A configurable assembly is provided for conveying products along a longitudinal direction; the assembly has a supporting structure and at least two conveyor units; at least one of said units is provided with at least two tracks which receive, in use, respective products and diverge from or converge towards each other along a lateral direction, proceeding longitudinally from an inlet to an outlet; the units are movable with respect to the supporting structure by the action of an actuator device between a working area and at least one storage area, so as to selectively arrange one of said units in the working area.

A bag supply system includes: a bag bundle delivery device moves bag bundles from a delivery relay position to a delivery zone; a bag bundle conveyance device which receives the bag bundles from the bag bundle delivery device in the delivery zone and conveys the bag bundles from the delivery zone to a supply zone in a state where the bag bundles are supported by a support part; a bag bundle takeoff device which holds the bag bundles supported by the support part in the supply zone and moves the bag bundles from the bag bundle conveyance device to a supply relay position; and a bag supply device which sequentially supplies bags included in each of the bag bundles arranged in the supply relay position, to a packaging machine. The support part moves along an endless track between the delivery zone and the supply zone.

A system for forming horizontally stacked groups of containers includes an infeed screw set, an orienting screw set, and a grouping mechanism. Containers are presented to the infeed screw in a vertical orientation, and are progressed from the infeed screw set to the orienting screw set via a transitioning pocket defined by overlapping pockets of the infeed and orienting screw sets. As containers are progressed through the orienting screw the containers are rotated via a series of orienting pockets to a horizontal orientation and progressed via a series of nesting pockets to form a series of horizontally nested containers. The series is discharged to a grouping mechanism which separates a predefined number of containers from the series to form a horizontally stacked group, which is outfed from the stacking system.

A system for forming horizontally stacked groups of containers includes an infeed screw set, an orienting screw set, and a grouping mechanism. Containers are presented to the infeed screw in a vertical orientation, and are progressed from the infeed screw set to the orienting screw set via a transitioning pocket defined by overlapping pockets of the infeed and orienting screw sets. As containers are progressed through the orienting screw the containers are rotated via a series of orienting pockets to a horizontal orientation and progressed via a series of nesting pockets to form a series of horizontally nested containers. The series is discharged to a grouping mechanism which separates a predefined number of containers from the series to form a horizontally stacked group, which is outfed from the stacking system.

A battery inspection system includes a controller configured to perform: group control of managing a predetermined number of batteries taken in by a take-in conveyor as a same group; inspection control of controlling a conveying device to bring the batteries taken in by the take-in conveyor into an inspection device that is not performing inspection, and also controlling the conveying device to retrieve the batteries that have been inspected from the inspection device; and storage control of controlling the conveying device to store at least some of the batteries retrieved from the inspection device into the storage device, and also controlling the conveying device to continuously deliver a set of batteries of the same group from the inspection device or the storage device to the take-out conveyor.

A battery inspection system includes a controller configured to perform: group control of managing a predetermined number of batteries taken in by a take-in conveyor as a same group; inspection control of controlling a conveying device to bring the batteries taken in by the take-in conveyor into an inspection device that is not performing inspection, and also controlling the conveying device to retrieve the batteries that have been inspected from the inspection device; and storage control of controlling the conveying device to store at least some of the batteries retrieved from the inspection device into the storage device, and also controlling the conveying device to continuously deliver a set of batteries of the same group from the inspection device or the storage device to the take-out conveyor.

The invention concerns a conveyor system for formatting slice-shaped food products in product stacks. The conveyor system includes an inlet, a lower product conveyor, an upper product conveyor, a vertically swiveling distributor conveyor for distributing the incoming food products selectively to the lower product conveyor or to the upper product conveyor, an output conveyor receiving the food products partially stacked from the lower product conveyor and the upper product conveyor, and an outlet for outputting the stacked food products in product rows. The individual conveying tracks of the distributor conveyor can be swivelled vertically independently of one another in order to forward the incoming food products individually for each conveying track selectively to the lower product conveyor onto the upper product conveyor.

The invention concerns a conveyor system for formatting slice-shaped food products in product stacks. The conveyor system includes an inlet, a lower product conveyor, an upper product conveyor, a vertically swiveling distributor conveyor for distributing the incoming food products selectively to the lower product conveyor or to the upper product conveyor, an output conveyor receiving the food products partially stacked from the lower product conveyor and the upper product conveyor, and an outlet for outputting the stacked food products in product rows. The individual conveying tracks of the distributor conveyor can be swivelled vertically independently of one another in order to forward the incoming food products individually for each conveying track selectively to the lower product conveyor onto the upper product conveyor.

The invention relates to an apparatus for the lateral overlapping of portions which are transported in a longitudinal direction and which each comprise at least one slice cut off from a food product, having at least one overlapping unit which comprises a belt conveyor having at least two tracks, wherein an upper track and a lower track are deflected at the incoming side about a common input axle and at the outgoing side about two output axles disposed at different height levels.

The invention relates to an apparatus for the lateral overlapping of portions which are transported in a longitudinal direction and which each comprise at least one slice cut off from a food product, having at least one overlapping unit which comprises a belt conveyor having at least two tracks, wherein an upper track and a lower track are deflected at the incoming side about a common input axle and at the outgoing side about two output axles disposed at different height levels.