Stock material or miscellaneous articles – Hollow or container type article – Nonself-supporting tubular film or bag
Reexamination Certificate
1999-06-15
2002-04-30
Dye, Rena L. (Department: 1772)
Stock material or miscellaneous articles
Hollow or container type article
Nonself-supporting tubular film or bag
C428S058000, C428S201000, C428S202000, C428S203000, C226S019000, C156S064000, C156S298000, C156S361000, C156S544000, C156S554000
Reexamination Certificate
active
06379760
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to apparatus and methods for producing laminated materials, for example such as are used in packaging.
2. Related Art
Goods such as processed food, sweets, medication and liquids are often packaged in material which isolates them from water, gas, vapour, oil, chemicals and the like. This packaging material is usually decorated in order to distinguish the product from similar goods, for instance, or to provide directions for use, to list ingredients or to provide statutory information.
Typical material for this purpose is made from single or double layered transparent plastics over-printed with the desired design, with double layered materials offering better protection to goods.
In order to enhance the visual appeal of a package or to provide a degree of protection against counterfeiting it may also be desirable to add metallised effects, such as holograms, within such multi-layered material. The resulting laminated packaging material typically comprises a sheet of aluminium foil or holographic film sandwiched, and thus protected, between two sheets of transparent polyethylene or polypropylene, one or both of which could be over-printed with a design. This material is not transparent, however, due to the presence of the opaque retallised layer.
It would be desirable to have available a packaging material which includes a metallised layer but through which the contents of a package are visible. This could be achieved by sandwiching strips of metallised material, rather than whole sheets, between outer transparent layers. In the regions where the metallised layer is absent the material is thus transparent.
However, simply laminating strips of foil within two plastic layers is not feasible on a mass production basis. The final laminated material will not be of uniform thickness and this will be magnified when it is rolled up, for instance. It is therefore necessary for the middle layer to include strips of transparent material parallel and adjacent to the metallised material to provide a layer with as constant a thickness as possible.
A desirable laminated material would thus be of substantially uniform thickness, having five layers ie.:
(A) a transparent film made from a material such as polypropylene or polyethylene, probably decorated with a design;
(B) an adhesive layer;
(C) a layer consisting of a combination of parallel strips of different materials in the same plane or surface. These strips might be, for instance, lightline aluminium metallised or partially-metallised laminating foil, metallised polypropylene film, aluminium foil, or transparent polypropylene or polyethylene;
(D) a further adhesive layer; and
(E) a heat-sealable or heat-melting film allowing easy application for an automatic packaging system.
Such laminated packaging materials would typically be manufactured according to the following process. The materials which make up layers (A) and (C) are loaded onto separate supply rollers. Material (A) proceeds from its supply roller through a glue tank, where an adhesive layer (B) is applied to its back surface, and then through a drying tunnel. The strips which form layer (C) issue from the relevant supply rollers and meet material (A) emerging from the drying tunnel (A) at an assembly roller. Layer (C) is bonded to adhesive layer (B) to form a laminated material (AC) which is collected on receiving roller.
To complete the packaging material, the laminate (AC) is removed from the receiving roller and re-loaded onto a supply roller. The process is repeated on material (AC), with adhesive being applied to layer (C) and heat-sealable film (E) being attached to form finshed product (ACE) laminate.
A significant problem when manufacturing laminated material in this way, however, is the alignment of the strips in layer (C). The strips, which might be of differing widths, will generally issue from separate supply rollers which might have drums of different diameters and different motor speeds. The different materials will tend to have different tensile strengths, different coefficients of friction, and different thicknesses.
SUMMARY OF THE INVENTION
During bonding at the assembly roller, aligning the strips in parallel on the same plane or surface without an overlap has so far not been possible. Avoiding wrinkles, creases, breakage, and deformation of strips during lamination is also difficult. These problems, of course, cause wastage of materials and interruption of the production line. Furthermore, the alignment of the layers at the assembly roller is liable to change due, for instance, to vibration of the machine and for these reasons current machines and processes of manufacture are, in general, limited to just two strips.
There is thus a need for a laminating process in which the strips which make up layer (C) can be accurately aligned relative to layer (A), and in which the strips which make up layer (C) can be aligned without overlap.
According to the present invention there is provided an apparatus for producing laminated materials having a first supply roller, and a system comprising a second and a third supply roller, wherein the lateral positioning of said system can be adjusted in response to lateral movement of material which leaves the first supply roller, such that the lateral alignment of the second and third supply rollers remains constant with respect to said material.
The lateral positioning of said system may be adjusted manually during operation of the apparatus in order to maintain alignment of the second and third supply rollers with said material. Preferably, however, lateral movement of material which leaves said first supply roller is monitored by an electronic sensor which tracks a control line in the material. The output of the sensor can be used to adjust the position of said system automatically.
The control line can be any feature whose lateral movement can be tracked by an electronic sensor. The control line is preferably a visible coloured line but might be, for instance, a thin magnetic strip. Preferably such control lines have a width of 0.5 mm to 3.0 mm. Such control lines need not be continuous, but they must be electronically readable. Alternatively, the control line can be the edge of the material leaving the first supply roller.
The electronic sensor can be any sensor which is capable of accurately tracking the lateral movement of a control line. Preferably the electronic sensor can track various types of control line. Suitable sensors are well known in the art for line and edge detection and these typically comprise a tungsten lamp and a CdS light detector which picks out very small changes in resistance as the control line meanders. Depending on the reflection efficiency, different filters can be used with the detector. For instance, where reflection is efficient a ground glass filter might be used.
Preferably the electronic sensor is fixed to the system comprising the second and third supply rollers such that the system and sensor move in concert.
Preferably the lateral positions of the second and third supply rollers are independently adjustable within the system although during operation of the apparatus the lateral positions should remain fixed relative to each other.
According to a further aspect of the invention, there is provided a process for producing a laminated material comprising the steps of:
(a) supplying material from a first supply roller;
(b) supplying materials from a system comprising a plurality of further supply rollers;
(c) tracking lateral movement the material leaving said first supply roller; and
(d) adjusting the lateral position of said system in response to said lateral movement, such that the lateral alignment of the plurality of further supply rollers remains constant with respect to the material leaving the first supply roller.
Whilst adjustment step (d) may be effected manually, it is preferably effected automatically. For instance, the output of an electronic sensor which tracks lateral movement in material leaving the f
Dye Rena L.
Tecksom International Limited
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