A device is depicted and described for the single-sided closure of packaging sleeves for the production of composite packages, in particular carton/plastic-composite packages, by forming by means of a mandrel wheel with a plurality of mandrels arranged distributed uniformly over the circumference and directed radially outwards, which pass successively through several processing stations in the circumferential direction of the mandrel wheel, wherein each mandrel has a head on its free end, on which the folding sections to be closed of the packaging sleeve slid onto the mandrel are folded and sealed in the closed position, and wherein the head of the mandrel is designed to be variable in its outer dimensions. In order to reliably ensure a reliable and in particular a pocket-free sealing of the end area of the packaging sleeve on the mandrel, it is provided that at least two corner segments of the head are variable in their position, that the mandrel in its interior has at least one axially movable tappet for the adjustment of the head geometry and that the corner segments of the head are designed as pivot elements, which can be brought from a sealing position into a retracted position.

A box formed from a plastic corrugated material with soft score lines is provided. The soft score lines are formed to enable the top flaps of the box to lay substantially flat against the outer surface of the box when folded to an open position.

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.

Corrugated boxes, box blanks, and systems for individually shipping a bag of liquid stored therein and converting into a bag-in-box dispenser are provided. An example box comprises a top portion comprising a plurality of walls. The top portion defines a perforation feature defined on the front wall and a front top flap extending from the front wall. The perforation feature is defined by a series of perforations and is removable. A bottom portion comprises a plurality of walls and is sized to fit within an opening defined by the top portion. The bottom portion defines an opening configured to receive the bag of liquid. The box is configured to store a bag of liquid ranging from 3 to 6 gallons and is designed to pass individual box shipping test standards, such as ISTA and SIOC test standards. Methods of forming the box are also provided.

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 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 method for forming an overwrap container includes the steps of a) providing a base container having a first side seam on a side wall that extends along a longitudinal axis to define an internal volume, and a bottom secured to the side wall; b) providing the side wall of the base container with connecting elements on an outer periphery of the side wall; c) providing an overwrap having a second side seam over the side wall of the base container such that the overwrap is joined in spaced apart relationship by the connecting elements to the side wall of the base container; d) clamping the overwrap to the base container along the second side seam to form a first compressed area; e) clamping the overwrap to the base container in an area 180 removed from the second side seam to form a second compressed area: and f) reforming the second compressed area to define an overwrap container having a substantially uniform spacing and air gap between the base container and the overwrap except in the first compressed area.

An extensible bearing element of a tool for sealing a bottom or a lid of a cardboard package on a body of said package has a generally polygonal shape and a cross-sectional profile. The bearing element is formed by two parallel extension sections extending along an extension direction, each connected, at one of their ends, to a bearing section. The extension sections and the bearing section define an inflation cavity. The extension sections are configured to extend along the extension direction when the bearing element is inflated. The bearing section comprises a substantially flat, free bearing surface that contacts the package body. The bearing surface extends along a plane substantially normal to the extension direction. The bearing section further comprises, at the junctions with the extension sections, beveled release portions. An inflation device comprising such an extensible bearing element is also described.

The present paper cup comprises a cup body, and the cup body comprises inner paper and outer paper. There are hollow bulges on the outer paper, and the outer paper forms a connecting part. The inner side of the connecting part bonds to the outer side of the inner paper, and the cup rim of the outer paper extends to the cup rim of the inner paper. In addition, the outer side of the cup rim of the inner paper bonds to the inner side of the outer paper, and both cup rims of the outer paper and the inner paper bend outward to form a double layered crimping. The manufacturing process for the present paper cup includes: paper preparation, rolling, composition, sheet cutting, forming, molding and etc.

A method for forming an overwrap container includes the steps of a) providing a base container having a first side seam on a side wall that extends along a longitudinal axis to define an internal volume, and a bottom secured to the side wall; b) providing the side wall of the base container with connecting elements on an outer periphery of the side wall; c) providing an overwrap having a second side seam over the side wall of the base container such that the overwrap is joined in spaced apart relationship by the connecting elements to the side wall of the base container; d) clamping the overwrap to the base container along the second side seam to form a first compressed area; e) clamping the overwrap to the base container in an area 180 removed from the second side seam to form a second compressed area: and f) reforming the second compressed area to define an overwrap container having a substantially uniform spacing and air gap between the base container and the overwrap except in the first compressed area.