A machine for automatically manufacturing customized packaging items (I) from continuous laminar material, comprising at least one cutting and creasing unit (2) to form sheets (F) of laminar material with a plurality of cuttings and/or bendinglines (C), at least one variable-geometry forming unit (5) for forming the sheet (F) so cut and creased into a package (I) of predetermined dimensions, a multifunctional robotized manipulator (24) for automatically picking up one sheet (F) at a time from the cutting and creasing unit (2) and feeding the forming unit (5), the manipulator (24) being designed to automatically adapt to the predetermined dimensions of the packaging (I) on the forming unit (5) and interact therewith to form the packaging (I).

The present invention relates to a composite container comprising a bottom film layer and a top film layer at least partially adhered to the bottom film layer. The top film layer is scored to form at least one resealable flap and at least one pull tab which is not adhered to the bottom film layer. The bottom film layer comprises at least one cavity opening. A cardboard layer is adhered on its lower surface to the upper surface of the top film layer, wherein the cardboard layer has at least one cavity opening which is substantially aligned with the scoring of the top film layer resealable flap and the cardboard layer is perforated to define a perimeter of at least one pull tab which is substantially aligned with and adhered, on its underside, to the upper surface of the top film layer pull tab.

A box has a total inner volume in a closed configuration. The box includes a first box portion that defines a first inner volume and a second box portion that defines a second inner volume. The second box portion is pivotally coupled to the first box portion along a clamshell hinge. The first and second inner volumes combine to provide the total inner volume with each of the first and second inner volumes providing at least 30 percent of the total inner volume. The first box portion and the second box portion are each formed from a unitary sheet of sheetstock material. The clamshell hinge is a living hinge formed in the sheetstock material.

A lid for a pack for consumer goods, in particular a pack for smoking articles, comprising a container and a lid being pivotable about a hinge with a lid top wall, a lid front wall, a lid back wall and two opposite lid side walls, wherein the lid further comprises a reinforcement structure bonded to a contact surface of the lid top wall comprising a lid top wall counter panel, a first stabilizing flap and a second stabilizing flap, and wherein the reinforcement structure is further configured such that at least a part of an edge of the first stabilizing flap is aligned with at least part of a first edge of the lid top wall counter panel and at least a part of an edge of the second stabilizing flap is aligned with at least part of a second edge of the lid top wall counter panel.

A system for creating custom-sized cardboard blanks for folding packagings comprises a first and at least a second supply for fanfold cardboard, a control unit (e.g., microprocessor) that calculates, based on order information regarding the desired minimum dimensions of a current packaging, under predefined optimization criteria a first blank layout for folding the packaging, said blank layout comprising a leading edge and an ending edge and transverse and longitudinal crease lines dividing the blank having a desired length and width into panels, defines, based on predefined criteria, areas around the transverse crease lines and the leading and ending edges, in which no transverse folds from fanfolding the cardboard should be present, sensors communicatively coupled with said control unit that sense information indicative of a presence of transverse folds in cardboard, a cutter to cut-off the piece of cardboard from the first or the second web and form the desired blank.

A display carton includes a base tray having upstanding front, side and rear walls and a cover which is detachably connected to the base tray along lines of weakness. The cover includes an inner front wall positioned above the front wall of the base tray and an outer front wall which is provided by a distal end of a forwardly extending lid of the cover. The inner front wall comprises left and right portions which are connected together by a line of weakness. A bottom end of the outer front wall is tucked into a slot formed between a bottom edge of the inner front wall and a top edge of the front wall of the base tray.

Prefolded cardboard blank for folding closed packaging boxes of varying height and length, said blank comprising a bottom panel, two side panels, each joined to opposite edges of said bottom panel and a first end panel joined with a first edge to said bottom panel, with a second edge to one of said side panels and with a third edge to the other one of said side panels such that the first end panel and the side panels when erected from the bottom panel form together with the bottom panel a box having an open top and an open side, the first end panel having an end portion intended to form a first top panel, each side panel having an end portion intended to form at least one second top panel and a corner panel, the bottom panel having an end portion intended to form a second end panel and a third top panel, and each side panel having a crease line running at an angle of 45 upwards from a corner, where the edges of the respective side panel, the first end panel and the bottom panel meet.

A blank for producing a three-dimensional structure, from paper, cardboard, or plastic, includes at least three lateral surfaces and at least one bottom and/or top tab for forming the three-dimensional structure in a folded state of the blank. At least two of the lateral surfaces and/or at least one of the lateral surfaces having the bottom and/or cover tab being connected to one another by means of at least one mechanically produced groove line. The groove line is produced without ablation or other removal of material from the blank, at least one groove being produced by means of a laser within at least one of the lateral surfaces connected by means of the groove line. The groove being configured to run at an angle to the groove line and impinging on or intersecting the groove line. A three-dimensional structure and a folding box produced from the blank are also disclosed.

The invention relates to a method for producing packaging (18) from paper material (5), in particular paper, cardboard or paperboard, said method comprising the following steps: forming packaging (18) from a blank (19) made of paper material (5), which paper material overlaps at at least one joining site (21); positioning the at least one joining site (21) between a sonotrode (2) and an anvil (3); applying the joining site (21) with a joining force in a joining force direction (6); and making the sonotrode (2) ultrasonically vibrate in order to ultrasonically weld the paper material (5) at the joining site (21), which method is characterised in that the paper material (5) is moistened, preferably on the inner sides of the joining sites (21), before forming the packaging (18) and/or while forming the packaging (18) and/or after forming the packaging (18) and/or during the ultrasonic welding.

A plant for automated packaging of items in cardboard boxes includes a forming station of open sheet boxes starting from a cardboard web, an item introduction system, a box closing station, and a feeding system. A cutting and creasing system at the forming station produces a longitudinal elongate element defining the bottom and top walls and a first pair of side walls of the box, and transverse panels providing the second pair of side walls. A first gluing system bonds the transverse panels to the elongate element by applying hot-melt strips on the side edges of the elongate element, and a pair of suction-cup manipulators applies the transverse panels on the elongate element at the glue strips to obtain a cross-shaped blank. The closing station includes a folding and automatic gluing system that folds and bonds the side walls and the top wall of the box to produce finished packages.