The present invention relates generally to packages for storing articles, and more particularly to a tamper-indicating, resealable closure for such packages.
Many products are supplied in sealed bags, pouches or other packages formed from thin films or other flexible materials. For example, foodstuffs, tobacco products, small parts or loose items such as pharmaceuticals or medical accessories are commonly provided in pouches or bags formed from flexible film material. Many of these types of packages are provided with tear strips that facilitate opening the package. Moreover, it is known to provide resealing capability to such packages through the use of an adhesive disposed on a portion of the flexible package material that has been separated by the tear strip.
In some applications, it is desired to further construct the package or pouch to provide an indication of initial opening so that any tampering with the package or its contents may be discovered. Conventional tampering indicating devices include printed tapes that can be applied to the package and which are configured to reveal a message in the form of textural indicia, patterns or symbols when the tape seal is initially broken. Incorporation of such tamper indicating tapes increases the time and expense of manufacturing such packages.
Previous resealable packages have been constructed from two layers of flexible film material that are joined together. The first layer defines the outer packaging material and the second forms a panel or flap that can be separated from the first layer to expose an opening in the package. The first and second film layers typically are printed with graphics and indicia to indicate the contents of the package. One drawback of this type of packaging arrangement is that the first and second layers must be precisely registered prior to joining the layers, so that the printed indicia and graphics are in proper alignment on the finished package. The need to precisely register the film layers imposes additional requirements for automated packaging lines and may limit the operating speed of the equipment. Moreover, high scrap rates can result when the film layers drift out of register during operation.
A need therefore exists for a tamper-indicating resealable closure that does not increase the cost of packaging and which can easily be incorporated into the flexible materials used to form pouches, bags or other flexible packages.
The present invention provides a tamper-indicating resealable closure that can be readily incorporated in to the outer film material of a bag, pouch, or other flexible package. The closure is formed directly on the film material and does not require precise registration of individual layers to align graphics or textual indicia. Moreover, the closure provides an easily identifiable visual indication of initial opening, without requiring pre-printed tamper-indicating tapes to be added to the packaging material.
In one embodiment, the closure comprises first and second film layers that are releasably adhesively joined together so that the second film layer can be peeled back, or otherwise separated, from the first film layer. The first film layer forms the outer portion of the package and the second film layer is transparent, whereby graphics and textual indicia printed on the first film layer are visible through the second film layer. The closure further includes first and second tear lines formed into the first film layer beneath the second film layer. The first tear line defines a first panel section that creates an access opening through the first film layer when the second film layer is peeled back. The second tear line defines a second panel section that serves to indicate the initial opening of the package.
When the second film layer is peeled back, the first and second panel sections, which are adhesively secured to the second film layer, separate from the first film layer, along the first and second tear lines, respectively. The second tear line is configured such that a portion of the second panel section remains integrally joined to the first film layer, and the second panel section eventually becomes separated from the second film layer upon opening the closure. In another embodiment, the first film layer is formed such that the second panel section is biased to move in a direction away from the second film layer after it has separated from the first and second film layers. Accordingly, when the second film layer is repositioned against the first film layer to re-seal the package, the absence of the second panel creates a void that provides a visual indication of initial opening.
Still other embodiments, examples, features, aspects, and advantages of the invention will become apparent to those skilled in the art from the following description, which is by way of illustration, one of the best modes contemplated for carrying out the invention. As will be realized, the invention is capable of other different and obvious aspects, all without departing from the invention. Accordingly, the drawings and descriptions should be regarded as illustrative in nature and not restrictive.
While the specification concludes with claims which particularly point out and distinctly claim the invention, it is believed the present invention will be better understood from the following description taken in conjunction with the accompanying drawings, in which like reference numerals identify the same elements and in which:
Referring to
The exemplary closure to 12 is formed directly on the first film layer 14 and includes a first tear line 20 formed into the first film layer 14. The first tear lined 20 defines a first panel 22 that may be separated from the first film layer 14, along the tear line 20, to expose an opening 24 (see
In the embodiments shown and described herein, the second film layer 26 is provided with a tab 30 or other gripping feature, which is not coated with adhesive 20, so that the second film layer 26 may be peeled back from the first film layer 14 to open the package 10. The second film layer 26 may further include a hinge portion 32, depicted in
With continued reference to
Advantageously, the second film layer 26 may be formed from a transparent film material whereby the graphics and other indicia on the first film layer 14 may be readily viewed through the second film layer 26. When the second film layer 26 is transparent, it will be recognized that a transparent adhesive should also be selected, so as not to detract from the aesthetics of the first film layer graphics and indicia. Such a construction permits the closure 12 to be formed directly on the first film layer 14 without requiring corresponding graphics to be formed on the second film layer 26, and without requiring precise registration between the first and second film layers 14, 26.
With continued reference to
In another embodiment, the material of the first film layer 14 is formed such that the second panel section 42 is biased to move in a direction away from the second film layer 26, and inwardly of the package 10, when it becomes separated from the first and second film layers 14, 26, as depicted in
While
The first film layer 14 may be formed from polypropylene, polyethylene, cellophane, or any other polymeric material suitable for forming a package enclosure. Likewise, the second film layer 26 may be formed from polypropylene, polyethylene or any other polymeric material suitable for forming a selectively releasable and resealable cover that can be adhered to the first film layer 14, as described above. When the package 10 will contain foodstuffs, the adhesive 28 material should be an adhesive approved by the U.S. Food and Drug Administration, or equivalent agency, for such use. Otherwise the adhesive 28 may be any adhesive suitable for releasably securing the first and second film layers 14, 26. In an exemplary embodiment, the adhesive is an emulsion based acrylic. It will be recognized, however, that other types of adhesives could be used as well.
The first film layer 14 may be manufactured to bias the second panel section 42 in a direction away from the second film layer 26, as discussed above. This may be accomplished in various ways, such as by forming the first film layer 14 as a laminated film having tension induced in selected layers, such that the direction of curl of the second panel section 42 is controlled as desired; by coating the first film layer 14 with a material having shrinking properties; by applying a static charge to the first film layer 14; by co-extruding multiple layers and controlling the direction of curl by orienting the layers of the co-extruded film; or by other methods which cause the second panel section 42 to be biased in a desired direction.
While the present invention has been illustrated by the description of one or more embodiments thereof, and while the embodiments have been described in considerable detail, they are not intended to restrict or in any way limit the scope of the appended claims to such detail. Additional advantages and modifications will readily appear to those skilled in the art. The invention in its broader aspects is therefore not limited to the specific details, representative apparatus and methods and illustrative examples shown and described. Accordingly, departures may be made from such details without departing from the scope or spirit of Applicant's general inventive concept.
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