This is a national stage of PCT/EP11/056734 filed Apr. 28, 2011 and published in German, which has a priority of German no. 10 2010 038 394.0 filed Apr. 29, 2010, hereby incorporated by reference.
1. Field of Invention
The invention relates to a method and a device for producing and filling packaging means.
2. Description of the Prior Art
Various methods are known to produce and fill packaging means. Machines are mentioned in various technical fields, which produce and fill sealable and sealed packaging means, FFS machines (form, fill, and seal machines). However the operating fashion and the capacity of these machines vary to a large extent in different technical fields. When the quantity and the mass of the packaging means per time unit produced and filled is used as an expression of capacity, in this context FFS machines to fill industrial bulk goods, such as described in DE 10 2004 034 489 A1, EP 1 201 539 B1, or EP 1 623 926 A2, are of a leading role: using such machines it is possible to fill more than 2000 bags per hour with granular bulk goods and to seal these bags. Many of these bags weigh 50 kg or more. The above-mentioned FFS machines generally perform the following processing steps to form, fill, and seal the bags.
Recently similar machines have become known which fill powdered bulk goods, tending to fog, in a similar fashion. Frequently these machines for filling the material to be filled in comprise a screw in order to prevent, by the unrestricted dropping of the bulk good, excessive fogging from occurring, which might then compromise the lateral welding. Such a machine is presented in EP 2 024 231 B1.
Similar methods are used in the field of consumer goods, however it is generally impossible to reach the above-mentioned filling speeds. The circumstance is unfortunate, because it renders the respective packages and products more expensive.
The objective of the present invention therefore comprises to suggest a method and a device by which suitable packaging means can be produced and filled with consumer products and which lowers the production and filling costs for this packaging.
The objective is attained in the features of the inventive method and device described herein.
When implementing the above-mentioned invention here bags develop, which have been filled through one of their two wider sides.
The increase in efficiency achieved in this method can be explained partially such that the bulk goods, filled into the bags, are inserted by gravity through a wide opening into said bags. The still open opening, through which the filling occurred, is then sealed by a lateral welding seam, as mentioned above.
The two broad sides of the bags created in this manner are formed by the lateral welding seams. The narrower sides are formed by the original edges of the hose. It has proven advantageous for the hose underlying the production of bags to show a lateral fold at least at one of its edges, preferably at both of them. In this case, the lateral fold, frequently already unfolded due to the filling process, can serve as a standing base of the bag. The bag can therefore stand on one of its narrow sides.
It is advantageous to provide the bag with an opening aid. This may be inserted into the edge region of the hose, before or after its separating. Such an opening aid may represent a perforation. In particular in the food sector such perforations reaching into the material are undesired, though. Here, alternative methods may be used for weakening the material, or a material may be used which is weakened at a certain position right from the start. Frequently it is advantageous to insert such opening aids into the hose during the formation of said hose. For example, in a hose [forming] machine a perforating knife may run at the respective position of the hose circumference. This position may be the central fold of the lateral fold. Components of resealing means, such as slider bars, may be inserted into the hose material in the frequently continuous hose formation. Other components of such a resealing means, particularly those allocated individually to a single bag, such as a slider head, may be inserted when the hose material is moved intermittently before or after separation. This is the case in many parts of the FFS machine.
In this phase it is also possible to perform corner welding seams at one or both edges of the hose material, thus in an area of the narrow side of the bag. In general, firstly two such welding seams shall be performed at least at one side, because this benefits the formation of a standing base. At least the corner welding seams in the area of the opening, through which the bag is filled, may advantageously be performed after or during the sealing process of said opening. It is advantageous to provide the separating lines and/or lateral welding seams forming the edges of the bag at their longer sides with a so-called sealing seam.
In general, in light of the term “sealing seam” once more the term of “separating line” and “lateral welding seam” shall be explained. Here, in a FFS process of the type described at the outset the lateral welding seam and the separating cut are performed during the separation of the hose parts at a short spatial distance from each other (a few millimeters). The separating cut shall occur at the side of the lateral welding seam located at the initially unsealed opening of the next hose section. This way it is ensured that this opening remains open for the filling process.
However, this technology leads to the two loose ends of the bag material projecting beyond the lateral welding seams. In order to design this material projection somewhat appealing the separating line and the lateral welding seam shall extend parallel in reference to each other.
In order to avoid the above-mentioned material overhang at least at one edge of the hose part there are several options available, for example:
When a welded separating seam is provided it must be assumed that both the separating line and the welding are aligned perpendicular in reference to the axis of symmetry of the hose in the sense of the present publication. For this purpose, this publication shall also consider separate welding and separating devices and welding separating devices to be equivalent.
In FFS machines of the type in question here the term of operating width is known representing the distance between the edges of the flattened hose, thus the width of the hose. The maximum operating width of such a FFS machine is an important machine feature, which is determined by the different machine components of the machine. These machine components include, among other things, the welding and separating devices, various transportation devices—here the grasping devices shall not be neglected—and the unwinding station. Of course, the maximum operating widths of these components are adjusted to each other. In general, the maximum operating width of the machine may depend on the machine components with the smallest operating width.
In the above-mentioned FFS machines the bottom of the bag and here primarily the still fresh first lateral welding seam is supported by a bag bottom support device during the filling process. This bag bottom support device frequently serves simultaneously for the removal of the bags out of the filling station. In this case, the bag bottom support and transportation device is frequently embodied as a conveyer belt 24. Here, other mobile and immobile bag bottom support devices may be used as well.
In machines according to the invention the maximum operating width of the device is greater than or identical to the distance (A) shown by the support surface of the bag bottom support device and the opening of the hose sections open at one side in the filling station in the vertical direction (y) in reference to each other. If there is a difference in height inside the support area of the bag bottom support device, it is advantageous to use the portion of the area supporting the fresh lateral welding seam to measure the distance. Furthermore, it has proven advantageous to use the lowest part, in the vertical direction, of course, of the activated or potentially activated contact area of the support surface of the bag bottom support device for this purpose. Here, the activated area represents the area covered by the bag bottom at the respectively adjusted operating width. The potentially activated area represents the area covered by the bottom of the bag at the maximum operating width.
In order to produce particularly embodied bags it is beneficial to provide devices to fasten handles and loops, particularly at one of the two edges. For reasons discernible from the description of the matter at hand this also applies for the additional welding devices. They may implement welding seams into the hose or into the already separated individual hose parts, extending parallel or even flush with the hose end. Particularly the above-mentioned welding seams (other connection seams, such as produced for example by inserting extruded material, are also considered here) may also be inserted into the hose material while it is continuously conveyed, which is particularly advantageous in the hose formation device.
In order to produce and fill particularly formed bags it is advantageous to position the filling nozzle and/or the weighing container of the scale off-centered in reference to the wide side of the bag, thus the respective operating width of the machine. This means that during the filling process the symmetry lines of the filling nozzle and/or the weighing container are displaced in reference to the axis of symmetry of the hose part, existing prior to the separating of the primary axis of symmetry of the film hose, in the direction of the width of the hose part. It is also advantageous to position the shaker, frequently provided underneath the area to potentially be activated, which shall lead to a material compacting in the recently filled bag, along the direction of the bag width off-centered in reference to the above-mentioned axis of symmetry of the hose part.
Additional exemplary embodiments of the invention are discernible from the description and the claims.
The individual figures show:
Further scope of applicability of the present invention will become apparent from the detailed description given hereinafter. However, it should be understood that the detailed description and specific examples, while indicating preferred embodiments of the invention, are given by way of illustration only, since various changes and modifications within the spirit and scope of the invention will become apparent to those skilled in the art from this detailed description.
During the course of the transportation through the device 1 the tubular film 4 passes a station 28 for inserting handle holes 43. This station 28 essentially comprises a punching or cutting tool and a counter stop. It is possible, instead or in addition to this station 28, to provide means for implementing welding seams, for example diagonal or corner welding seams 46 or/and contour welding seams.
In the first case it is advantageous to equip at least the station 69 such that it optionally generates the corner welding seams 50, 51 at one side 50, 51 or at both sides. This way, using such a device 1 optionally the bags 60, illustrated in the following, which only show corner welding seams 46 on one of their sides 51 or normal FFS bags with four corner welding seams 46 can be produced.
An advantageous manner to add such an optional feature is to allow activating or deactivating at least one processing side via a control device.
Due to the fact that the bag 60 comprises corner welding seams at one of its sides 51 and handle holes 43 at the other side 50 the above statement is also applicable for the station 28 to insert handle holes 43, in principle. However, advantageously it will be frequently abstained from equipping the stations 28 such that they may provide handle holes at both edges 50, 51 of the hose 4. Instead, only one station will be provided at the device 1, producing handle holes at one side of the hose 50. Due to the fact that frequently a handle hole is provided at the same side of the hose 50 as the welding seam 52, one station 28 to insert handle holes 43 can be combined with a device providing the welding seams 52. If such a device is inserted in the device 1, independent from the station 28, the same shall apply for its position in reference to the hose edges 50, 51 and for its way to be controlled as for the station 28.
The punching or cutting process and/or the welding process in these stations here occurs advantageously during the idle phases of the intermittent transportation. The tubular film 4 provided with handle holes 43 is conveyed via additional conveyer rolls 8 to a cooling station 12 in which the welding seams are cooled.
Via the pair of feed rolls 15 the tubular film 4 is pushed through the welding jaws 33 of a lateral welding station 13 and through a lateral cutting station 16. The tools of the lateral welding station 13 and the lateral cutting station 16 can be moved further in a manner not described in greater detail, for example by a parallelogram arrangement 14, in levels perpendicularly in reference to the direction of feed of the tubular film 4 towards it and away from it. After the graspers 17 have engaged the tubular film 4 a tubular section 18 is separated in the lateral cutting station 16 from the tubular film 4 above the grasper 17. Simultaneously, above the cutting edge a lateral welding seam 42 is applied at the tubular film 4 in the lateral welding station 13, which [seam] represents the bottom or the head of the hose section 18 to be formed in the next operating phase of the device 1. Accordingly head seams are generated in the lateral welding station 13. In general, the production of the head or bottom seams may not only occur by a lateral welding, although preferred, but other bonding measures, for example adhesion, are also possible.
The graspers 17 convey the hose section 18 to a transfer point at which additional graspers 19 grasp the hose section 18 and transport it to a filling station 20. Here, the hose section 18 is handed over to stationary graspers 21 and opened by suction devices 22 so that the material to be filled in, guided through the filling nozzles 23, can enter the hose section 18. Here, the hose section 18 rests with its bottom end on a conveyer belt 24 so that the hose section 18 during the filling process is not excessively stressed along its longitudinal edges. Additional graspers 25 convey the filled hose section to the head or bottom seam welding station 26 in which the hose section 18 is sealed with a head and/or bottom welding seam and thus forming a finished bag 27. The sealing of the hose section 18 in its head section may also occur by any other sealing method. The finished bag 27 is guided by a conveyer belt 24 out of the device 1. Here the bag 27 is much higher (in the y-direction) than wide (in the x-direction).
As already mentioned in the introductory description, under certain conditions the method according to the invention can also be performed in a device shown in
The distance 61 between the opening 62 of the hose section 18 and the support surface 58 and the height 59 of the bag opening 62 (here shown in a dot-dash line) must be adjustable or determined such that it [the distance] 61 is smaller or equivalent to the maximum operating width of the device 1.
However,
In addition to these features some other components of the device are advantageous for a production of the bags described in the following:
Corner welding devices, devices for inserting a handle 28, and/or devices for providing at least one welding seam or sealing seam 52 which preferably are provided at an edge of the film hose and/or individual hose sections. They may also assume the position of the station sketched in
Among other things, due to the handle holes 43 and the longitudinal seams 52 the material acceptance of the hose section 18 and its weight distribution are frequently not symmetrical in reference to the primary axis of symmetry 65.
For these reasons it may also be advantageous to position the filling nozzle 23 of the filling station in reference to the filling position of the hose section 18 in the filling station along the width of the bag 64 such that the line of symmetry 70 of the filling nozzle 23 and the primary line of symmetry 65 of the hose 4 are off-set in reference to each other. This applies for the line of symmetry of the weighing container. The shaker may also be arranged off-centered in reference to the primary line of symmetry 65 of the hose 4.
Furthermore it is advantageous, among other things due to the formation of many preferred bags 60 explained in the following using
Bags 60 as shown in
Now, once more a detailed description of
The hose shown in
However it is also possible to waive the lateral folds 41 at the edge 50 and here to provide a simple fold, which is sealed with a sealing seam 52 to form the later interior of the bag. This embodiment of the bag with one lateral fold 41 at the other edge 51 of the hose 4 can be combined advantageously. The area of the lateral fold 41 at the edge 51 later forms the bottom of the bag 60 and improves its standing features. The dot-dash lines 63 indicate the position of the later separating cuts and lateral welding seams 42.
The bag 60 however rests on the hose edge 52, which comprises a lateral fold 41, here forming a more stable base. As already mentioned, a trapezoidal front surface of the filled bag forms, caused by the corner welding seams 46. Here, the corner welding seams in
In
Within the scope of the method according to the invention it is advantageous to fill the bag 60 with consumer products. These products include pet food and other goods for keeping pets, such as cat litter and the like. Bulk material, such as granular animal food, is particularly well suited.
It has shown that the features of the process and the device disclosed in the exemplary embodiments and the dependent claims are also advantageous when two successive separating lines are inserted in the hose (4) at a distance (61), this distance being smaller than the distance (64) between the two edges (50, 51) of the hose (4). This also applies when the device 1 is not further developed for the production of bags 60 in which the distance between the lateral welding seams 42 is smaller than the one between the edges 50 and 51.
The invention being thus described, it will be apparent that the same may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the invention, and all such modifications as would be recognized by one skilled in the art are intended to be included within the scope of the following claims.
Number | Date | Country | Kind |
---|---|---|---|
10 2010 028 394 | Apr 2010 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/EP2011/056734 | 4/28/2011 | WO | 00 | 10/23/2012 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2011/135025 | 11/3/2011 | WO | A |
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Number | Date | Country | |
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20130036710 A1 | Feb 2013 | US |