The invention relates to a method for the automatic production of bags each having a seal by using the following production steps: feeding of at least one plastic film in order to create the side walls, feeding of a seal with complementary sealing profiles, attaching of the seal to the plastic film, and welding the plastic film in order to form the bags. Furthermore, the invention relates to a machine for the automatic production of bags having seals.
Bags with sealing profiles are used wherever frequent opening and closing is required. Therefore it is conceivable, for example, to store food such as chips or cereals in this type of bag. In order to further simplify the handling of such bags, a slide may additionally be provided on the complementary sealing profiles for opening and/or closing the bag.
A bag that is provided with a reclosable seal is known from U.S. Pat. No. 6,308,498 B1. Here, a bag is described where the reclosable seal is welded to the inner bag side walls and the bag walls completely enclose the reclosable seal. The reclosable seal is formed by complementary sealing profiles and a perforated connecting piece linking the sealing profiles. When the bag is torn open, first the perforation line, meaning the connection between the two profiles, is detached, then the two sealing profiles are separated and finally the two connected side pieces are torn apart on one side. In order to close the bag again, the two complementary sealing profiles are pressed into one another again.
In order to avoid having to work with pre-manufactured bags, so called form, fill and sealing machines (FFS) were developed. A machine of this kind is described in the European patent application EP 1 099 636 A2. In form, fill and sealing machines of this type, the plastic film that is used to make the bag is directly rolled off a reel and fed into the bag production machine. In the embodiment described, the plastic film is first formed, meaning folded around its center axis, and subsequently a reclosable seal is welded to the fold or inside the open foil panel. After transverse welding, the bag is open on one side and may be filled. Subsequent to filling, the bag is sealed by another longitudinal weld. For opening and closing of the bag, a slide is mounted on sealing elements.
Since the filling and production of the bag is performed horizontally, these machines are called horizontal form, fill and sealing machines.
One example of a vertical FFS machine is described in EP 0 994 772 B1. A method for the automatic production of bags with matching closure profiles is described. The plastic film unwound from the reel is guided over a forming shoulder and subsequently welded to a closure assembly consisting of sealing profiles and a closing element. Directly following the forming and welding of the closure assembly and the creation of a transverse weld, the bag is filled with product by means of a filling chute. The closure assembly for resealing the finished bag is fed as a separate component and first has to be torn open during initial opening of the bag, since the closure assembly is designed closed facing the inside of the bag.
The invention is based on the object of developing a method for the production of a reclosable bag wherein a bag may be manufactured inexpensively and in a simple design that is reclosable and that furthermore guarantees safe storage of the contained product. In addition, a machine is supposed to be developed to perform the task to be achieved.
From a procedural point of view, the task according to the invention is achieved in that before feeding the seal a perforation line is formed in the plastic film at a spacing from the panel edge, that the complementary sealing profile is attached immediately above the perforation line of the plastic film and that subsequently the bag is formed, and finally the bag is created by at least one longitudinal and/or at least one transverse weld. By means of the procedural solution, the possibility is now created of manufacturing the product with simple design means and in a cost-effective way. By so doing, the perforation line is made in the plastic film immediately following the unwinding of the plastic film from the reel. Subsequently, the complementary sealing profile is attached to the plastic film directly at the perforation line. This is done by applying the sealing profile to the plastic film in such way that the center of the sealing profile, meaning the opening of the sealing profile, is aligned with the center of the perforation line. One advantage according to the invention is very simple and therefore cost-effective sealing profiles can be used.
The machine that solves the task according to the invention for the automatic production of bags with seals is characterized in that it has the following characteristics:
means suitable for guiding a plastic film, wherein at least one plastic film forms the walls of the bag,
means for perforating of the plastic film,
means for the continuous feeding, separation and attachment of the seal to the plastic film and
means for forming, filling and welding the plastic film.
By using commonly known means, meaning devices and machine components, cost-effective production of the machine is guaranteed.
In the following the invention will be explained in more details with reference to the drawings. Therein:
It shall be expressly stressed that the figures only represent exemplary embodiments of the invention. In
Following unwinding of the plastic film 1, at time t1 the perforation line 2 is cut in the plastic film 1. Here the perforation line 2 is made in the plastic film 1 at a spacing from an edge 5. However, the perforation line 2 may also be positioned exactly in a center 6 of the plastic film 1. According to the invention, however, the perforation line 2 has to be spaced from the edge 5 of the plastic film 1 in such way that the application of the sealing profiles does not impair the welding of the edge 5 of the plastic film 1. According to the invention it is also conceivable to form the perforation line 2 in the plastic film 1 transversely to the panel longitudinal travel direction F. Accordingly, the sealing profiles 3 then also have to be fed transversely to the panel travel direction P of the plastic film 1.
At time t2, the sealing profiles 3 are attached to the surface of the plastic film 1 directly above the perforation line 2. The sealing profiles 3 are applied to the plastic film 1 above the perforation line 2 such that during separation of the sealing profile 3 the opening of the sealing profile 3 is located directly in the center of the perforation line 2. Various geometric forms may be used as the sealing profiles 3, conventionally such profiles are also called male and female profiles. These however are commonly known and do not have to be explained here in detail. The sealing profiles 3 are attached to the surface of the plastic film 1. The sealing profiles 3 may be welded or glued on and can be connected to the plastic film 1 permanently. The selection of the method for attaching the sealing profiles 3 is done as a function of the material of plastic film 1 and the sealing profile 3 that is typically made of plastic.
Alternatively, at a time t3, a slide 4 may be mounted to the sealing profile 3. The slides 4 are mounted to the sealing profile 3 in a rhythm, that is at the cycle of the bags being manufactured. Here too it is true that standard slides 4 may be used that do not require detailed description.
Following the application of the seal 3, 4 and the formation of the perforation line 2, the plastic film 1 is passed downstream into a shaping tool in the direction of the arrow P, as is shown in
With respect to the machine according to the invention for the automatic production of bags 9 with a seal 3 one has to consider that the formation of the perforation line 2 is done prior to the application of the seal 3 and shaping. According to the invention, by means of the direct formation of the perforation line 2 in the plastic film 1 a complicated and therefore expensive sealing assembly becomes obsolete. However, since conventional standardized sealing profiles 3 are used, the conventional feeding devices for the sealing profiles 3 may be used that positively influence equipment costs.
Number | Date | Country | Kind |
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10 2004 006 840.2 | Feb 2004 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2005/001186 | 2/5/2005 | WO | 00 | 4/3/2008 |