A packaging container may include a top part with a pouring spout for pouring the contents of the container. The packaging container may further include a tubular body part with an upper end and a lower end, the upper end being joined together with the top part along a circumferential edge of the upper end of the body part. The body part may further include a first group of crease lines extending from a lower end of the body part towards its upper end. The top part may include a recessed portion, the recessed portion and the first group visually forming one surface. A surface near the interface area between the first group of crease lines and the recessed portion of the top part may provide gripping support for one or more fingers of a hand when the packaging container is held by the hand and the remaining fingers while pouring the contents from the packaging container.

Provided is a package made of a composite material is represented and described, including a package base with two front base corners and with two rear base corners, a package gable with two front gable corners and with two rear gable corners, and a package base body with a front panel, a first side panel, a second side panel and a rear panel. The package base and the package gable are arranged on opposite sides of the package base body. The composite material has a polymer inner layer, a polymer outer layer and a fibrous support layer, which is arranged between the polymer outer layer and the polymer inner layer. In order to enable the manufacture of packages with even more complex geometries without impairing the rigidity of the package, it is proposed to provide a third sleeve fold line, which has a plurality of sections, which each adjoin a side panel and the rear panel, and of which at least one section is curved.

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 package for pourable food products and method for moulding a polymeric opening portion to a packaging sheet material is provided. The package can include an opening portion and a weakening feature. In some embodiments, the opening portion can be made of a polymer composition. In some embodiments, the weakening feature has a thickness below 200 micrometers and is thinner than parts of the opening portion directly adjacent to said weakening feature. The polymer composition can include sodium sulphite particles. In some embodiments, the sodium sulphite particles have the following size characteristics: (i) 0% having a size above 75 micrometers, and (ii) an average size below 25 micrometers.

A carton blank for forming a carton, and comprising a row of first, second, third and fourth substantially four-edged panels, each panel having substantially the same width and comprising a side wall part, a top closure obturating part and a top sealing fin part, one of said panels from an outermost boundary of the side wall part to an outermost boundary of the top closure obturating part being substantially free from any lateral line of weakness, the obturating part of said one of said panels including a loop of weakness.

The invention relates to a forming device (42) for feeding along a forming path (B) a pack (3) which has at least one portion (6) to be folded into a finished package (2). The forming device (42) comprises a first surface (46a) and a second surface (46b) opposite to each other and adapted, in use, to cooperate respectively with a front wall (15) and a rear wall (10) opposite to each other of the pack (3) to be folded. The first surface (46a) comprises an at least partially concave forming section (8) adapted, in use, to cooperate with a top portion of the front wall (15) of the pack (3), such that an inward deformation of the top portion of the front wall (15) is prevented during forming of the pack (3). The invention also relates to a folding unit (1) for forming sealed packages (2) of pourable food products, to a method for forming a pack (3) which has at least one portion (6) to be folded into a finished package, and to a package (2).

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.

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.

A laminated package for solid products in powder or grain form, includes a set of stiffening notches, a dispensing mouth with a seal, valves for loading inert gas, in which the lateral folds of the upper face are folded inwards under the front and rear flaps, and the lateral folds of the lower face are folded outward and folded and stuck on the lower face over the front and rear flaps, and a method for forming the package.

Pouring closure for liquid containers with pour spout sealingly fixed to a container neck, the cross section of which is closed by a membrane before use. A portion of the membrane extends transversely, approximately pear-shaped, and connected to the remaining portion via an easily tearable line of weakness and can be detached from the membrane. After detachment, an opening in the membrane is released that is correspondingly pear-shape, and liquid poured selectively out of a relatively narrower section or wider section. The pouring closure is produced by tearing out a membrane section and facilitates dosed pouring. Webs on the inner surface at a close distance parallel to the line of weakness and outside the tear-out section run on both sides of the narrow section of the tear-out portion or of the opening and along at least a portion of a transition region between the narrower and the wider sections.