A method for producing reusable packaging from a carton. A rectangular blank has sides X and Y, a total area xy, 2(a+h)≤x≤3(a+h)+a, and y−2(h+r)≤b≤y, where a and b are side dimensions, h is height, and r is width, or width reduced by height h, of the periphery region R of the finished packaging. The method includes: producing folding lines B in the blank parallel to a first side Y at these distances from the latter: B.sub.1: a.sub.1=h; B.sub.2: a.sub.2=h+a; B.sub.3: a.sub.3=2h+a; severing of two severing lines T, each starting from opposite sides X, along one of the folding lines B, or the extension thereof; selecting the distance between two end points E.sub.T of the severing lines T which are closer to an axis of symmetry S.sub.1, which is parallel to the side X, such that the distance corresponds to a side B″ of the finished packaging or length of a side M of a packaging insert.

A folding station includes an inlet and an outlet and is predisposed to receive at the inlet a cardboard blank having two transversal edges, two longitudinal edges, two longitudinal score lines, and four transverse score lines. The two longitudinal score lines define therebetween a central sector and also define two lateral sectors externally of the two longitudinal score lines. Cuts in the two lateral sectors define a series of flaps. The folding station further comprises a conveyor for transporting the cardboard blank in an advancement direction to a position, a first folding bar located by a flank of a first side of the conveyor at the position, and a second folding bar located by a flank of a second side of the conveyor at the position. The first folding bar and the second folding bar rotate to fold the flaps in the two lateral sectors onto respective portions of the central sector of the cardboard blank.

A cup, a blank for a cup, and a method for forming a cup. As an example, a cup includes a base having a circular bottom and a rim coupled to a perimeter of the bottom; a sidewall extending upwards from the base between an upper edge and a lower edge, the sidewall being continuously coupled to the rim at the lower edge; a plurality of closure panels integrally connected to and extending from the sidewall at the upper edge, the plurality of closure panels includes a first closure panel having a first cutout and a second closure panel having a second cutout; a straw connected to and extending from a second end of the sidewall and extending upwards from near the lower edge to beyond the upper edge; and a tab connected to and extending from a first end of the sidewall and attaching the first end of the sidewall to a second end of the sidewall.

A conveyor of a cardboard-folding station receives a cardboard blank having a first portion, first and second lateral closing walls hinged thereto and facing upstream and downstream, respectively, an upper closing wall hinged to the second lateral closing wall and facing downstream, a third and a fourth lateral closing wall hinged and partly raised with respect to the first portion and projecting from sides of the conveyor. An article rests on the first portion, with four flanks or the article respectively facing the four lateral closing walls of the blank. At a first folding zone the third and fourth lateral closing walls are folded to cover the third and the fourth flanks of the article, and at a second folding zone the second lateral closing wall and the upper closing wall are folded to cover the article's second flank and its upper face.

A conveyor receives a cardboard box formed about an article, with a first lateral flank uncovered. An inlet receives the cardboard box with the first lateral closing wall coplanar with a base wall, a second lateral closing box wall folded to cover a second lateral article flank, a third lateral closing box wall folded to cover a third lateral article flank, a fourth lateral closing box wall folded to cover a fourth lateral article flank, and an upper closing box wall folded to cover an upper article face. An arrest stops the box, a first folding component rotates and folds the first lateral closing box wall to cover the first lateral article flank, and second folding component rotates a closing tab (AC), hinged to the upper closing wall to fold and bring a closing tab against the first lateral closing wall for closing the cardboard box.

A container with a deep recessed bottom end construction is provided. The container includes an inner receptacle having a sidewall and a bottom wall defining an interior volume within the receptacle. The container further includes an outer sleeve wrapped around the inner receptacle with a lower end extending below the lower edge of the receptacle to form a deep bottom recess within a lower portion of the container. The lower end of the receptacle sidewall has a taper angle that is different from a taper angle of an upper portion of the sidewall. The lower end of the receptacle sidewall may engage or contact the inner surface of the outer sleeve. The outer sleeve may include reverse bend and/or a second bottom wall onto which a lower end of the receptacle may sit.

A conveyor of a cardboard-folding station receives a cardboard blank having a first portion, first and second lateral closing walls hinged thereto and facing upstream and downstream, respectively, an upper closing wall hinged to the second lateral closing wall and facing downstream, a third and a fourth lateral closing wall hinged and partly raised with respect to the first portion and projecting from sides of the conveyor. An article rests on the first portion, with four flanks or the article respectively facing the four lateral closing walls of the blank. At a first folding zone the third and fourth lateral closing walls are folded to cover the third and the fourth flanks of the article, and at a second folding zone the second lateral closing wall and the upper closing wall are folded to cover the article's second flank and its upper face.

A conveyor receives a cardboard box formed about an article, with a first lateral flank uncovered. An inlet receives the cardboard box with the first lateral closing wall coplanar with a base wall, a second lateral closing box wall folded to cover a second lateral article flank, a third lateral closing box wall folded to cover a third lateral article flank, a fourth lateral closing box wall folded to cover a fourth lateral article flank, and an upper closing box wall folded to cover an upper article face. An arrest stops the box, a first folding component rotates and folds the first lateral closing box wall to cover the first lateral article flank, and second folding component rotates a closing tab (AC), hinged to the upper closing wall to fold and bring a closing tab against the first lateral closing wall for closing the cardboard box.

A folding station includes an inlet and an outlet and is predisposed to receive at the inlet a cardboard blank having two transversal edges, two longitudinal edges, two longitudinal score lines, and four transverse score lines. The two longitudinal score lines define therebetween a central sector and also define two lateral sectors externally of the two longitudinal score lines. Cuts in the two lateral sectors define a series of flaps. The folding station further comprises a conveyor for transporting the cardboard blank in an advancement direction to a position, a first folding bar located by a flank of a first side of the conveyor at the position, and a second folding bar located by a flank of a second side of the conveyor at the position. The first folding bar and the second folding bar rotate to fold the flaps in the two lateral sectors onto respective portions of the central sector of the cardboard blank.

A method and an apparatus for realizing cartons for packing includes feeding a cardboard band (2) for packing along an advancement direction (A) which is parallel to the development direction of the cardboard band (2) and making a first score line (II) and a second score line (12) on the cardboard band (2), so as: to identify a central sector; a first lateral sector (4), and a second lateral sector (5). The method further includes identifying regions of band (8) on the carton (2), making on each region of band (8) at least a first cut (21), a second cut (22), a third cut (23) and a fourth cut (24) oriented transversally so that a first closing wing (49), a first reinforcing wing (51) a second reinforcing wing (52), a second closing wing (50), a third reinforcing wing (53) and a fourth reinforcing wing (54) are defined. The band of carton (2) is cut transversally so as to separate the regions of band (8) from one another, thus obtaining cartons (I) for packing.