The present invention relates to a crown-type metal cap for sealing bottles, particularly it relates to a crown-type metal cap for sealing the mouth of a metal bottle.
At present, crown-type metal caps are formed by a laminar part of circular plan form having an inner face and an outer face, provided peripherally with a closure skirt and a closure gasket having a peripheral lip located on the inner side of the metal cap. The closure skirt is in turn provided with a plurality of radial projections and depressions interspersed while the peripheral lip of the closure gasket comprises one or more protrusions. These crown-type metal caps are used for sealing the mouth of a glass bottle containing a beverage, that may either be pressurized or not.
The crown-type metal cap to be applied to a glass bottle, offers a hermetic sealing, as the circular plan and the peripheral lip of the closure gasket are tight against the top ring of the mouth of the glass bottle when the cap is applied on it. The protrusions and depressions of the closure skirt of the crown-type metal cap are folded and pressed at the same time through a forming tooling against the ring of the mouth of the glass bottle and slightly below it, providing a proper grip.
The actual crown-type metal cap that is used to seal the mouth of a glass bottle is not suitable for sealing a mouth of a metal bottle, because the metal mouth of a bottle has a different configuration from the mouth of a glass bottle as shown in
In addition to this, the manufacturing process produces the mouth of the glass bottle to have a constant diameter and because of its material it has a strength that doesn't allow any deformation of the mouth during storage, transportation, filling and sealing of the glass bottle, which produces the proper seating and hermetic closure of the crown-type metal cap. The configuration of the mouth of the glass bottle is standardized by the “Glass Packaging Institute”. In contrast, the mouth of the metal bottle tends to deform during its proper manufacturing process, as well as in storage, transportation, filling and sealing of the metal bottle, which means that the diameter of the bottle mouth presents variations or irregularities that can lead to a non-hermetic closure of the traditional crown-type metal cap.
Therefore, the current crown-type metal cap that is used to seal glass bottles is not entirely favorable to seal metal bottles, since the closure gasket of the current crown-type metal cap is not adapted to compensate for variations present in the finish and the diameter of the mouth of the metal bottle, thus it is necessary to provide a crown-type metal cap with a closure gasket having a design which compensates for such imperfections in the mouth of the metal bottle.
In view of the above and in order to solve the limitations encountered in the crown-type metal caps, it is the object of the invention to offer a crown-type metal cap to seal the mouth of a metal bottle; this crown-type metal cap is formed by a laminar piece with a circular inner surface and an outer surface, provided with a closure skirt and a closing gasket with a peripheral lip located on the inner surface; the peripheral lip has a convex arc with at least one radius of curvature and adjacent to the closure skirt, and an opposite side to the closure skirt and this has a shape selected from a group consisting of a straight line, a curve with a radius of curvature greater than the radius of curvature of the convex arc, and combinations thereof.
The characteristic details of the invention are described in the following paragraphs together with the figures related to it, in order to define to the invention but without limiting its scope.
The present invention refers to a crown-type metal cap useful for sealing the mouth of a metal bottle, where this metal bottle may be of aluminum or of any other type of metal appropriate to contain a pressurized or non-pressurized drink for human consumption.
The crown-type metal cap 30 of the invention is made of metal sheets, preferably steel, having a thickness with a range from approximately 0.160 mm to approximately 0.251 mm.
The outer surface 40 is optionally coated with a pigmented or non-pigmented coating and on which, by lithographic process, can be printed an advertising, for example, the brand of the drink or the bottler. In an alternative embodiment, the inner surface 50 may be coated with a pigmented or non-pigmented coating which may give the crown-type metal cap 30 a distinctive character that allows to distinguish and/or identify it at a glance, from the perspective of this face, compared to other metal caps, either during manufacture, storage, distribution, marketing or once it has been discarded.
The closure skirt 60 is formed with a plurality of protrusions 80 interspersed with depressions 90 allowing its marginal folding over the mouth of a metal bottle to seal it.
The closure gasket 70 has a circular flat shape and is positioned on the inner face 50, so either it is attached or formed on the metal substrate or on the pigmented or non-pigmented coating placed on the inner face 50. The closure gasket 70 has a peripheral lip 100 which has a cross section formed of a convex arc 110 adjacent to the closure skirt 60 and a side 120 opposed to the closure skirt 60. The convex arc 110 has at least one radius of curvature, while the opposite side 120 may be a straight side or a curved side, in case this side is curved it must have a radius of curvature much larger than the radius of curvature of the convex arc 110.
The closure gasket 70 is made of thermoformable material, either PVC or PVC-free, or any other substitute material for PVC. The closure gasket 70 has an inner diameter D5 from approximately 19.05 mm to approximately 21.5 mm measured at the edge of the opposite side 120 of the peripheral lip 100 and an outer diameter D6 from approximately 23.5 mm to approximately 24.8 mm measured at the edge of the convex arc 110 of the peripheral lip 100. The peripheral lip 100 has a height H1 of approximately 0.95 mm to approximately 1.05 mm.
The minor curve in the upper peripheral lip 100 has the function of facilitating the deformation by compression of peripheral lip 100 as well as facilitating the manufacture of the closure gasket 70, in particular including peripheral lip 100, as it prevents the formation of burrs at the moment of demolding of the tooling.
Peripheral lip 100 has a height H2 from approximately 1.65 mm to approximately 1.75 mm from the base of the closure gasket 70 to the upper edge of the convex arc 110 and a height H3 from approximately 0.95 mm to approximately 1.05 mm from the base of the peripheral lip 100 to the top of the convex arc 110. Closure gasket 70 in its central part has a thickness H4 from approximately 0.18 mm to approximately 0.22 mm.
Based on the alternatives described in these embodiments, it is considered that modifications to each of the described embodiments as well as alternative embodiments of application will be considered obvious to a person skilled in the art of the art under the present description. Therefore, it is considered that the claims cap said modifications and alternatives that are within the scope of the present invention or its equivalents.
Number | Date | Country | Kind |
---|---|---|---|
MX/A/2012/010782 | Sep 2012 | MX | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/MX2013/000106 | 9/18/2013 | WO | 00 |