A transport device has a position detection portion, a holding portion attached to an arm, a driving portion to drive the holding portion and the arm, and a control portion. A control portion controls the position detection portion and the driving portion to perform, as one cycle, a procedure to detect a position of a parcel, select parcels based on a predetermined condition, and set priority for the selected parcels, and a procedure to refer to a result of the detection, and cause the holding portion to take out one or more parcels from the accumulation portion in accordance with the priority to transport the parcels to a predetermined location, and excludes, from parcels to be taken out, a second parcel that is present within a predetermined distance from a first parcel and has priority lower than the priority of the first parcel, during the one cycle.

A transport device has a position detection portion, a holding portion attached to an arm, a driving portion to drive the holding portion and the arm, and a control portion. A control portion controls the position detection portion and the driving portion to perform, as one cycle, a procedure to detect a position of a parcel, select parcels based on a predetermined condition, and set priority for the selected parcels, and a procedure to refer to a result of the detection, and cause the holding portion to take out one or more parcels from the accumulation portion in accordance with the priority to transport the parcels to a predetermined location, and excludes, from parcels to be taken out, a second parcel that is present within a predetermined distance from a first parcel and has priority lower than the priority of the first parcel, during the one cycle.

A process and system for manual multi-layer stacking of objects having different dimensions on a load carrier in a predetermined spatial arrangement including determining the spatial arrangement of the objects to be packed according to an order listing, delivering the objects to a supply level of a workstation in a sequence based on the spatial arrangement automatically by an autonomous mobile robot and/or an automated guided vehicle, supplying objects to a working level of the workstation and there presenting the objects to the operator, manually moving the objects onto a support connected to a manual stacking station in the working level and presenting the load carrier in the manual stacking station, where the load carrier defines a work surface for the stack being formed on four sides as it is packed with objects, and manually placing each object at a position in the stack according to the predetermined spatial arrangement.

A palletizing elevator is provided that lowers gradually a pallet thereon from an upper level as it is filled with products, and by providing an empty pallet infeed system that moves empty pallets towards the palletizing elevator simultaneously to the palletizing of products thereon. The empty pallet infeed system includes an empty pallet elevator for raising empty pallets to the upper level and a conveying system between the empty pallet elevator and the palletizing elevator for moving the empty pallets of from the empty pallet elevator at the upper level to the palletizing elevator while a pallet is moved by the palletizing elevator during its filling.

A palletizing elevator is provided that lowers gradually a pallet thereon from an upper level as it is filled with products, and by providing an empty pallet infeed system that moves empty pallets towards the palletizing elevator simultaneously to the palletizing of products thereon. The empty pallet infeed system includes an empty pallet elevator for raising empty pallets to the upper level and a conveying system between the empty pallet elevator and the palletizing elevator for moving the empty pallets of from the empty pallet elevator at the upper level to the palletizing elevator while a pallet is moved by the palletizing elevator during its filling.

A rotary table box manipulator, comprising: a horizontal supporting plane (1); a first rotary table (2) inscribed in and coplanar with said horizontal plane; a conveyor belt (3) arranged in a loop and movable along a longitudinal advancement direction above the supporting plane (1) and the table (2), equipped with a distribution of rotating balls (4) whose lower part is in contact with the upper surface of the plane (1) and of the table (2), so as to define an upper movable surface for supporting and transporting one or more boxes or packages of boxes (5), further comprising at least one second rotary table (6) inscribed in and coplanar with said first rotating table (2) and able to move independently from it.

A rotary table box manipulator, comprising: a horizontal supporting plane (1); a first rotary table (2) inscribed in and coplanar with said horizontal plane; a conveyor belt (3) arranged in a loop and movable along a longitudinal advancement direction above the supporting plane (1) and the table (2), equipped with a distribution of rotating balls (4) whose lower part is in contact with the upper surface of the plane (1) and of the table (2), so as to define an upper movable surface for supporting and transporting one or more boxes or packages of boxes (5), further comprising at least one second rotary table (6) inscribed in and coplanar with said first rotating table (2) and able to move independently from it.

The present disclosure describes a drum stacking assembly configured to allow stacking of drums for storage or transportation. The drum stacking assembly generally includes an extendable stacker device configured to be positioned between drums in a stack to support drums in the stack in a manner where the weight of the drums are supported on the rim portion of the drums and not the heads.

A pick-up head for groups of tissue products including a support which can be connected to a robotic arm. The support has a first sliding guide in which a first pair of compacting means runs, between an open configuration and a compacting configuration. The pick-up head also includes a plurality of unidirectional chains, wherein the unidirectional chains are positioned outside each compacting means of the first pair and slide between an engaging position and a disengaging position. The pick-up head also includes a plurality of guides associated with respective unidirectional chains, in such a way that the unidirectional chains protrude beyond an end edge of a horizontal stretch of the guide in such a way as to create a cantilever support designed to support the bottom of the group of tissue products during its movement.

An article bundling device for stacking articles and securing the stack of articles with a band includes a banding support, onto which the articles are stackable, an automatic banding machine with a band guide, with which the band is guided around the stack of articles, a first conveying system for inbound-transporting the articles, from which the articles are discharged onto the banding support, and a second conveying system for outbound-transporting the secured stack of articles. The conveying device of the first conveying system with its end located downstream in a first conveying direction is arranged spaced in vertical direction apart from the banding support and above the banding support. A picking system has such an article bundling device and a method operates such an article bundling device.