WO2017174220A1 - Apparatus for packing and/or grouping articles with cutting element - Google Patents

Abstract

The invention relates to an apparatus (1) for packing and/or grouping articles (2), preferably containers, in particular in order to form packages (3), at least comprising at least one transport device (10) for generating a flow of articles and at least one packing device (20) for packing the flow of articles using a film element (21), wherein the flow of articles can be transported in a transport direction (T) of the transport device (10) and the flow of articles can be wrapped using the film element (21), and at least one material separating device (30) which is arranged after the packing device (20) in the transport direction (T) and by means of which the film element (21) can be completely cut off after a predetermined number of articles (2) in order to obtain a package (3), wherein the cutting plane (S) is preferably arranged orthogonal to the transport direction (T). In that context, the material separating device (30) can be moved at least partially along and counter to the transport device, wherein the cutting element (31) is designed to cut and melt the film element (21).

Description

 Device for packaging and / or grouping articles with cutting element

description

The invention relates to a device for packaging and / or grouping articles according to the preamble of claim 1.

Devices for packaging articles are known from the prior art, which wrap the respective articles with a film. For example, from US 5,433,058 a device for packaging hay bales is known, which packages the hay bales with a material. To separate the material after each bale, the material is first perforated via a first cutting element and separated in a subsequent step along the perforation.

Furthermore, cutting devices are known in such a system, which can separate the material or a film without prior perforation. These cutting devices are usually formed as blades, which cut through the film. A disadvantage of all these variants is that they are fixedly arranged at a position of the packaging device. Thus, in the case of unclean separation of the film, problems may arise in the further processing of the packaged articles, since the articles are continuously conveyed on and a repeated cutting at the same point is not possible. It may also be necessary to stop promoting the articles for a short time. For this purpose, the transport device and the cutting device can be clocked together, so that a cutting process is always carried out after a certain number of articles. However, this leads to efficiency losses in the production of the packaged articles, since no continuous operation is possible. It is therefore an object of the invention to provide a device for packaging and / or grouping articles with a cutting element, which works efficiently and reliably and by which advantageously different container sizes can be produced. This object is solved by the features of claim 1.

Further advantageous embodiments are the subject of the dependent claims.

According to the invention, a device for packaging and / or grouping articles, preferably containers, in particular for forming containers, at least at least one transport device for generating an article stream and at least one packaging device for packaging the article stream with a film element, wherein the packaging device to a Article stream circulating dispensing unit and the transport device transported the article flow in a transport direction and the article flow with the film element is wrapped, and at least one material separation device which is arranged in the transport direction after the packaging device and which intersects the film element at least partially, a sectional plane preferably orthogonal to the transport direction is arranged. The articles to be packaged are preferably containers and in particular plastic containers, glass containers, cans and the like. Advantageously, it is to each other similar containers. Particularly preferred are already (in particular with a liquid and in particular with a beverage) filled containers. The transport device can have a plurality of transport units arranged one behind the other in the transport direction, such as conveyor belts. Preferably, these transport units are at least temporarily synchronized with each other.

The material separation device is at least partially movable along or counter to the conveying direction or movable, wherein the cutting element for cutting and at least partial melting of the film element is configured. An embodiment for cutting and melting is understood to mean that not necessarily both a melting process and a cutting process must be performed by different elements. Rather, it is also conceivable that by a process, For example, the melting is simultaneously a cutting (especially at the point at which the film element was melted) is effected.

The mobility of the material separation device is particularly advantageous because it can be realized during the promotion of a clean separation and continuous promotion of the article. For this purpose, the material separation device can be mounted on rollers on the transport device, which are arranged in a running rail along the transport device. The movement can also be controlled, for example, via a separate electric motor and / or hydraulics and / or pneumatics. It is advantageous that the material separation device is movable both in the transport direction and against the transport direction.

An opposite movement to the transport direction is necessary to move the material separating device after the cutting operation back to the starting position. Particularly preferably, it is possible that a plurality of material separation devices are arranged one behind the other. Thus, a material separation device could be designed mainly for separating the film element, whereas a second material separation device enables after-treatment, by means of which uncleanly separated film elements could be completely separated, or else a perforation for cutting holes could be produced. In particular, a peripheral perforation or an approximately circumferential perforation (in which a portion of the separated-out foil element still remains hanging on the perforation edge) could be produced here.

Furthermore, the cutting elements are preferred both for cutting and for

Melting of the film element designed. The melting of the film element before, after and / or at least temporarily during the cutting process is advantageous since the separated film element can thus be closed and / or sealed in the same way in order to obtain a completely packaged container. The direct melting of the film element by the cutting element eliminates a separate device, which increases the efficiency of the entire process. This melting of the article stream, ie the film element, can be achieved, for example, by a heating element which heats the actual cutting element, such as a blade. In addition, cutting elements can be used which bring the film elements directly to melt, such as lasers. It will be on it It is pointed out that the separating devices or cutting elements do not necessarily have to move with respect to the flow of articles, but can also be arranged stationarily with respect to the moving article stream, for example when lasers are used as cutting elements.

The use of a laser can be particularly advantageous if the article stream is wrapped with two or more film elements. In contrast to a mechanical cutting element, when using a laser it is possible to set it very precisely, for example to focus very precisely, so that only one of two superimposed films is cut.

Thus, it is possible that in two wraps with foil elements, the strength and / or focusing of the laser can be chosen so that only 1 wrapping is perforated and / or cut. Thus, for example, in the case of a Henkelperforation by means of a laser only an outer film could be perforated and carrying the container is then carried only by the outer film (the inner film remains unperforated in this case).

In addition, it would be possible for a film element to be perforated by means of a laser and the other to be cut. Preferably, therefore, a laser device serving as a separating device is adjustable in such a way that a film element to be cut can be selectively selected, in particular even with multiple wrapping of the container. This can, as stated above, be achieved, for example, by the fact that the laser has a focusing device by means of which the bundle emanating from the laser can be focused differently. It would also be possible to achieve a targeted melting of only one foil element by the use of differently colored foil elements which absorb light of a specific wavelength differently.

In addition, a plurality of lasers could be used as separating device, which are focused on different areas of the container and therefore cut and / or melt different areas. In addition, a laser is generally suitable as a cutting means, since it can be achieved by the selectable focusing, that although a foil element is cut and / or melted, but not an underlying article is damaged. Advantageously, a laser is used as the laser, which emits light in the infrared wavelength range.

At such molten edges, the film element has a higher stability. Therefore, it can be avoided that the film element breaks especially at such places. Also can be kept better by such a melted and / or stabilized cutting edge about external articles of a container.

In addition, the material separation device preferably has a position detection device for detecting a position of the cutting element. By such a detection can be determined whether a cutting operation has been carried out reliably, or whether a re-cutting process of the same or a possibly downstream material separation device must be performed. Furthermore, it is thus also possible to detect misalignments of the cutting element which occur, for example, due to a defect.

Such a misalignment can be present, for example, when the cutting element is not moved back to the original starting position after the cutting operation and thus remains at the level of the article flow. It should be noted, however, that the material separation device does not have to perform a complete cut through the entire region of the film element but can also facilitate only a subsequent separation process, such as in which the film element is perforated and this results in a predetermined separation point, in the later course, such as by stretching can be separated more easily. The at least one cutting element advantageously has a separate drive for the - preferably substantially vertical - cutting movement. The drive for moving the cutting element can be designed, for example, hydraulically, pneumatically, electrically or mechanically. The substantially vertical direction is understood to mean that the corresponding movement is vertical, including the transport movement of the article stream. In other words, this movement is perpendicular to the stream of articles from the point of view of a transported article. In addition, a guide curve could also be provided in order to realize the movement of the material separation device with respect to the stream of articles. The at least one cutting element or the at least one material separation device can furthermore also be arranged laterally next to the transport device. This may be, for example, a blade, which is clamped on the side of the separating device and is triggered for separating the film element and thus carries out a cutting movement in that the blade folds down in a circular arc. In addition, a rotating material separating device or cutting device could be used.

In an advantageous embodiment, the material separation device is at least temporarily synchronized with a conveying speed of the article stream. A synchronization with the conveying speed of the article stream is particularly advantageous with regard to the movability of the material separating device, since such a continuous conveying and reliable separation of the film element is ensured since the material separating device can be moved at the same speed as the conveying speed of the articles. In this case, the material separation device can be mechanically coupled to the transport device.

In a further advantageous embodiment, a transport unit is provided in the transport device after the material separation device, which also creates a distance between two containers cut apart. This can be achieved by transporting this transport unit faster than the previous one.

In a further advantageous embodiment, the material separation device further comprises a clamping device by means of which the separated containers are clamped and / or spaced apart. Such a device is advantageous to ensure that the containers remain in the desired shape during the cutting process until melting or closing of the film element. Furthermore, it is advantageous to space the finished container from each other so that recently melted film elements can not stick together again. Advantageously, the clamping device is used to transport the container and preferably extends in the transport direction of the article over at least two articles away. Particularly preferably, the clamping device extends in the transport direction of the articles over at least two containers to be separated from one another by the separating device. In this way, a secure hold of the container or the resulting two containers can be achieved during the separation of the film element. The clamping device and the at least one cutting element are advantageously coupled to one another (in particular mechanically).

Preferably, the clamping device has a first lateral retaining element and a second lateral retaining element, between which runs the stream of articles. These holding elements can be configured, for example, as plate-like elements. These holding elements are preferably deliverable for clamping the stream of articles on this. In this case, drives can be provided which cause a delivery of the holding elements on the article flow. In particular, an advancing movement of a first holding element can be coupled to an advancing movement of a second holding element.

In a further preferred embodiment, the holding elements can also extend in the transport direction of the article stream and particularly preferably the separating device can also be arranged in this transport direction between two holding elements and / or a holding element of the clamping device can be based on the separating device both in the transport direction and extend against the transport direction. As mentioned, the holding elements can thus hold the two separate containers.

In a further advantageous embodiment, the clamping device also serves as a transport device for transporting the article stream. In particular, the clamping device can bring about extraction of the (already wrapped) article stream from at least one packaging device. In this case, the clamping device may also have a drive, by means of which the clamping device is moved along the transport direction. Advantageously, the clamping device is therefore movable in the transport direction (and preferably also counter to the transport direction). In particular, a movement of the clamping device in the transport direction can be synchronized to the movement of the article stream.

Preferably, different types of cutting can be carried out by means of the material separating device, the different types of cutting comprising straight, oblique, segmented, circumferential and / or contour cutting. The different cutting styles are necessary to be able to produce differently designed containers. Thus, when changing the number of articles per container, a different type of cutting may be advantageous to produce a container of the desired type. Especially with regard to asymmetrical container, it is advantageous to be able to adapt the cutting style, as would not be produced or would be destroyed at the same cutting style of the container. With regard to these different types of cutting, the material separation device and / or at least the cutting element is designed to be pivotable in order, for example, to realize an oblique cutting.

Furthermore, in a preferred embodiment, the material separation device is designed for perforating and / or for cutting out at least one subregion of the film of the separated containers. These portions are preferably configured to form holes, which may serve as handles, for example. It is possible to cut these holes directly with the material separator to provide the handles directly. Another option is to pre-perforate the holes, which can then be pushed in later when using the container and used as handles. In the case of direct cutting, there is a greater risk that the holes will tear during transport or further processing of the containers and the handles will no longer be functional.

Advantageously, the material separation device has at least one cutting element, wherein the cutting element is preferably selected from a group of cutting elements, which comprises a laser, an ultrasonic element for exciting a blade, at least one rigid or rotating blade and / or a wire. In addition, the cutting element is preferably designed to be heated. By cutting elements such as a laser or an ultrasound-excited blade a pressure-free cutting can be realized, thereby ensuring that the film is separated and not only compressed.

In a further advantageous embodiment, the device has a second packaging device (also preferably in the form of a wrapping device), which is also suitable and intended to wrap the articles with a film element. In this embodiment, therefore, preferably at least two such packaging devices are provided, so that the article flow can be wrapped twice (and in particular with two different film elements.) In this way, the overall stability of a packaged packaged container can be increased Packaging device on a circulating around the article flow dispensing unit, which wraps the stream of articles with the film element.

In an advantageous embodiment, the first packaging device and the second packaging device wrap the article flow in opposite directions of winding and / or with different winding angles.

In a further advantageous embodiment, the transport device has a feed device which pushes the article stream at least into the working region of at least one packaging device. Thus, at least one packaging device may have a particular stationary carrier, which also the article flow is postponed. This stationary carrier, which is designed in particular as a carrier plate, is preferably wrapped with the foil element. Preferably, at least one packaging device may also have at least one and preferably two lateral guide elements which guide the flow of articles laterally. It is possible and preferred that these side guide devices are also wrapped by the film element. In a further advantageous embodiment, the transport device has a further transport unit, which subtracts the article stream already wrapped by at least one film element from the carrier plate and / or from the side guide elements. It is possible that the article flow is gripped sideways or from above and is pulled out of the packaging device. In a preferred embodiment, the individual transport units of the transport device are synchronized with each other.

In a further preferred embodiment, the material separation device or the device further comprises a film wrapping device. The film wrapping device is preferably designed for welding the film. Such a device is particularly advantageous because it allows the film to be already welded prior to cutting. The cutting is then carried out preferably along the resulting weld. The present invention is further directed to a method for packaging and / or grouping articles, preferably containers, in particular for the formation of containers. In this case, an article stream is generated by at least one transport device in a predetermined transport direction. Furthermore, this article stream is wrapped with at least one film element by means of at least one first packaging device, wherein the packaging device has a circulating around the article flow dispensing unit. Furthermore, the transport device transports the stream of articles in a transport direction and wrapped around the stream of articles wrapped with the film element.

Furthermore, the film element is cut at least in sections by at least one material separation device, which is arranged downstream of the packaging device in the transport direction, wherein a cutting plane is preferably arranged orthogonal to the transport direction.

In this case, a cutting and melting of the film element by the cutting element, wherein the material separating device is at least partially movable along and against the transport direction of the article.

The article stream is preferably wrapped with a second film element by means of a second packaging device. The cutting of the film element (s) preferably takes place after all the wrapping processes. Preferably, the article stream is clamped at least in sections during the separation process.

In a further preferred method, a first row of articles extending in the transport direction is transported offset relative to a second row of articles running in the transport direction. By doing so, the articles can be guided very close to each other, or the lateral distance between the two rows can be minimized. Preferably, the transported articles are rotationally symmetric and articles and in particular articles with circular cross sections. Preferably, the article stream is wrapped by means of the first packaging device and then pulled out of this first packaging device in this wrapped state.

The cutting device can also alternatively be designed as at least one rotating knife. Such a knife can be arranged, for example, from the underside of the transport device to separate the film of the container from below. Alternatively, it would also be possible to provide at least two rotating blades, which can cut through the film from two opposite sides. In a further advantageous embodiment, the cutting element is designed as a folding knife. This folding knife consists of two facing knife edges, which are pivotally mounted via a hinge. In a cutting operation, the two knife edges are moved toward each other to separate material, which is located between the cutting. In a preferred embodiment, at least one folding knife is arranged below the transport device.

Furthermore, it is also conceivable that two knife edges are perpendicular to the transport path and these are moved towards each other.

Further advantages and embodiments will become apparent from the accompanying drawings. Show:

1 shows a schematic view of a device according to the invention; 2 shows a schematic view of a material separation device according to the invention; 3 shows a further advantageous embodiment of the material separation device;

Fig. 4 is a plan view of a container; 5 shows an advantageous embodiment of the device according to the invention;

6 shows a further advantageous embodiment of the device according to the invention; Fig. 7: a further advantageous embodiment of the material separation device;

8 shows a representation of an article flow with staggered rows of articles; Fig. 9 is an illustration for illustrating a cutting operation for the article stream shown in Fig. 8;

Fig. 10 is another diagram illustrating a cutting operation for the article stream shown in Fig. 8;

Fig. 1 1: a further illustration of an article stream;

Fig. 12: a further advantageous embodiment of the device according to the invention; 13 shows a further advantageous embodiment of the device according to the invention; and

14-18 an exemplary sequence of a cutting operation according to an advantageous embodiment. The schematic view of a device 1 according to the invention shown in FIG. 1 shows a packaging device 20, which can be designed, for example, as a winding device and has a dispensing unit 40 revolving around article 2, which dispenses the film element with which the articles are wrapped. The packaging device 20 wraps the articles 2 with a film element 21. Furthermore, a transport device 10 is provided by means of which the articles 2 are transported.

The device 1 also includes a material separator 30 for forming containers 3. The material separator 30 is further coupled in this embodiment with a clamping device 32. In addition, a film wrapping device (not shown) may also be provided. The articles 2 and the containers 3 are transported in a transport direction T. The material separation device 30 is located in the transport direction T after the packaging device 20. As shown in this figure, different sized container 3 can be produced. The reference numeral 40 schematically indicates a dispensing unit which revolves around the stream of articles (in a plane which is perpendicular to the plane of the figure). FIG. 2 schematically shows a material separation device 30 of the device 1 from FIG. 1 with a cutting element 31. The cutting element 31 is formed as a blade, which in the vertical direction (arrow P) is movable. The thus defined cutting plane 5 S is (relative to the transport movement of the article stream) orthogonal to the transport direction T.

FIG. 3 shows a further advantageous embodiment of the material separation device 30. Here, the cutting elements 31 are configured as lasers. Furthermore, in this representation, treatment is shown of article 2, which are already covered with a film element 21. About these cutting elements 31, the film element 21 can not only cut off but also perforate. A container 3 produced in this way is shown in FIG. Here, the container consists of 8 articles 2, which are covered with a film element 21. In this container 3, two portions A are at least perforated. These subregions A can serve, for example, as handles for the transport of the container 3.

The laser device may be, for example, a point laser or a line laser. Also different types of lasers could be used. For example, a CO2 laser could be used as a laser. In addition, the device has a transport unit (not shown), which pulls the wrapped container out of the packaging device 20.

FIG. 5 shows an advantageous embodiment of the device 1 according to the invention. The device 1 likewise has a packaging device 20 and a material separation device 30. The material separation device 30 is designed to be movable along and counter to the transport direction T. About this material separator 30, the film element 21 can be separated and at least perforated in sections A or cut out. The article stream can be conveyed here, for example, by a transport device such as a conveyor belt.

 30

FIG. 6 discloses a further advantageous embodiment of the device 1 according to the invention. In this device 1 containers 3 are produced, which are designed asymmetrically or in the transport direction staggered rows of articles have. in this connection the material separation device 30 is arranged obliquely to the transport direction T, and has a certain inclination angle relative to the transport direction T. This makes it possible to separate the film element 21 obliquely. The material separation device 30 is also designed to be movable along and counter to the transport direction T. Preferably, certain portions A may also be perforated or cut through this material separating device 30. Preferably, the material separation device 30 is designed to be pivotable in order to ensure a symmetrical arrangement of the perforated portions A. Furthermore, this material separating device 30 also has a clamping device 32 and a film wrapping device. Curved cutters or cutters can also be used to cut this stream of articles.

 It can be seen that the offset of the rows with respect to each other can reduce the lateral distance (transversely to the transport direction). In this way, a higher stability of the wrapped articles can be created. FIG. 7 shows a further advantageous embodiment of the material separation device 30. This material separating device has two cutting elements 31, which are movable in the vertical direction. This material separating device 30 may be a further downstream separating device 30 which, for example, is not configured to separate the film element 21, but merely cuts out portions A from the container.

Fig. 8 shows a further illustration of an article stream. Here are three rows of articles transported side by side and each offset to each other. In this way, a lateral distance between the adjacent rows can be kept very low. However, in this embodiment, no cut along a straight line is possible because otherwise individual items would be damaged. This is illustrated by the curved section line.

Fig. 9 shows a possible arrangement of cutting elements which nevertheless allow a cut without damaging the articles. Here, the cutting elements 31 a, 31 b, 31 c against a horizontal transport plane of the article 2 made obliquely, so that a total of a vertical movement of these cutting elements, the film element can be cut without the same time items are damaged. In addition, it would be possible to provide mutually offset in the transport direction cutting elements, which intersect the film element in each case between two adjacent containers. In addition, a curved cutting element could also be provided which, although overall, extends transversely to the transport direction but has a curved course which is adapted to the outer circumferences of the individual articles.

In addition, a circumferential cutting of the film elements would be possible. Thus, only the film element could be cut but no movement can be made by the stream of articles. Fig. 10 illustrates such a procedure. Here, a circulating laser can be provided, which cuts only the film element itself. In addition, several laser sources could be provided, which are arranged in a circumferential direction around the article flow and which also cut only the film element, but not damage the article itself. In addition, systems such as film wrapping systems could be used to separate the piece goods.

Fig. 1 shows a further possible procedure for the treatment of the article flow. Again, a separator 31 is provided, which, however, created here perforation lines. In the area of these perforation lines, adjacent containers can be separated from one another. In addition, by means of the transport device 10 adjacent containers 3 are also spaced from each other.

Fig. 12 shows another possible embodiment of the cutting element 31 wherein the cutting element 31 is configured here as a rotating knife. In the embodiment shown, the cutting element 31 is moved from the underside of the transport device 10 in the direction of the article 2. By the rotation of the cutting edge 31 a of the cutting element 31, a film can be cut and a container 3 are produced. FIG. 13 shows a further possible embodiment of the cutting element 31. Here, the cutting element 31 is designed as a folding knife. The folding knife consists of two cutting edges 31 a, which are connected by a hinge 31 b pivotally connected to each other. In the embodiment shown, the folding knife is moved from the bottom of the transport device 10 in the direction of the article 2 and the cutting 31 a pivoted so that that the cutting 31 a are each side of the articles 2. For a cutting operation, the cutting edges 31 a are moved towards each other to cut through a film.

FIGS. 14-18 show a cutting process with at least two cutting elements 31, which can be designed, for example, as folding knives and / or rotating knives. Fig. 14 shows the two cutting elements 31 in an initial position before a cutting operation is performed. The cutting elements 31 shown here are located above and below the transport device 10 and are moved towards each other in the vertical direction after a fixed number of articles 2, as shown in FIGS. 15 and 16, so that each of the two cutting elements 31 is a film separated from the respective side. As shown in FIG. 17, the two cutting elements 31 meet at approximately half the height of the articles 2. Such a configuration is particularly advantageous in order to realize a rapid cutting process, since each cutting element 31 only has to cover part of the way to separate a film. In FIG. 18, the cutting process has already ended and the cutting elements 31 are in their starting position in order to be able to carry out a further cutting operation after a defined number of articles 2 and thus form a further container 3.

The Applicant reserves the right to claim all features disclosed in the application documents as essential to the invention, provided they are novel individually or in combination with respect to the prior art. It is further pointed out that features have also been described in the individual figures, which in themselves can be advantageous. The person skilled in the art immediately recognizes that a specific feature described in a figure can also be advantageous without taking over further features from this figure. Furthermore, the person skilled in the art recognizes that advantages can also result from a combination of several features shown in individual or in different figures.

LIST OF REFERENCE NUMBERS

1 device

2 articles

3 containers 10 transport device

20 packaging device

21 film element

 30 material separator 31 cutting element

 31 a cutting edge

 31 b joint

 32 clamping device

33 Folieneinschlageinrichtung 40 dispensing unit

A subarea

 S cutting plane

 T transport direction

Claims

claims

1 . Device (1) for packaging and / or grouping articles (2), preferably containers, in particular for forming containers (3), at least comprising at least one transport device (10) for generating an article stream and at least one packaging device (20) for packaging the article stream having a film element (21), wherein the packaging device has a dispensing unit circulating around the article stream and the transport device transports the article stream in a transport direction (T) and the article stream can be wrapped with the film element (21) and at least one material separation device (30) which is arranged downstream of the packaging device (20) in the transport direction (T) and which intersects the film element (21) at least in sections, a cutting plane (S) preferably being arranged orthogonal to the transport direction (T),

 characterized in that

 the material separation device (30) is movable at least in sections along and against the transport direction (T), the cutting element (31) being designed for cutting and melting the film element (21).

2. Device (1) according to claim 1,

 characterized in that

 the material separation device (31) can be synchronized at least temporarily with a conveying speed of the article stream.

3. Device (1) according to at least one of the preceding claims,

 characterized in that

 the material separation device (30) further comprises a clamping device (32), by means of which the separated containers (3) are clamped and / or spaced from one another.

4. Device (1) according to at least one of the preceding claims,

characterized in that By means of the material separation device (30) different cutting modes are feasible, wherein the different cutting types include a straight, oblique, segmented, circumferential and / or contour cutting.

5. Device (1) according to at least one of the preceding claims,

 characterized in that

 the material separation device (30) is designed for perforating and / or cutting out at least one partial region (A) of the film element (21) of the separated containers (3).

6. Device (1) according to at least one of the preceding claims,

 characterized in that

 the material separating device (30) has at least one cutting element (31), wherein the cutting element (31) comprises a laser, an ultrasonic element for exciting a blade, at least one rigid or rotating blade and / or a wire.

7. Device (1) according to at least one of the preceding claims,

 characterized in that

 the cutting element (31) is heatable.

8. Device (1) according to at least one of the preceding claims,

 characterized in that

 the material separation device (30) is designed as a film wrapping device (33).

9. Apparatus according to claim 8,

 characterized in that

 the film wrapping device (33) is designed for welding the film element.

10. Method for packaging and / or grouping articles (2), preferably containers, in particular for forming containers (3), comprising at least the following steps: Generating an article stream by at least one transport device (10)

 Packaging the article stream with a film element (21) by means of at least one packaging device (20), wherein the packaging device has a circulating around the article flow dispensing unit and the transport device (10) transports the article stream in a transport direction (T) and the dispensing unit the article flow with the film element (21) wrapped,

 Cutting and melting of the film element (21) by the cutting element (31), wherein the material separation device (30) is moved at least in sections along and against the transport direction.

1 1. Method according to claim 10,

 characterized in that

 the article stream is transported in at least two rows of articles and at least two rows are offset in the transport direction with respect to each other.

12. The method according to at least one of the preceding claims,

 characterized in that

 the article stream is at least temporarily clamped during the cutting process - in particular laterally - and / or is transported by means of a clamping device.

13. The method according to at least one of the preceding claims,

 characterized in that

 the article stream is also packaged by means of a second packaging device.

14. The method according to at least one of the preceding claims,

 characterized in that

 the article stream is wrapped by the first packaging device and then withdrawn from the first packaging device.

15. The method according to at least one of the preceding claims,

characterized in that For cutting and / or melting at least one film element, a laser is used.