The present invention relates to a packaging insert for packaging of elongated objects, such as extruded profiles, as well as a process for producing said packaging insert. The invention also relates to an apparatus for producing the packaging insert. The packaging insert has a high stability and is adjusted to the size of the objects.[0001]
Manufacturers of extruded profiles have two major problems with the present packaging materials, e g a too low stability and the fact that the profiles are not separated in the package. This leads to deformation and damage to the surfaces of the profiles.[0002]
Extruded profiles are often manufactured in short series, which puts high demands on short turnaround times, also when packaging the profiles. Another demand is that the products should be packed so as to take up the smallest volume possible.[0003]
In FR-1521839 a packaging inlay for bottles is manufactured by folding a cardboard blank to receive compartments of conical shape. The height of compartments in one layer and the volume of individual compartments are constant.[0004]
U.S. Pat. No. 3,263,894 describes a shipping container made from corrugated paper board for the packaging fruit. The compartments may have different heights in different layers. This construction has only got the required stability due to one or several vertical dividers positioned across the folded partition panels.[0005]
None of the above document provides a rigid construction with parallel partition walls and individually relieved layers of packaging goods. It is also not disclosed how variable sizes of the compartments are to be achieved.[0006]
The present invention solves the above problem by the use of an insert where the compartments assume different heights and widths, both within a single layer and between the different layers. To achieve this a blank is folded to form a partition wall.[0007]
The wall is attached to a base plate, which is fed from a manufacturing unit for producing the said insert. When the packaging inlay is provided with the desired number of partition walls/have the desired length the base plate is cut and the insert is put in a fixture. When the insert has been charged with material in all compartments a second insert is placed on top of the previous one. The procedure is repeated until the preferred number of layers is obtained. Consequently, each profile is completely separated from the others and each layer in the insert carries its own weight.[0008]
The material used in the partition wall and in the base plate may be organic, e g polymeric, a laminate, or may be based on natural fibers, e g paper, cartoon, solid paper, board, or a similar material. The rigidity is achieved be attaching the partition walls onto a base plate that may consist of the same material as the partition walls or of another material. The partition walls may be attached by gluing, clenching, snapping or by any other method.[0009]
The invention is also concerned with an apparatus for manufacturing the said packaging insert, comprising a feed unit for the base plate ([0010]1) and a feed unit for the partition walls (2). The direction of transportation of the base plate material is parallel with the direction of transportation for the partition walls. The width of the feed unit should be continuously adjustable, whereby partition walls of different heights may be obtained.
When sufficient length of the material for a partition wall has been fed, and the material hits the prefixed holding-up tool, the material is cut in a cutting tool. Glue is applied to the back of the blank, which is then folded in half and flaps of the blank is folded in opposite directions, where after the flaps are glued onto the base plate.[0011]
Also the feed unit for the base plate is continuously adjustable, which provides for an insert with different distances between the partition walls.[0012]
When the packaging insert has the intended length the material is cut with a cutting tool between two partition walls.[0013]
The claimed apparatus is adapted to the manufacturing of packaging inserts having glued-on individual separators, but may also be used for sheets that has been folded to form a higher number of separators and that are later glued onto the base plate. The speed for feeding the material for the partition walls may be regulated to vary the height of the partition wall and cutting of the material takes place only when the folded sheet has assumed the desired length, corresponding to the full length of the base plate.[0014]