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 for loading blanks to a head of the stamping press line includes providing a stack of blanks at a pick-up position; loading blanks from the stack of blanks to the head of the stamping press line; before the stack of blanks is exhausted, creating a buffer by raising a predetermined number of blanks from the top of the stack to a position above the stack; and loading blanks from the buffer to the line while replacing the stack of blanks with a new stack of blanks. A handling system for creating a buffer includes one or more buffer robots with one or more supporting tools on which the blanks can be held, and one or more separating tools to separate one or more blanks at the top of the stack from the underlying blank of the stack.

A method for loading blanks to a head of the stamping press line includes providing a stack of blanks at a pick-up position; loading blanks from the stack of blanks to the head of the stamping press line; before the stack of blanks is exhausted, creating a buffer by raising a predetermined number of blanks from the top of the stack to a position above the stack; and loading blanks from the buffer to the line while replacing the stack of blanks with a new stack of blanks. A handling system for creating a buffer includes one or more buffer robots with one or more supporting tools on which the blanks can be held, and one or more separating tools to separate one or more blanks at the top of the stack from the underlying blank of the stack.

A detaching method of sheets from a stack of sheets from a stack of sheets and a relative detaching apparatus is disclosed, including at least a gripping head of a handling device of sheets and a nozzle assembly apt to eject an air flow to a lateral edge of a stack of sheets, furthermore including: a storage assembly of pressurised air provided at least with a compressed-air tank equipped with a pressure multiplier and a relative first pressure adjuster; and a high-pressure pipe between the nozzle assembly and the storage assembly intercepted by a fast-opening electrovalve. The nozzle assembly is provided with a nozzle, supplied through the electrovalve, configured as a convergent/divergent spout.

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.

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.

A method of separating a blank from a stack of blanks is provided and includes grasping a first blank and moving the first blank away from a plurality of blanks. At least one additional blank from the plurality of blanks is adhered to the first blank to form a sub-stack of blanks and at least one impulse electrically generated force (EGF) is applied to separate the at least one additional blank from the first blank. The first blank may be grasped by a device with a force F1, and the at least one impulse EGF may be less than the force F1. Also, the at least one impulse EGF may be applied to separate the at least one additional blank from the first blank by passing a pulse of current through an EGF generator positioned adjacent the first blank and inducing an EGF within the plurality of blanks.

An automatic processing system includes a base or platform, on which a loading station is mounted, adapted to house one or more trolleys having workpieces to be processed, a magazine adapted to pick up at least one work piece at a time from the loading station and to transport it to a centering device adapted to receive the workpiece and to place it in pick-up position by a robot, and a unloading station where the processed pieces are positioned.

An automatic processing system includes a base or platform, on which a loading station is mounted, adapted to house one or more trolleys having workpieces to be processed, a magazine adapted to pick up at least one work piece at a time from the loading station and to transport it to a centering device adapted to receive the workpiece and to place it in pick-up position by a robot, and a unloading station where the processed pieces are positioned.

A magnetic device for magnetically coupling to a ferromagnetic body, comprises a housing having a central bore. A plurality of pole sectors arranged within an envelope of the central bore and forming a workpiece contact interface of the magnetic device, each of the plurality of pole sectors comprising a plurality of spaced-apart pole portions arranged at respective distances, wherein a recess of a plurality of recesses separates each pole portion of the plurality of pole portions, wherein a first sector forms a first pole of the magnetic device and a second sector forms a second pole of the magnetic device. A first permanent magnet. A second permanent being moveable relative to the first permanent magnet. And, an actuator operatively coupled to the at least one second permanent magnet to move the at least one second permanent magnet relative to the at least one first permanent magnet.