FI75780C - FOERPACKNING. - Google Patents

Description

Packaging Förpackning 7 5 7 8 0

The present invention relates to a package made of corrugated cardboard which is suitable for packaging a thinner, continuous image of a product wrapped in a flat coil with respect to its diameter. Such goods are often heavy in relation to their size, such as a thinner metal tube, electric cable, and the like. The goods are stored and transported in a roll, wrapped and packed in a lap-10, so that even in a reasonably high stack, the lower packages are subjected to a considerable weight load.

In this case, if the packaging gives up, the load is primarily on the packaged product. As a result, there is a risk of damage to the goods.

The package which is the subject of the invention has a structure provided in spite of the light material used, which effectively participates in carrying vertical loads while on the flap. These load-bearing parts of the package 20 are further distributed over a considerable part of the horizontal surfaces of the package, so that the packages do not have to overlap exactly in order to achieve a sufficient load-bearing effect. According to the main features of the invention, these bearing areas ai-25 are included in the corner areas of the substantially square package. These essential features of the invention appear from the appended claim 1.

According to a further feature of the invention, the carrier effect is provided over substantially the entire area left by the package, the product to be packaged, 30. The essential features of this additional feature are set out in the appended claim 4.

The invention will be explained with the aid of the accompanying drawing, if a blank is shown for obtaining the package in question by folding.

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The blank on which the package is based has a square-shaped bottom field 1, which forms the bottom of the finished package. On each side of this bottom field are vertical-wall fields 2,3,4,5, which are separated from the bottom field by folding extracts. The width of the vertical wall fields has been chosen to substantially correspond to the height of the coil to be packed.

10 Each of the vertical wall fields is further associated with the fields forming the lid of the package by folding novelties. In the implementation shown, these fields are of two different sizes, so that the opposing fields are similar to each other. The smaller protrusion fields 7,9 are intended to be turned on the roll to be packed first, so that they cover only a part of the product to be packed. A second pair of lid fields 6,8 are each selected to extend over the center of the package, so that they can be folded in-20 in the center of the package and fitted to lock each other and / or into smaller lid fields below to close the package.

The package described above can be considered as already known. It can be used for packaging products similar to the modified package according to the invention, but has the disadvantage of lacking vertical dimensional strength when placed on its flap. In this position, it bears vertical loads essentially only on its side walls and possibly on the edges of the uppermost lid fields with unidirectional vertical folds provided in the middle of the package. In this case, the lid can be pushed in, which means that the packaged product may be subjected to an excessive load. The problem can naturally be reduced by placing separate load-bearing elements in the package in connection with the package, but this causes its own packaging costs and makes packaging more difficult.

According to the invention, a substantial improvement in the problem has been achieved by shaping the blank of the package so that, by folding, while the package is assembled, suitable supports are obtained for the areas left in the package against vertical loads. Above all, the corner areas of the package are favorable locations for additional supports.

According to the main feature of the invention, the lid fields 7.9 which can be folded under the cover are extended by specially shaped corner support strips A. These strips 15 protrude as the width of the protrusion 7.9 of the lid fields parallel to the adjacent cover lid fields 6,8. The corner support strips are shaped by folding innovations as well as edge cuts so that they can be folded into a triangular support in the initial stage of stacking the package in the area of each corner of the package. The essential parts 20 in the corner support strips for achieving this goal are three successive support fields 16,17,18, and the triangular bonding fields 19,20 connecting them. The width of the support fields has been chosen to correspond substantially to the packing height, i.e. the height of the side walls, however, taking into account the material thickness that accompanies the folding of the supports as a field narrowing factor.

the outermost third support field 18 is preferably further associated with a cantilever field 21 to provide additional support, but this field is not essential in providing the above effect, but is more essential in the outer field 21 as a form of corner points extending to the extremity of the packaging blank, which improves preform stacking and during its manufacture and various treatments.

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Wave direction is appropriate to choose the blank parallel to the direction of arrow C 5. In this case, in the vertical walls 2 and 4, the wave direction will be vertical and, most importantly, also in the support fields 16 and 18 and in the support fields 23, 24 and 25 to be described later, the package being assembled. In addition, the wave direction of the support field 17 is at an angle of 45 ° to the vertical. The planar load resistance of corrugated board is substantially better in the corrugated direction than in the transverse direction of the corrugations.

In the initial stage of assembling the package shown in the figure, the support field 17 is first rotated 90 ° inwards around the refractive index 12, after which the binding field 20 is further rotated 90 ° around the refractive index 13, the binding field 20 and its extensions being horizontal on the binding field 19. The support field 17 is vertical. As the assembly 20 is extended, the binding field 19 is turned inwards 90 ° around the refraction 11. Further, by folding the support field 16 around the refraction 10 90 by 90 °, the surface below the binding field 20 in the figure is obtained against the upper surface of the cover field 7 and the lower surface of the support field 18 25 in the figure against the upper surface of the vertical wall field 3 in the figure.

The package is then folded forward in the conventional manner by bending the lid fields 7.9 and the vertical wall fields inwards 90 ° around their folds, etc.

According to a further feature of the invention, a support against the indentation of the package 5 75780 is also provided in the central region of the package, which in the assembled package is placed in the empty space left by the inner part of the packed coil. This support is provided by a support strip structure B made on the outer edge of the cover deck fields 6f8, which consists of three 5 fields 23,24,25. The protrusion, or width, of these fields corresponds to the internal height of the packaging space. The length of the mutually contiguous fields 24,25 is adapted to the length of the central field 23, taking into account the inner diameter of the coil to be packed, so that the strips formed of the fields 24,25 can fit in a suitable support position inside the coil. The strips 24,25 are cut off from the respective cover covers 6,8 and join the middle field 23 with fold folds 26,27. In order to facilitate the use of the support strip structure B, it is preferred that the cover lids 6,8 are provided with cuts 30 for finger openings.

The support strip structure is used in the final stage of assembling the package, in which case the cover lid fields 6,8 are last turned over on the roll to be packed. In this case, the strips 24.25 are first turned against the middle field 23 in the figure upwards-20 around their refractions 26,27. The strips can be held in this position through the finger notch 30 by threading the finger through the opening in the image from below. When the strips 24,25 pressed against the central field 23 are then turned together with the field 23 around the refractive index 22 by 90 ° in Fig. 25 and the cover lid fields 6,8 are rotated around their own fold indentation 32,33 with the edges facing each other, the strips 24,25 and the central field point straight down in the very last stage of piling. In this position, they are pressed from the space left between the lower cover fields 7.9 on the coil into the empty space of the central part of the coil. For the final sealing of the package, the lid fields are 6.8, resp. 7.9 arranged to be interlocked at this stage of assembly.

According to a special feature of the invention, in order to provide a lock 35, 7.9

Claims (6)

6 75780 a central V-notch 31 made aside, of which a folding indentation 26, resp. 27, the points of the strips B bent twice around can be printed below the lower cover parts 7.9. When the strips B are pressed below the lower lid fields 7.9, the strips 25,26 open due to the tendency of their material to straighten, whereby the ends of the strips rest against the inner surfaces of the coil. In this case, the strips 6.8 of each lid form a substantially rectangular tu-10 structure in the middle of the package, inside the coil. A package made of corrugated cardboard for packaging a continuous article, such as a pipe, cable, etc. wound in a flat coil with respect to its diameter, for storage and transport with a flap, the package consisting of a one-piece, foldable blank with a substantially square bottom field (1) vertical fold fields (2,3,4,5) associated with the edge of the folds, the width of which corresponds substantially to the height of the roll to be packed, lower deck element fields (7,9) connected by folds to two opposite vertical wall fields (3,5) and adjacent, opposite vertical wall fields (2,4) associated lid fields (6,8), which lid lids (6,7,8,9) are arranged to be interlocked when the package is assembled, characterized in that, as an extension of the lid element fields (7,9) below the package, 6,8), the corner support strips 30 (A) are connected by folding recesses (10) to project in the direction of the lower cover element fields (7,9) substantially in their width, and of which at least the following fields have been separated from the corner support strips by folding (11,12,13,14), extending parallel to the projection of the lower cover element field (7, 9) a first support field (16) substantially corresponding to the height of the packing space, a second support field (17) extending at an angle of 45 ° from its protruding end and a third support field extending from its inner end parallel to the first support field (16), and a third support space substantially corresponding to the height of the packing space (18), leaving bonding fields in the shape of an isosceles triangle between the support fields (19,20). I5 A package according to claim 1, characterized in that a substantially triangular third binding field (21) is connected to the third support field (18) by a folding recess (15), which extends the corner support strip (A) to extend substantially flush with the cover lid field 20 (6, 8). A package according to claim 1 or 2, characterized in that the wave direction of the blank is selected to travel in the direction of the cover deck field (6), the vertical wall field (2), the bottom field (1), the vertical wall field (4), the cover deck field (8). Packaging according to one of the preceding claims 1 to 3, characterized in that a central support strip (B) with a width corresponding to the height of the packaging space is connected to the outer edges of the cover lid fields (6, 8) and consists of a central strip 30 associated with the cover lid (6, 8). (23), as well as the folded strips (24,25) separated by cuts (28,29) from the cover lid field (6,8) associated with this fold extract background 11a (26,27), 8 75780, the cover lid fields (6,8) preferably being folded ( 22) contiguous cuts to provide finger openings (30). A package according to claim 4, characterized in that an outwardly opening V-shaped notch is made in the center of the outer edge of the lower lid fields to lock the central strip (23) of the central support strips (B) on the outer edge of the lid lids (6, 8). 10 Patent Scrap