The present invention relates to a method of producing a packaging bag, in particular a folding bag and to a packaging bag.
The prior art discloses packaging bags, in particular folding bags and side-gusset bags, and methods of producing such bags.
Such side-gusset bags typically comprise a front wall, a rear wall, a right-hand side gusset, a left-hand side gusset, a bottom and an opening, which is located opposite the bottom and is closed by a closure element. The bag can be filled through the opening and the contents can be removed from the bag, through the opening, by a user. A closure element arranged in the region of the opening closes the bag. This closure element may be designed, for example, as a reclosable closure element. The side walls here connect the front wall and the rear wall, usually by means of a weld connection.
Such bags are typically produced from a polyethylene or polypropylene sheet material (PE, PP). Such sheet material can be welded or sealed on one side, while the other side has printing on it and, not least as a result of this, cannot be welded. The printed side is located on the outside, in which case the user of a bag can glean packaging information from the printed side. Accordingly, the weldable surface is directed towards the interior. This property of the sheet material gives rise to problems in producing a bag since the individual elements have to be arranged in relation to one another such that always two weldable surfaces are located opposite one another, in order that an appropriate connection can be made. For example, it is difficult for the bag termination in the region of the opening to be produced satisfactorily and efficiently.
The prior art discloses, for example, the practice where parts of the side gussets are folded outwards in the region of the opening, and they are therefore no longer covered over by the front wall and the rear wall. The parts are then cut away, and the front wall is welded to the rear wall in this region. Although the folding operation can take place mechanically, it involves high outlay and is unreliable.
The disadvantage with the prior-art bags is the fact that these bags can gape in the region of the opening during filling and/or removal of the bag contents, in which case for example the connection of the two side gussets in this region becomes detached. This is due to the fact that the connecting locations in this region of the opening are inadequate in respect of this mechanical action to which they are subjected. The function of the reclosable closure element is thus impaired since, in the region of the opening, the front wall and the rear wall are spaced apart too far and the closure element may thus rupture. Defined and reliable closure is then no longer possible.
Taking this prior art as the departure point, the object of the invention is to provide a method and a bag which overcome the disadvantages of the prior art. In particular the bag produced is to be one which is designed in the region of the opening such that gaping or rupturing is no longer possible, and, in addition, the cross-section of the opening should not be impaired.
This object is achieved by a method having the features of claim 1. A method of producing a packaging bag from a multilayered sheet material which can be welded on one side is disclosed accordingly, wherein the packaging bag comprises a front wall, a rear wall, a right-hand side gusset, a left-hand side gusset, a bottom and a head portion, which is located opposite the bottom and has an opening which can be closed by a closure element. The two side gussets, the front wall and the rear wall are of essentially the same length and are welded to one another and therefore, other than in the head portion, the side gussets are connected to the front wall and the rear wall over their entire length. With other words: there is no connection due to the welding step between the side walls and the front wall or the back wall in the region of the head portion. The weldable surface is directed towards the interior of the packaging bag. According to the method, the front wall and/or the rear wall are/is swung away from the surface of the respective wall in the head portion. Then cutoff regions of the side gussets are removed. Following removal of the cutoff regions, the respective wall is pivoted back into the original position and a welding operation is executed in order to connect the front wall and the rear wall partially to one another in the head portion. In particular the front wall is connected to the rear wall in the cutoff region.
Connecting the front wall to the rear wall in the cutoff region in the head portion makes a connection which prevents gaping between the front wall and rear wall.
The cutoff region preferably extends from an end side, in the direction of the respective side gusset, along the outer edge of the side gusset.
The length of the cutoff region in the direction of the side gusset is preferably greater than the width of the cutoff region in the direction running transversely to the direction of the side gusset.
Prior to the welding operation, a closure element is preferably placed in position, and this is welded to the rear wall and the side gusset.
The weld connection between the front wall and the rear wall is preferably formed directly in the cutoff region and is formed indirectly, via the respective side gusset and the closure element, in the remaining regions. The direct connection in the cutoff region has the advantage that the front wall and the rear wall are connected to one another without any additional elements being required, and this provides a particularly good and mechanically strong connection which prevents gaping.
The cutoff region preferably runs transversely, or at an angle, to the direction of the respective side gusset and extends over the entire width of the respective side gusset, in which case the side gusset is shortened in length and a cutoff edge is produced.
Following the cutting operation, an enveloping element is preferably connected to the side gusset, wherein the enveloping element encloses the cutoff edge of the cutoff region, and wherein the enveloping element is welded to the side gusset on the top side of the side gusset and on the underside of the side gusset. Providing an enveloping element can give rise to a connection which is strong enough to prevent gaping and, in addition, the enveloping element has the advantage of improving sealing of the interior.
The weld connection between the front wall and the rear wall is preferably formed indirectly via the respective side gusset and the closure element and the enveloping element and/or directly in the region of an interspace.
Advantageous configurations of the method are disclosed in the dependent claims.
A packaging bag made up of a multilayered sheet material which can be welded on one side comprises a front wall, a rear wall, a right-hand side gusset, a left-hand side gusset, a bottom and a head portion which is located opposite the bottom and has an opening which can be closed by a closure element. The two side gussets, the front wall and the rear wall are of essentially the same length and are welded to one another and therefore, other than in the head portion, the side gussets are connected to the front wall and rear wall over their entire length. The weldable surface is directed towards the interior of the packaging bag. The side gussets have cutoff regions. The front wall and the rear wall are welded to one another in the cutoff region.
Advantageous configurations of this arrangement are disclosed in the dependent claims.
Preferred embodiments will be described in more detail hereinbelow, by way of example, with reference to the drawing, in which:
Possible exemplary embodiments will be described in respect of the drawings. The drawings and the description disclose preferred exemplary embodiments and should not be interpreted as limiting the invention which is defined by the claims.
The front wall 1, the rear wall 2, the two side gussets 3, 4 and the bottom 5 here bound the interior of the bag. Via the opening 7, the interior of the bag can be filled with the appropriate filling and the filling can be removed from the bag, in turn, via the opening 7. In addition, a closure element 8 is arranged in the region of the opening 7. The closure element 8 is preferably a reclosable closure element and may also comprise a tamper-evident element. A closure element 8 with a zipper or slider 15 is shown here.
The welding capability of the bag will be explained with the aid of the schematic cross-section of
Since only one surface of the sheet material is weldable, in each case two weldable surfaces have to be located opposite one another. A welding tool heats the region which it covers. After a certain period of being subjected to this, the weldable surfaces S in this region change over into a semi-liquid or liquid state, and the two surfaces are connected to one another.
The bottom 5 may be designed in various ways. Appropriate designs are known to a person skilled in the art.
As seen in the direction of the side gussets 3, 4, the bag is subdivided into different portions. A bag portion 13 essentially forms the interior. In this portion, the front wall 1 and the rear wall 2 run essentially parallel to one another.
A transition portion 14, which adjoins the bag portion 13, forms the transition to the opening 7 and/or to the head portion 6. In this transition portion 14, the front wall 1 and the rear wall 2 run at an angle to one another when the interior is filled, in which case the distance between the two walls 1, 2 decreases continuously in the direction of the opening 7. The distance between the two walls 1, 2 decreases here to the extent where the two walls 1, 2, towards the end of the transition portion 14, are spaced apart from one another by a distance which corresponds essentially to the thickness of the closure element 8.
The transition portion 14 is adjoined by the head portion 6, in which the front wall 1 and the rear wall 2, once again, run essentially parallel to one another. The closure element 8 and parts of the side gussets 3, 4 are located between the walls 1, 2, as will be described hereinbelow. The arrangement and design of a head portion 6, as will be explained in more detail hereinbelow, prevents the bag from gaping. Gaping of the bag is understood here to mean, in particular, the separation of the front wall 1 from the rear wall 2 in the region of the transition from the transition portion 14 to the head portion 6 and also in the head portion 6. This region is designated 16 (see
The bags are prepared to the extent where the left-hand side gusset 3 and the right-hand side gusset 4 have already been connected to the walls 1, 2 via the connecting weld seam 17 and are located in a flat state between the same. As an option, the bottom 5 may likewise have already been prepared. As seen in the direction of the side gussets 3, 4, the side gussets 3, 4 are of the same length as the walls 1, 2. The connecting weld seams 17 between the side gussets 3, 4 and the walls 1, 2 here extend over the entire length of the bag portion 13 up to the transition portion 14. The connecting weld seams 17 here are shorter than the side gussets 3, 4. This means that the side gussets 3, 4 are not connected to the walls 1, 2 in the transition portion 14 or in the head portion 6.
As an option, however, it is possible to provide an auxiliary weld seam 18 which connects the front wall 1 and the rear wall 2 together in a reference region 19, which is illustrated by dashed lines. The auxiliary weld seam 18 may also be in the form of a spot arranged in the comers of the reference region 19. In a first optional method step, a device severs this reference region 19 to provide a reference edge 20, along which the rest of the method steps can be executed. The reference edge 20 then forms the termination of the head portion 6.
Following the optional step of removing the reference region 19, the front wall 1 and the rear wall 2 are pivoted at an angle relative to their respective surfaces. The upwardly pivoted parts of the walls 1, 2 may also be referred to as pivoting portions 22. This is illustrated in
As is shown in
In a following step, the rear wall 2 is swung over again, and the corresponding pivoting portion 22 therefore runs parallel to the free ends 23, 24.
In a following step, the closure element 8 is then supplied. This is illustrated in
As soon as the closure element 8 has been welded on, the pivoting portion 22 of the front wall 1 can likewise be pivoted against the free ends 23, 24. The pivoting operation is followed by a further welding operation, which is illustrated in
In addition, the weldable surface of the corresponding side gussets 3, 4 is connected to the front side 1 and rear side 2. This is illustrated in
At this point in time, there is still no connection between the front wall 1 and the closure element 8, that is to say there is, between the front wall 1 and the closure element 8, a filling opening 29 through which the contents can be introduced into the bag. Otherwise, all other locations in the head region are welded appropriately. Following filling, the front wall 1 can be welded to the closure element 8.
In a further optional method step prior to filling, it is additionally possible to use a punching tool on the edge 30 in the region of the head portion. The punching tool here removes a fine strip from the bag in this region, in which case welding residues which have migrated outwards from the weld seam can be cut away. The result is then an aesthetically pleasing bag.
The welding is shown once again in
In a further step, once again, a respective cutoff region 9 is removed from the corresponding side gusset 3, 4. The cutoff region 9 here is in the form of a rectangle, the cutoff edge 32 running essentially perpendicularly to the running direction of the side gussets 3, 4. In other words, it may also be said that the side gussets 3, 4 are shorted.
As an alternative, it would also be possible for the cutoff edge 32 to extend at an angle to the running direction of the side gussets 3, 4. For example, it is conceivable for the angle to be arranged such that the length of the respective free end increases in the direction of the centre of the bag. This is indicated by the dashed line 32′.
Once the cutoff region 9 has been removed, the bag, as is shown in
In this exemplary embodiment, the enveloping element 10 is of the same width as the free ends 23, 24 of the side gussets 3, 4. In an alternative embodiment, it would also be possible to provide just one enveloping element 10, which extends over the entire width of the bag from the free end 23 to the free end 24. The only critical factor is for the free ends 23, 24 of the side gussets 3, 4 to be enveloped entirely by the respective enveloping element 10.
The operation of applying an enveloping element 10 connects that part of the side gusset 3, 4 which is directed towards the front wall 1 to that part of the side gusset 3, 4 which is directed towards the rear wall 2.
As in
In a next step, as is illustrated in
In an alternative embodiment, in which the closure element 8 directly adjoins the enveloping element 10, the weld connection takes place indirectly, which also safeguards against gaping.
In
As already mentioned in conjunction with the first exemplary embodiment, there is still no connection between the front wall 1 and the closure element 8, that is to say, between the front wall 1 and the closure element 8, there is a filling opening 29 through which the contents can be introduced into the bag. Otherwise, all the open locations of the bag have been welded appropriately.
The welding is shown once again in
As mentioned above, it is also possible here for the edge 30 to be tidied up by way of a further punching operation.
Number | Date | Country | Kind |
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1099/08 | Jul 2008 | CH | national |
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