This application is a U.S. National Stage application of International Application No. PCT/EP02/01477, filed Feb. 13, 2002 and published in German, and which claims priority from German Application DE 101 06 549, filed Feb. 13, 2001.
The invention relates to a flip-top box, in particular for cigarettes, with a lid and box part, the rear wall of which is linked to the rear wall of the lid part. The box also has a collar with a collar front wall and collar side walls and with a cut-out section in the collar front wall, the collar being arranged on the inside of the box front wall and the box side walls and projecting partly out of the box part.
Such flip-top or hinge-lid boxes are the most common cigarette boxes alongside soft-pack packs. In the standard form, these hinge-lid boxes have a rectangular cross-section, i.e. the longitudinal edges are approximately right-angled. More recently however, there have also been increasing numbers of flip-top boxes with chamfered longitudinal edges (i.e. an 8-cornered cross-section) or rounded-off longitudinal edges. With all these flip-top boxes, the problem arises that, in particular after frequent opening and closing, the lid does not remain automatically in the closed position, but opens somewhat. This leads to an increased loss of aroma and moreover tobacco crumbs for example can fall into the pockets of the consumer in undesired manner.
To solve this problem, the hinge-lid packs customary in the trade have indents on the longitudinal edges of the collar.
This has the effect that when the collar is folded, the material enclosed by the indents projects laterally like ears. Thus upon closure of the lid, an additional frictional resistance is produced which ensures a better closure of the lid. The disadvantage here, however, is that with frequent opening and closing, in particular with boxes with rounded-off and chamfered longitudinal edges, the projecting collar parts are bent or folded and fit into the indent with the result that the additional friction is lost again.
EP 0 434 962 B1 provides a two-layer lid front wall to solve this problem. The inside of the lid front wall is provided with recesses which, upon closure of the lid, come into contact with rims remaining beside the cur-out section of the collar front wall such that part of these rims come to lie between the inside and the outside of the lid front wall. An increased friction between lid and collar and thus a better closure of the lid also results from this.
U.S. Pat. No. 5,478,011 also operates with indents or recesses on the inside of the lid front wall in order to achieve as secure as possible a closure of the lid. In addition, in this document, an embossed area on the inside of the lid front wall is also described so that a cavity results between outside and inside of the lid front wall. This facilitates the insertion of the collar rims between outside and inside of the lid front wall.
A disadvantage in the solution proposals of EP 0 434 962 B1 and U.S. Pat. No. 5,478,011 is that, in addition to an increased material outlay, a more complicated production process with additional process steps, combined with the provision of additional indents or recesses, is also necessary.
The object of the present invention is therefore to provide a flip-top box, in particular with chamfered or rounded-off longitudinal edges, with secure closure of the lid, which can be produced in the simplest possible manner.
This object is achieved by a box made of foldable material such as for example paper, cardboard, plastic, plastic film, plastic laminate,
In order to achieve the desired effect of an increased friction through the forward-projecting rims of the collar front wall, a small increase in the breadth of the cut-out section compared with customary cigarette boxes is already sufficient, for example an increase of 3% or more, in particular 4 to 15%, preferably 4 to 7%, particularly preferably 4 to 5 and approximately 4%.
With a box customary in the trade (with a maximum breadth of the collar part in the box of 5.6 cm) in which all longitudinal edges are rounded off, this means in practice a broadening of the cut-out section by approx. 1.5 mm. In other words the cut-out breadth at half height (mid-height calculated from the bottom edge of the cut-out section to the maximum height of the cut-out section, which in customary cigarette boxes is defined by the horizontally running top edges of the rims of the collar front wall or of the collar side walls) is approximately 3.25 cm. If this breadth is increased at mid-height by 1.5 mm or approximately 4.5% to 3.40 cm, the desired effect of a clearly increased friction already occurs. This effect is also already to be seen with a cut-out section broadening of only approx. 3%, but becomes all the more pronounced with an increase in the cut-out section breadth or with a reduction of the breadth of the laterally remaining rims, an upper limit of approx. 20% being set however by the overall breadth of the box.
The cut-out section broadening can also be given by the ratio of the mid-height breadth of the cut-out section to the maximum breadth of the collar part in the finished box. This is approximately 0.74 for flip-top boxes of the state of the art with rectangular longitudinal edges, and approximately 0.69 with chamfered or round longitudinal edges. For the boxes according to the invention with rectangular longitudinal edges, this ratio is to be greater than 0.76, preferably 0.78 to 0.81, and for the boxes according to the invention with chamfered or round longitudinal edges, greater than 0.71, preferably 0.72 to 0.73.
Preferably, one or more, in particular all the longitudinal edges or only the two front longitudinal edges on the side of the opening of the flip-top boxes according to the invention are rounded off or chamfered because the remaining rim areas beside the cut-out section of the collar front wall then project forward particularly markedly and therefore contribute particularly well to the secure closure of the lid. With the customary flip-top boxes with essentially rectangular edges, this effect is not so strongly pronounced with the result that for these a greater cut-out section broadening, in particular of 5 to 10%, is preferred.
In order to achieve rounded-off or chamfered edges, the pre-cut sheet from which the cigarette box is produced is provided either with grooves or scoring lines at the areas forming the edges of the cigarette box. According to U.S. Pat. No. 4,955,531, the grooves can be produced in a form in which the pre-cut sheet is indented by a grooving unit at the relevant points. On the opposite side there is a groove channel into which the material of the pre-cut sheet can be pressed. In the case of parallel-running grooves, a corrugated cross-section is produced according to the described process. An alternative to grooves are scoring lines. The thickness of the material forming the pack is hereby reduced using a scoring knife. For this purpose, the pre-cut sheet is placed on a flat support and worked with a scoring knife with the result that, in addition to a compression, material can also be removed. Depending on the shape of the scoring knife, for example a v- or u-shaped cross-section is formed. As the support does not have channels at points opposite the scoring knife, as in the production of grooves, but rather a flat surface, a reduction in thickness results and not, as in the case of the grooves, a deformation without a reduction in thickness. The extent of the reduction in thickness depends on the material used, but as a rule will be 10 to 80% of the overall thickness, preferably 20 to 70%, quite particularly preferably 40 to 50%. The scoring lines are preferably located on the side of the pre-cut sheet which forms the inside in the finished box. This has the advantage of a more attractive optical appearance of the finished box. The scoring lines and grooves preferably extend over the whole length of the box with the result that completely round or chamfered longitudinal edges are obtained.
When the thus-worked pre-cut sheer is folded up, the round (in the case of several grooves or scoring lines per fold area) or chamfered (in the case of two grooves or scoring lines per fold area) edges of the cigarette pack then automatically form along the grooves or scoring lines. The extent and the type of rounding can be fixed by the number of grooves or scoring lines and their distance from one another. 6 to 8, in particular 7, grooves or scoring lines per fold area which are located at a distance of approximately 1 mm from one another are preferred. Upon folding, a box with round edges results; the radius of the rounding then approximately corresponds to that of a cigarette customary in the trade. 2 grooves or scoring lines per fold area which are located at a distance of 6 to 8 mm, in particular approximately 7 mm, from each ocher are also preferred. Upon folding a box with chamfered (or bevelled) edges then results.
The boxes can be produced from the customary materials for cigarette boxes such as e.g. paper, cardboard, plastic, plastic film or plastic laminate or one of the named materials with an additional metal or metal-oxide coating.
Paper or cardboard are preferably used, shortgrain paper or shortgrain cardboard are particularly preferred as foldable material for the lid and the box part and also the collar. In the case of paper or cardboard production, the product-forming material is placed on a fast-moving belt. This has the effect that the long fibres in the material preferably orient themselves in longitudinal direction. Depending on whether the pre-cut sheet is later cut along or across the finished material web, the long fibres in the pre-cut sheet are arranged across the longitudinal axis of the pre-cut sheet (shortgrain) or longitudinal to the longitudinal axis of the pre-cut sheet (longgrain). The result of the orientation of the fibres across the longitudinal direction of the shortgrain pre-cut sheet is a good flexibility about the transverse axis, but a poor flexibility about the longitudinal axis. The elastic restoring forces for the lateral gluing are therefore stronger than with longgrain pre-cut sheets in which, due to the transposed position of the long fibres in the material, the conditions are exactly the opposite. On the other hand however, shortgrain precut sheets are preferably used for flip-top boxes, as they clearly favour the stability of the lid (no crooked closures, no easy tearing-off of the lid), the rigidity of the pack as a result of a higher stability in the transverse direction and the flat position of the pack, i.e. as small a curvature of the pack as possible, compared with the use of longgrain materials.
For the boxes according to the invention therefore, the use of shortgrain materials is preferred because on the one hand these produce the named positive properties for the lid and box part such as stability of the lid and rigidity and flat position of the pack, on the other hand the projection of the rims of the collar front wall is still further increased by the elastic restoring forces increased with shortgrain materials due to the orientation of the long fibres across the longitudinal axis of the collar.
The use of shortgrain materials for the production of flip-top boxes with chamfered or rounded-off longitudinal edges is somewhat problematic because on the one hand (as discussed above) the elastic restoring forces are increased, on the ocher hand the lateral surfaces for gluing are smaller than with normal boxes as a result of the chamfered or rounded-off edges. The residence times upon gluing must therefore be increased, which leads to a slowing-down of production.
In order to avoid this problem, it is preferred with the boxes according to the invention with rounded-off or chamfered longitudinal edges that the fold lines which lead to the chamfered or rounded-off edge are formed by scoring lines in the case of the lid and box part. Through the scoring lines, unlike grooves, the elastic restoring forces are surprisingly clearly reduced with the result that the production of the boxes according to the invention can also be carried out problem-free and swiftly with shortgrain materials without problems arising with the lateral closure of the boxes as a result of the smaller available gluing surface.
Unlike the box and lid part, it is however preferred with the boxes according to the invention with rounded-off or chamfered edges that the elastic restoring forces of the collar part are not reduced. It is therefore preferred that the fold lines of the collar which produce the chamfering or rounding-off between collar front wall or collar side walls are formed by grooves because the outer rims of the collar front wall then project more markedly forward and the friction with the inside of the lid in closed state is increased.
For the collar part, in addition to the shortgrain materials described, the longgrain materials usually used for collars can also be used however, preferably again in combination with grooves in order to reduce the elastic restoring forces as little as possible and to ensure as effective as possible a projection of the collar front wall rims.
To improve the closure of the lid still further, the inside of the lid front wall can be formed by a strengthening field with at least one, preferably two recess(es) which is/are shaped such that upon closure of the lid part it/they interacts/interact with the edge(s) of the collar rim(s) so that in the closed state of the box at least a part of the collar rim/rims comes/come to rest between the outside of the lid front wall and the strengthening field.
In order to ensure that the interaction between the recess and the collar rim runs problem-free, the recesses are essentially v-shaped, their edges curved (so that the collar edges can easily slide under the strengthening field), the deepest point of the recesses lies roughly at mid-height of the strengthening field and the recesses extend starting at the top edge of the strengthening field over approx. 50 to 90%, in particular 60 to 70%, of the height of this strengthening field (which in turn facilitates the insertion of the collar rims between strengthening field and lid front wall outside).
In order to further facilitate the insertion of the collar rims, one or preferably both top corners of the strengthening field are provided with an embossed area which preferably has the thickness of the foldable material and extends over the whole top corner to the edge of the recess and the top edge of the strengthening field.
The boxes according to the invention are produced in known manner from pre-cut sheets and separate collar parts, i.e. the pre-cut sheets and the collar parts are taken off widths of pre-cut sheet material which are stored on rolls and optionally printed, preferably as shortgrain pre-cut sheets. This is usually followed by a step in which the pre-cut sheets and the collar parts are worked by a scoring knife or a grooving unit in the described manner and at the same time punched and/or cut and optionally embossed. In this step, the broadened collar cut-out section is also retained, which is realizable in terms of process engineering simply by appropriate adaptation of the cutting or punching tool. Provided the pre-cut sheets used for the production of the boxes according to the invention have an embossed area up to the rim of the pre-cut sheet, for manufacturing reasons, the embossing must be carried out first and then the pre-cut sheet cut out or stamped out in a separate step. By customary folding and gluing of the pre-cut sheets at the side surfaces with simultaneous partial insertion and gluing of the collar to the box front wall and/or the box side walls, the finished cigarette box, which usually contains a cigarette group wrapped in an inner liner, is then obtained by machine.
The invention will be explained in more detail in the following using an embodiment. There are shown in:
The collar 10 also has the rim areas 16 which are limited by the edges 18 on one side and the fold areas with the grooves 15 on the other side. The collar 10 also has a cut-out section 20 which has a mid-height of approx. 34 mm here. In a box according to the invention which contains the collar shown here, the rims 16 would therefore project forward and thus essentially effect a secure closure of the lid.
To produce the cigarette box, the side-surface fields 41 can firstly be folded upwards by 90° and the side-surface field end tabs 58 located there folded inwards also by 90°. Then the bottom part of the pre-cut sheet 100 is folded upwards by 90° with the base surface 48 and the first main surface field 40, as a result of which the side-surface field end tabs 58 come into contact with the base field 48 and are glued. If the first main surface field 40 is folded in further (by 90°), the side-surface fields 43 and 41 come to lie on top of one another and can be glued, with the result that the box part is finished. The lid part is produced in similar manner, i.e. the side-surface field end tabs 59 are glued to the top side field 50. The strengthening field 30 is glued inwardly onto the fourth main surface field 46 and thereupon the side-surface fields 45 and 47 glued together. During this production process or subsequently, the collar 10 shown in
The strengthening field 30 with the two lateral recesses 32 is then located on the lid front wall inside of the finished box. Upon closure of the box, due to the curved rim pattern of the recesses 32, the edge 18 of the collar rims 16, facilitated by the embossed areas 36, is guided between strengthening field 30 and fourth main surface field 46 and held there by friction.
The embossed areas 36 can also be attached along the cutting lines 39 as shown in
Number | Date | Country | Kind |
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101 06 549 | Feb 2001 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/EP02/01477 | 2/13/2002 | WO | 00 | 2/17/2004 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO02/064450 | 8/22/2002 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
2523251 | Pantalone et al. | Sep 1950 | A |
4923059 | Evers et al. | May 1990 | A |
4955531 | Graboyes | Sep 1990 | A |
D322687 | Tschudin | Dec 1991 | S |
5143282 | Pham | Sep 1992 | A |
5341925 | Fleenor et al. | Aug 1994 | A |
5392905 | Focke et al. | Feb 1995 | A |
5435440 | Focke et al. | Jul 1995 | A |
5478011 | Pham | Dec 1995 | A |
D441496 | Focke et al. | May 2001 | S |
6457580 | Focke et al. | Oct 2002 | B1 |
20030153446 | Focke et al. | Aug 2003 | A1 |
20040144661 | Lutzig | Jul 2004 | A1 |
Number | Date | Country |
---|---|---|
41 03 612 | Aug 1992 | DE |
41 09 702 | Sep 1992 | DE |
0 434 962 | Jul 1991 | EP |
0 900 736 | Mar 1999 | EP |
2032887 | May 1980 | GB |
WO 0043289 | Jul 2000 | WO |
Number | Date | Country | |
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20040144661 A1 | Jul 2004 | US |