Tamper-indicating plastic closure

Information

  • Patent Grant
  • 5242068
  • Patent Number
    5,242,068
  • Date Filed
    Friday, August 7, 1992
    32 years ago
  • Date Issued
    Tuesday, September 7, 1993
    31 years ago
Abstract
A tamper-indicating plastic closure for a container comprises a plastic closure cap having a circular top wall portion, and a depending annular skirt portion. The closure further includes an annular pilfer band depending from the skirt portion which is at least partially detachably connected thereto by a frangible connection. The pilfer band includes a plurality of circumferentially spaced flexible projections, and a plurality of respectively associated interference beads. By this arrangement, the pilfer band is configured for two modes of interfering engagement with an annular locking ring of an associated container for at least partially separating the pilfer band from the closure skirt for tamper-indication.
Description

TECHNICAL FIELD
The present invention relates generally to tamper-indicating closures for containers, and more particularly to a closure which includes a pilfer band having a plurality of angularly disposed flexible projections, and a plurality of respective interference beads each defining a clearance region into which a portion of an adjacent flexible projection is movable during application of the closure to a container.
BACKGROUND OF THE INVENTION
Tamper-indicating or tamper-evident packaging for food products, beverages, and the like, desirably acts to assure consumers of the purity and freshness of such products. Typically, such packaging arrangements are configured to provide clearly visually discernible evidence that a package or container has been partially or completely opened.
One such tamper-evident arrangement is disclosed in U.S. Pat. No. 4,418,828, to Wilde et al. This patent discloses a tamper-indicating plastic closure particularly suited for use with bottles or like containers. The closure disclosed in this patent has proven to be quite commercially successful, since it has been configured for highly efficient and reliable use with conventionally configured containers having a threaded neck, and an annular, flange-like locking ring.
U.S. Pat. No. 5,004,112, to McBride, discloses a modified form of the above-discussed tamper-indicating closure. In particular, this patent discloses a closure including a pilfer band having a plurality of circumferentially spaced flexible projections, with the pilfer band further including a plurality of interference beads respectively associated with the flexible projections. The closure can be configured to provide two modes of tamper-indication. In a first mode of operation, the flexible projections interferingly engage the associated container, thereby at least partially detaching the pilfer band from the closure skirt. In a second mode, each flexible projection is engageable with a respective one of the interference beads during removal from an associated container thereby reducing the effective inside diameter of the pilfer band, and fracturing the frangible connection between the pilfer band and the closure skirt for providing evidence of partial or complete closure removal.
The present invention is directed to a tamper-indicating closure of the above type, with improvements which enhance tamper-resistance, and facilitate high-speed manufacture.
SUMMARY OF THE INVENTION
The tamper-indicating plastic closure of the present invention includes a pilfer band arrangement having an annular band portion, and a plurality of inwardly extending, preferably angularly disposed flexible projections which cooperate with the annular locking ring of an associated container. The flexible projections are configured to cooperate and function in two different ways with the associated container, thus providing two modes of tamper-evidence. This is achieved by providing a plurality of interference beads in respective association with the flexible projections, whereby the flexible projections interferingly engage the container locking ring irrespective of their disposition relative to the annular band portion.
In accordance with the present invention, each of the interference beads defines a clearance region into which a free end portion of an adjacent one of the flexible projections is movable during closure removal. The free end portion of the projection is moveable to a position above the interference bead, thus facilitating application of the closure to an associated container by avoiding contact of the free end portion with a thick portion of the associated interference bead. By virtue of this arrangement, each flexible projection can be configured to have a length which promotes the desired interfering interaction with the associated container in the first mode of tamper-evidence, while at the same time desirably providing a second mode of tamper-evidence obtained through the use of the interference beads.
In the preferred form, each interference bead includes a tapering portion, decreasing in thickness in a direction generally toward the topwall portion of the closure, at which a guide surface is provided for guiding movement of the closure relative to associated mold tooling during closure formation. This facilitates ejection from the tooling, and economical high-speed manufacture.
In the illustrated embodiment, the present tamper-indicating closure includes a plastic closure cap having a circular top wall portion, and a depending cylindrical skirt portion. The closure further includes an annular pilfer band depending from and at least partially detachably connected to the skirt portion by a frangible connection. In the illustrated, preferred form, this frangible connection comprises a plurality of circumferentially spaced frangible ribs extending between the inside surfaces of the closure cap and an annular band portion of the pilfer band.
The pilfer band of the closure includes a plurality of circumferentially spaced, inwardly extending flexible projections. Each flexible projection is preferably generally planar, with each having an edge portion joined to a band portion of the pilfer band at an acute angle relative to the vertical axis of the closure. By this construction, each of the projections is movable about a respective, non-horizontal hinge arrangement. By configuring the interference beads to each define a clearance region, the projections are movable to an out-of-the-way disposition during application of the closure to an associated container. The projections thereafter resume a generally inwardly extending disposition to provide the desired interfering interaction with the container locking ring.
The flexible projections normally function in this initial orientation to effect fracture of the frangible ribs joining the pilfer band to the closure cap. However, the present invention contemplates that the flexible projections can further function to interferingly engage the container locking ring in another manner to provide a second mode of fracture.
To this end, the plurality of circumferentially spaced interference beads are respectively operatively associated with the inwardly extending flexible projections. While the configuration of each interference bead can vary while keeping with the principles disclosed herein, in the illustrated embodiment, each interference bead has a generally elongated configuration, and extends along the inside surface of the annular band portion of the pilfer band at an acute angle parallel to the respective one of the flexible projections.
The relative dimensioning of the flexible projections and the interference beads is such that they can cooperate to provide interfering engagement with the container locking ring in the second mode of failure of the pilfer band. Specifically, in the event that the flexible projections are moved from their initial inwardly extending disposition, such as by the inadvertent formation of an excessively strong frangible connection to the closure skirt, or by unauthorized manipulation of the projections, the projections assume a disposition whereby they are respectively engageable with the associated interference beads. In this second orientation, the combined thickness of the interference beads and the flexible projections define an effective inside diameter for the pilfer band which diameter is less than the outside diameter of the container locking ring. As a consequence, interfering engagement between the pilfer band and the locking ring is assured attendant to closure removal, whereby the frangible ribs connecting the pilfer band to the closure skirt are fractured in the desired manner.
As noted, each of the interference beads defines the clearance region generally above the interference bead into which the free end portion of an adjacent one of the flexible projections is movable during closure application. This clearance region permits the adjacent flexible projection to be dimensioned for the desired degree of interfering engagement with the associated container, while at the same time precluding the free end portion of the projection from substantially engaging the associated interference bead during closure application. Thus, during closure application, each of the flexible projections can move to an out-of-the-way disposition, with the free end portion generally adjacent the annular band portion of the pilfer band, thereby desirably maximizing the effective inside diameter of the closure during application to the container. As will be appreciated, each flexible projection is thus engageable during closure removal, with one of the interference beads in a first direction relative to the flexible projection, while the projection is movable into the clearance region defined by the one of the interference beads on the other side of the projection, i.e., in a second direction opposite the first direction.
In the preferred form, each interference bead defines an outwardly tapering guide surface adjacent to the clearance region. This guide surface coacts with the mold tooling positioned within the closure during formation thereof, and provides a cam-like cooperation with the tooling to facilitate removal of the closure from the tooling, thereby facilitating high-speed formation.
Other features and advantages of the present invention will become readily apparent from the detailed description, the accompanying drawings, and the appended claims.





BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a cross-sectional, side elevational view of a tamper-indicating plastic closure embodying the principles of the present invention;
FIG. 2 is a fragmentary, bottom plan view illustrating the closure of FIG. 1;
FIG. 3 is a fragmentary view illustrating the orientation of the present closure during application to an associated container;
FIG. 4 is a fragmentary cross-sectional view illustrating the orientation of the present closure during removal from the associated container;
FIG. 5 is a view similar to FIG. 3 further illustrating the orientation of the present closure during removal from the associated container;
FIGS. 6 and 7 are fragmentary views illustrating the present tamper-indicating closure during removal from the associated container.





DETAILED DESCRIPTION
While the present invention is susceptible of embodiment in various forms, there is shown in the drawings and will hereinafter be described a presently preferred embodiment, with the understanding that the present disclosure is to be considered as an exemplification of the invention, and is not intended to limited the invention to the specific embodiment illustrated.
With reference now to the drawings, therein is illustrated a tamper-indicating plastic closure 10 embodying the principles of the present invention. As illustrated, closure 10 is generally cup-shaped, and includes a closure cap 12 having a circular top wall portion 14, and a depending, cylindrical annular skirt portion 16.
Skirt portion 16 has an internal thread formation 18 on the inside surface thereof for engagement and cooperation with a container C to which the closure is fitted. In the preferred form, the skirt portion 16 defines a plurality of axially extending vent grooves 20 which generally traverse the thread formation 18. Vent grooves 20 facilitate the release and venting of gas pressure when the closure 10 is used with the container C to package carbonated beverages or the like. In this regard, the closure includes a circular sealing liner 22 positioned adjacent top wall portion 14, with the sealing liner 22 configured for sealing engagement with the container C.
The closure 10 can be very efficiently formed by compression molding, such as in accordance with the teachings of U.S. Pat. No. 4,497,795, the teachings of which are herein incorporated by reference.
In order to provide visually discernable evidence that the closure 10 has been partially or completely removed from the associated container C, the closure includes an annular pilfer band 24 configured for cooperating engagement with a flange-like annular locking ring L on the exterior finish of container C. Notably, pilfer band 24 is configured to be self-engaging with the locking ring L, that is, the pilfer band does not require any post-application processing to render it effective for tamper-indication. Additionally, the tamper-resistance of the present closure is enhanced in that it is configured to provide two modes of interfering engagement with the container locking ring L, thus assuring at least partial separation of the pilfer band from the closure skirt 16, as will be further described.
The pilfer band 24 includes a continuous annular band portion 26 which is at least partially detachably connected to the skirt portion 16 of closure cap 12 by a plurality of circumferentially spaced frangible ribs 28. Frangible ribs 28 extend between the inside surfaces of the skirt portion 16 and the pilfer band.
In order to provide a frangible connection between the pilfer band and the closure skirt portion, the skirt portion 16 and the pilfer band 24 are distinguished and separated from each other by a score line 30 extending circumferentially of the closure. The score line extends through the integrally molded closure, thereby separating the pilfer band 24 from the skirt portion 16, with the score line extending partially into the frangible ribs 28. Thus, the "residual" unscored portion of the frangible ribs provide a frangible connection between the pilfer band and the skirt portion.
For those applications where it is desired that the pilfer band 24 remain on the associated container after removal of closure cap 12, the score line 30 preferably extends completely about the closure, thus completely separating and distinguishing the pilfer band 24 from the closure skirt. For those applications where it is desired to have the pilfer band remain attached to the closure cap 12 attendant to removal, an unscored, connector portion can be provided which joins the pilfer band to the closure cap. Alternately, one or more relatively "oversized" ribs can be provided on the inside surfaces of the skirt portion and the pilfer band, with the score line 30 extending completely about the closure; the oversized ribs thus provide a connector portion, even though scored, by virtue of the relatively large residual portions defined thereby. When it is intended that the pilfer band remain joined to the closure cap attendant to removal, it is desirable to provide one or more regions of the pilfer band which are preferentially weakened, such as by vertical scoring, whereby the pilfer band splits or separates.
In order to provide a first mode of interfering engagement between the pilfer band 24 and the associated container locking ring, the pilfer band includes a plurality of circumferentially spaced, inwardly extending flexible projections 32. Each of the projections 32 preferably has a generally planar configuration, with each of the projections arranged at an acute angle relative to the vertical axis of the closure. By this construction, each flexible projection 32 is configured for hinging movement generally about its edge joined to band portion 26, with each projection thus movable about a non-horizontal hinge arrangement. The projections 32 are generally configured in accordance with the teachings of U.S. Pat. No. 4,418,828, the teachings of which are herein incorporated by reference.
The preferred angular disposition of each flexible projection 32, together with the relative dimensioning of each projection, configure the pilfer band 24 for a self-engaging action with the associated container C. Specifically, attendant to closure application, the flexible projections 32 assume a generally upwardly extending, out-of-the-way orientation as the closure is threaded onto the container. As illustrated, the flexible projections 32 are preferably molded in a non-radial orientation whereby they extend in a direction away from the direction of rotation for threading the closure onto the associated container. FIG. 3 generally illustrates the disposition of the projections 32 as the closure 12 is applied to the container, with this movement of the projections providing sufficient clearance for movement of the pilfer band past the container locking ring L without unintended failure of frangible ribs 28.
The pilfer band 24 is self-engaging in the sense that once fully applied to the container, the flexible projections 32 again assume their generally inwardly-extending disposition (see FIG. 6). The projections 32 are thus positioned for interfering engagement with the locking ring L, and the portion of the container immediately below and adjacent the locking ring. In accordance with the teachings of the above-noted U.S. Pat. No. 4,418,828, this interfering action is achieved by engagement of the upper edge portion of each flexible projection 32 with the lower surface of the container locking ring L. Attendant to this engagement, the angular disposition of each flexible projection 32 results in the free end portion of each projection being urged into engagement with the portion of the container adjacent to and below the locking ring L. This action creates sufficient resistance to the removal of the closure so as to result in fracture of frangible ribs 28, whereby the pilfer band 24 at least partially separates from the closure cap to provide visually discernable evidence of opening.
In accordance with U.S. Pat. No. 5,004,112, hereby incorporated by reference, a further mode of interfering engagement between the pilfer band 24 and the container locking ring is provided for enhanced tamper-resistance. Specifically, the pilfer band 24 further includes a plurality of interference beads 34 which are respectively associated with the flexible projections 32. In accordance with the illustrated embodiment, each of the interference beads 34 has a generally elongated, rectangular configuration, with each bead 34 preferably arranged in closely spaced and parallel relation to the respective one of the angularly disposed flexible projections 32. This preferred configuration facilitates simultaneous molding of the projections 32 and the beads 34 in a rotatable sleeve element of a molding apparatus, in accordance with U.S. Pat. No. 4,497,765.
In accordance with the present invention, each of the interference beads 34 is configured to include an upper tapering portion, having an inclined guide surface 36, which portion decreases in thickness in a direction generally toward the top wall portion 14 of the closure. By this configuration, each interference bead defines a clearance region 38 adjacent the guide surface 36.
As illustrated in FIG. 3, each clearance region 38 is positioned to receive a free end portion of an adjacent one of the flexible projections 32, so that the free end portion is movable to a position above the respective interference bead 34 during application of the closure to the container.
By this arrangement, enhanced tamper-indication for the present closure is achieved, in that the flexible projections 32 can be configured to achieve the desired interfering engagement with the associated container locking ring L during closure removal, without concern that the flexible projections will undesirably create interference (by engagement with an adjacent interference bead 34) during closure application. In essence, the effective inside diameter of the closure is desirably increased, during closure application, as the flexible projections move toward the annular band portion 36 to an out-of-the-way disposition.
In contrast, during closure removal the beads 34 are respectively engageable with the projections 32 in the event the projections are moved or "flipped" to a relatively reversed position, wherein the projections extend generally in the direction of rotation of the closure during application. Thus, each bead 34 is positioned along that side of the respective projection 32 which is opposite to the side of the projection which is urged toward the inside surface of annular band portion 26 (and generally into one of the clearance regions 38) during closure application. As will be appreciated, each flexible projection 32 is movable into the clearance region 38 defined by the adjacent one of the interference beads 34 positioned in a first direction relative to the projection 32 during closure application, with the projection 32 engageable with the respectively associated bead 34 positioned in a second direction (opposite the first direction) relative to the projection 32 during the second mode of tamper-indication.
As noted, each interference bead 34 preferably defines inclined guide surface 36 at its respective clearance region 38. The inclined guide surface facilitates each ejection from the mold tooling in which the closure is formed, thus facilitating economical, high-speed manufacture. In particular, the provision of the guide surface 36 facilitates removal of the male molding plunger positioned within the closure during its formation, with the guide surface providing a cam-like cooperation with the plunger so that the closure can be "popped-off" of the plunger without unacceptable deformation of the interference beads, or other portions of the pilfer band.
As noted above, pilfer band 24 functions in its first mode of interfering engagement with the container locking ring L when the flexible projections 32 extend generally inwardly, with this orientation illustrated in FIGS. 1, 2, and 6. However, in the event that the flexible projections are moved from this initial disposition, the pilfer band 24, including interference beads 34, is configured to further effect interfering engagement with the container locking ring. Such movement of the projections 32 can occur attendant to closure removal if the frangible connection provided by frangible ribs 28 is inadvertently excessively strong (such as by insufficient scoring at score line 30), or by unauthorized manipulation of the projections 32.
This second position of the projections 32 is illustrated in FIGS. 4, 5, and 7. In this second position, wherein the projections extend inwardly, and generally downwardly (by virtue of the angular hinge arrangement of each projection), the planar surface of each projection generally adjacent its respective interference bead 34 is positioned for engagement with the interference bead. Thus, attendant to closure removal, each interference bead 34 and its respective flexible projection 32 cooperate to provide a combined thickness which effects interfering engagement between the pilfer band 24 and the lower surface of the container locking ring L. By virtue of this further interfering engagement, a second mode of failure is provided whereby frangible ribs 28 are fractured to at least partially separate pilfer band 24 from the skirt portion 16.
In effect, the provision of interference beads 34 in combination with the flexible projections 32 permits the pilfer band to function to fracture frangible ribs 28 irrespective of the disposition of the projections 32 relative to the band portion 26. In other words, the desired fracture is effected whether the projections are in their initial, inwardly extending disposition generally beneath locking ring L (without engagement between the projections and beads 34), or in a relatively "reversed", generally downwardly extending disposition, generally beneath the locking ring L and in respective engagement with the interference beads 34.
From the foregoing, it will be observed that numerous modifications and variations can be effected without departing from the true spirit and scope of the novel concept of the present invention. It is to be understood that no limitation with respect to the specific embodiment illustrated herein is intended or should be inferred. The disclosure is intended to cover, by the appended claims, all such modifications as fall within the scope of the claims.
Claims
  • 1. A tamper-indicating closure for a container having an annular locking ring, comprising:
  • a plastic closure cap having a circular top wall portion, and a depending cylindrical skirt portion; and
  • an annular pilfer band depending from and at least partially detachably connected to said skirt portion by frangible means,
  • said pilfer band including a plurality of circumferentially spaced, inwardly extending flexible projections,
  • said pilfer band further including a plurality of interference bead means operatively associated with said circumferentially spaced flexible projections, each said flexible projections each being engageable with a respective one of said interference bead means, positioned on one side thereof, during removal of said closure from said container for fracturing said frangible means,
  • said pilfer band including a clearance region adjacent each said interference bead means, each said flexible projection including a free end portion movable into a respective one of the clearance regions above the one of the interference bead means on the other side of the flexible projection during application of said closure to the container.
  • 2. A temper-indicating closure in accordance with claim 1, wherein each said interference bead means comprises guide surface means adjacent said clearance region for guiding movement of said closure relative to associated mold tooling during closure formation.
  • 3. A tamper-indicating closure in accordance with claim 1, wherein
  • said frangible means comprises a plurality of circumferentially spaced frangible ribs extending between the inside surfaces of said closure cap and said pilfer band,
  • said closure cap and said pilfer band being at least partially separated and distinguished from each other by circumferential score means extending through said closure and partially into said frangible ribs.
  • 4. A tamper-indicating closure in accordance with claim 1, including
  • a sealing liner positioned inside said closure cap adjacent to said top wall portion.
  • 5. A tamper-indicating closure for a container having an annular locking ring, comprising:
  • a plastic closure cap having a circular top wall portion, and a depending cylindrical skirt portion; and
  • an annular pilfer band depending from and at least partially detachably connected to said skirt portion by frangible means,
  • said pilfer band including a plurality of circumferentially spaced, inwardly extending flexible projections,
  • said pilfer band further including a plurality of interference bead means operatively associated with said circumferentially spaced flexible projections, said flexible projections being engageable with a respective one of said interference bead means during removal of said closure from said container for fracturing said frangible means,
  • said pilfer band including a clearance region adjacent each said interference bead means into which a free end portion of an adjacent one of said flexible projections is movable to a position above the interference bead means during application of said closure to the container,
  • each said interference bead means comprising guide surface means adjacent said clearance region for guiding movement of said closure relative to associated mold tooling during closure formation,
  • each of said flexible projections being movable about respective hinge means disposed at an acute angle relative to the vertical axis of said closure.
  • 6. A tamper-indicating closure in accordance with claim 5, wherein said pilfer band comprises an annular band portion, each of said flexible projections including an edge portion joined to said band portion and disposed at said acute angle.
  • 7. A tamper-indicating closure in accordance with claim 6, wherein each of said interference bead means has a generally elongated configuration, and extends along the inside surface of said annular band portion at said acute angle parallel to the respective one of said flexible projections.
  • 8. A tamper-indicating closure for a container having an annular locking ring, comprising:
  • a plastic closure cap having a circular top wall portion, and a depending cylindrical skirt portion having an internal thread formation; and
  • an annular pilfer band depending from and at least partially detachably connected to said skirt portion by frangible means,
  • said pilfer band including an annular band portion, and a plurality of circumferentially spaced flexible projections extending inwardly of said annular band portion, each of said flexible projections including an edge portion joined to said annular band portion at an acute angle relative to the vertical axis of said closure whereby each said flexible projection is movable about respective hinge means disposed at said acute angle,
  • said pilfer band further including interference means comprising a plurality of interference beads on the inside surface of said annular band portion respectively operatively associated with said flexible projections for respective engagement therewith, said flexible projections being engageable with said container locking ring during removal of said closure from said container for fracturing said frangible means,
  • each said interference bead including a tapering portion decreasing in thickness in a direction generally toward said top wall portion.
  • 9. A tamper-indicating closure in accordance with claim 8, wherein each said interference bead defines a clearance region into which a free end portion of an adjacent one of said flexible projections is movable during application of said closure to the container.
  • 10. A tamper-indicating closure in accordance with claim 8, wherein
  • said frangible means comprise a plurality of circumferentially spaced frangible ribs extending between the inside surfaces of said closure cap and said pilfer band,
  • said closure cap and said pilfer band being at least partially separated and distinguished from each other by circumferential score means extending through said closure and partially into said frangible ribs.
  • 11. A tamper-indicating closure in accordance with claim 8, wherein each of said interference beads has a generally elongated configuration, and extends along the inside surface of said annular band portion at said acute angle parallel to the respective one of said flexible projections.
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Number Name Date Kind
4401227 Pehr Aug 1983
4402418 Ostrowski Sep 1983
4418828 Wilde et al. Dec 1983
4469234 Deussen Sep 1984
4497765 Wilde et al. Feb 1985
4506795 Herr Mar 1985
4550843 Nolan Nov 1985
4550844 Lininger Nov 1985
4565295 Mori et al. Jan 1986
4588100 Itsubo et al. May 1986
4592476 Yasada Jun 1986
4635808 Nolan Jan 1987
4664279 Obrist et al. May 1987
4666053 Corcoran et al. May 1987
4674643 Wilde et al. Jun 1987
4784280 Breuer et al. Nov 1988
4801030 Barriac Jan 1989
4978017 McBride Dec 1990
5004112 McBride Apr 1991
5090788 Ingram et al. Feb 1992
Foreign Referenced Citations (1)
Number Date Country
56-74445 Jun 1981 JPX