A column of cups guided by their rims in elongated slots is spaced into desired cup pitch by one or more linear stars from which the cups can be transferred for packaging. The linear stars have lugs engaging and spacing the cups. In another aspect of the invention, cups are manipulated into patterns for final grouping and packaging and by a plurality of cup orienting pickers engaging, inverting and re-orienting the cups. In one final packaged cup group of two or more layers, alternating cups in each layer are inverted and a top lid of a cup in an upper layer is disposed on a top lid of a cup in a bottom layer, while a bottom of a cup in an upper layer is disposed on a bottom of a cup in a lower layer, and in an alternating pattern.

An arrangement for transferring and/or grouping products (32) is proposed, comprising at least one mover (20) which has at least one permanent magnet (19) which is connected to the mover (20), wherein the permanent magnet (19) interacts with at least one coil plane (18) of a drive surface (13) for the in particular contactless driving of the mover (20), wherein the mover (20) is arranged displaceably and/or rotatably in at least two degrees of freedom on the drive surface (13), furthermore comprising at least one conveying system (34, 38) which conveys products (32), characterized in that the mover (20) picks up or deposits at least one product (32) by means of a movement of the mover (20) with at least one vertical component.

An end effector for the packaging industry comprises has a frame, a bridge on top of the frame, a rack and pinion assembly, actuation rods, carrier assemblies, and vacuum ports. The rack and pinion assembly is configured to be operatively connected to a robot's rotatable shaft, and to the actuation rods. The actuation rods are fixedly connected to one or more of the carrier assemblies. As the robot's shaft rotates, the rack and pinion assembly is actuated, which actuates the actuation rods, which causes the carrier assemblies fixedly connected to the actuation rods to move longitudinally along the frame. Each carrier assembly includes a carrier block and at least one pick-up member. Each carrier block has at least one arm with a grabber to cooperate with an adjacent arm with grabbers of an adjacent carrier block(s) of the same subgroup.

An end effector for the packaging industry comprises has a frame, a bridge on top of the frame, a rack and pinion assembly, actuation rods, carrier assemblies, and vacuum ports. The rack and pinion assembly is configured to be operatively connected to a robot's rotatable shaft, and to the actuation rods. The actuation rods are fixedly connected to one or more of the carrier assemblies. As the robot's shaft rotates, the rack and pinion assembly is actuated, which actuates the actuation rods, which causes the carrier assemblies fixedly connected to the actuation rods to move longitudinally along the frame. Each carrier assembly includes a carrier block and at least one pick-up member. Each carrier block has at least one arm with a grabber to cooperate with an adjacent arm with grabbers of an adjacent carrier block(s) of the same subgroup.

An end effector for the packaging industry comprises has a frame, a bridge on top of the frame, a rack and pinion assembly, actuation rods, carrier assemblies, and vacuum ports. The rack and pinion assembly is configured to be operatively connected to a robot's rotatable shaft, and to the actuation rods. The actuation rods are fixedly connected to one or more of the carrier assemblies. As the robot's shaft rotates, the rack and pinion assembly is actuated, which actuates the actuation rods, which causes the carrier assemblies fixedly connected to the actuation rods to move longitudinally along the frame. Each carrier assembly includes a carrier block and at least one pick-up member. Each carrier block has at least one arm with a grabber to cooperate with an adjacent arm with grabbers of an adjacent carrier block(s) of the same subgroup.

An end effector for the packaging industry comprises has a frame, a bridge on top of the frame, a rack and pinion assembly, actuation rods, carrier assemblies, and vacuum ports. The rack and pinion assembly is configured to be operatively connected to a robot's rotatable shaft, and to the actuation rods. The actuation rods are fixedly connected to one or more of the carrier assemblies. As the robot's shaft rotates, the rack and pinion assembly is actuated, which actuates the actuation rods, which causes the carrier assemblies fixedly connected to the actuation rods to move longitudinally along the frame. Each carrier assembly includes a carrier block and at least one pick-up member. Each carrier block has at least one arm with a grabber to cooperate with an adjacent arm with grabbers of an adjacent carrier block(s) of the same subgroup.

Packaging apparatus and methods include a plurality of article grippers driven by independently controlled motors in an end-of-arm tooling (EOAT), for picking articles, grouping articles, adjusting group pitch and placing article groups in packages where incoming articles and packages are continuously or intermittently moving and without motion of the entire EOAT in the direction in which articles and packages are picked and moved. Hole healing and incoming product registration apparatus and methods are disclosed.

The present invention relates to a thermoform packaging machine and a method of operating a thermoform packaging machine, which comprises an infeed station and a pre-sealing station, so as to feed elongate products into troughs and retain them therein until a cover film has been fixed so as to cover the troughs.

A packaging loader for loading products into packaging has a conveyor, a collator, and a nesting assembly. The conveyor conveys products to the collator, where the products are collected and, subsequently, transferred to the nesting assembly. The nesting assembly rearranges at least some of the products for placement into the packaging. Once the products have been properly arranged by the nesting assembly, they are placed within the packaging. The process repeats, as desired, to arrange one or more layers of products within the packaging.

A packaging loader for loading products into packaging has a conveyor, a collator, and a nesting assembly. The conveyor conveys products to the collator, where the products are collected and, subsequently, transferred to the nesting assembly. The nesting assembly rearranges at least some of the products for placement into the packaging. Once the products have been properly arranged by the nesting assembly, they are placed within the packaging. The process repeats, as desired, to arrange one or more layers of products within the packaging.