The technology relates to closures for containers, and more particularly to a fluted crown cap for sealing a bottle opening.
Crown caps are well known for sealing bottle openings. Conventional crown cap configurations include a circular top, a circular skirt depending downwardly from a periphery of the top, and a downwardly and radially outwardly extending flange extending from a periphery of the skirt. The skirt generally has flutes or serrations formed therein to enhance capping and gripping on a bottle finish.
Crown caps, originally developed for opening by deforming upon actuation by a lever opener, are often configured for twisting off by employing threads formed on the finish of the bottle. Such twisting, in some circumstances, requires a relative high amount of opening torque and may be difficult to open or uncomfortable with respect to a user's hand.
For example, a beverage bottle sealed with a twist off crown cap often times is stored in ice water. As a result of being stored in the ice water, the amount of torque required to twist the crown off of the bottle may increase. Therefore, when an individual goes to twist the crown off, he or she may have to twist the crown harder thereby increasing the discomfort in their hand.
There is a general need for improved crown caps.
A crown cap that has a softer feel compared to traditional twist-off crown caps is achieved. Because crowns have to be a certain size, manufacturers are limited in space, and creating a crown cap geometry that has a soft feel during twist off of the crown cap within that limited space has not been a straightforward engineering matter. In particular, creating a crown cap geometry that has a soft feel and also creates an adequate seal required the inventors to pursue several variations and experiments to achieve a crown cap that provides such features.
Accordingly, a soft feel crown cap for sealing onto a bottle is provided. Such a crown cap may include a circular top member, a skirt depending downwardly from a periphery of the top member, and a flange extending from the periphery of the skirt. The flange may include plural, substantially radially oriented, circumferentially spaced apart, upwardly extending flutes formed therein and land portions disposed between each flute. Each flute includes a crest and opposing sidewalls that are substantially flat. Further, each flute has a maximum width that is greater than a maximum width of each land.
A forming die for forming the soft feel crown cap is also provided. Such a forming die may include a locating diameter and a forming portion extending from the locating diameter. The locating diameter and forming portion may define a cylinder having an aperture extending therethrough. The forming portion may include alternating notch portions and nose portions, wherein each notch portion has a greater maximum width than a maximum width of each nose portion.
After the crown cap is made it may be sealed onto a bottle. For example, a crown cap having a circular top member, a skirt depending downwardly from a periphery of the top member, and a flange including alternating flutes and lands extending from a periphery of the skirt may be placed over the opening of a neck of a bottle. When the crown cap is sealed onto the bottle neck, recesses may be formed in a majority of the flutes such that a majority of the recesses contact a threaded portion of the bottle neck. Such a crown cap may have a softer feel during removal of the cap from the bottle.
Accordingly, a bottle sealed with a crown cap that has a soft feel during removal of the crown cap from the bottle is also provided. Such a bottle may include a body and a neck extending up from the body. The neck may include a threaded portion, and a crimped crown cap may be removeably affixed onto the threaded portion. The crimped crown cap may include a circular top member, and a skirt depending downwardly from a periphery of the top member. The skirt may include alternating flutes and lands that are configured such that recesses are formed in a majority of the flutes. Preferably a majority of the recesses contact the threaded portion of the bottle neck. Because of the recesses formed in the flutes, the crown cap may have a soft feel during removal of the crown cap from the bottle.
Preferred structures and methods for employing twist-off crown cap technology are described herein. Forming dies for producing twist-off crown caps that employ this technology are also described. The present invention is not limited to any particular twist-off crown cap but rather encompasses use in any crown cap.
A crown cap 10, as illustrated in
As shown in
Because of the recesses 78 that are formed in the flutes 70, a consumer will experience a softer feel during twist off of the crown cap 50. For example, when a consumer grabs and twists the crown cap 50, their hand may not experience the typical cutting feeling, as experienced with traditional twist-off crown caps, because the recesses 78 create a geometry in the crown-cap that minimizes such a cutting feeling. In this regard, recesses 78 are formed in a portion of the cap that, in commercial prior art caps, would tend to provide a relatively sharp gripping surface at their peripheries. Recess 78 tends to diminish the magnitude of sharp surfaces and/or provides greater surface area for gripping, compared with commercial prior art caps.
Furthermore, bottlers may not have to change their tooling to create the recesses 78 when a bottle cap is crimped onto a bottle. For example, if the crown cap has flutes that are wider than the lands, the flutes may fold during the crimping stage to thereby create the recesses 78. Such folding may occur using traditional tooling during the crimping stage. Therefore, bottlers may continue their standard operations to produce bottles sealed with a soft-feel twist off crown cap.
As shown in
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