The invention relates to a container precursor comprising a wall, wherein the wall a) surrounds an interior region, and b) comprises a first wall region and a second wall region; wherein the first wall region comprises a first layer sequence comprising a first wall layer, a second wall layer and a third wall layer as overlying layers from the interior region outwards; wherein, in the first wall region, a second carrier layer is characterised by a smaller layer thickness than a first carrier layer, or a third carrier layer, or both; wherein the second wall region comprises a second layer sequence comprising first wall layer, a second wall layer and a third wall layer as overlying layers from the interior region outwards; wherein, in the second wall region, the second wall layer is connected to the third wall layer; wherein, in the second wall region, the third carrier layer is characterised by a larger layer thickness than the first carrier layer, or the third carrier layer, or both. Further, the invention relates to a process for manufacturing a container precursor, a container precursor obtainable through this process, a closed container, a process for manufacturing a closed container, a closed container obtainable through this process, a use of the aforementioned container precursor, and a further use of the aforementioned container precursor.

A sheet packaging material for producing a sealed package containing a food product, comprising crease lines that have sections that are angled towards each other such that at least two sides panels of the sealed package are given a trapezoidal shape.

A carrier for holding a plurality of containers includes a container receiving portion having a plurality of panels extending at least partially around an interior space of the carrier and a plurality of end flaps foldably connected to a respective panel of the plurality of panels. The carrier further includes a handle portion having a plurality of panels and a plurality of end flaps foldably connected to a respective panel of the plurality of panels of the handle portion. At least one end flap of the plurality of end flaps of the handle portion is positioned between at least one side panel and at least one end flap of the plurality of end flaps of the container receiving portion to attach the container receiving portion and the handle portion.

A flat-shaped composite material is represented and described for manufacturing a package, including: a polymer outer layer, a polymer inner layer, a fibrous support layer, which is arranged between the polymer outer layer and the polymer inner layer. The flat-shaped composite material has a plurality of fold lines, which are arranged and designed such that a closed package can be manufactured by folding the flat-shaped composite material along the fold lines and by connecting seam surfaces of the flat-shaped composite material and a sleeve surface. The sleeve surface includes a front surface, a first side surface, a second side surface, a first rear surface and a second rear surface, and base surfaces. The base surfaces include triangular base surfaces, quadrangular base surfaces, and gable surfaces. The gable surfaces include triangular gable surfaces and quadrangular gable surfaces. The base surfaces and the gable surfaces are arranged on opposite sides of the sleeve surface. In order to enable the manufacture of packages with even more complex geometries without impairing the rigidity of the package, it is proposed that the sleeve surface has at least one stress-relief surface, which is arranged between the front surface and one of the two side surfaces. A package sleeve made of a composite material and a package manufactured from the composite material or from the package sleeve are also represented and described.

A packaging material, including a laminate with a core material layer and having a plurality of delimited areas intended to form faces of a package is provided. At least one delimited area is provided with at least one pre-laminated hole and at least one compressed feature arranged adjacent to the pre-laminated hole. The at least one feature may include at least one line extending along at least a part of the perimeter of the pre-laminated hole.

Provided is a package sleeve made of a composite material for the manufacture of a package. The package sleeve includes a sleeve surface with an inner partial area and two outer partial areas, a longitudinal seam connecting two edges of the composite material to form a circumferential package sleeve, and two secondary fold lines running through the sleeve surface. The package sleeve is folded along two secondary fold lines. Apart from the two secondary fold lines, the package sleeve does not contain any further continuous fold lines in the region of the inner partial area of the sleeve surface. Also provided are a package and a method for manufacturing a package.

Provided is a sleeve blank which includes a first polymer layer; a support layer on the polymer layer; a barrier layer on the support layer; and adhesive layer on the barrier layer; and a second polymer layer following on the adhesive layer facing a second outer side. At least a part of the layers are deformed through at least one first and one second crease line, each possessing starting an end points. Each crease line runs along an imaginery line which corresponds to the respective crease line, and projects beyond its beginning and/or end through imaginary continuation thereof. The crease lines separate regions forming sleeve, gable and base surfaces. The sleeve blank includes at least one point of intersection of imaginery lines and is free of any point of intersection of the crease lines, at least in the forming sleeve surfaces, gable surfaces, and/or base surfaces.

A composite package, in particular a beverage carton package for liquid foodstuffs is depicted and described which consists at least partially of a package laminate, having a package base body including package edges, an at least partially angular package base and package gable wherein the package base body defines, in an idealised manner, a package front side, package rear side and at least two lateral package sides attaching to the package rear side as well as a package laminate and a package sleeve blank for manufacturing such a composite package. In order to improve grip and ergonomy for an easy to manufacture package, provision is made for the package front side to have a positive arching at least in sections which in each case passes into a lateral package side for a grip panel to be formed at least in sections in the region of the package rear side.

The invention relates to a method comprising, as method steps, A) providing a multitude of container precursors, in each case comprising: a) providing a sheetlike composite, wherein the sheetlike composite comprises a first longitudinal edge, a further longitudinal edge and, from the first longitudinal edge to the further longitudinal edge: i. a first longitudinal crease, ii. a second longitudinal crease, iii. a third longitudinal crease, and iv. a fourth longitudinal crease; b) producing a first longitudinal fold characterized by a first internal angle along the first longitudinal crease and a third longitudinal fold characterized by a third internal angle along the third longitudinal crease; c) producing a second longitudinal fold characterized by a second internal angle along the second longitudinal crease and a fourth longitudinal fold characterized by a fourth internal angle along the fourth longitudinal crease; d) contacting and joining the first longitudinal edge to the further longitudinal edge thereby obtaining a longitudinal seam; and e) reducing the first internal angle and the third internal angle each to not more than 15 and increasing the second internal angle and the fourth internal angle each to at least 165; and B) enveloping the multitude of container precursors with a packaging means. The invention further relates to a packaging means obtainable by the method, to an apparatus and to a use of the apparatus.

The invention relates to a container precursor comprising a sheetlike composite, wherein the sheetlike composite a) comprises a layer sequence comprising, as mutually superposed layers, from an inner face of the sheetlike composite to an outer face of the sheetlike composite, i) an inner polymer layer, ii) a barrier layer, and iii) a carrier layer; b) comprises a first longitudinal edge and a further longitudinal edge, wherein the first longitudinal edge is bonded to the further longitudinal edge forming a longitudinal seam of the container precursor; c) comprises, in the following sequence in the direction from the first longitudinal edge to the further longitudinal edge i) a first longitudinal groove, ii) a second longitudinal groove, iii) a third longitudinal groove, and iv) a fourth longitudinal groove, wherein the container precursor can be shaped to form a jacket structure by folding along the first longitudinal groove, the second longitudinal groove, the third longitudinal groove and the fourth longitudinal groove; wherein the container precursor is characterized by a shaping coefficient as per the test method described herein within a range from 8 to 30 m2/g. The invention further relates to a closed container, to a method, to an apparatus and to the use of the container precursor.