METHOD AND DEVICE FOR PRODUCING A PACKAGED UNIT

Abstract

A packaged unit includes a cluster of products and a shrink film that secures the products to each other. The shrink film is wrapped around the cluster, thereby forming a lateral opening that would otherwise result in a shrink eye. A closure formed by placing a portion of the shrink film against the cluster at in the region of the lateral opening forms a closed surface with overlapping fold regions of the shrink film, thus avoiding the shrink eye.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is the National Stage of International Application No. PCT/EP2009/007254, filed on Oct. 8, 2009, which claims the benefit of the priority date of German Patent Application No. 102008052633.9, filed on Oct. 22, 2008. The contents of both applications are hereby incorporated by reference in their entirety.

FIELD OF DISCLOSURE

The invention relates to shrink-wrapping a product cluster, and in particular, to eliminating the shrink eye in such shrink wrapping.

BACKGROUND

A method and an associated device for forming shrink packaging are known from DE 10 2006 036 590 A1. In this case, to form a group, the shrink film is wrapped around a group unit such that each group is surrounded at the top and at the bottom. On two oppositely situated sides the shrink film does not abut against the group, but rather protrudes from the group and consequently forms openings through which hot air passes into the group during the subsequent shrinking process. The size of the shrink film is reduced through the effect of hot air and/or heat on the shrink film.

Reducing the size of the shrink film causes it to abut tightly against the product group, thus causing to to be secured. However, shrink eyes emain as openings on the lateral faces. Because of these shrink eyes, the shrink wrap fails to completely protect the individual products of the finished package against unauthorized access.

The shrink eyes also have a negative effect of the stability of the packaging. To improve stability of a shrink-wrapped packaged unit, many packers insert stabilizers prior to shrink-wrapping. Examples of such stabilizers include cardboard bottoms, pads, or trays onto which the products are deposited and form the product cluster. Once the packaged unit assembled in this manner has been wrapped around with the shrink film, the necessary stability is achieved.

However, the depositing of the products onto a stabilizer requires an additional processing step. Additionally, the stabilizer must be supplied, which increases packaging costs that are ultimately passed on to a consumer. Finally, the stabilizer must be disposed of.

SUMMARY

The technical problem underlying the invention is to develop a method and a device for preparing a package for shrink-wrapping in a way that reduces or eliminates the shrink eye.

This invention solves the above problem by placing the shrink film against the product cluster at least in a region of lateral faces thereof, where prior art methods would create a shrink eye, to form a closure surface in the form of a closure with, where applicable, overlapping fold regions.

According to the invention, the shrink packaging or the cut of the shrink film is dimensioned such that it forms lateral protrusions beyond the product cluster. The protrusions are placed against the product clusters in the region of associated lateral faces. This means that the lateral protrusions are capable of generating a closed surface of the shrink film at the lateral faces of the product cluster such that the lateral faces that were formerly left at least partially open are closed. The method thus avoids shrink eye.

The lateral protrusions of the shrink film are placed against the surface of the product cluster at least on the region where a shrink eye would have been formed by earlier methods. The laterial protrusions disposed thereon form a closed surface. The shrink film can also be placed against other surfaces of the product cluster.

In some practices, placing the shrink film against the product cluster is carried out in a contactless manner, without using additional manipulation units. One way to do this is to electrostatically charge the shrink film. Such electrostatic charging is not difficult because the shrink film is advantageously a plastic shrink film, such as polyethylene. These types of plastic material films can easily be charged electrostatically, as described, in an exemplary and non-restricting manner, in DE 10 2005 024 380 A1 or also DE 101 44 287 A1, the contents of which are herein expressly incorporated by reference.

An electrostatically charged shrink film can easily be applied in a contactless manner, without the use of additional manipulation units, to the lateral faces of the product cluster in the region where the shrink eyes would have been had known methods been used. This secures the shrink film to this region.

As an alternative to the described contactless securing of the lateral protrusions to the lateral faces in the region of the opening, it is also possible to carry out the placement using one or more manipulation units that actually contact the film. Examples of manipulation units include guiding means, guide rods, run-up elements, and brushes. Using these manipulation units, the lateral protrusions of the shrink film can be placed against the product cluster with applicable overlapping fold regions.

The appearance of the shrink packaging can be improved in some applications when measures are taken to reliably prevent the finished and positioned shrink films from pushing or sliding together or pushing or sliding in relation to the product cluster.

It is also possible to select the electrostatic charging such that the obtainable adhesive strength between the overlapping shrink film or between the shrink film and the associated product cluster or the respective surrounding area reliably prevents undesired displacement of the shrink film.

In another embodiment or practice of the invention, the shrink film is secured by bonding together the overlapping regions and/or the overlapping fold regions of the shrink film. In some embodiments or practices of the invention, this is carried out by providing an adhesive coating on the shrink film. The adhesive coating is preferably applied in the region of the lateral protrusions from prior to wrapping or is applied once the product cluster has been wrapped. Another way to bond the shrink film by application of adhesive is to apply the adhesive onto the shrink film by injecting or spraying the adhesive.

In other embodiments or practices of the invention, the fold regions can be fused by the shrinking operation itself.

In some embodiments and practices of the invention, the shrink film is secured against the product cluster at least in the region of the lateral faces of the product cluster. This means that the lateral protrusions in the region of the lateral faces are not only actively placed against the product cluster but are additionally secured to the product cluster. Different types of securement can be used for this purpose.

In either case, whether adhesive or fusing is used, moving the lateral protrusions towards the lateral faces to be closed forms the overlapping fold regions. The adhesive present or introduced in the overlapping region or the action of fusing ensures that the individual folds can no longer be separated from each other.

A subsequent shrinking operation, for example in a shrink tunnel that uses hot air or heat radiation, contracts the shrink wrap, thereby eliminating any creases or waves in the shrink film. As a result, the shrink wrap fixedly surrounds the product cluster to form a group. The shrink eyes that were common on lateral faces of the product cluster are therefore no longer created. This means that the product cluster is totally encased and completely closed by the film. This means that the stability of a packaged unit is comparable to that obtained in the prior art with the combination of shrink eyes and stabilizers. The method and apparatus described herein thus eliminates the shrink eyes and the need for additional stabilizers or packaging reinforcement measures.

The method and apparatus of the invention thus eliminates or greatly reduces the need for reinforcing cardboard bottoms, introduced cardboard strips, and other stabilizers. Where these stabilizers are not rendered totally unnecessary, the required dimensions of these stabilizers are reduced, thus resulting in a cost saving.

The packaged unit produced according to the inventive method and using the inventive apparatus comprises the product cluster and the surrounding shrink film encasing it without any additional reinforcement. The stability of this packaged unit makes it easy to store or to transport. Any manipulation of the products when the products are displayed, for example, in a shop is almost completely prevented.

In some embodiments, the shrink film is wrapped around the product cluster with overlapping edges and is subsequently shrunk on. In many of these embodiments, the overlapping regions are the longitudinal edges because the shrink film is wrapped around the product cluster in its longitudinal direction. As a result, prior art methods would have left shrink eyes in the transverse direction of the product cluster. These shrink eyes are not present according to the invention.

One way to avoid shrink eyes is to have a pair of narrow side folds and a pair of broad side folds, both of which result from the lateral protrusions of the shrink film beyond the lateral faces. The narrow side folds are produced by placing the lateral protrusions of the shrink film wrapped around the product cluster on the narrow sides of the product cluster against those narrow sides. The broad side folds are produced by having the lateral protrusions on the wide sides of the product cluster be subjected to a similar placing operation. In some embodiments, suitable manipulation units place the associated narrow side protrusions and wide side protrusions against the associated side faces of the product cluster. Suitable manipulation units include guiding means, guide rods, run-on elements, and brushes.

When the manipulating unit is a brush, it is useful to provide a rotating brush and/or to mount the brush on a pivot arm that moves the brush.

As a rule, the broad side protrusions and the narrow side protrusions or the associated wide side folds are secured together to the narrow side folds. Associated and overlapping fold regions can be bonded together. However, the bonding step can be rendered unnecessary by instead using the shrinking operation to fuse the regions together.

In order to obtain this in detail, the narrow side folds are made before making the broad side folds. For this purpose, associated manipulation units or brushes initially place the narrow side protrusions against the corresponding lateral faces. The is followed by similar placement of the wide side protrusions or associated wide side folds.

It is preferable for the product cluster to be initially wrapped loosely by the shrink film, with the shrink film overlapping advantageously at its edges. Preferably, the shrink film overlaps at a longitudinal edge. In this way, during the subsequent shrinking operation, the shrink film avoids exposing any region of the product cluster. This results in a product that is encased over its entire surface.

In one aspect, the invention features an apparatus for producing a packaged unit. Such an apparatus includes a separating device, a shrinking device, and a manipulation unit. The separating device separates out individual products from a product stream and combines them to form a product cluster. The shrinking device secures the product cluster on all sides by applying a shrink film, wherein the shrink film is wrapped around the product cluster thereby forming at least one lateral opening before being shrunk on. The manipulation unit places the shrink film against the product cluster at least in the region of the lateral opening thereby forming a closed surface in the form of a closure with, where applicable, overlapping fold regions.

In some embodiments, the manipulation unit comprises a bonding device for placing the film in position in a contactless manner.

In other embodiments, the manipulation unit comprises at least one brush adapted to place laterally protruding ends of the shrink film against the product cluster in the region of the lateral opening with, where applicable, overlapping fold regions. Among these are embodiments that include three additional brushes, thereby providing a total of four brushes, each of which is assigned to operate on a corresponding lateral face of the product cluster.

In embodiments that have a brush, there can be a pivoting arm for rotating and moving the brush.

In yet other embodiments, the manipulation unit comprises an electrostatic charging unit for placing the shrink film in position in a contactless manner.

In another aspect the invention features an apparatus for receiving individual products that have been combined into a product cluster that has been loosely wrapped by shrink film in a way that forms at least one lateral opening. Such an apparatus includes a manipulation unit structured and configured for producing a packaged unit from the product cluster. The manipulation unit is configured to place the shrink film against the product cluster at least in a region of the lateral opening. Placement of the shrink film against the product cluster forms a closed surface thereon. After placement, the shrink film is shrunken on.

In some embodiments, the manipulation unit is structured and configured for bonding the film into position in a contactless manner.

In other embodiments, the apparatus also includes a brush adapted to place laterally protruding ends of the shrink film against the product cluster in the region of the lateral opening. Among these are embodiments in which the manipulation unit includes four brushes, each of which is assigned to operate on a corresponding lateral face of the product cluster.

In yet other embodiments, the manipulation unit includes a brush and a pivot arm. The brush is adapted to place laterally protruding ends of the shrink film against the product cluster in the region of the lateral opening. The pivot arm is configured for moving the brush. Among these embodiments are those in which the pivot arm is configured for moving the brush by rotating the brush about an axis defined by the pivot arm.

In yet other embodiments, the manipulation unit includes N brushes and N pivot arms and n is an integer between 1 and N inclusive. The n^th pivot arm is configured to operate on an n^th lateral face of the product cluster and also to move the n^th brush. In a preferred embodiment, N=4.

In yet other embodiments, the manipulation unit includes N brushes and N pivot arms and n is an integer between 1 and N inclusive. The n^th pivot arm is configured to operate on an n^th lateral face of the product cluster and also to rotate the n^th brush. In a preferred embodiment, N=4.

In additional embodiments, the manipulation unit is configured for electrostatic charging of the shrink film, thereby enabling placement of the shrink film in position in a contactless manner.

Also included are embodiments in which the manipulation unit includes a brush adapted to place laterally protruding ends of the shrink film against the product cluster in a region of the lateral opening with overlapping fold regions.

In yet another aspect, the invention features an apparatus for preparing a product cluster for shrink-wrapping. Such an apparatus includes a manipulation unit structured and configured for producing a packaged unit from the product cluster. The manipulation unit includes means for closing a lateral opening of shrink film on a product cluster that has been loosely wrapped with shrink film in such a way as to leave the lateral opening in the shrink film.

Among the embodiments are those in which the manipulation unit includes means for placing laterally protruding ends of the shrink film against the product cluster in the region of the lateral opening, and those in which the manipulation unit includes means for placing laterally multiple sets of protruding ends of the shrink film against corresponding multiple regions of the product clusters, wherein the multiple regions correspond to multiple lateral openings.

Yet other embodiments include those in which the manipulation unit includes means for placing laterally protruding ends of the shrink film against the product cluster in the region of the lateral opening, and means for moving the means for placing the laterally protruding ends. Among these are embodiments in which the means for placing the laterally protruding ends includes means for rotating the means for placing the laterally protruding ends.

BRIEF DESCRIPTION OF THE FIGURES

These and other features of the invention will be apparent from the following detailed description and the accompanying claims, in which:

FIG. 1 shows a packaged unit,

FIG. 2 shows an apparatus for preparing the package unit of FIG. 1 for shrink wrapping, and

FIG. 3 shows a finished packaged.

DETAILED DESCRIPTION

FIG. 1 shows a packaged unit that comprises a shrink film 1 and a product cluster 2 that is encased by the shrink film 1. The product cluster 2 is formed from individual products 3 that are best seen in FIG. 3.

In the exemplary embodiment, the products 3 are cans. These cans can be beverage cans. Alternatively, the cans are rotationally symmetric and cylindrical containers. The containers can accommodate beverages, as well as foodstuffs. The products 3 are combined to form a packaged unit in the manner described below.

The products 3 are initially separated from a product stream by a separating device, which is conventional and therefore need not be shown. The products 3 are then combined to form the product cluster 2. During this process, they are aligned and compacted to the extent where they abut against each other. A shrink film 1 then secures the products 3 or the product cluster 2 so that packaged units that have been produced in this manner can be better stored and/or conveyed.

Initially, the shrink film 1 is loosely wrapped around the product cluster 2, as is shown in FIG. 1. Loosely wrapping the shrink film can be carried out by a winding machine, which is conventional and therefore need not be shown. In the case of this operation, the shrink film 1 is wrapped around the product cluster 2 such that respective edges 1a, 1b overlap, as can be seen in FIG. 1. In the exemplary embodiment the edges 1a, 1b are longitudinal edges 1a, 1b of the shrink film 1. However this configuration is only an example and is not limiting.

In the illustrated embodiment, the shrink film 1 is wrapped around the product cluster 2 in the longitudinal direction L such that the lateral faces 2a face the direction L. However, this is not mandatory.

A packaged unit formed in this manner has lateral protrusions 4a, 4b that protrude beyond an associated lateral face 2a of the product cluster. In this case, the lateral protrusions 4a, 4b of the shrink film 1 are dimensioned such that the shrink film 1 closes the lateral face 2a when the lateral protrusions 4a, 4b are placed against the lateral face 2a or the product cluster 2.

The shrink film 1 is initially wrapped in a hose-shaped manner around the product cluster 2, as shown in FIG. 1. When wrapped, the shrink film 1 forms an opening 5 that exposes the two lateral faces 2a. The opening 5 has only one closure 6, which is seen in FIG. 2.

The closure 6 is defined such that the shrink film 1 or its lateral protrusions 4a, 4b can be placed against the product cluster 2 in the region of the opening 5 thereby forming a closed surface. For this purpose, along with the aformentioned separating device and a conventional shrinking device placed at the end of the production path for the final mutual securing of the products 3 by way of the shrink film 1, an apparatus for producing a packaged unit has a plurality of manipulation elements 7, which are shown in FIG. 2, for producing the packaged unit shown in FIG. 3.

Each manipulation unit 7 has at least one brush 7a that is supported by a pivot arm 7b. In some embodiments, the brush 7a rotates about an axis defined by the pivot arm 7b. However, there are embodiments where this is not the case.

Using the brush 7a or the manipulation units 7, the lateral protrusions 4a, 4b of the shrink film 1 are placed against the product cluster 2 in the region of the opening 5. At the same time, overlapping fold regions 8a, 8b, as shown in FIG. 2, are formed. In one embodiment, there are four brushes 7a. This configuration is useful for block-shaped product clusters since there will then be one brush 7a per lateral face of the product cluster 2.

The lateral protrusions 4a, 4b include narrow side protrusions 4a and broad side protrusions 4b. The broad side protrusions 4b are placed against the lateral faces 2a by associated manipulation units 7 on the corresponding broad sides of the block-shaped product cluster 2. The fold regions 8b according to FIG. 2 in the exemplary embodiment are formed in this way.

The fold regions 8b corresponding to FIG. 2 may be secured or become secured to the lateral face 2a by the shrink film 1 having been completely charged electrostatically beforehand and the manipulation units 7 being responsible for moving the associated lateral protrusions nearer until they are attracted by the electrostatically charged lateral face 2a. As an alternative or in addition to this, it is also possible for the fold regions 8b to be bonded together, or bonded to the product cluster 2. The same is also true for the narrow protrusions 4a and the resultant fold regions 8a.

In each case, the placing of the narrow side protrusions 4a is carried out first such that initially the two associated narrow side folds 8a are placed against the lateral face 2a to be covered. The two broad side protrusions 4b are then placed against the lateral face 2a and there form the broad side folds 8b. In the case of this operation, the broad side folds 8b are connected to the narrow side folds 8a. This can be effected by having a conventional electrostatic unit carry out electrostatic charging of the shrink film 1 in its entirety or at least of the lateral protrusions 4a, 4b and/or by bonding the fold regions 8a, 8b.

After the described operations, the packaged unit corresponding to FIG. 2 is moved into a shrink tunnel or a comparable shrinking device in which the shrink film 1 is shrunken onto the product cluster 2. At the same time, the products are secured to each other because the size of the shrink film 1 is reduced during this operation.

As a result, the lateral faces that were formerly open due to the shrink eyes are covered by a closed surface through the interaction of the narrow side folds 8a and broad side folds 8b. The disclosed apparatus and its method of operation thus close the shrink eyes. The shrink film 1 therefore completely encases the product cluster 2 after the shrinking-on operation. As a result there is no express need to attach additional stabilizing elements such as, for example, cardboard covers, etc. This reduces the production costs and the expenditure.

As already represented, in the case of many other applications where additional stabilizing elements cannot be dispensed with entirely, the dimensions of the stabilizing elements can be reduced, for example the material thickness can be reduced, thereby producing a cost saving even in such applications.

The electrostatic charging of the shrink film 1 including at least the lateral protrusions 4a, 4b can be performed before, during, or after the described folding operation. This means that the narrow side folds 8a and broad side folds 8b can be electrostatically charged after their production as in FIG. 2 to prevent them coming unfolded again. In each case, the shrink film 1 remains in its position after the described operations, also, in particular in the region of the closure 6, and is also not displaced by a possible hot air fan in the interior of the shrink tunnel. This means that it is possible for the shrink film 1 to surround the product cluster without any gaps and, in particular, to also obtain a reliable closure 6 for the lateral faces that were formerly open.

Having described the invention, and a preferred embodiment thereof, what is claimed as new, and secured by letters patent is:

Claims

1. A manufacture comprising a packaged unit, said packaged unit comprising a cluster of products and a shrink film, wherein said shrink film comprises a closure, wherein said shrink film secures said products to each other, wherein said shrink film is wrapped around said cluster thereby forming at least one lateral opening, wherein said closure is a result of placing a portion of said shrink film against said cluster at in a region of said lateral opening thereby forming a closed surface with overlapping fold regions of said shrink film.

2. The manufacture of claim 1, wherein said closure comprises two narrow side folds and two broad side folds, wherein said broad side folds cover said two narrow side folds to form said overlapping fold regions.

3. The manufacture of claim 1, wherein said closure comprises two narrow side folds and two broad side folds, wherein said broad side folds that are secured together to said narrow side folds, and wherein said broad side folds cover said narrow side folds to form said overlapping fold regions.

4. The manufacture of claim 1, wherein said closure comprises two narrow side folds and two broad side folds, wherein said broad side folds cover said narrow side folds to form said overlapping fold regions, and wherein said overlapping fold regions are bonded together.

5. The manufacture of claim 1, wherein said closure comprises two narrow side folds and two broad side folds, wherein said broad side folds cover said narrow side folds to form said overlapping fold regions, wherein said narrow side folds are produced before said broad side folds.

6. The manufacture of claim 1, wherein said shrink film wrapped around said product cluster overlaps at its edges.

7. The manufacture of claim 1, wherein said products are containers that are standing upright on bases thereof on directly said shrink wrap.

8. The manufacture of claim 1, wherein said products are cans that are standing upright on bases thereof on directly said shrink wrap.

9. The manufacture of claim 1, wherein said packaged unit lacks a shrink eye.

10. The manufacture of claim 1, wherein said packaged unit omits additional stabilizers and packaging-reinforcement measures.

11. The manufacture of claim 1, wherein said closure comprises two narrow side folds and two broad side folds, wherein said broad side folds cover said narrow side folds to form said overlapping fold regions, and wherein said overlapping fold regions are electrostatically bonded together.