A machine including a deck, a first platform, a second platform, a first web transfer assembly, and a second web transfer assembly is provided. The deck and first and second platforms are coupled to a frame. The first web transfer assembly extends from a first end to a second end and includes a first pick-up assembly moveable between the first end, proximate the first platform, and the second end, proximate the deck. The second web transfer assembly extends from a third end to a fourth end and includes a second pick-up assembly moveable between the third end, proximate the second platform, and the fourth end, proximate the deck. The first web transfer assembly and the second web transfer assembly are operationally offset when moving between the first and second end and the third and fourth ends, respectively.

A machine including a deck, a first platform, a second platform, a first web transfer assembly, and a second web transfer assembly is provided. The deck and first and second platforms are coupled to a frame. The first web transfer assembly extends from a first end to a second end and includes a first pick-up assembly moveable between the first end, proximate the first platform, and the second end, proximate the deck. The second web transfer assembly extends from a third end to a fourth end and includes a second pick-up assembly moveable between the third end, proximate the second platform, and the fourth end, proximate the deck. The first web transfer assembly and the second web transfer assembly are operationally offset when moving between the first and second end and the third and fourth ends, respectively.

The present disclosure relates to a shipping and display container which can be formed from one or more blanks folded and formed according to a method for creating the container. A portion of the blank forming the front wall can be formed from two stacked, joined layers including an interior and an exterior blank layer. The exterior blank layer includes top flaps and bottom flaps, the top flaps being significantly smaller in height compared to the bottom flaps such that when the container is formed, the top flaps form a bearing surface along the border of the container, on which a second container may be stacked, while defining a central window that displays the interior contents of the container.

The present disclosure relates to a shipping and display container which can be formed from one or more blanks folded and formed according to a method for creating the container. A portion of the blank forming the front wall can be formed from two stacked, joined layers including an interior and an exterior blank layer. The exterior blank layer includes top flaps and bottom flaps, the top flaps being significantly smaller in height compared to the bottom flaps such that when the container is formed, the top flaps form a bearing surface along the border of the container, on which a second container may be stacked, while defining a central window that displays the interior contents of the container.

An operating group for a cartoning machine is arranged to move a blank that is intended to form a carton adapted to contain one or more products, and includes a magazine suitable for housing a plurality of blanks folded in a planar manner; gripping arrangement that is configured for retaining the blank and is movable at least between a removing position in which the gripping arrangement removes the blank arranged in the magazine in a planar configuration, which is horizontal, and a delivery position in which the gripping arrangement delivers the blank arranged in a tridimensional unfolded configuration, which is vertical with respect to the planar configuration; in which the gripping arrangement is rotated around a rotation axis such as to travel along a closed loop path; the removing position from the magazine being arranged above the closed loop transfer path travelled by the gripping arrangement, such that the gripping arrangement can remove directly from the magazine said blank in the horizontal folded planar configuration.

An operating group for a cartoning machine is arranged to move a blank that is intended to form a carton adapted to contain one or more products, and includes a magazine suitable for housing a plurality of blanks folded in a planar manner; gripping arrangement that is configured for retaining the blank and is movable at least between a removing position in which the gripping arrangement removes the blank arranged in the magazine in a planar configuration, which is horizontal, and a delivery position in which the gripping arrangement delivers the blank arranged in a tridimensional unfolded configuration, which is vertical with respect to the planar configuration; in which the gripping arrangement is rotated around a rotation axis such as to travel along a closed loop path; the removing position from the magazine being arranged above the closed loop transfer path travelled by the gripping arrangement, such that the gripping arrangement can remove directly from the magazine said blank in the horizontal folded planar configuration.

A machine for forming a carton from a carton blank. The machine includes at least one mover including a picker for picking the carton blank from the hopper and associating the carton blank with the mover. A controlled motion track is provided for moving the at least one mover and picker along a path of travel to a stationary position for engaging the carton blank in the hopper. A further aspect relates to maintaining a suction force on the carton blank during conveyance, including along a linear portion of the track associated with a lugged conveyor for assisting in erecting the blank into a carton. Another aspect relates to a rotatable bucket for receiving and supporting the product, and a controlled motion track for positioning the bucket and associated product for delivery to the carton. Related methods are also described.

A machine for forming a carton from a carton blank. The machine includes at least one mover including a picker for picking the carton blank from the hopper and associating the carton blank with the mover. A controlled motion track is provided for moving the at least one mover and picker along a path of travel to a stationary position for engaging the carton blank in the hopper. A further aspect relates to maintaining a suction force on the carton blank during conveyance, including along a linear portion of the track associated with a lugged conveyor for assisting in erecting the blank into a carton. Another aspect relates to a rotatable bucket for receiving and supporting the product, and a controlled motion track for positioning the bucket and associated product for delivery to the carton. Related methods are also described.

Described and illustrated is a device for at least partially unfolding package sleeves, having a magazine comprising a stack formed from package sleeves, wherein the package sleeves of the stack are folded flat around at least two folding edges extending in the longitudinal direction of the package sleeves and wherein a gripper is provided for gripping a side of the package sleeves facing away from the stack and for moving, in particular pulling, the package sleeves along a withdrawal transport path with the folding edges into grooves of at least one receptacle of a moulding station and wherein the grooves are spaced so that the folding edges of the package sleeves are spaced apart further in the magazine than in the grooves. In order to further prevent operational malfunctions and allow a more reliable and largely malfunction-free production of packaging bodies which are open on one side from package sleeves which are open on both sides, it is provided that a drive is assigned to the gripper and/or the grooves for moving the package sleeve section gripped by the gripper first along the withdrawal transport path across a groove plane which connects the grooves, then back against the withdrawal transport path across the groove plane, and then again along the withdrawal transport path across the groove plane.

Described and illustrated is a device for at least partially unfolding package sleeves, having a magazine comprising a stack formed from package sleeves, wherein the package sleeves of the stack are folded flat around at least two folding edges extending in the longitudinal direction of the package sleeves and wherein a gripper is provided for gripping a side of the package sleeves facing away from the stack and for moving, in particular pulling, the package sleeves along a withdrawal transport path with the folding edges into grooves of at least one receptacle of a moulding station and wherein the grooves are spaced so that the folding edges of the package sleeves are spaced apart further in the magazine than in the grooves. In order to further prevent operational malfunctions and allow a more reliable and largely malfunction-free production of packaging bodies which are open on one side from package sleeves which are open on both sides, it is provided that a drive is assigned to the gripper and/or the grooves for moving the package sleeve section gripped by the gripper first along the withdrawal transport path across a groove plane which connects the grooves, then back against the withdrawal transport path across the groove plane, and then again along the withdrawal transport path across the groove plane.