A carton assembly machine for cartons (17) for packing articles (15, 15′), comprising means for feeding an unassembled carton in a feed direction, the said carton having a plurality of side flaps or panels (18, 19) whose folds are essentially parallel to the said feed direction folded onto a central portion (25) of the carton, the said machine further comprising a movable element (26) designed to move between a first position away from the route of the carton and a second position in which the said element is designed to be Inserted underneath, at an edge (27) of at least one of said side flaps or panels (19), so that the latter is raised with respect to the said central portion, in particular, in cooperation with the carton feeding.

A carton assembly machine for cartons (17) for packing articles (15, 15′), comprising means for feeding an unassembled carton in a feed direction, the said carton having a plurality of side flaps or panels (18, 19) whose folds are essentially parallel to the said feed direction folded onto a central portion (25) of the carton, the said machine further comprising a movable element (26) designed to move between a first position away from the route of the carton and a second position in which the said element is designed to be Inserted underneath, at an edge (27) of at least one of said side flaps or panels (19), so that the latter is raised with respect to the said central portion, in particular, in cooperation with the carton feeding.

A tool insert for a machine, in particular a cutting, punching and/or folding machine, is disclosed. The tool insert (24) has an identification element (38) comprising tool information about the type of the tool insert (24) and/or about the area of application of the tool insert (24). The identification element (38) is machine-readable such that the tool information is transmitted to the machine when the machine reads out the identification element. Further, a machine, a machine system and a method for operating a machine are disclosed.

A rectangular blank has sides X and 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 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 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 rectangular blank has sides X and 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 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 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.

The invention relates to a container (1) comprising a main part and a lid (8)which is rotationally moveable around a folding line (21) in a rear panel (5) of the container (1). Parallel and spaced apart transverse cuts (31) are provided at or near a central part of the folding line (21), the transverse cuts (31) extending substantially symmetrically across and perpendicular to the folding line. An end cut (32) may be arranged near but at a distance from each end of the folding line (21), the end cuts (32) going through the thickness of the rear panel (5), and the folding line (21) being perforated between the end cuts (32) and the end of the folding line (21) adjacent to the side panels (4). The end cuts (32) may be in the form of two linear and coherent sub-cuts arranged non-perpendicular to the folding line (21).

The invention relates to a container (1) comprising a main part and a lid (8)which is rotationally moveable around a folding line (21) in a rear panel (5) of the container (1). Parallel and spaced apart transverse cuts (31) are provided at or near a central part of the folding line (21), the transverse cuts (31) extending substantially symmetrically across and perpendicular to the folding line. An end cut (32) may be arranged near but at a distance from each end of the folding line (21), the end cuts (32) going through the thickness of the rear panel (5), and the folding line (21) being perforated between the end cuts (32) and the end of the folding line (21) adjacent to the side panels (4). The end cuts (32) may be in the form of two linear and coherent sub-cuts arranged non-perpendicular to the folding line (21).

A system and method are disclosed for forming a container from a generally flat re-configurable blank. A first portion of an outward facing surface of a blank support device is positioned proximate a first portion of a blank while the blank is in a first orientation. While the first portion of the blank is maintained in the first orientation, a second portion of said blank is rotated from the first orientation, around a second portion of the outward facing surface of the blank support device to form a blank that has a generally tubular configuration. The system and method may provide that during the rotating of said second portion of said blank, the blank is engaged on a surface side which forms an inner surface of the generally tubular configuration. Also disclosed is a system and method that includes retaining a reconfigurable blank in a holding apparatus; applying adhesive to a surface of the blank while said blank is retained in the holding apparatus.

A system and method are disclosed for forming a container from a generally flat re-configurable blank. A first portion of an outward facing surface of a blank support device is positioned proximate a first portion of a blank while the blank is in a first orientation. While the first portion of the blank is maintained in the first orientation, a second portion of said blank is rotated from the first orientation, around a second portion of the outward facing surface of the blank support device to form a blank that has a generally tubular configuration. The system and method may provide that during the rotating of said second portion of said blank, the blank is engaged on a surface side which forms an inner surface of the generally tubular configuration. Also disclosed is a system and method that includes retaining a reconfigurable blank in a holding apparatus; applying adhesive to a surface of the blank while said blank is retained in the holding apparatus.

A forming unit for a container from a blank of the container. The unit includes a conveyor and at least one equipment secured to the conveyor. The equipment includes a forming device moving with continuous movement and forming a container from the blank during a predetermined forming path on the conveyor.