The invention relates to the field of closure caps designed to seal containers, typically bottles, designed to contain an alcoholic drink, typically alcohols, aperitifs and liqueurs. The invention relates particularly to the field of composite stopper caps, so called because they are equipped with means that are complementary to the basic means of a “standard” closure cap, said basic means in particular including means of fixing it to the neck and means of leakproof sealing. The invention even more specifically relates to the field of screw-on closure caps comprising a threaded insert or a threaded element co-operating or working in conjunction with a threaded neck on the container.
French patent FR 2.802.181 has already made known a composite stopper cap in the name of Pechiney Emballage Alimentaire, the former name of the applicant. This cap, which comprises a plastic insert equipped with a seal, a threaded skirt and a metal wall covering the insert, also comprises a means of giving weight and/or volume to the part of the cap located above the seal forming its means of leak-tight closure.
The present invention aims, as did the closure caps according to French patent FR 2.802.181, to provide the manufacturer of alcohol, spirits and other liquors with the means of making over the packaging of these products, with the assistance in particular of a new cap fulfilling the basic technical functions of the known caps, but additionally offering other aspects of product renewal possibilities, by contributing new functionalities. The present invention especially aims at providing a solution to the problems arising in French patent FR 2.802.181 other than that revealed in this patent, in order to have a wider sales offer.
It also aims at providing a plurality of alternatives to solve the problems arising. Given the major importance of brand names in the alcohol, spirit and other liquor trade, each brand wishes to have a cap specific to its brand name, so as to still further increase its distinctive character.
Moreover, the present invention aims at providing the caps with a particular visual aspect which differentiates them from conventional closure caps.
According to the invention, the composite stopper cap, designed to seal the neck of a bottle that is to contain a liquid, typically an alcoholic drink, said neck comprising a glass ring and an external screw thread, said composite stopper cap having a height H along an axial direction and comprising:
The caps according to the invention completely renew the image of conventional closure caps. With said first and second external parts, they provide two supports that complement any type of decoration, which opens up a huge range of possibilities for differentiating these caps from conventional caps, while incorporating therein elements of presentation or decoration generally seen only in luxury packing,
Said composite stopper cap comprises a metal cap, a part which is also called a “shell”, composed of a head and a metal skirt. The metal skirt has a zone, typically ring-shaped, for crimping the shell around the lower shoulder of the glass ring or for crimping around an adaptor which is fixed to the neck, such as the bottom part, marked 81 and shown in
According to the invention, said composite stopper cap comprises a second external part assembled to the metal skirt of the shell, so as to cover and to mask the bottom part of said metal skirt, said second part typically having a decorative motif on its outer surface. Said second external part may form a cylindrical tubular part, of diameter Ds, ranging between DP and DM, the internal diameter of said cylindrical tubular part being typically close to DM.
Said second external part may also work in conjunction with the bottom part of the metal skirt of the shell, so that said second external part remains axially interdependent of said bottom part when said neck is first opened.
Said external part may be a fixed part, axially interdependent with the metal skirt of the shell, for example at its lower part, typically via a layer of adhesive, its axial height Hs being at least equal to 0.5 times the height H
Said external part may also be a moving part, which moves axially and which has, in relation to said metal skirt, two predetermined stable positions, by virtue of a means of positioning. These two positions are a low position, in which said moving part leaves free access to a typically ring-shaped crimping zone of the metal skirt of the shell, and a high position, in which said moving part, that has moved up axially towards said first external part after crimping, masks at least the crimped zone of said metal skirt. When it is in the top position, said moving part works in conjunction with the bottom part of the metal skirt of the shell so as to remain interdependent of said neck, after the composite stopper cap is unscrewed.
The means of positioning used for the second mobile external part may include axial co-operation of means of axial blocking borne by said moving part, and of means of axial blocking borne by said metal skirt. This means of positioning may include or form a reversible snap-on means so as to allow reversible movement from a high or low position, to the other, respectively low or high, position. This means of positioning is designed so that, even when the second external part is in high position, said composite stopper cap can be unscrewed, said second external part remaining interdependent of the neck, by virtue of the means of axial blocking for the high position. In addition, the means of axial blocking used for said low position allows said second external part to remain interdependent of the metal skirt of the shell when the cap has not yet been crimped onto the neck. Advantageously, said means of positioning is designed so that said second external part, after being maintained in the low position to facilitate access of the crimping tools to the zone to be crimped of the metal skirt of the shell, is put in top position and held in this top position, in order to prevent access to the crimped zone.
According to the invention, said second external part can be made from plastic, metal, or metallized plastic materials. It can, to advantage, include at least one transparent zone, typically a transparent top part, so as to render the line of weakening, or line of bridges, visible, and thereby making said first opening of said neck visible.
Advantageously, the cap according to the invention comprises at least one external first part assembled to said metal cap by a means of connection, said first external part having at least one peripheral manual gripping part of average diameter DP>DM, with a DP/DM ratio ranging typically from 1.1 to 1.5, said average diameter DP being that of an axial surface, called an envelope surface, surrounding said first external part, so that, when said composite stopper cap closes said neck, a manual rotation of said external part causes said metal cap and said insert to rotate also, thus allowing said composite stopper cap to be unscrewed and said neck to be opened.
Advantageously, said first external part is made of a material chosen from: a metal, a plastic, glass, ceramics, a refractory material, a composite material, a natural material, a compressed or sintered material, or a combination of one or more of these materials; it may be a solid part formed using a mould or by machining and/or removal of material, said solid part comprising, or forming, a cavity suitable for housing said top part of said metal cap. It may also be a non-solid part formed from a strip or sheet of starting material, typically metal shaped by stamping or spinning. Advantageously, said first external part forms or comprises a means making it possible to weigh down said composite stopper cap.
The peripheral part of said first external part may have an envelope surface of revolution. But to facilitate manual gripping and rotation of the composite stopper cap, it may also:
Typically, said insert is made interdependent of said metal cap by means of a layer of an adhesive substance, but it may also be made interdependent of said metal cap by heat sealing of the threaded skirt of said insert onto the metal skirt of said metal cap, at least said metal skirt of said metal cap being covered on the inside by an interior layer of a varnish or a thermoplastic matter selected according to said plastic of said insert and suitable for being heat sealed to said insert. Advantageously, said interior layer of said metal cap comprises, in divided state, said plastic of said insert, so as to allow said heat sealing of said insert into said metal cap.
Typically, said first external part is made interdependent of said metal cap using a layer of an adhesive substance.
In a particular embodiment of the invention, the top part of said metal skirt comprises a plurality of radial openings, so that said insert and said first external part can be made interdependent by heat sealing through said plurality of radial openings, all or part of said insert and said first external part being chemically suitable to allow said heat sealing.
Said plastic insert advantageously comprises a seal forming an extra part, made interdependent of said insert and designed to ensure the leak-tight closure of said neck. When the neck of the bottle is to be provided with a pouring device or a device to prevent fraudulent refilling, said insert is advantageously made interdependent with an obturator. The insert comprises, for example, a plastic head which comprises at least one ring-shaped lip which works in conjunction with said extra seal or said obturator, so as to ensure that said neck is tightly closed.
In another embodiment, the metal skirt of the shell comprises a shoulder forming an axial stop for said first external part, typically for a lower end of said first external part, said shoulder dividing said metal skirt into an upper part of smaller diameter and a lower part of larger diameter.
In a great number of variants of the invention, said first external part has a lower end which is connected tangentially to the metal skirt of the shell, so that said lower end and said metal skirt are connected without discontinuity by typically having the same diameter. The composite stopper cap according to the invention may include a device, known as a “pouring device”, designed to facilitate the flow of said liquid, said pouring device comprising a flexible ring-shaped lip, and suitable for being made moveably interdependent with said composite stopper cap, typically by means of a frictional contact against an axial projection of said insert, and an interior skirt suitable for working in conjunction with the inside of said neck, typically via at least one circular fin, so as to be made tightly interdependent with said neck.
The composite stopper cap according to the invention may also include a device, known as an “anti-refilling device”, designed to prevent any fraudulent refilling of said bottle through said neck, said anti-refilling device being provided with means of being made reversibly interdependent with said composite stopping cap, so that the anti-refilling device is fixed at the neck during the capping operation and remains fixed to said neck when the composite stopper cap is unscrewed. In a particular embodiment, this device can be directly and irreversibly fixed to the glass ring. In this case, the external thread of the neck is not on the glass ring but in the top part of this anti-refilling device fixed irreversibly to the neck, the latter having a screw thread complementary to that of the threaded insert.
All the figures relate to the invention. Unless otherwise specified, all the figures are axial sections along the axial direction (10) of the composite cap (1). In these figures, certain parts of the cap (1) have not been hatched for reasons of clarity.
a and 1b illustrate a first variant of the composite cap according to the invention, a variant in which the tubular part (6′) is a fixed part (60) made permanently interdependent with the lower part (34) of the metal skirt (31) of the metal cap (3), so as to leave a ring-shaped crimping zone (36) free.
a to 3d illustrate another variant, in which the tubular part (6′) is a moving part (61) made moveably and axially interdependent with the lower part (34) of the metal skirt (31) of the metal cap (3).
In
a and 7b illustrate the case of another cap (1), still of the same type as those of
a and 8b illustrate other methods in which said external part (5) is a non-solid part (5″), i.e. an internally hollowed out part. The non-solid part (6″) comprises a lower part of smaller diameter, with a lower end (55) connecting tangentially to the metal skirt (31). In
b to 9e are top views of various variants in the shape of said first external part (5).
d and 9e are variants of
The examples can be summarized in the following table:
n
n
ii
The molded plastic parts were made of PP or PE. These same parts have also been made from PA or PET. For the second external part (6), portions of metal tube with a corrugated surface have also been used.
Depending on the type of cap (1), the various parts of said cap (1) were assembled, either as indicated in the description, or in a self-evident way, namely:
Depending on the type of decoration, said first (5) and second (6) external parts were decorated either before assembly, or after assembly, once said cap (1) had been formed.
We describe here in greater detail example 3 illustrated in
The composite stopper cap 1 in this example comprises a pouring device 9 comprising in its top part a flexible ring-shaped lip 90 and an interior skirt 91 suitable for being inserted into neck 2 and being tightly forced into said neck by means of a plurality of fins 910.
The composite stopper cap 1 comprises a metal cap (or “shell”) 3 equipped with a metal skirt 31 comprising a crimping zone (36) for said metal cap around the neck, (
The composite stopper cap 1 comprises an insert 4 made of plastic, interdependent with a top part 32 of the shell 3, said insert comprising a sealing head 40 and an internally threaded skirt 41′, that here is particularly thin, of axial height HI<Hc
The composite stopper cap 1 comprises a first external part 5, assembled with the metal cap 3, having a peripheral manual gripping part 50 of average diameter DP>DM, so that, when said composite stopper cap seals said neck, manual rotation of said external part causes said metal cap and said insert to rotate also, thereby allowing said composite stopper cap to be unscrewed and said neck to be opened.
The composite stopper cap 1 comprises a second external part 6 assembled with the metal skirt 31 so as to cover and to mask the bottom part 35 of said metal cap. This second external part 6 is a moving part 61, which moves axially and which has, in relation to the metal skirt 31, two predetermined stable positions: a low position in which the moving part 61 leaves the ring-shaped crimping zone of the metal skirt of the shell accessible, and a top position in which said moving part 61, raised axially towards the first external part 5 after crimping, masks at least the crimped zone 36′ of said metal skirt. The moving part 61, in top position, works in conjunction with the bottom part 35 of the metal skirt 31 of shell 3 so as to remain interdependent with the neck 2 after unscrewing said composite stopper cap 1.
The means of positioning 18 used for the second mobile external part 61 uses the axial co-operation of the means of axial blocking 64 and 631 borne by said moving part, and of the means of axial blocking 311 and 312 borne by the metal skirt 31. This means of positioning could form a reversible means of clipping so as to allow reversible movement from one position, high or low, to the other position, low or high respectively. But here, the means of positioning 18 is designed so that said second mobile external part 61, after being held in low position to facilitate access of the crimping tools to the zone to be crimped on the metal skirt of the shell, is put in top position and held there, in order to prevent access to the crimped zone 36′.
As illustrated in
The composite stopper cap can be unscrewed, the first external part 5 remaining interdependent with the upper part 32 of shell 3 and the second external part 61 remainder interdependent with the bottom part 35 of the metal skirt 31, itself interdependent with the ring 21 on which it is crimped.
The second external part 61 is made of polyolefin, typically a polypropylene. Its top part 63 has not been made opaque (metallized, lacquered, decorated, etc,) so that the latter remains transparent and the line of weakening 330 can be seen when said second mobile external part 61 is in top position. In a variant, to improve the transparency of the top part 63, the second external part 61 is made of crystal polystyrene. The top part 63 is provided with ring-shaped ribs 630 which make it easier to manually grip the second external part 61
The second external part 61 must slide over a large enough distance to reach its low position, in order to leave sufficiently broad access to the crimping zone so that the crimping rolls or other crimping tools can reach shoulder 210 of the ring 21 without disturbing the other parts of the cap. This distance typically lies between 5 and 15 mm. As can be seen in
The composite stopper cap in this example 3 (
On the cap of example 4 (
Leak-tight stopping is provided by the action of the ring-shaped lip 470 of the obturator 47 which causes the flexible ring-shaped lip 90 to be flattened up against the mouth 22 of the neck.
The composite stopping caps in examples 4 and 5 (
The anti-refilling devices 8 and 9′ are designed to prevent any fraudulent refilling of the bottle via the neck 2. They are made interdependent with the composite stopper cap 1:
These devices are fixed to neck 2 during the capping operation and remain fixed to said neck when said composite stopper cap 1 is unscrewed.
The anti-refilling device 8 in example 5 comprises:
a) a so-called top part 80 comprising a threaded ring 800 able to work in conjunction with the threaded skirt 41 of insert 4;
b) a so-called bottom part 81 comprising a fixing skirt 810 able to work in conjunction with the glass ring 21, and an inside wall forming a cage 811 comprising a bottom opening 812,
c) a mobile component 82, here a ball 820, able to move in said cage and to seal, said bottom opening 812 by gravity, when said composite stopper cap 1 is in vertical position, so as to form an anti-run-back device.
In said anti-refilling device 8:
a) said top part 80 comprises a top grid 801,
b) said bottom part 81 comprises a vault 813 provided with side openings allowing the liquid through,
Said anti-refilling device 8 also comprises a protective part 83, typically a portion of metal plate 83′, which is housed between the top grid 801 and the vault 813, so as to form an obstacle to any attempt to reach and move said mobile component 82 (ball 820), while allowing the liquid to flow normally out of said bottle.
Number | Date | Country | Kind |
---|---|---|---|
05/11852 | Nov 2005 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/FR06/02567 | 11/22/2006 | WO | 00 | 6/4/2008 |