This application is directed to flexible packaging and more particularly to flexible bags and other packages having a feature for controlling access to the package and its contents.
Candy and other food products are often packaged in bulk and consumed incrementally over time. Consumers prefer such packages be closed when not being actively consumed to maintain freshness, encourage portion control, and to prevent accidental spillage during handling and/or storage. In some cases, the reclosure of a package may be achieved by the use of a separate clip provided by the consumer and affixed to the bag. Zipper closures incorporated directly in the package are also commonly used as a reclosure feature.
Among the drawbacks of current package reclosure features are that the consumer often does not consider the need for a clip until after the bag is open. The consumer then must search for the clip among a drawer full of odds and ends while trying not to spill the contents of the now-opened package. Zipper closures formed as part of the package can be slightly more handy, but are expensive to produce. Zipper closures also present consumers difficulties in the visual or palpable determination whether a proper closure has been achieved until after the packages is in a position that would result in spillage if the zipper was not properly closed.
Furthermore, current reclosure features are provided to achieve only that limited purpose. They do not act as a true access control feature that can also aid in keeping the package open when its contents are desired to be consumed.
These and other drawbacks are found in current product packaging.
Exemplary embodiments are directed to flexible packaging that contains an access control feature for reclosing the packaging in a robust, repeatable manner that provides a readily identifiable way for a consumer to conclude the package is safely closed. In certain embodiments, the access control feature further assists in keeping the package open for easy access where, for example, repeated servings are likely to occur in short succession. Exemplary embodiments employ one or more strips formed of a malleable sheet of material capable of maintaining a dead fold incorporated into the package.
According to an embodiment, a flexible package comprises a first package side wall having an external surface and an internal surface; a second package side wall having an external surface and an internal surface, the second package side wall opposing the first package side wall such that the internal surfaces of the first and second package side walls face toward one another; and a strip of a malleable sheet material attached to the first package side wall. An edge portion of the first package side wall is sealed to an edge portion of the second package side wall to form a seam, the first package side wall and the second package side wall further forming a mouth of the package.
According to another embodiment, a flexible package comprises a first package side wall having an external surface and an internal surface; a second package side wall having an external surface and an internal surface, the second package side wall opposing the first package side wall such that the internal surfaces of the first and second package side walls face toward one another; and a strip of metallic foil attached to the first package side wall, extending from a first edge of the first package side wall to a second edge of the first package side wall. An edge portion of the first package side wall is sealed to an edge portion of the second package side wall to form a seam, the first package side wall and the second package side wall further forming a mouth of the package and the strip of metallic foil is oriented substantially horizontally with respect to the mouth of the packaging, the strip of metallic foil having a fold guide formed therein comprising a score extending linearly across the strip of the metallic foil.
According yet another embodiment, a flexible package comprises a first package side wall having an external surface and an internal surface; a second package side wall having an external surface and an internal surface, the second package side wall opposing the first package side wall such that the internal surfaces of the first and second package side walls face toward one another; and a strip of metallic foil attached to the first package side wall and extending from a first edge of the first package side wall to a second edge of the first package side wall. An edge portion of the first package side wall is sealed to an edge portion of the second package side wall to form a seam, the first package side wall and the second package side wall further forming a mouth of the package. The strip of the metallic foil is oriented substantially vertically with respect to the mouth of the packaging, the strip of metallic foil having a plurality of fold guides formed therein, each fold guide comprising a score extending linearly along the width of the strip of metallic foil, whereby the fold guides are oriented substantially horizontally with the mouth of the packaging.
In one embodiment, a flexible package comprises a first package side wall having an external surface and an internal surface; a second package side wall having an external surface and an internal surface, the second package side wall opposing the first package side wall such that the internal surfaces of the first and second package side walls face toward one another; and a strip of a polymer coated metallic foil heat sealed to a surface of the first package side wall, the foil extending from a first edge of the first package side wall to a second edge of the first package side wall, the foil having a thickness in the range of about 0.003 inches to about 0.005 inches. An edge portion of the first package side wall is sealed to an edge portion of the second package side wall to form a seam, the first package side wall and the second package side wall further forming a mouth of the package. The strip of foil is oriented substantially horizontally with respect to the mouth of the package, the foil having a fold guide formed therein comprising a score extending linearly substantially parallel to the mouth of the package.
An advantage is that a flexible package is provided that is easy to close and operates in an intuitive manner, while providing visual assurance that the package has been closed.
Another advantage is that incorporation of a fold guide into the strip of the malleable sheet material provides a tactile cue to the user for properly closing the package.
Yet another advantage is that the use of the strip of malleable sheet material can also be used to maintain the mouth of the package open for easier access to its contents.
Still another advantage is that exemplary embodiments of the invention may be less expensive to produce than packages with zipper style closures, while still providing an integrated closure feature.
Other features and advantages of the present invention will be apparent from the following more detailed description of exemplary embodiments, taken in conjunction with the accompanying drawings which illustrate, by way of example, the principles of the invention.
Exemplary embodiments are directed to flexible packages having an access control feature provided by a strip of a malleable sheet material that can be used to form a dead fold to re-close an opened package and prevent spilling. Flexible packaging does not become damaged, dented, or torn when transported by the consumer in things such as purses, backpacks, and the like. Flexible packaging conforms to shapes such as cup holders. The access control feature can also be used to keep the mouth of the package open for easier access when the contents of the package are being consumed. Exemplary embodiments operate in an intuitive manner and are easy to use. The access control feature provides a tactile cue to the user for properly closing the package, as well as visual assurance that the package has been closed.
Depending on the style of the package, the seams 12 formed by the first and second side walls 100, 200 may extend around the entire perimeter of the package 10. As better seen in an unassembled view shown in
Any flexible film materials useful in the art for constructing flexible packages can be used in accordance with exemplary embodiments. These include single and multi-layer polymer film materials, paper or cellulosic materials (which may optionally be coated with one or more polymeric films), as well as other ecologically friendly composites.
Turning to
The strip 300 may be formed of any malleable sheet material such that the strip 300 is capable of forming a crease and retaining a dead fold that resists spring-back from the flexible package material. The strip 300 is typically, but not necessarily, a metallic foil. Exemplary foils include aluminum foil (including foils of elemental aluminum as well as aluminum alloys) and tinfoil (again including foils of both elemental and alloyed tin). Other suitable materials for the strip 300 may include polymeric films (metalized or unmetalized) or paper based materials, by way of example only.
The strip 300 is attached to the first side wall 100 by any suitable method of adhering the two structures. In one embodiment, the strip 300 of malleable sheet material is heat sealed to the first side wall 100. In order to accomplish the heat seal, in embodiments in which the strip 300 is a metallic foil, the foil may be coated with a thin film of polyethylene or other material compatible for heat sealing with the material used to form the first and second side walls 100, 200, so that the foil's film coating bonds to the side wall 100 during heat sealing.
In certain embodiments, a portion of the strip 300 extends into the seam 12 formed when the first and second side walls 100, 200 are heat sealed to one another. As a result, foil strips 300 may be coated on both sides with a thin film of polymeric material for heat sealing to each of the first and second side walls 100, 200.
In any case, incorporating the strip 300 of malleable sheet material into the package 10 provides an intuitive, easy way for the package 10 to be re-closed in a secure manner. As shown in
Generally, it has been determined that the strip 300 should be positioned so that the nearest edge of the strip is at least about 0.375 in. from the mouth 20 of the opened package 10. Furthermore, when the strip 300 is formed of a foil, it has been determined that the strip 300 should generally have a thickness in the range of about 0.0025 inches to about 0.005 inches, typically about 0.003 to about 0.0045 inches, preferably about 0.004 inches. The width may be in the range of about 15 mm to about 75 mm, typically in the range of about 20 mm to about 30 mm. It will be appreciated however, that the dimensions of the strip 300 may further depend on the type and thickness of the flexible materials employed for the side walls 100, 200, as well as the style of package employed, in order to achieve a crease that provides a secure dead fold and resists spring-back of the side walls 100, 200.
A fold guide 305 is formed in the strip 300 that aids in the re-closure of the package 10 and in forming the crease 18. The fold guide 305 provides a pre-determined breakpoint in the strip 300 for forming the crease 18 so that the crease 18 tends to follow a predetermined orientation consistent with the breakpoint in a predictable, repeatable manner. Because the fold guide 305 results in the crease 18 forming in a predetermined manner, it provides a consumer with a tactile cue in how to close the bag, even if the consumer initially starts to fold above or below the breakpoint. The force applied by the consumer causes the crease 18 to start forming along the fold line 305, such that the consumer has a tendency to intuitively change hand position to follow the fold line 305 and obtain the correct fold to get the intended crease 18, even if the initial fold started off incorrectly.
The position and orientation of the strip 300 with respect to the mouth 20 of the package 10, as well as the type and orientation of the fold guide 305, may vary depending on the particular type or style of package to be employed. Still referring to the embodiment shown in
Multiple fold guides 305 may be formed in a single strip 300 to provide multiple creases where, for example, it may be desirable to fold the package over itself to obtain a more secure closure.
In some embodiments, as illustrated in
It will be appreciated that the manner in which the fold guides 305 assist in opening or closing the package 10 depends in part on the orientation of the strip 300 itself with respect to the mouth 20 of the package 10. Turning to
In some embodiments, as shown in
It will further be appreciated that in some embodiments, a strip 300 of malleable sheet material may be applied to both internal surfaces of the first and second side walls 100, 200 in substantial registration with one another. This may have the effect of decreasing the thickness of the strip 300 used, the retention force of the two strips working in tandem to provide a dead fold with sufficient resistance force to prevent spring-back of the packaging materials.
Manufacture of packages 10 in accordance with exemplary embodiments can generally be accomplished by conventional flexible film package manufacturing methods using rolls of thin film material. Exemplary embodiments employ additional steps of heat sealing the strip 300 of malleable sheet material to the thin film material. In embodiments in which the strip 300 is constructed of a metal foil or other conductive material, the strip 300 may stay hot for a longer period of time after the heat seal than the surrounding polymeric film. Accordingly, it may be desirable to cool the package 10 at various stages of its manufacture after heat sealing operations that include the strip 300 in order to avoid melting or shrinking and maintain a consistent level of quality.
While the foregoing specification illustrates and describes exemplary embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed as the best mode contemplated for carrying out this invention, but that the invention will include all embodiments falling within the scope of the appended claims.