The invention relates to a cartoning apparatus (1) of items comprising: a die-cut magazine (125), in which a plurality of die-cuts (5) are stored for packaging the items, and a die-cut (170) pick-up and manipulating machine, configured to pick up the die-cuts (5) from the die-cut (125) magazine and manipulate them so as to open each die-cut (5). Where the die-cut (170) pick-up and manipulating machine comprises a robotic arm (180) on which a die-cut (175) gripping and manipulating module is installed, configured to grip one die-cut (5) at a time directly from the pick-up area (135) of the die-cut (125) magazine and manipulate it in order to open it.

The invention relates to a cartoning apparatus (1) of items comprising: a die-cut magazine (125), in which a plurality of die-cuts (5) are stored for packaging the items, and a die-cut (170) pick-up and manipulating machine, configured to pick up the die-cuts (5) from the die-cut (125) magazine and manipulate them so as to open each die-cut (5). Where the die-cut (170) pick-up and manipulating machine comprises a robotic arm (180) on which a die-cut (175) gripping and manipulating module is installed, configured to grip one die-cut (5) at a time directly from the pick-up area (135) of the die-cut (125) magazine and manipulate it in order to open it.

A method of at least partially erecting a carton with a carton forming system includes loading a blank in a blank infeed assembly, the blank having a plurality of panels and a plurality of end flaps foldably connected to a respective panel of the plurality of panels. The method further includes positioning the blank on at least one conveyor assembly, operating the at least one conveyor assembly to move the blank in a downstream direction of the system toward a carton erection assembly, the carton erection assembly including an end flap engagement assembly positioned adjacent the at least one conveyor assembly, and rotating the end flap engagement assembly such that a portion of the end flap engagement assembly contacts and moves at least one end flap of the plurality of end flaps of the blank as the blank moves in the downstream direction.

A method for erecting a box includes positioning an unerected box in an automated erecting apparatus. The method further includes bending major and minor flaps on the unerected box relative to sides of the unerected box. The method further includes, while the major and minor flaps are bent relative to the sides of the unerected box, performing an automated opening operation on the unerected box, wherein the unerected box comprises a stacking fold.

In a method of handling a tubular carton blank, one side of an erected tubular carton blank is gripped with a gripper mounted to a pivot such that a fold line of a flap of the one side is aligned with an axis of rotation of the pivot. The gripper, and thereby the erected tubular carton blank, is then pivoted about the pivot. The flap is brought into abutting relation with an abutment during the pivoting so that the flap is progressively folded about the fold line by the abutment during the pivoting.

A method for erecting a box includes positioning can unerected box in an automated erecting apparatus. The method further includes bending major and minor flaps on the unerected box relative to sides of the unerected box. The method further includes, while the major and minor flaps are bent relative to the sides of the unerected box, performing an automated opening operation on the unerected box, wherein the unerected box comprises a stacking fold.

A method for erecting a box includes positioning can unerected box in an automated erecting apparatus. The method further includes bending major and minor flaps on the unerected box relative to sides of the unerected box. The method further includes, while the major and minor flaps are bent relative to the sides of the unerected box, performing an automated opening operation on the unerected box, wherein the unerected box comprises a stacking fold.

A bi-directional carton opening system for opening cartons in left hand or right hand configuration. The system utilizes apparatus having a Y axis rail with a first X axis rail fixedly mounted thereto and a second X axis rail mounted moveably thereto. A carton is gripped by a carrier on the first X axis rail and a carrier on the second X axis rail. The carrier on one of the X axis rails is moved along the respective X axis rail while the carrier on the other X axis rail is held in place and the moveable X axis rail is moved along the Y axis to open the carton to a rectangular tubular shape.

It is generally a goal to reduce the height dimension of a case-making device. A case-making device 90 comprises a box-sheet-holding part 10 and an extraction part 20. The box-sheet-holding part 10 holds a plurality of box sheets S to be processed into container boxes B such that the box sheets S extend in an upright direction UR. The extraction part 20 extracts one box sheet S from the box-sheet-holding part 10. An upright-direction UR dimension of the box sheet S is a first dimension H1. The extraction part 20 moves the box sheet S in the upright direction UR by a second dimension H2 shorter than the first dimension H1.

A filling machine for filling packaging containers made of cardboard composite material with products, in particular liquid foods, includes a gripper that removes a packaging jacket from a magazine only partially erected in the manner of a parallelogram by a guide and at least one of two retaining elements for accommodating an outer fold edge of the partially erected packaging jacket can be move back and forth between an initial position and an end position. The cross-section of the packaging jacket accommodated by the two retaining elements is rectangular in the end position of the movable retaining element.