WO2017116797A1

WO2017116797A1 - Cold-sealed flexible film packages and methods

Info

Publication number: WO2017116797A1
Application number: PCT/US2016/067483
Authority: WO
Inventors: Deborah A. Lyzenga; Jeffrey T. Weber
Original assignee: Intercontinental Great Brands Llc
Priority date: 2015-12-30
Filing date: 2016-12-19
Publication date: 2017-07-06
Also published as: MX2018007614A; CA3007339A1; AU2016380944A1; AU2016380944B2; US20190002174A1; EP3397571A1; CN108367849A; JP2018535900A

Abstract

An exemplary embodiment of a cold seal package forming device (100) is provided, which may have a scoring device configured to score a continuous film laminate, the film laminate comprising a layer of pressure sensitive adhesive / PSA (36) disposed between a first film layer (37) and a second film layer (38); a stripping device configured to strip at least a portion of the second film layer (38) to expose the PSA (36); a forming device configured to form the film laminate into a package (30) having an interior; a feeding device configured to feed a product into the package interior; a sealing device (108, 142) configured to seal the product within the package interior via adherence of the exposed PSA (36) on a portion of a package periphery; and a separating device configured to singulate the package (30) from a continuous web of the film laminate.

Description

COLD-SEALED FLEXIBLE RLSVi PACKAGES AND METHODS

FIELD

[0001] Packages and methods of manufacture are described herein and, in particular, methods of forming flexible film packages using a cold-sealed pressure sensitive adhesive to form at least a portion of the package.

BACKGROUND

[0002] Flexible, semi-rigid and rigid packages are known in the art for use in containing discrete consumer products. For example, such packages may be used to contain comestible consumer products such as crackers, chocolate, cookies, cheese, sandwiches, biscuits, candy, meat products, nuts, dried fruits and vegetables, and the like, and other consumable products such as chewing gum.

[0003] Flexible film packages have numerous advantages. For example, they can be manufactured at substantially lower cost than rigid containers, are lightweight (resulting in lower transportation costs), and can reduce space required for storage. Flexible packaging can include flow-wrap type packages, which may employ a continuous film or web to envelop a product during assembly or formation of the package. Flow-wrap packages can be, for example: horizontal or vertical fin seal or lap seal, end seal wrap, horizontal bagged and pillow- pouch packaging. In a typical flow-wrap package configuration a flexible film (such as polyethylene (PP), oriented polypropylene (OPP), metalized oriented polypropylene (MET OPP), polyethylene terephthaiate (PET) or polypropylene) is positioned adjacent to a product, then wrapped around the product. Next, the product is sealed within the flexible film by a package contents cavity. This cavity can be formed by seals to the flexible film defining package ends or film edges. These seals may be permaneni and also may even provide some structural integrity to the package. The film seals are typically formed by heat activation of the film, A disadvantage of using heat activation is that some products in such packages may be deformed and/or damaged by the heat.

[0004] Some attempts to use a cold-seal pressure sensitive adhesive (PSA) to seal some types of packages are known. U.S. Pat. 3,630,346 to Burnside discloses a flexible closure film layer to cover an opening of a blister pack. The film layer has a protective backing portion of its liner stripped away to expose peripheral PSA for sealing the blister opening. Portions of cut outs of the liner remain so that PSA is not exposed to the package interior.

[0005] US Pub. 2010/0172604 to Anderson describes the use of PSA applied to a flexible film to form a reclosabie thermoformed container. Specifically, a PSA layer is used to reseal a flexible cover portion onto a rigid thermoformed container bottom.

[0006] in the art, reclose features may optionally be included on flexible film packages to provide users with an easy and efficient manner of preserving product for later consumption. The reclose feature may provide product containment or even a barrier to moisture and gas. A disadvantage of packages such as described in Burnside and Anderson is that flexible film packaging embodiments are not possible and could not be formed in processes such as vertical flow wrap assembly.

SU MARY

[0007] An exemplary embodiment of a cold seal package forming device is provided, which may have a scoring device configured to score a continuous film laminate, the film laminate comprising a pressure sensitive adhesive (PSA) layer disposed between a first film layer and a second film layer; a stripping device configured to strip at least a portion of the second film layer to expose the PSA; a forming device configured to form the film laminate into a package having an interior; a feeding device configured to feed a product into the package interior; a sealing device configured to seal the product within the package interior via adherence of the exposed PSA on a portion of a package periphery; and a separating device configured to singulate the package from a continuous web of the film laminate.

[0008] In one exemplary embodiment, the stripping device is configured to strip the second film layer to expose the PSA corresponding to the portion of a package periphery to form longitudinal seals and end seals. Optionally, the stripping device can be configured to strip the second film layer to expose the PSA to form one or more gussets.

[0009] In one exemplary embodiment, the sealing device may further comprise one or more package end sealers, wherein the package end sealers are heated end sealers.

[0010] An exemplary method is provided for producing a flexible package from a continuous film laminate having a pressure sensitive adhesive (PSA) layer disposed between a first film layer and a second film layer. The method may comprise scoring the second film layer of the film laminate corresponding to at least a portion of the periphery of the package to be formed; stripping predetermined portions of the scored second film layer to expose the PSA; forming a package interior by sealing the exposed PSA to the at least a portion of the periphery of the package; feeding a product into the package interior; sealing the product within the package interior; and separating individual packages from the continuous film laminate.

[0011] In one exemplary method the step of scoring the second layer of the film laminate can optionally comprises scoring the second layer of the film laminate offline of the package production.

[QQ12] In one exemplary method the step of forming the package interior may optionally include wrapping the film laminate around a vertical form filling tube, and the step of stripping the predetermined portions of the second film layer from the film laminate can occur prior to the wrapping of the film laminate around the vertical form filling tube.

[0013] In one exemplary method the step of scoring the second layer of the film laminate comprises scoring a portion of the edges of the continuous film laminate, and wherein the step of stripping the predetermined portions of the second film layer exposes the PSA to allow formation of a longitudinal seal.

[0014] In one exemplary method the step of scoring the second layer of the film laminate may optionally provide a PSA layer disposed between the first film layer and the second film layer with scores to allow exposure of the PSA to form gussets.

[0015] in one exemplary method the step of sealing the product within the package interior further comprises joining the exposed PSA to the film laminate.

[0016] In one exemplary method the step of the step of scoring the second layer of the film laminate may optionally have the step of scoring the second layer of the film laminate corresponding to an entire periphery of the package.

[0017] In one exemplary embodiment, a flexible package for containment of discrete products, the package may have a flexible film laminate having a first film layer, a second film layer, and a pressure sensitive adhesive (PSA) layer disposed between the first film layer and the second film layer; wherein the second film layer covers a portion of the first film layer and a portion of the PSA is exposed; a package interior formed by portions of the flexible film laminate adhesively laminated to one another by the exposed PSA; and an outer flap portion formed by an outer score line through the first film layer; an inner flap portion formed by an inner score line though the second film layer; wherein the inner score line is displaced from the outer score line so as to form therebetween a marginal region of the outer flap portion that extends beyond an edge of the inner flap portion; wherein the inner score line is configured to provide an opening into the package interior when the inner and outer flap portions are peeled back; wherein the outer score line is configured to penetrate through an outer surface of the laminate but not though an inner surface of the laminate; and wherein the inner score line is configured to penetrate though an inner surface of the laminate but not an outer surface of the laminate. BR!IEF DESCRIPTION OF THE DRAWINGS

[Q018] FIG. 1 illustrates a perspective view of an exemplary embodiment of a vertical bag assembly process for a flexible film package.

[0019] FIG. 2 illustrates a perspective view of another exemplary embodiment of a vertical bag in-line assembly process for a flexible film package.

[0020] FIG. 3 illustrates a perspective view of another exemplary embodiment of a vertical bag in-line assembly process for a flexible film package.

[0021] FIG. 4 is an enlarged fragmentary plan view of blanks according to one approach for use in the assembly process of Fig. 3 with cold sealed end seals.

[0022] FIG. 5 is an enlarged fragmentary plan view of a blanks according to another approach for use in the assembly process of Fig. 3 with heat sealed end seals.

[0023] FIG. 6 is a perspective view of a section of blanks of Fig. 5 having liner layer stripped and pleated for use to form a flexible film quad bag.

[0024] FIG. 7 illustrates an enlarged fragmentary view of area VII in FIG. 6.

[0025] FIG. 8 is a perspective view of a section of a formed flexible film quad bag according to the assembly process of FIG. 3.

[0026] FIG. 9 illustrates a cross-section of the flexible film quad bag of FIG. 8 taken along line

!X-!X thereof where the fin seal is heat sealed with the liner layer stripped.

[0027] FIG. 10 illustrates an enlarged fragmentary view of area X in FIG. 9.

[0028] FIG. 1 1 illustrates a cross-section of a flexible film quad bag according to another approach where the fin seal is heat sealed with the liner layer in place.

[0029] FIG. 12 is a perspective view of another exemplary embodiment of a flexible film quad bag formed by the assembly process of FIG, 2. [0030] FIG. 13 illustrates a side view of an exemplary embodiment of an in-line assembly adapted to form and package a product using a scored flexible film package.

[0031] FIG. 14 illustrates a top plan view of the assembly of FIG. 13.

[QQ32] FIG. 15 illustrates a side view of an exemplary off-line formation of a roll of blanks for use to assemble a flexible film package according to one approach wherein the liner layer is not stripped off-line.

[0033] FIG. 16 illustrates a side view of an exemplary off-line formation of a roll of blanks for use to assemble a flexible film package according to another approach with the liner layer stripped off-line.

[0034] FIG. 17 illustrates a side view of an exemplary off-line formation of a roil of blanks for use to assemble a flexible film package according to another approach with the liner layer stripped and the film scored off-line.

[0035] FIG. 18 illustrates a top perspective view of an exemplary embodiment of a flexible film package formed by a cold seal lamination process of two film layers in an open position.

[0036] FIG. 19 illustrates an exploded top perspective view of the package of FIG. 18 in a closed position.

[0037] FIG. 20 illustrates a top plan view of the cold-seal laminate layer of the package of FIG. 18.

[0038] FIG. 21 illustrates a bottom plan view of cold-seal laminate layer of the package of FIG. 18;

[0039] FIG. 22 illustrates a cross-sectional view of the cold-seal laminate layer of the package of FIG. 20 taken along line XXH-XXII thereof in a dosed position.

[0040] FIG. 23 illustrates a cross-sectional view of the cold-seal laminate layer of the package of FIG. 18 taken along line XXI I-XXII thereof in an open position. [0041] FIG. 24 illustrates a top perspective view of another exemplary embodiment of a flexible film package formed by a cold seal lamination process of a single film layer having a living hinge in a closed position.

[Q042] FIG. 25 illustrates an expanded view of the living hinge area XXV in FIG. 24,

[0043] FIG. 26 is a top plan view of a blank usable to form the package of FIG. 24 according to one approach.

[0044] FIG. 27 is a plan view of a blank usable to form the package of FIG. 24 according to another approach.

[0045] FIG. 28 is a plan view of a section of blanks of flexible film layer of the package of FIG. 18 according to one approach.

[0046] FIG. 29 is a perspective view of a roil of blanks of flexible film layer for the package of FIG. 18 according to one approach.

[0047] FIG. 30 is a perspective view of a dual lane roll of blanks of flexible film layer for the package of FIG. 18 according to another approach.

[0048] FIG. 31 is a perspective view of a roil of blanks for the package of FIG. 24 according to one approach.

[0049] FIG. 32 illustrates a front perspective view of a fourth exemplary embodiment of a blister package array having a cold-seal laminate layer and a cold seal reclose feature in an open position.

[0050] FIG, 33 illustrates a top perspective view of another exemplary embodiment of a flexible film package formed by a cold seal lamination process from a single film layer in a closed position.

[0051] FIG. 34 illustrates a cross-section of the package of FIG. 33 taken along line XXXV- XXXV thereof.

[0052] FIG, 35 illustrates an enlarged fragmentary view of area XXXV in FIG. 34. DETAILED DESCRIPTION

[0053] Packages and methods of manufacture are described herein and, in particular, methods of forming flexible film packages using a cold-sealed pressure sensitive adhesive to form at least a portion of the package. The present embodiments allow for flexible film package forming in a variety of ways not presently known in the art.

[0054] For example, according to one approach, a single laminated film layer may be used to form a flexible flow wrap package by either vertical or horizontal methods. The laminate may include a film layer/matrix layer, a pressure sensitive adhesive (PSA) layer and a liner layer to cover the PSA layer. In this instance, portions of the liner layer may be stripped to expose film portions to allow seals to be formed adjacent to other portions of the film layer configured to form a package interior configured to retain package contents (e.g., comestible or other consumable products). Thus, as will be shown herein in the exemplary embodiments, vertical or horizontal package formation is possible subsequent to stripping the liner layer.

[0055] in some embodiments, additional liner may also be removed from the laminated film layer to form optional package features, such as pleats, pouches, reclose flaps, and the like and combinations thereof. For example, a reclose feature can include a preconfigured "bottom cut" to the liner layer of film laminate (i.e., just through an interior side of the laminate film layer directed to the package interior) to define a package opening and a "top cut" (i.e., just through an exterior side of the laminate film layer directed to the package exterior) to score an opening flap. Another optional package feature may be provided by cutting additional liner layer to expose a portion of the PSA adjacent to the product within the package interior to hold it in place. Yet another optional package feature may be provided by cutting additional film layer to expose a portion of the PSA on the package exterior to allow adjacent packages to be held (stacked) together. [0056] In another exemplary approach, a package may be generally formed by two film layers laminated together by the exposed PSA oriented along or adjacent to (i.e., within 3 cm of the film edge, and preferably between 1 mm to 1 cm) the edges of one or both of the film layers, in this instance, at least one of the two film layers may be a laminated film having, as described above, at least the film layer, the PSA layer, and the liner layer. In this approach, a portion of the liner layer may be stripped away following a predetermined bottom cut to expose the laminate film's PSA to seal/join to the second film layer. Optionally, the package may be formed to provide a pull tab extending past the portion of the exposed PSA to allow a user to pull the two film layers apart to expose the package interior. This feature could also be included in the single film laminate approach described above.

[0057] it is noted that although the exemplary embodiments are described herein as using a film laminate, film layers without a liner may also be used. In some embodiments, the PSA may be pattern applied along (or adjacent to) the peripheral edges of one of the film layers plus wherever else the PSA is desired, in another embodiment, the PSA may be extruded onto the package, in still other embodiments, the laminate may have a PSA layer across the entire film surface, but then have deadened zones formed by over printing, UV light, and the like.

[0058] It is also noted that as described herein, a PSA seal is a "cold" seal formed under ambient temperatures such that heat activation is not required to form a seal. For example, ambient temperature may be in the range between about 20 °C and about 26 °C (about 68 °F and about 79 °F). Thus, heat is not applied to the film during package formation and the film is otherwise not heat activated to form a seal. This does not mean though that heat activation is precluded to form some portions of the package of the present embodiment. Heat-activated film may be used with an applied PSA so that that package may optionally use heat activation to form a portion of the package. Thus, the present embodiments allow for package formation without using a heat seal, though a heat seal may optionally be used to form a portion of the package.

[0059] The cold seal-formed packages according to the present embodiments described herein provide several advantages. For example, use of a cold seal allows for packaging products subject to low melting points, such as chocolate, ice cream, other confections, and the like. With the elimination of a heat sealing step, production speed can be increased. The time needed to heat the film and form the seal is eliminated for that portion of the package formation. Further, as mentioned above, using PSA laminated films, a PSA redosure flap may be formed either on-line (i.e., contemporary with package formation) or off-line (i.e., prior to package formation). Also, where a PSA is used to form a package seal, the thickness of the film, the composition of the film, and optional laminate layers are not as critical compared to the use of heat-activated film. For example, the film can be thicker with a cold seal package formation since heat penetration through the thickness of the film is not a facture. Thus, time, pressure and heat variables as a function of film thickness are removed and/or coposition. Additionally, employing a cold-seal PSA reduces energy needed to seal a package of the present embodiments since the energy needed to heat the film is not present.

[0080] The present embodiments allow for a variety of manufacturing options such as dual film, dual/multiple lane, vertical and horizontal package formation, blister pack, flow-wrap, therma-formed packages, and the like and combinations thereof. Trays to contain product can also be included during package formation. As described above, a bottom die cut on the liner layer of a film laminate may be used in the formation of a cold seal formed package. In some embodiments, the liner layer can be cut off-line. The liner may also be removed off-line, in some embodiments, due to the narrowed diameter of the film roil where the liner layer has been removed and the PSA is exposed, a release layer may be used to allow the PSA to separate from the film layer as it is unrolled during package formation. In others methods, the liner layer may be stripped off just prior to enveloping the product since the thickness of the film laminate will be thinner where the liner layer is removed. A recessed die cut can be difficult to execute in a vertical bagging application given the unevenness of the roil, but leaving a portion of the liner layer in place after stripping the portion of the liner layer to expose PSA provides an advantage. By leaving the liner layer in place for the non-PSA surfaces, the film laminate can slide, e.g., over forming tubes, during package formation. This is possible because the PSA is recessed from the surface of the forming tube by the thickness of the liner. The liner layer can be, for example, from about 40 gauge (about 0.40 mils, about 0.0101 mm) to about 200 gauge (about 2 mils, about 0.0508 mm).

[0081] Thus, the current embodiments allow cold seal package formation on vertical (and even horizontal) form/fill applications. In one approach, the liner layer is removed and the PSA is exposed just before reaching the forming tube where it can be applied to the film to form a seal on at least a portion of the package. This type of seal can be used to form, in a variety of combinations, an end seal or seals, a fin seal, pleats, pouches, opening flaps, and the like. Stripping the liner layer close to the addition of product minimizes the need for modifications to equipment to address the offset of the film landscape (e.g., unevenness) caused by removal of a portion of the liner layer. With the film roll even (i.e., no liner removed), the film can have a longer shelf life. For example, metal lined layer the metal barrier may be stripped away, therefore not having a barrier layer everywhere. Alternately, with a recessed PSA where the liner layer has been removed off-line, a release layer is not needed on the top surface of a roll of film, therefore a stronger adhesive can be used.

[0062] Fig. 1 Illustrates one approach for a vertical package forming and bagging device applying a cold seal to form at least a portion of the package. As noted above, some of the present embodiments allow an optional combination of hot and cold seals on the same package. By way of example, the resultant quad bag 30 as shown in Fig. 1 and described below can have vertical cold-sealed end seals 70a and 70b, and a heat-sealed fin seal 72. The optional pleats (e.g., 126, 128, 130, 132) as shown can be cold sealed. Further, the present embodiments have been described as having a fin seal 72. It is noted that other types of longitudinal seals such as lap seals may be used instead of fin seals,

[0083] In vertical form filling package devices 100 of Fig. 1 , 105 of Fig. 2, and 107 of Fig. 3, pre-scored film 74 for a vertical bag (e.g., package 30) would typically be expected to have difficulty going over rollers when the PSA 36 is exposed. Nevertheless, as shown in Figs. 1-3, a liner layer 38 is removed as it approaches the forming tube 109. in this instance, a release layer is not needed on the top surface of the film layer 37 because only a portion of liner layer 38 is stripped just before package 30 formation. The PSA 36 does not come in contact with the top surface of the film layer 37. In these embodiments, since a portion of liner layer 38 remains, the PSA 36 is recessed by the thickness of liner layer 37 does not need to contact the surface of the rollers. The stripped liner layer 38 is an improvement in the art since an applied PSA seal protrudes on the film layer 37. However, with a portion of the liner layer 38 retained, the PSA 36 is actually below the top surface of film layer 37, allowing the film with PSA exposed to slide over forming portions and rollers of the packaging device 100. Thus, vertical bag applications are possible.

[0064] Other advantages of removing a portion of the liner layer 38 until it reaches the forming tube 109 is that the PSA 36 has a longer shelf life when it is not exposed to ambient air for long periods of time. Also, on preformed rolls, the roll can be unbalanced after the liner portions have been removed since the film has two thicknesses. Thus, in this approach it is preferred that the liner layer 37 is stripped as late in the forming process as possible, for example, just before the forming tube 109 is reached. The package forming device 100 may include an optional gussetting device 140 that may utilize a cold seal or hot seal, depending on whether the liner layer 37 has been stripped. The guessting device 140 can be positioned upstream of the forming tube 109 (Fig. 1) or on the forming tube 109 (Figs. 2-3).

[0085] example: horizontal or vertical fin seal or lap seal, end seal wrap, horizontal bagged and pillow-pouch packaging. In a typical flow-wrap package configuration a flexible film (such as polyethylene (PP), oriented polypropylene (OPP), metaiized oriented polypropylene (MET OPP), polyethylene terephthalate (PET) or polypropylene) is positioned adjacent to a product, then wrapped around the product. Next, the product is sealed within the flexible film by a package contents cavity.

[0066] Exemplary packages 30, as illustrated herein, can be formed by a continuous flexible film web 37 having a width and a longitudinal axis along the length of the package formed therefrom. Flexible film web 37, as suggested above, may be a laminate with several layers of material. Such layers may include, for example, a PET layer, an OPP layer, a polyethylene (PE) layer, a MET OPP layer, a polypropylene (PP) layer, and/or a polylactic (PLA) layer, to note a few options. These layers may be joined by one or more adhesives or by an extrusion process. Alternatively, the flexible film web 37 may be a single layer polymer or a mono-web. Since the flexible film web 37 is at least partially hermetically sealed, the flexible film web 37 preferably provides a gas and moisture barrier. By one approach, the flexible film web 37 may be about 1 mil to about 5 mil (about 100 to about 500 gauge; about 0.0254 to about 0.127 mm) in thickness. By another approach, such as that employed with an optional extrusion lamination, the flexible film web may be about 0.47 mil to about 0.98 mil (about 47 to about 98 gauge; about 0.012 mm to about 0.025 mm) in thickness, in one illustrative embodiment employed with extrusion lamination, the flexible film web 37 may be about 0.67 mil to about 0.71 mil (about 67 to about 71 gauge; about 0.017 mm to about 0.018 mm) in thickness. For the above extrusion lamination examples, the extrudate also will add about 0.4 mil to about 1.2 mil (about 40 to about 120 gauge; about 0.01 to about 0.03mm) of additional thickness to the flexible film 37. The thickness of the flexible film web 37 may be a function of the desired barrier to gas, moisture, and light, along with the level of desired structural integrity, the desired depth of score line, and the available manufacturing equipment. As noted above, the packages according to the present embodiments may be formed of a film that is thicker than previously employed in packages formed using heat seals.

[0067] Optional lamination layers can include heat activation laminates, mefa!ized layers, coatings, glazes, printing and the like. In optional embodiments where a heat seal may be employed to form at least a portion of the package 30, the flexible film web 37 may include a lamination on the surface of the film directed to the inferior of the package 30 that includes a heat sealable copolymer, in some configurations, the heat sealabie polymer forms a seal at temperatures between, for example, about 50 and about 300 °C. in some embodiments, flexible film 37 also may be a pressure sealing film. For example, the pressure sealing film may form a seal between, for example, a pressure of about 0.7 to about 7.0 kg/cm. By one approach, the pressure sealing film may form a seal at about 5.6 kg/cm.

[Q068] A sealant layer may be also be included in the film lamination when a heat seal is employed. The sealant layer may be formed from a variety of polymer sealants, such as a heat activated polymer sealant layer like ethylene vinyl acetate (EVA), ionomer plastic (such as that sold under the trade name SURLYN by DuPont), metaliocene, and organociay, among others. In one example, seals, such as fin seals, can be formed using a heat activated sealant layer, in addition, cold sealant and pressure sealants also may be used with the configurations disclosed herein, it will be appreciated that food grade sealants would be employed when the products within the flexible overwrap film are food products.

[0069] In addition to the various laminate layers mentioned above, additional laminate layers such as, stiffeners, ink, release layers, also may be incorporated into the laminate structure of the flexible film 37, In one configuration, stiffeners may be added to flexible film 37 to increase the stiffness of the flexible film 37. These stiffeners may be in addition to the stiffness adjustments that may be made by changing the thicknesses or densities of the previously mentioned laminate layers. These stiffeners may be added as a component of the extruded film or as a separate layer. For example, a laminate layer such as a polyamide polymer (e.g., nylon) may be included in the laminate film structure of flexible film. By one approach, nylon may be added as a laminate layer that is held to the remainder of the film structure by an adhesive. Further, in one configuration, the nylon layer may be positioned between other layers such that the other flexible film layers are attached on each side of the nylon layer (i.e., a tie layer), in one configuration, a film structure having a thickness of about 2 mil, may include a nylon layer of about 6-10 percent of the film thickness or about 0.003 mm to about 0.005 mm. By yet another approach, the nylon layer may be about 0.004 mm. In one approach, the nylon layer comprises about 8 percent of the total thickness of the flexible film 37.

[0070] As noted, an ink layer may be formed in the laminate as an additional laminate layer. For example, one specific laminate may include ink and a primer disposed between other film layers such as a PET layer and an OPP layer. Alternatively, the ink may be a surface printed layer with a release over-lacquer such as that used for a mono-web. Other additional layers may include a mefa!ized layer, as noted above.

[0071] Preferably, flexible film 37 has a PSA lamination 36. A PSA as described herein is an adhesive typically based on an elastomer with a suitable 'tackifier^*. The resultant adhesive forms a bond when pressure is applied to join the adhered surfaces. No other activation steps are required to form the adhesive bond, but it will be appreciated that adhesive bonds formed using activation steps may also be used. As shown, for example in Fig, 22, PSA 36 is disposed between film layer 37 and liner layer 38. Liner layer 38 can be formed of a material similar to the film 37, but may have an additional release layer (not shown) to allow liner 38 to be pulled away from PSA 36 while the PSA is not separated from film 37. Thus the adhesion of PSA 36 to liner 38 is less than the adhesion of the PSA to film 37.

[QQ72] PSA 36 preferably maintains adhesiveness after initial separation. PSA 36 is preferably neutral or non-reactive to the product to be packaged in the package 30. By one approach, PSA 36 may include, for example, a cold formed adhesive, a hot melt adhesive, a cold seal adhesive, a natural or synthetic latex adhesive, a low tack adhesive, ethylene vinyl acetate (EVA), an acrylic adhesive (such as a water-based or solvent acrylic adhesive), a styrene block copolymer adhesive, a butyl rubber adhesive, a silicone rubber adhesive, a natural rubber adhesive, a nitriies adhesive, an acrylic emulsion adhesive, and combinations thereof. Further, the PSA 36 may be extruded, coextruded, printed, or combinations thereof onto film layer 37. In one configuration, the PSA 36 can be an acrylic water-based adhesive. PSA 36 may be a variety of thicknesses. By one approach, the PSA 36 may be about 0.5 to about 1 .5 mil (about 50 to about 150 gauge; about 0.0127 to about 0.0381 mm) in thickness. The PSA 36 may be suitable for reclosing in a variety of conditions, such as ambient and refrigerated conditions, to note but a few.

[0073] In some configurations, the PSA 36 may provide a substantially hermetic seal even under refrigerated conditions (i.e., the pressure sensitive adhesive can be operable in a temperature range of about ~10°C to about 90 °C; and preferably in the range of about 2°C to about 7°C). The PSA 36 may be applied directly to the flexible film 37, but also may be applied to ink or another coating on the flexible film 37. By one approach, the PSA 36 remains attached to the flexible film 36, even after repeated separation, such as when an optional package opening is employed. In some embodiments, the PSA exhibits a greater bond strength to desired surfaces (such as not delaminating from the flexible film) than to the liner 38. Again, if the products within the flexible overwrap film are food products, then a food grade PSA would be employed.

[0074] Exemplary packages formed by the present embodiment devices and methods are illustrated in Figs. 18-35, Pursuant to the various embodiments described herein, reclosable packages, and particularly reclosable package housings initially containing a plurality of discrete products and having an optional adhesive-based reclosable fastener thereon are provided. The present embodiments provide packages for consumable product applications, including many food products and non-food products, such as medical, pharmaceutical, and industrial packaging products, and the like.

[0075] Figs. 13-14, 18-23 and 28 illustrate a flexible package 30b made from dual film layers 37 and 34. In this configuration at least one of the package layers is a film laminate having at least a PSA layer 36 disposed between a top film layer 37 and a liner layer 38. For example, package 30b (See, Fig. 19) is formed by joining exposed PSA 36 on film 37 and a second film 34 after liner layer 38 is stripped away from the periphery of the film defining the package edges (or at least near the package edges).

[0076] Scoring device 78, as described herein and shown, for example, in Fig. 2, can define at least a portion of the package seals, and an optional opening to the package assembly interior upon initial rupture or initial opening to allow retrieval of product 62. The package opening allows a consumer to easily access the product 62 within the package 30. Scoring device 78 may form scores in the film 37 in a variety of operations, including, for example, mechanically-formed, such as by a die cut, laser-formed, or any other forming operation that compromises the integrity of the film 37. Such operations are described, for example, in U.S, Patent No. 5, 158,499, incorporated by reference herein in its entirety. Film score may be formed on the interior or exterior surface of the flexible overwrap. In addition, scores, such as score 40 and 48, as shown, for example, in FIG. 12, may be disposed partially through the thickness of the flexible film (a partial depth score line), or through the entire flexible film thickness (a full depth score line). In addition, the score may be a variety of widths, as well as depths. Score also may be a discontinuous line such as a set of perforations, which also may be either partially through the depth of the flexible overwrap or completely through the entire depth of the flexible overwrap.

[0077] Film scores 40 and 48 can be developed for a variety of configurations and function and the present embodiments show but of a few of the possible embodiments. For example, in addition to scoring the liner layer 38 to allow removal of the liner layer 38 to form package seals and/or pleats, film score 40 may also form a flap upon opening of the package 30. Other configurations for film scores are possible within the scope of the present embodiments and may depend on the products being packaged, whether a structural support is being incorporated into the flexible film package 30, and the manufacturing equipment available, among other factors. In one approach, film score 40 and 48 may define a package opening 31 that permits access to at least 70 percent of the products within the flexible overwrap upon initial opening of the package 30. By yet another approach, film score 40 and 48 defines a package opening 31 that permits access to up to 90 percent of the product within the package. I another configuration, film score 40 and 48 may define a package opening 31 permitting access to at least 50 percent of the product within the package 30.

[0078] Figs. 19, 24, 32 and 33 also show an optional reciosable opening 40 by a top-cut scoring of film 37 to define an opening flap 49. Liner layer 38 has a bottom-cut score 48 so that as tab 46 is pulled, score line 40 of film layer 37 separates the flap 49 from the package (i.e., liner layer 38), while also exposing a portion of PSA 36 and a portion of liner 38. The exposed PSA 36 of the flap 49 advantageously allows the flap 49 to provide a reclose feature for the package 3Gb. A score line tear propagation inhibitor line 42 and PSA deadened area 44 (i.e., no PSA between film layer 37 and liner layer 38) may optionally be added to theflap 49. [0079] Package 30b may be formed by device 106 of Figs. 13 and 14 using laminated roil stock 58 (Fig. 29) and a second film roil 86. in a dual lane application, laminated roll stock 54 (Fig. 30) may be used. Roll stock 58 of Fig. 29 may be formed by scoring assembly 101 in Fig. 15, which forms scored film generally indicated as roll 74.

[0080] Fig. 15 shows a scoring assembly 101 , which can score a roil of unscored film laminate 76. As shown, unscored film laminate 76 is unwound and passed through a scoring device 78 (mechanical, laser, and the like) to form desired top and bottom cuts, then rewound to form the roll of blanks (e.g., scored blanks 54, 58, 59, 60, 74 and 88). Preferably the liner layer scores have a radius to reduce tear propogation, such as shown by radii 39 on Fig. 4. Radii can be in the range of about 1 mm to about 5 mm and preferably about 2-3 mm. Scoring assembly 101 may also have a PSA deadening device to provide the deadened PSA area 44 (i.e., area lacking PSA) of the package 30b. Fig. 16 provides an optional scoring assembly 102, which is similar to scoring assembly 101 , except that after the scoring step, the stripped liner 38 is removed via take-off rollers (e.g., pinch rollers) 82, then rolled up on discarded liner roll 90. Fig. 17 illustrates another optional device 104 adding an optional step of passing the scored and stripped film 37 through a pleating device 140, to preform any desired pleating, resulting in formation of one or more pleats as shown, for example, in Fig. 6). The film 37 is then rewound to form a pleated roll 88.

[0081] As shown in Figs. 13 and 14, package 30 assembly device 106 first removes a portion of the liner 38 needed to expose the desired area of PSA 36. Next, side roller 96 receives product 62 and joins film 37 with second film 34 (which is supplied by bottom film layer roll 86) to enclose product 62. The sides of the package 30b are joined by the pressure applied by side rollers 96 between exposed PSA of film layer 37 to second film layer 34. Next, end seal and cutter rollers 98 seal the package ends between exposed PSA of film layer 37 to second film layer 34 and separate the film to singulate and form the package 30 by forming and cutting end seals 70, It is noted that the formation of the end seals 70 and the cutting step may be carried out in separate consecutive steps instead of one step. It is also noted that either of the end seals 70 or side seals may optionally be heat seals.

[QQ82] Additional package configurations according to other approaches are shown in Figs. 24-27, 32 and 33. In package 30c of Fig. 24, a single laminated web 37 is used that has been stripped and scored such as shown in Fig. 26. A roil of dual lane blanks 60 of this arrangement is shown in Fig. 31. When formed into a package, a leading edge 56 of film 37 is folded back to form a living hinge 52, which envelops product 62, which is then joined as described above around the package periphery to join the exposed PSA 36 to the inward directed portion of the film 37. in Fig. 26, PSA is exposed on only one panel on one side of the living hinge 52 of package 30b. In Fig. 27, PSA is exposed on both sides of the living hinge 52 of package 30c.

[0083] Variations of package 30, as shown and described herein, have been shown in the form of a generally rectangular shape. However, it is within the contemplation of the present embodiments that the package could be formed in a variety of shapes, and the embodiments are not restricted to the shapes which are shown. For example, Fig. 32 shows an alternate exemplary embodiment of a package 30d in a form of a blister pack array 50 having a blister pack tray 32 joined to a film layer laminate 37 by the exposed PSA once the liner 38 has been removed. Figs. 33-35 show another approach of a flexible sleeve (slug) flow wrap package 30e having end seals 70a, 70b and joined along its length by a longitudinal seal 72.

[Q084] In other embodiments, package assembly devices of Figs. 1-3 form film 37 into flow- wrap type packages, which may employ a continuous film or web to envelop a product during assembly or formation of the package. These flow-wrap flexible overwraps may include, for example, horizontal or vertical fin seal or lap seals, end seal wraps, horizontal bagging and pillow-pouch packaging, in one configuration, flow-wrap flexible overwrap may position a flexible film (such as polyethylene, polyethylene terephtha!ate (PET) or polypropylene), adjacent a product, wraps the film around the product, forms a seal from the ends or edges of the film, and then forms seals at either end of the product.

[Q085] Figs, 1-3 show exemplary devices 100, 105, 107 configured to provide a vertical form filled bag using exposed PSA 36 to at least partially seal the bag 30. It is noted that these configurations may interchangeably use some of the described options. For example, in Fig. 1 , strips of liner 38 are removed to allow formation of a cold seal fin seal 72 and cold seal pleats. The end seals 70a, 70b as shown in Figs. 1-3 are heat sealed. However, a cold seal may also be used to form the end seals70a, 70b, such as shown in Figs. 2-3. Optional pleating may be upstream of forming tube 109 (Fig. 1) or while on the forming tube 109 (Figs. 2-3). Further, the film may be scored off-line such as shown in Figs. 1 and 3 or in-line, such as shown in Fig. 2.

[0088] Accordingly, Fig. 1 provides an exemplary vertical form feed flow wrap device 100 utilizing PSA cold seals to at least partially form package 30. In this approach, a roll of scored blanks 74 (See e.g., Fig. 5) has strips of previously scored liner 38 removed to expose PSA 36. Next, prior to film layer 37 reaching forming tube 109, an optional gusseting device 140 may fold film layer 37 to provide a desired number of pleats (as illustrated, four pleats 126, 128, 130 and 132) (See Figs. 6-1 1), Next, the now gusseted continuous flexible film web 37 with PSA exposed on its edge portions (fin seal regions) 72 is wrapped around a forming device such as a forming tube 109 (or alternately a forming collar or in any other manner) and the edge portions 72 are brought together for sealing by fin cold sealer 108, as shown, for example, in Figs. 2-3, Fin cold sealer 108 (which may optionally be a hot sealer) can join edge portions 72, for example, by pinch rollers against the exposed PSA portions of the continuous film web 37, Alternately, the fin seal could be formed using a heat seal, in this instance the continuous film web 37 would have a heat activation layer directed to the inward side of the film 37. Next, product 62 may enter a package interior formed by the fin seal 72 and the end sealer and cutter 142 below. In alternate embodiments shown in Figs. 2 and 3, end sealer 142 (which may optionally be a hot sealer) can also use the exposed PSA 36 to form a cold end seal. A separation cut separates the individual packages 30 from the continuous flexible film 37 by cutting all the way through the flexible film web 37. In one example, this separation point occurs between the second end seal 70b of a leading package and the first end seal 70a of a trailing package. It will be appreciated that the separation point may be at an alternative location.

[0087] Fig. 2 illustrates another approach of a package forming device 105 in vertical form filling tube using exposed PSA. In this embodiment, an unscored laminate web 76 is scored by a scoring device 78 followed by stripping the web portion needed to expose the PSA 36 via take off roller 84. it is noted though that in this embodiment, longitudinal seal 72 is a heat seal. Area 72 of this embodiment has a heat activation portion. Next, the flexible film web 37 is formed around the forming tube 109 as above where the edges form a longitudinal fin seal 72. Next an optional pleating device 140 can provide gussets by either heat or cold seal. Finally, the end seals 70a, 70b are formed. In this instance, the end regions do have exposed PSA, so the end seals 70a, 70b would be cold seals (See e.g., region 70 of Fig. 4). Fig. 3 shows a third approach wherein a package forming device 107 is similar to Fig. 2 in that the end seals 70a, 70b, fin seals 72, and pleats 126, 128, 130, 132 are cold seals. However, in this instance device 107 uses a prescored laminate web 74.

[0088] Again, it is noted that other configurations are possible to vary when and where the gussets are formed, if any, when the film is scored (off-line and on-line) and which of the end seals, fin seal, and gussets are cold seals.

[0089] While preferred embodiments have been described in detail, variations and modifications can be effected within the scope of the present embodiments. Throughout this specification and the drawings and figures associated with this specification, numerical labels of previously shown or discussed features may be reused in another drawing figure to indicate similar features.

Claims

CLAIMS WE CLAIM:

1. A cold sea! package forming device comprising:

a scoring device configured to score a continuous film laminate, the film laminate comprising a pressure sensitive adhesive (PSA) layer disposed between a first film layer and a second film layer;

a stripping device configured to strip at least a portion of the second film layer to expose the PSA;

a forming device configured to form the film laminate into a package having an interior; a feeding device configured to feed a product into the package interior;

a sealing device configured to seal the product within the package inferior via adherence of the exposed PSA on a portion of a package periphery; and

a separating device configured to singulate the package from a continuous web of the film laminate.

2. The device of claim 1 , wherein the stripping device is configured to strip the second film layer to expose the PSA corresponding to the portion of a package periphery to form longitudinal seals and end seals.

3. The device of claim 2, wherein the stripping device is configured to strip the second film layer to expose the PSA to form one or more gussets.

4. The device of claim 1 , wherein the sealing device further comprises one or more package end sealers, wherein the package end sealers are heated end sealers.

5. A method of producing a flexible package from a continuous film laminate having a pressure sensitive adhesive (PSA) layer disposed between a first fiim layer and a second film layer, the method comprising:

scoring the second film layer of the film laminate corresponding to at least a portion of the periphery of the package to be formed;

stripping predetermined portions of the scored second film layer to expose the PSA; forming a package interior by sealing the exposed PSA to the at least a portion of the periphery of the package;

feeding a product into the package interior;

sealing the product within the package interior; and

separating individual packages from the continuous film laminate,

6. The method of claim 5, wherein the step of scoring the second layer of the film laminate further comprises scoring the second layer of the fiim laminate offline of the package production,

7. The method of claim 5, wherein the step of forming the package interior further includes wrapping the film laminate around a vertical form filling tube, and wherein the step of stripping the predetermined portions of the second film layer from the fiim laminate occurs prior to the wrapping of the film laminate around the vertical form filling tube.

8. The method of claim 5, wherein the step of scoring the second layer of the fiim laminate comprises scoring a portion of the edges of the continuous film laminate, and wherein the step of stripping the predetermined portions of the second fiim layer exposes the PSA to allow formation of a longitudinal seal.

9. The method of claim 1 , wherein the step of scoring the second layer of the film laminate further comprises providing a PSA layer disposed between the first film layer and the second film layer with scores to allow exposure of the PSA to form gussets.

10. The method of claim 1 wherein the step of sealing the product within the package interior further comprises joining the exposed PSA to the fiim laminate.

1 1. The method of claim 1 , wherein the step of scoring the second layer of the film laminate further comprises scoring the second layer of the film laminate corresponding to an entire periphery of the package.

12. A flexible package for containment of discrete products, the package comprising:

a flexible film laminate having a first film layer, a second film layer, and a pressure sensitive adhesive (PSA) layer disposed between the first film layer and the second film layer; wherein the second fiim layer covers a portion of the first film layer and a portion of the PSA is exposed;

a package interior formed by portions of the flexible film laminate adhesively laminated to one another by the exposed PSA; and

an outer flap portion formed by an outer score line through the first film layer;

an inner flap portion formed by an inner score line though the second film layer;

wherein the inner score line is displaced from the outer score line so as to form therebetween a marginal region of the outer flap portion that extends beyond an edge of the inner flap portion;

wherein the inner score line is configured to provide an opening into the package interior when the inner and outer flap portions are peeled back; wherein the outer score line is configured to penetrate through an outer surface of the laminate but not though an inner surface of the laminate; and

wherein the inner score line is configured to penetrate though an inner surface of the laminate but not an outer surface of the laminate.