This invention relates to a machine designed to bond a number of layers of film made of different materials, using solventless adhesive, to obtain a single multi-ply film consisting of a series of layers having different characteristics.
The machine according to the invention is highly flexible, because it can be set up not only to produce a single film consisting of different layers, but also to make two films each consisting of two layers bonded to one another, or a three-ply film wherein the films can be made of different materials, such as plastic or paper; one of the films could even be made of aluminium foil.
The machine according to the invention comprises an ordinary drum associated with a plurality of spreader/applicator units, each of which comprises a tank of adhesive and means for taking up said adhesive and transferring it in the form of a thin layer to an applicator roller which moves in contact with the drum.
Each of the films to be bonded is fed to one of the zones formed between the drum and said spreader/applicator units, where it receives a layer of adhesive and is then joined to the film fed to the next zone.
The machine according to the invention is highly advantageous, because as well as allowing different films to be bonded, it is very compact, being far smaller than conventional installations which, in order to bond several layers, require the same number of coupling machines connected in series as the number of layers.
Bonding machines are already known which bond two films while said films advance, possibly at high speed, using solventless adhesive.
One such bonding machine is described in European patent no. 0 324 892 filed by the same applicant.
Said machines comprise a pay-out unit that pays out film from a reel, a spreader/applicator unit that spreads a small amount of adhesive (1-2 g per m2) onto the surface of the film while it advances, a second pay-out unit that pays out from a second reel a film destined to be bonded to the previous film, and a rereeler that rereels the film obtained.
The need for improved productivity has led to the development of machines wherein the films move at very high speed (up to 6 metres per second and more), which gives some idea of the difficulty involved, especially as the adhesive, whose characteristics are strongly influenced by environmental conditions, must be spread very precisely and evenly over the entire surface of the film, in a layer a few microns thick.
Bonded materials consisting of multiple layers of film are in demand in various industries. For example, in the packing and food industries, films are required which may comprise a layer of material that can come into contact with foodstuffs, a second layer that is impermeable to liquids or gases, a third layer that provides sufficient strength, and other layers which may consist, for example, of printable material, heat-sealable material and the like.
Units consisting of a series of in-line bonding machines are generally used to manufacture these films.
Two films are bonded in a first unit, then conveyed to the second unit where they are bonded to a third film, and so on, until a final film consisting of four or more layers is obtained.
This solution is obviously not only cumbersome, but also extremely expensive in terms of both the initial investment and the maintenance and running costs, especially as each of these machines can be up to 10-15 metres long and require several thousand Kw to run.
The present invention, which falls into this sector, relates to a machine designed to bond multiple films (in the specific case illustrated, designed to bond four films, or Quadruplex), which is very compact and absorbs much less energy than traditional units.
Moreover, the machine according to the invention is extremely flexible because it can easily be configured to bond three films, one of which is made of aluminium, or to output two bonded film, each consisting of two layers.
These and other characteristics will appear more clearly from the detailed description set out below, provided by way of example but not of limitation, by reference to the annexed figures wherein:
FIGS. 3 to 5 are schematic representations of the machine according to the invention, which illustrate the different methods of configuration and use of the machine in the various operating modes.
As shown in
Unit 3 is mounted on a carriage C which enables it to be removed easily from the machine and replaced with another apparatus, such as a pay-out unit designed to feed aluminium ribbon from a reel.
As shown in
The mutual position of rollers 6 and 7 is adjustable with devices of known type, so as to leave a clearance of adjustable thickness, namely a few tenths of a millimetre, between the two rollers, so that when at least one of said rollers is rotated it takes up a thin layer of adhesive, the thickness of which depends on the distance between the rollers. Said adhesive is then transferred to a third or intermediate roller 8, which rotates around its axis at a speed greater than that of roller 7.
The thickness of the layer of adhesive transferred to roller 8 is therefore reduced. Downstream of intermediate roller 8 there is a third or applicator roller 9 driven via a belt 10 by a motor 11 which causes it to rotate at a speed greater than that of roller 8, so that the layer of adhesive previously transferred from roller 7 to roller 8 is transferred to roller 9, further reducing its thickness.
Roller 9 then transfers the adhesive to the film, as will be described more particularly below.
Roller 8 is mounted on supports that slide along guides 12, and is subject to the action of a piston 13 which keeps it in contact with rollers 7 and 9.
Said spreader unit is already known in itself, and corresponds substantially to the spreader unit described in the above-mentioned European patent 0 324 892.
The whole of unit 3 also slides in relation to carriage 4, moving on guides 14, to enable applicator roller 9 to move slightly away from drum 2.
The second spreader/applicator unit 4 is the same as the preceding one, except that instead of being mounted on a removable carriage it is fitted directly to the abutments of the machine, in such a way as to allow small movements, again to enable applicator roller 9 to move away from drum 2.
The third spreader/applicator unit 5 is also the same as the preceding one, but without applicator roller 9, with the result that intermediate roller 8 comes into contact with drum 2 in this case.
Finally, a pair of presser rollers 28 and 29, located immediately upstream of the bonded film pick-up area, exert pressure on the bonded film to ensure thorough, complete adherence.
As will be seen from the examples given below, with the machine described above it is possible to obtain a four-ply or three-ply film, or two two-ply films, or a three-ply film wherein one layer is constituted by aluminium, with the possibility of applying adhesive to either or both sides of the film.
The method according to the invention will also become clear from the examples.
In
The first film S1 passes over idle guide rollers 20 and reaches a first pre-heating calender indicated as 21, from which it continues, and is wound around drum 2. Here, at spreader unit 5, it is covered on one side with a thin layer of adhesive by applicator roller 22.
From a second reel, not shown in the figure, film S2 passes over a pre-heating calender 23 and is caused to adhere to film S1, previously spread with adhesive, by roller 9, which is part of spreader unit 3.
Film S3 approaches spreader unit 3 guided by a set of idle rollers, the last of which is indicated as 24 in
Here, there are two possible alternative routes. The first route, in which film S3 is indicated by a continuous line, requires the film to pass over roller 24, then between rollers 8 and 9 of spreader unit 5, where it is covered with adhesive; finally, revolving around roller 9, it is applied to film S2 when that film is bonded to film S1 by roller 9.
The second alternative is to pass film S3 under roller 24, following the route indicated in the figure by a broken line, and then wind it round drum 2.
In this case roller 8 of unit 3 no longer transfers the adhesive to the film but passes it on to roller 9, which in turn spreads it on film S2 when the latter is bonded to film S1.
When film S3 is wound onto drum 2 it therefore adheres to film S2, which is already coated with adhesive.
The fourth film, S4, also reaches a pre-heating calender indicated as 25, and from there can follow two alternative routes.
The first route, indicated by a continuous line, requires film S4 to pass between rollers 26 and 27 of unit 4, where it is coated with adhesive by roller 26, on the surface which will subsequently adhere to layer S3 when film S4 is transferred to drum 2.
The second route, indicated by a broken line, requires film S4 to pass round roller 28 which presses it against drum 2, where it adheres to film 3. In this case roller 26 transfers the adhesive to roller 27 which spreads it on the surface of film S3, which originates from spreader unit 3.
The final four-ply film is consequently formed in the contact area between drum 2 and roller 28; the four layers are then pressed and joined together by roller 29, which presses on roller 28, pushed by pistons 30 (
On exit from roller 29 the film, indicated as F, is conveyed to a rereeler not illustrated in the figure.
As a further alternative, instead of passing from pre-heating calender 21 to drum 2, film S1 could be conveyed directly to bonding, between rollers 28 and 29, as indicated by the broken line.
In this case it would be caused to adhere to film S2 after the latter has taken up the adhesive, which is spread directly on drum 2 by unit 5.
As will be seen, with the machine according to the invention it is possible to make a film consisting of four layers, which may be made of different materials, and to apply adhesive to either surface of the various layers, depending on which is most convenient according to the type of adhesive used and the working conditions.
The fact that each of units 3, 4 and 5 can slide on their guides enables the unit to be moved away from drum 2, for example when required to make a film with a smaller number of layers or when adhesive does not need to be applied between two layers, or to regulate the pressure with which the roller in contact with the drum compresses the film arriving from the upstream area.
The entire unit is moved away, for example, to make two bonded films, each consisting of two layers.
This situation is illustrated in
Here, unit 3 is moved away from drum 2, so that unit 5 spreads the adhesive on film S1 which is bonded to film S2, while unit 4 spreads the adhesive on film S3 which is bonded to film S4.
The two pairs of film continue together on the drum and are then pressed by rollers 28 and 29, after which they are separated and conveyed to separate rereeling reels.
Spreader unit 3, being mounted on a carriage, can be easily removed and replaced by a pay-out device of known type, to feed an aluminium film destined to be bonded with one or two other films of different material.
This situation is illustrated in
In this embodiment, spreader unit 5 distributes adhesive on film S1, on which the aluminium foil is then laid; a second layer, consisting of film S4, is then spread with adhesive by spreader unit 4, and caused to adhere to the aluminium foil.
The result is a film that comprises an intermediate layer of aluminium sandwiched between two layers of different materials.
This system is highly effective for bonding aluminium foil, as the films made of different materials, such as plastic film, are bonded to the aluminium foil at a distance of a few centimetres from pay-out reel Al.
As aluminium is a thin, non-elastic material, it is rather fragile and consequently liable to tear and crease; especially in the case of rather long routes in which it passes over different transmission rollers, these creases would be impossible to eliminate and would remain visible in the final bonded film.
In the case of the machine according to the invention, however, the possibility of replacing spreader unit 3 with the pay-out reel drastically reduces the free route of the aluminium, which is bonded to the plastic film a few centimetres after leaving the pay-out reel, thus almost entirely solving the problem.
In conclusion, the machine according to the invention is highly innovative and flexible, because it enables different types of film, possibly consisting of different layers, to be obtained with a compact machine that is easily adaptable to the different types of work to be performed.
Number | Date | Country | Kind |
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PC 2005 A 000038 | Jun 2005 | IT | national |