Plastic and nonmetallic article shaping or treating: processes – Mechanical shaping or molding to form or reform shaped article – To produce composite – plural part or multilayered article
Reexamination Certificate
2000-12-26
2003-12-02
Ortiz, Angela (Department: 1732)
Plastic and nonmetallic article shaping or treating: processes
Mechanical shaping or molding to form or reform shaped article
To produce composite, plural part or multilayered article
C264S259000, C264S267000, C264S278000, C264S320000, C264S322000
Reexamination Certificate
active
06656406
ABSTRACT:
TECHNICAL FIELD
This invention relates to the decoration of stoppers of cap type obtained by moulding synthetic materials, such as the cap stoppers for example screwed onto bottles, also of synthetic material, for food of mineral water, drink or similar type.
In particular, the invention relates to stoppers of cap type obtained by hot compression moulding.
BACKGROUND ART
These stoppers generally have to be decorated on their flat top by silk-screen printing or other known systems. The application of the decorations, generally consisting of the manufacturer's trademark or other writing explaining the quality of the product contained in the bottle, is an operation rendered complicated by the actual shape of the stopper, with substantial incidence on its final cost.
The decorations applied in this manner are also exposed to external agents, or to impact and abrasion, and are often very precarious with time.
In the case of caps obtained by an injection process, to overcome the aforesaid drawbacks it has been proposed to insert a covering disc directly into the mould forming the caps by the injection process.
An example of this method is illustrated in Italian Patent Application 67297 A/88 in the name of ALPLAST.
However the known art has limitations of both a constructional and implementational character which considerably limit, if not practically negate, its execution.
Firstly the known method is applicable only to injection moulding processes, and is in no way compatible with modern hot compression moulding processes which are gradually surplanting the former.
Lastly, with the known method, if the disc comprises more than one layer of material, it must be previously and separately formed prior to its insertion into the mould.
An object of the invention is to decorate the top of the closure cap by a compression process in an economical and secure manner, at reduced cost.
A further object of the invention is to apply decoration which is protected from the external agents, and is hence stable with time.
A further but not less important object of the invention is, simultaneously with the formation of the decoration, or separately therefrom, to form a barrier both against undesirable agents present in the atmosphere, and against gases present in the container, for example O
2
, to prevent their migration to the outside via the cap.
DISCLOSURE OF THE INVENTION
These objects are attained, according to the invention, by prearranging the decoration on an appropriate support in the form of a single-layer disc, which is inserted into the stopper-forming mould, either into the female part or into the male part, then proceeding with the forming process in the usual manner.
The disc carrying the decoration can be associated with layers which form the said barrier, and can be positioned within the mould in such a manner as to be incorporated into the roof of the cap. The various layers to be applied by the process of the invention can also be applied to the cap independently of the disc, without the need to preconstruct a multi-layer disc.
The material of the support constituting the disc is preferably the same as the constituent material of the stopper, or a material compatible therewith.
A convenient adhesive or a bonding aid can be provided on that side of the support which is to come into contact with the top of the stopper.
According to the invention, one or more of the layers associated with the disc can be formed by coating.
The invention will be more apparent from the summary description of the compression moulding process.
With this process, a portion of synthetic material, such as propylene homopolymer or copolymers thereof, high density polyethylene, or the like, are fed in the plastic state into the cavity of a suitably temperature-controlled mould.
Insertion of the punch obliges the material to run into the interspace created between the punch and cavity, until filled. The shape of the cavity and punch are mutually complementary, to create the outer and inner shape of the cap respectively.
On opening the mould the cap remains mounted on the punch, from which it is expelled in various ways, all known.
The method and the means used in compression moulding are well known to the expert of the art, and will therefore not be further described.
According to the invention, a decorated support is inserted onto the base of the mould cavity, before introduction of the portion of synthetic material which is to form the cap.
Conveniently the decoration faces the cavity interior.
The material of the decoration support disc is conveniently the same as the cap material, however solutions can be envisaged using different materials, the material being transparent, and hence when the cap has been formed the decoration is visible but protected against external agents.
The decoration can be applied to the support by known methods, such as silk-screen printing, offset printing or other methods.
The invention also provides for the application of a support formed from more than one layer, in which case these adhere perfectly one to the other, even if the decoration is present on their interface.
If the cap is intended to seal liquids containing volatile elements, such as CO
2
, the invention comprises a layer, usually intermediate, which forms a barrier against these gases, or against possible other gases of organic type.
This gas-impermeable layer is a material selected from PVDC (polyvinylidenechloride); PA (polyamide); EVOH (polyvinylalcohol); PET (polyethyleneterephthalate); PEN (polyethylnaphthenate); aluminium in sheet form or metallized in situ, or metallized on a support (for example on a polypropylene support); or polypropylene supports with a layer of silicon oxides.
Many other materials are however suitable for forming the barrier. The impermeable layer can be applied in situ or, as is fairly common, can be on a support or inside this support.
As the constituent materials of said impermeable layer are often incompatible with the cap material, a layer is often provided which makes adhesion possible between the impermeable layer and the adjacent surface of the cap material, this layer being generally known as a tie layer.
The adhesive layer generally consists of particular copolymers having chemical characteristics intermediate between the two layers, and of which the nature depends on the layers themselves. In some cases, such as a silicon oxide layer on a PP support, an adhesive layer between the support and the oxide is unnecessary. In this respect, processes are known (such as in this case deposition by plasma treatment), in which the surface of the support is modified (by this treatment), followed by deposition of silicon oxide.
In these cases, if direct adhesion of the silicon oxide to the cap is required, an adhesive layer must be inserted.
It is interesting to note that in the case of a polypropylene substrate covered with silicon oxide (or metallized) the adhesive layer can be dispensed with if the polypropylene part of the disc directly faces the plastic.
If the disc is positioned on the outside of the cap, the part characterising the barrier is subjected to abrasion, this being a negative factor. If however the disc is positioned in the cap interior, the adhesion problem is eliminated. Hygroscopic materials, such as EVOH, which exhibit their barrier characteristics as the retained moisture increases, cannot be used as external barrier materials. These materials exhibit their function when positioned within structures with superior moisture barrier properties.
In general, however, it is preferable for the barrier layers, whether hygroscopic or not, to be positioned between other layers. The choice of the type of adhesive is strongly influenced by the substrates to be treated. The adhesive layer is also used inside the substrate to provide adhesion between the various substrates. For example, adhesion between a PP and an EVOH layer can be achieved by using PPgMAH (polypropylene grafted with maleic anhydride), LDPEgMAH (low density polyethylene grafted with maleic anhydride), or L
Browdy and Neimark
Ortiz Angela
SACMI - Cooperative Meccanici Imola-Soc. Coop. a.R.L.
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