A method for checking and correcting the position of a blank (10) that includes closing the folded right-hand and left-hand flaps (17, 18) of the blank, which are positioned one above the other in an overlapping portion, checking the position of the right-hand edge (13) and of the left-hand edge (14), and comparing the position with a predetermined position in order to determine a positional deviation, if the positional deviation exceeds an admissible deviation value, and before the glue sets, fixing of the central flap (19), then holding the upper face of the right-hand flap and of the left-hand flap by a suction cup (21, 23, 24, 26), and correcting the position of the left-hand flap (18) and/or of the right-hand flap (17) by moving the suction cup (21, 23, 24, 26).

A method and a system for erecting boxes from box templates of different sizes, said method comprising the steps of: adjusting a size of a frame (5; 105) according to a size of a box template (3; 103) which should be erected; wrapping the box template (3; 103) to be erected around the frame (5; 105); and separating the frame (5; 105) from the box template.

A method of manufacturing a dispenser for a product in stick form (50). The dispenser includes an inner tube (12) and a product concealing tube (16) disposed outwardly of the inner tube (12). The product concealing tube (16) is retractable and extendable relative to the inner tube (12) for exposing and covering a product stick (50) extending from a distal end of the inner tube (12) in use. The method includes: providing a first blank of sheet material for providing the inner tube (12) of the dispenser; wrapping the first blank around a mandrel to provide the inner tube (12) of the dispenser; and providing a second blank of sheet material for providing the product concealing tube (16) of the dispenser. The second blank comprises a slot, and a guide element (38) disposed within the slot. The method also includes: applying a bonding agent to the second blank in a region corresponding to a surface of the guide element (38); and wrapping the second blank around the inner tube (12) while the inner tube (12) is held on a mandrel to provide the product concealing tube (16), with the surface of the guide element (38) to which bonding agent has been applied facing the inner tube (12), such that the guide element (38) becomes bonded to an exterior surface of the inner tube (12). The slot provides a recess (24) in the interior surface of the formed product concealing tube (16). In use, the product concealing tube (16) is movable relative to the inner tube (12) with the guide element (38) cooperating with the recess (24) for guiding the movement of the product concealing tube (16) relative to the inner tube (12). There is also provided a dispenser for a product in stick form (50).

Techniques for corrugate and chipboard knocked-down case inspection and manufacturing are described. In an example, a piece of cardboard is cut according to a shape of a knocked-down case, and a first plurality of measurements are made. The piece of cut cardboard is scored to create a plurality of fold-lines, based at least in part on the first plurality of measurements, and a second plurality of measurements are made. A fold-line between a major panel and a minor panel is folded, based at least in part on the second plurality of measurements, and a third plurality of measurements are made. A fold-line of a tab of the piece of cut cardboard is folded, based at least in part on the third plurality of measured distances. The tab is glued to a panel of the piece of cardboard to form a knocked-down case.

The present invention relates generally to a new and improved paper-based container. More specifically, the invention relates to a paper-based container that is comprised of a relatively low-density polyethylene coating on one or both surfaces of the container and at least two skive flaps, wherein each of said skive flaps is created during the manufacturing process. The skive flap further comprises at least one leading edge of the container body, and prevents unwanted moisture from entering the container and the contents of the container from saturating the paper-based material. One skive flap is preferably folded in a manner in which a portion of the outside surface of the container is adhered to the inside surface, and a second skive flap is adhered to the outside surface.

A bale of stock packaging material includes a continuous tube of paperboard material, the continuous tube of paperboard material being flattened and folded back and forth on itself into a fan-folded bale. The continuous tube of paperboard can be a single piece of paperboard with two opposed edges that are folded to overlap with each other. The paperboard material can include a corrugated layer. The opposed edges can be adhered together to form a single seam that runs lengthwise along the continuous tube of paperboard. The adhesive can be applied between the two edges which can join to form the single seam.

Paper-based packages and methods of making the same are disclosed. In one example, a semi-rigid package comprises: a base, a first side portion, and a second side portion. The base comprises two opposed major walls and two longitudinal side walls opposed to each other. The first side portion and a second side portion are integrally formed with the base. The two side portions are respectively connected to the base along the longitudinal direction, and each side portion comprises two opposed side panels, two tapered corner portions opposed to each other, and a closure in a transverse direction. Each side panel is connected to the adjacent major wall along a transverse line, and the two opposed side panels are jointed to form the closure. At least one of the side portions may be substantially compacted and form a substantially flat transverse side wall.

A method and apparatus are disclosed for forming containers. The containers may be cans, including composite cans. The apparatus may include a cylindrical mandrel and a blank may be formed into a cylindrical tube around the mandrel. Rotational apparatuses may engage portions of a blank that may be in a flat configuration and may rotate the portions around the outward cylindrical surface of the mandrel. Free edges of the tubular blank may be sealed by a sealing strip that may be T-shaped in cross section. A cup may be installed in an end opening, such as a bottom end, of the cylindrical tube. The cup may be sealed in the end opening by a seaming process using a seaming apparatus.

A device for processing a plate element (35) has a rotable hub (52), two tools (57, 58), mounted on the hub (52) to process the element (35) when each tool is in a respective processing position; a drive to rotate the hub (52) and the two tools (57, 58); a rotatable counter-tool (64). The rotation (R) of the hub (52) varies during a rotation cycle of the hub (52), and includes two constant speed phases during each of which one of the two tools (57, 58) is, in succession, in the processing position; and at least one phase with each of the two tools (57, 58) in an intermediate position between the respective processing positions, so as to achieve a front lateral processing position and a rear lateral processing position on the element (35).

The invention relates to a one piece blank of a corrugated cardboard sheet material designed for forming a belt intended to form a box having a length L, a width W and a height H, wherein this blank includes a main rectangular body (10) extending along a longitudinal direction and two protruding rectangular parts (11, 12) extending in a transverse direction and symmetrically with regard to the main body, so as to define two perpendicular branches, a first branch being defined by the main body and a second branch defined by the protruding parts, the main body (10) having a width (D1) larger than the length L and a length (D2) larger than at least twice the width W plus the height H (2W+2H) and each of the protruding parts having a length (d1) larger than the height H or the width W and a width (d2) larger than the width W or the height H.