A grouping system for grouping containers including a track oriented in a horizontal plane, a plurality of lugs coupled moveably to the track, and a plurality of grippers, wherein each gripper is coupled to a lug, wherein the grippers are configured to move a stream of containers about the track.

An orientation module including a base configured to support at least one container, a camera positioned to scan the at least one container, a processor operatively connected to the camera configured to analyze an initial orientation of the container and determine a secondary orientation of the container, and a turning member positioned above the base configured to turn the corresponding container according to a command from the processor to rotate the container to the secondary orientation.

An orientation module including a base configured to support at least one container, a camera positioned to scan the at least one container, a processor operatively connected to the camera configured to analyze an initial orientation of the container and determine a secondary orientation of the container, and a turning member positioned above the base configured to turn the corresponding container according to a command from the processor to rotate the container to the secondary orientation.

A gripper that comprises a first receiving plate for receiving a first product portion and a second receiving plate for receiving a second product portion, wherein the receiving plates are movable relative to one another. The gripper further including a first movable stop which is movable relative to the first receiving plate, and a second movable stop which is movable relative to the second receiving plate. The gripper is distinguished by the fact that the first stop and second stop are movable relative to one another so as to move the product portions towards one another when the gripper is closed such that the product portions then may be positioned to overlap one another.

A seizing head for objects is described that includes a support frame adapted to be coupled to a manipulator robot, and a plurality of picking apparatuses arranged mutually flanked according to a predefined flanking direction and individually adapted to take and withhold at least one object, wherein each picking apparatus is installed on a respective mobile frame, which is slidably coupled to the support frame according to a sliding direction parallel to the flanking direction, and wherein the seizing head further includes a plurality of functionally independent activation devices, each of which is adapted to activate a respective mobile frame along said sliding direction.

A head for use in forming an article array in a container cavity (“cavity”) by sequential placement of adjacent article rows in the cavity, including a gripper having a frame having a longitudinal axis, the gripper adapted to selectively engage and disengage an article row for permitting placement thereof; and a flexible layer connected to the frame and extending parallel to the longitudinal axis and positioned to one side of the gripper. During formation of the article array in the cavity, the flexible layer preventing contact between a most recently positioned article row in the cavity and a corresponding article row being positioned in the cavity, including filling a remaining unfilled portion of the cavity between a penultimate article row and the container for receiving the final article row having a width approximately equal to or less than a width of the final article row.

A conveyor system for grouping containers including a conveyor module configured to convey and meter a stream of containers of various dimensions a first star wheel and a second star wheel configured to move a plurality of first containers along a first travel path, wherein the first containers each have a first geometric center, and wherein the first travel path is defined by the geometric center of the first containers, and a third star wheel and a fourth star wheel configured to move a plurality of second containers along a second travel path, wherein the second containers each have a second geometric center, and wherein the second travel path is defined by the geometric center of the second containers, wherein the first travel path and the second travel path are substantially similar.

A method and a feeding apparatus for feeding spacers for cigarette packs are disclosed, in which each spacer comprises a substantially rectangular flat body, the spacers being insertable in cartons for cigarette packs to space out packs with dimensions smaller than the standard dimensions; the spacers are stacked on a pallet that is positioned in a withdrawal station; the stacks of spacers are withdrawn from the withdrawal station and transferred to a respective hopper by passing each stack of spacers through an upper opening of the hopper, to then unload the spacers one by one through a lower opening of the hopper.

A method and a feeding apparatus for feeding spacers for cigarette packs are disclosed, in which each spacer comprises a substantially rectangular flat body, the spacers being insertable in cartons for cigarette packs to space out packs with dimensions smaller than the standard dimensions; the spacers are stacked on a pallet that is positioned in a withdrawal station; the stacks of spacers are withdrawn from the withdrawal station and transferred to a respective hopper by passing each stack of spacers through an upper opening of the hopper, to then unload the spacers one by one through a lower opening of the hopper.

A device for packaging elongated items such as firewood pieces is described herein. The device includes: an elevated structure having an upper platform for receiving the elongated items from a separate conveyor; a diverter located on or above the platform for changing the direction of movement of the elongated items; and one or more elevator shafts having open bottoms. The elevator shafts are located adjacent to the platform and configured for receiving the elongated items after contact with the diverter and for holding the elongated items on support structures while a stack of elongated items is formed. The release of the stack of elongated items from the elevator shafts occurs via the open bottoms of the elevator shafts.