and a plurality of ball screws; and a vacuum system comprising a vacuum plate and one or more vacuum cups. Further, one or more specific embodiments disclosed herein may include a method of moving materials using an end-of-arm tool comprising aligning the end-of-arm tool over a payload, wherein the end-of-arm tool comprises an undercarriage in a retracted position, a plurality of clamp plates in an extended position, and one or more vacuum cups; lowering the end-of-arm tool towards the payload; engaging the payload with the one or more vacuum cups; engaging the payload with the plurality of clamp plates; and raising the payload into the interior of the end-of-arm tool.

A method and relative sheet handling apparatus apt to pick up sheets from a pack of sheets to be delivered to a cut-ting centre and for removing a separating foil between the sheets is described, including: a lifting and removing unit for a top sheet equipped with upper gripping heads; an air flow generating unit generating an air flow above the pack of sheets; and a control unit of the lifting unit, suitable for arranging the top sheet at a stasis height of up to 70 mm above the pack of sheet to define a suction chamber for the air flow generator.

A method and relative sheet handling apparatus apt to pick up sheets from a pack of sheets to be delivered to a cut-ting centre and for removing a separating foil between the sheets is described, including: a lifting and removing unit for a top sheet equipped with upper gripping heads; an air flow generating unit generating an air flow above the pack of sheets; and a control unit of the lifting unit, suitable for arranging the top sheet at a stasis height of up to 70 mm above the pack of sheet to define a suction chamber for the air flow generator.

An automated lumber handling method for transferring various size boards from multiples board storage stations to a common board-receiving area uses a trolley that carries at least two board pickers that can operate independently. The method provides several operating modes. In a first mode, a first board picker retrieves single boards from various stations, while a second board picker is inactive. In a second mode, two board pickers retrieve two individual boards from a single station. In a third mode, one board picker retrieves one size board from a first station, and s second board picker retrieves a different size board from a second station. The two different boards can be released simultaneously at the board-receiving area. In some examples, the lumber at each station is laser scanned to determine the number of boards at each station, and a worker is notified if a station needs to be restocked.

Warehouse automation and methods of handling materials can be used to enhance the safety and efficiencies of warehouse operations. For example, automation systems and methods that make depalletization processes safer and more efficient are described. In some examples, the depalletization systems described herein include multiple work cells/stations and a depalletization robot that traverses the work cells/stations on a rail so the robot can autonomously move between the stations.

Warehouse automation and methods of handling materials can be used to enhance the safety and efficiencies of warehouse operations. For example, automation systems and methods that make depalletization processes safer and more efficient are described. In some examples, the depalletization systems described herein include multiple work cells/stations and a depalletization robot that traverses the work cells/stations on a rail so the robot can autonomously move between the stations.

What is disclosed is a robot gripper having a receiving area which is configured to be connected to an industrial robot, and having at least one suction unit which is configured to be connected to a vacuum source. The suction unit comprises a suction surface on which a preferably plate-shaped workpiece, which preferably consists at least in sections of wood, wood materials, plastic, aluminum or the like, can be held by means of negative pressure. The suction unit comprises a substantially straight pressing edge in an edge section. The robot gripper further comprises an actuator configured to tilt the suction unit about a first tilt axis relative to the receiving area.