Blister package

Abstract

A child-resistant multi-step tear-access blister package having at least one product well containing a product. The product is accessed by tearing the blister package from a peripheral edge toward the product well. A step in addition to tearing is required to access the product, thereby elevating the cognitive skill necessary to access the product above those of a typical small child. In the disclosed exemplary embodiment, the additional step involves weakening a tear-resistant channel blocking a tear path from the peripheral edge of the package to the product well. More particularly, initial tearing of the package toward the product well is interfered with by the presence of the tear-resistant channel interrupting the tear path. The tear-resistant channel may be bent or snapped to permit tearing therethrough and to permit continued tearing of the blister package toward the product well to access the product.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

The detailed description will be better understood in conjunction with the accompanying drawings, wherein like reference characters represent like elements, as follows:

FIG. 1 is a perspective view of a blister package formed in accordance with the principles of the present invention;

FIG. 2 is a side elevational view of the blister package of FIG. 1;

FIG. 3 is a plan view of the blister package of FIG. 1;

FIG. 4 is a perspective view of the blister package of FIG. 1, with a tear being initiated;

FIG. 5 is a perspective view similar to that of FIG. 4, but with tearing interrupted by an optional keyhole;

FIG. 6 is a perspective view similar to that of FIG. 5, but with tearing interrupted by a tear-resistant blister channel which must be further manipulated; and

FIG. 7 is a perspective view similar to that of FIGS. 4-6, showing a tear that has propagated through the tear-resistant blister channel; and

FIG. 8 is a perspective view similar to that of FIGS. 4-7, showing a tear that has propagated to the product well to grant access to the product within the product well.

DETAILED DESCRIPTION OF THE INVENTION

The principles of the present invention may be applied to blister packages for packaging any type of product that is not to be readily accessed by a child. Exemplary blister package 100, formed in accordance with principles of the present invention and illustrated in FIGS. 1-6, is made up of blister 102, in which at least one product well 104 is formed, and blister backing 106, as may be seen with particular reference to FIG. 2. Blister 102 and blister backing 106 preferably are coupled together to retain a product within product well 104. For example, blister 102 and blister backing 106 may be sealed together, such as by conduction or any sealing method known in the art, to prevent ready access to the product held therein. Depending on the product within product well 104, it may be desirable to form a hermetic seal about product well 104.

In the exemplary embodiments of FIGS. 1-8, product well 104 is shaped for holding or containing a medication, drugs, or pharmaceuticals (e.g., tablets, capsules, caplets, and the like; hereinafter “medications” for the sake of convenience, and without any intent to limit). However, it will be appreciated that product well 104 may be shaped to contain items of different sizes and shapes other than those for typical medications. Additional wells or cavities 110, 112, 114 may be formed, such as to provide brand information and/or a logo, such as illustrated by well 110. Alternatively, or additionally, at least three additional wells of equal height (and preferably the same height as product well 104) may be provided to facilitate stacking of blister packages 100 on top of each other for loading into a carton in an efficient manner.

Blister 102 may be formed from a rupture-resistant, semi-rigid material. Any conventional thermoformed material used in blister packaging, such as plastic, or cold-formable materials, such as plastics or foils or foil-plastic lamination, may be used. Preferred materials include PVDC, a combination of PVC/PE/PVDC, pharmaceutical grade PVC, or another thermoplastic material, such as plastic, polypropylene, polyethylene, styrene, cold-formed foil, or other suitable materials for packaging. The material may be a single ply or multiple plies or laminations. If desired, such material may be selected to retain a desired shape and to be crush resistant so that a friable product within product well 104 is retained therein without being damaged. If viewing of the product within product well 104 is desirable, then a plastic, rather than a foil, is used. Of course, compatibility of the blister material with the product to be contained within product well 104 (particularly when such product is a medication) is an important factor in selection of a material for blister 102. Barrier properties (e.g., in terms of moisture and oxygen protection) may also be an important consideration. For instance, a cold-formed foil is generally necessary for stability of more hydroscopic medications, such as chewable medications. Protection from UV light may also be an important consideration for certain products, requiring translucent or opaque material to be used for blister 102. Any other characteristics that would contribute to stability of the product may affect the selection of material for forming blister 102.

In order to prevent the product held within product well 104 from being pushed through blister backing 106 (and thus rendering the blister package 100 not child-resistant), blister backing 106 is preferably formed from a rupture and puncture resistant material, such as a tear-resistant lamination. Preferably, the material of blister backing 106 is selected to be compatible with the material of blister 102, such as for heat sealability. Additionally, as with blister 102, compatibility of the blister material with the product to be contained within product well 104, barrier properties (as described above), UV protection, and other characteristics (such as, but not limited to, those that would contribute to stability of the product) may be important considerations in selecting the material of blister backing 106. Exemplary materials that may be used for blister backing 106 include, without limitation, PET, a PET foil lamination, or some other lamination of oriented polypropylene. If desired, the material of blister backing 106 may be substantially rigid to retain the overall stiffness of blister package 100. However, the rigidity of blister 102, or the rigidity resulting upon coupling of blister 102 with blister backing 106 may be sufficient such that relative rigidity of blister backing 106 is unnecessary.

Because blister package 100 is preferably a tear-access blister package, tearability of the materials used to form blister package 100 is generally a factor in selecting the materials. Generally, if blister package 100 is to have a degree of child-resistance, the material of blister 102 and/or the material of blister backing 106 is selected to be at least somewhat tear-resistant. The degree of tear resistancy is based on the level of child-resistancy desired or necessary for the blister package. The tear resistance of the blister material or the tear-resistance resulting from coupling the blister and the blister backing may be sufficient such that the blister backing material need not be tear resistant. Likewise, the tear resistance of the blister backing material or the tear-resistance resulting from coupling the blister backing and the blister may be sufficient such that the blister material need not be tear resistant. The sealing of blister 102 and blister backing 106 may together further strengthen the overall tear-resistance of blister package 100.

Generally, the material of blister 102 and/or the material of blister backing 106 is selected to be tearable only when weakened, such as by cuts, nicks, scores, perforations, or other lines of weakening (hereinafter “weakening(s)” will be used to refer to all such weakenings for the sake of convenience only, and with no intent to limit). The particular type of weakening may be selected based on the level of child-resistancy required, or other various factors (including, but not limited to, tamper-evidency desired, or machining or other manufacturing constraints). For instance, perforations typically provide a cleaner break than do scoring, and are typically easier to form (regulation of the depth of a score line in a relatively thin material generally requires a higher degree of control than required to completely cut through a material such as to create perforations). The land areas between the perforations may be varied to alter the ease of tearing therethrough. In addition, the material of blister 102 and/or the material of blister backing 106 may be oriented to facilitate tearing in a particular direction. It will be appreciated that the materials of blister 102 and blister backing 106 may be selected so that they may be cut through with scissors.

Blister package 100 as a whole preferably is resistant to being torn or opened at places other than along weakenings. Thus, an initial weakening, such as a tear notch 120, may be provided at least one location along the peripheral edge of blister package 100, as illustrated in FIGS. 3 and 4. In the embodiment illustrated in FIGS. 1-8, blister package 100 is oblong with product well 104 at one end (along the major axis of the package) and initial tear notch 120 at the other end, such that use of initial tear notch 120 to access the product well 104 at the opposite end of blister package 100 is not necessarily intuitive for a young child. However, it will be appreciated that other configurations are well within the scope of the present invention. Initial tear notch 120 may lead to an initial weakening 122 that further facilitates tearing of blister package 100 to access the contents of product well 104. Although initial tear notch 120 is illustrated in FIG. 3 as a notch, initial tear notch 120 need not specifically be shaped as a notch, and may be any other modification to blister package 100 that facilitates tearing therethrough. For instance, a simple cut through the material of blister package 100 may be provided. Alternatively, initial weakening 122 may be provided spaced a short enough distance from the peripheral edge of blister package 100 to facilitate initial tearing specifically near such weakening, yet creating a land area between initial weakening 122 and the peripheral edge of blister package 100 small enough as to not be readily apparent to a child. Such design would result in a package that is moderately difficult to start tearing, but once tearing has been initiated and the weakening reached, is relatively easy to continue tearing. Preferably, sufficient blister packaging material (i.e., the combined layer of blister 102 and blister backing 106) is provided to grasp the packaging adequately to initiate tearing. As in the embodiment of FIGS. 1-8, initial tear notch 120 may be offset from the central axis of blister package 100 to facilitate grasping of a sufficient surface area of blister package 100 with one hand while grasping the smaller remaining surface area of blister package 100 to tear blister package 100.

In accordance with the principles of the present invention, simple tearing of blister package 100 is inhibited to result in a child-resistant blister package that is nonetheless readily opened by senior and physically disabled adults. More particularly, an action in addition to simple tearing must be performed to gain access to the content of product well 104. In the embodiments of FIGS. 1-8, the presence of a tear-resistant channel 124 in the tear path from the edge of blister package 100 toward product well 104 interferes with further propagation of the initial tear through blister package 100. If desired, initial weakening 122 in blister package 100 may optionally end (in a direction away from the peripheral edge of blister package 100 and toward product well 104) at a keyhole 125, which further inhibits further tearing along initial weakening 122 upon reaching tear-resistant channel 124, as illustrated by FIG. 5. The spacing of keyhole 125 from tear-resistant channel 124 is determined based on the desired tear-resistant affect, and is influenced by such factors as the tear-resistance of the material(s) of blister package 100. It is believed that the configuration of tear-resistant channel 124 interferes with the propagation of the initial tear because the direction of tearing (initially within the major plane of blister package 100) is altered, requiring deflection of the direction of tearing force applied to blister package 100. Such interference generally results in enough deterrence that a small child loses interest in opening blister package 100, thereby adding a level of child-resistance to blister package 100. Tear-resistant channel 124 may also serve an additional function of stiffening blister package 100 so it does not warp or otherwise bend or deform. If desired, tear-resistant channel 124 may extend around the entire periphery of blister package 100, encircling product well 104, as illustrated in the exemplary embodiment of FIGS. 1-8, thereby adding a further level of child-resistance.

Because tear-resistant channel 124 does not readily tear, an action in addition to tearing must be performed in order to continue tearing blister package 100 to access the contents of product well 104, as illustrated conceptually by FIG. 6. Generally, manipulation of tear-resistant channel 124 to weaken tear-resistant channel 124 is required. For instance, if the material of blister 102 is relatively frangible, then breaking or snapping of tear-resistant channel 124 may be necessary in order to continue tearing blister package 100 toward product well 104. Alternatively, simple bending of tear-resistant channel 124 may suffice to weaken tear-resistant channel 124 sufficiently to permit tearing therethrough. As will be appreciated, various characteristics of the material of tear-resistant channel 124 will affect if it breaks or bends. The size and shape of tear-resistant channel 124 may be modified to enhance or to affect the interference it creates in opening blister package 100 and its consequent affect on the child-resistancy of blister package 100. If desired, tear-resistant channel 124 may be weakened, such as by a nick 127 (see FIGS. 3-6).

Once tear-resistant channel 124 has been sufficiently weakened or otherwise manipulated to permit tearing therethrough, tearing may proceed toward product well 104, as illustrated conceptually by FIG. 7. If desired (generally depending on the desired child resistancy of blister package 100 and the materials of blister-102 and blister backing 106) an additional weakening 126 may be provided to facilitate propagation of the tear from tear-resistant channel 124 toward product well 104. In view of typical stability requirements of the product additional weakening 126 preferably ends a short distance from product well 104, as illustrated in FIG. 7, to maintain the integrity of the seal of product well 104. The industry standard typically requires a cut in the blister package to be no more than approximately 2-4 mm from the seal of the product well. Tearing into product well 104 once the end of additional weakening 126 has been reached is relatively simply achieved to reach the contents of product well 104, as illustrated in FIG. 8.

The formation of blister package 100 of the present invention may be achieved in accordance with any desired method of manufacture achieving the child-resistant features of the present invention. For instance, blister 102 and blister backing 106 may be supplied as separate rolls of material to a blister-package-forming machine (machines such as those sold by Uhlmann Packaging Systems, Inc. of Towaco, N.J., or Klöckner Pentaplast, of Gordonsville, Va., may be used). The blister material may be unrolled and passed through a forming section at which blister sections such as product well 104, tear-resistant channel 124, and additional wells 110, 112, 114, may be formed, such as by vacuum pressure, thermoforming, or a mechanical deformation process. For instance, the blister material may be stretched into a cavity with a vacuum applied thereto to form blister sections. Alternatively, the blister material may be exposed to heating elements for a pre-determined time, and then trapped in a forming station where the blister material is subjected to both vacuum and pressure. During this process, the blister material may also be mechanically assisted into the blister cavity or mold via a matched metal plug to form any or all of the blister sections. The blister sections can alternatively be formed by using cold-formed foil and cold-form packaging processes.

Once blister sections are formed in blister 102, a product is placed in product well 104. Backing layer material may then be fed from a roll and sealed to blister 102 and the bottom of the filled product well 104 to seal the product within product well 104 and blister package 100. Blister 102 and the blister backing 106 may be joined together by any sealing method known in the art that adequately seals a product within product well 104. For instance, if the product has a low stability or shelf-life such that an air-tight seal is necessary, then the materials of blister 102 and blister backing 106 and the sealing method are selected to achieve an air-tight seal around product well 104. Exemplary sealing methods include heat sealing, adhesive seals (such as with heat-activated or solvent adhesive), RF or sonic seals, or any other suitable means. Typically, conductive sealing through heated plates (e.g., a thermoforming operation) is used. The materials of blister 102 and the blister backing 106 may be pre-treated to facilitate sealing of such materials together. For instance, a coating may be applied to either or both materials to permit heat sealing (generally necessary with foils that do not readily heat seal to PVC or PVDC).

Weakenings, such as described above, may be formed at any desired stage of forming blister package 100. For ease of manufacturing, blister package 100 is passed through equipment designed to form the desired type of weakenings once product wells 104 have been filled and blister 102 and backing layer 106 are sealed together. Once blister package 100 has been formed with its desired child-resistant features, it may be passed through die-cutting equipment for separation from the rolls of blister and blister backing materials. If a nick is provided on the tear-resistant channel (depending on the level of child-resistance required), it may be formed in the thermoforming mold or at the section at which the other weakenings are created.

As should be appreciated from the foregoing, a blister package formed in accordance with the principles of the present invention is simple in construction, can be made economically and relatively simply, provides a protective environment for products, and can be readily opened without the use of utensils, such as scissors or knives, but cannot readily be opened by children.

While a blister package formed in accordance with the principles of the present invention is particularly shown and described herein with reference to the particular embodiment illustrated in the drawings, it is to be understood that the present invention may be used with many additions, substitutions, or modifications of form, structure, arrangement, proportions, materials, and components and otherwise, used in the practice of the invention, which are particularly adapted to specific environments and operative requirements without departing from the spirit and scope of the present invention as defined in the accompanying claims. In particular, it will be clear to those skilled in the art that the present invention may be embodied in other specific forms, structures, arrangements, proportions, and with other elements, materials, and components, without departing from the spirit or essential characteristics thereof. For instance, more than one product well may be provided in blister package 100. Moreover, the blister package itself may be formed as an individual unit, or in a sheet, strip, matrix, or array of packages which may be joined for ready separation (such as by weakenings such as tear-apart perforations) into individual units. The presently disclosed embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims, and not limited to the foregoing description.

Claims

1. A blister package comprising: a blister having at least one product well formed therein; anda blister backing coupled to said blister to enclose said at least one product well;wherein:said blister package has a peripheral edge and a weakening is formed in said blister package in a direction from said peripheral edge toward said product well to facilitate tearing of said blister package to access a product in said product well; andsaid weakening is interrupted along a path from said peripheral edge to said product well such that an action in addition to tearing along said weakening must be performed in order to continue tearing said blister package to access a product in said product well.

2. A blister package as in claim 1, wherein said weakening is interrupted by a channel formed in said blister in the path of said weakening between said peripheral edge of said blister package and said product well.

3. A blister package as in claim 2, wherein: said blister package is tear resistant;said weakening is formed to overcome the tear-resistancy of said blister package to facilitate tearing of said blister package to access said product well; andsaid channel is a tear-resistant channel.

4. A blister package as in claim 3, wherein manipulation of said channel is required to weaken said channel.

5. A blister package as in claim 4, wherein said manipulation includes snapping or bending said tear-resistant channel.

6. A blister package as in claim 4, wherein a nick is formed in said tear-resistant channel to facilitate weakening of said tear-resistant channel.

7. A blister package as in claim 2, wherein said weakening comprises a first weakening extending in a direction from said peripheral edge of said blister package toward said channel and a second weakening extending in a direction from said channel toward said product well, said channel separating said first and second weakenings from each other.

8. A blister package as in claim 1, wherein: said blister package is oblong with a major axis having a first end and a second end;said product well is adjacent said first end of said major axis; andan initial weakening is provided at a peripheral edge of said blister package adjacent said second end of said major axis.

9. A blister package having a peripheral edge, said blister package comprising: a blister having at least one product well formed therein;a blister backing coupled to said blister to enclose said at least one product well; anda tear-resistant channel formed in said blister at a location between said peripheral edge and said product well;wherein tearing of said blister package from said peripheral edge to said product well is interrupted by said tear-resistant channel such that an action in addition to tearing must be performed to access a product in said product well.

10. A blister package as in claim 9, wherein: at least one of said blister, said blister backing, or the combination of said blister with said blister backing imparts tear resistancy to said blister package;a first weakening is formed in said blister package in a direction from said peripheral edge of said blister package toward said tear-resistant channel;a second weakening is formed in said blister in a direction from said tear-resistant channel toward said product well, said channel separating said first and second weakenings from each other; andsaid tear-resistant channel is formed to separate said first and second weakenings to interrupt tearing of said blister package from said peripheral edge toward said product well.

11. A blister package as in claim 10, wherein said first weakening ends at a distance spaced apart from said tear-resistant channel.

12. A blister package as in claim 11, wherein said first weakening ends at a keyhole spaced apart from said tear-resistant channel.

13. A blister package as in claim 9, wherein said channel extends around the entire periphery of said blister package to encircle said product well.

14. A method of forming a blister package comprising: forming at least one product well in a blister;coupling said blister to a blister backing to enclose said at least one product well;forming a weakening in said blister package in a direction from a peripheral edge of said blister package toward said product well to facilitate access to a product in said product well; andforming an interruption in said weakening such that an action in addition to tearing along said weakening must be performed in order to continue tearing said blister package along said weakening to access a product in said product well.

15. A method as in claim 14, wherein forming an interruption in said weakening comprises forming a channel in said blister in the path of weakening between the peripheral edge of said blister package and said product well.

16. A method as in claim 15, further comprising forming said channel around the entire periphery of said blister package to encircle said product well.

17. A method as in claim 15, further comprising forming said weakening as a first weakening extending from the peripheral edge of said blister package toward said channel and a second weakening extending from said channel toward said product channel, said channel separating said first and second weakenings from each other.

18. A method as in claim 17, further comprising forming said first weakening to end at a distance spaced apart from said channel to further inhibit tearing of said blister package upon reaching said channel.

19. A method of opening a tear-access child-resistant blister package having a peripheral edge and a product well containing product therein spaced from said peripheral edge, said method comprising: tearing said blister package from said peripheral edge toward said product well;further manipulating said blister package after initially tearing said blister package from said peripheral edge to permit further tearing of said blister package toward said product well; andafter sufficiently further manipulating said blister package, continuing to tear said blister package to access the product within said product well.

20. The method of claim 19, wherein further manipulating said blister package comprises bending a blister channel in the tear path from said peripheral edge to said product well.

21. The method of claim 20, further comprising bending said blister channel to snap said blister channel