This invention is directed to closure caps or overseals and is principally, but not exclusively, directed towards closure caps or overseals for plugs or other closures used in industrially sized bulk containers such as drums. The invention also pertains to such closures, as well as to combinations of such closures and closure caps or overseals.
EP2144821B1 discloses a cap for a container closure or closure plug, comprising a cap top and an attachment ring extending axially downward from beneath the bottom surface of the cap top under a central portion of the cap top, the attachment ring being securingly engageable with the container closure or closure plug. For this purpose the attachment ring comprises a cam surface extending radially outward from the attachment ring, the cam surface being configured to deflect the attachment ring radially inward upon engagement of the attachment ring with the container closure or closure plug. The container closure or closure plug is screw-threaded and provided with a series of (typically four) radially inwardly extending wrench-engaging lugs. These are engageable with a wrench or other suitable drive tool for tightening the closure or plug onto or into a corresponding screw thread provided about the container opening, and for unscrewing the closure or plug again, for accessing the container contents. Each lug provides a radially inwardly facing guide surface. Opposing upper ends the respective guide surfaces form an entrance portion into which the attachment ring is insertable, preferably as a sliding fit. Below the upper end, each guide surface transitions into a downwardly and radially inwardly sloping portion, so that as the attachment ring is pushed further downward between the lugs, the cam surface rides along the sloping portions so as to compress and radially inwardly deform the attachment ring in between the lugs. Below the downwardly and radially inwardly sloping portion, the guide surface of each lug transitions into a downwardly facing shoulder extending radially outward from the portion of the guide surface above, e.g. formed by an undercut groove in each lug, positioned at some distance from the upper end of the lug, e.g. towards the base of each lug, e.g. at or near to where the base of each lug joins a bottom wall of the container closure or closure plug. When the cam surface passes beyond the downwardly facing shoulders on the lugs, the radially inward pressure of the guide surfaces on the attachment ring ceases. At this point the attachment ring therefore resiliently expands radially outwards, such that an upwardly facing shoulder provided thereon above the cam surface, snaps beneath the downwardly facing shoulders of the guide surfaces. The attachment ring is thereby retained between the lugs as a snap-fit. To provide secure retention so that the attachment ring cannot easily be pulled upwards out of engagement between the lugs, the radial extent of the engagement between the upwardly facing shoulder on the attachment ring and the downwardly facing shoulders on the lug guide surfaces, must be made suitably large. However this gives rise to a requirement for a correspondingly large radially inward deformation of the attachment ring as the cam surface is pushed downwards between the lug sloping portions. The attachment ring is usually made circumferentially continuous and sufficiently stiff so as to provide the required pull-out resistance. The large radially inward deformation together with this stiffness means that the attachment ring can be quite difficult to press down in between the lugs so as to achieve the eventual snap fit engagement. This can lead to inadvertent breakage of tamper-evidencing features on the cap, e.g. by inexperienced operatives where the caps are hand-applied, or by sub-optimally adjusted or maintained application machinery in the case of automatically applied caps. Use of a smaller radial engagement between the respective upwardly and downwardly facing shoulders and/or a more easily deformable attachment ring eases the cap application problem, but simultaneously leads to a less secure interconnection between the applied cap and the container closure or closure plug. There is therefore room for improvement in the design of the cap and/or plug interengagement features.
The present invention accordingly provides a cap for a container closure or closure plug, comprising a cap top and an attachment ring extending axially downward from beneath the bottom surface of the cap top under a central portion of the cap top; the attachment ring being securingly engageable with the container closure or closure plug; the attachment ring comprising a) a cam surface configured to deflect the attachment ring radially inward upon engagement of the attachment ring with the container closure or closure plug and b) an upwardly facing shoulder above the cam surface; characterised in that the upwardly facing shoulder comprises an inner, radially outwardly extending portion and an outer, upwardly extending lip. This upstanding lip is therefore configured for engagement behind a complementary depending lip which may be provided on the downwardly facing shoulder of the container closure or closure plug lugs, so as to constrain inward deformation of the attachment ring upon attempted forced withdrawal from between the lugs. For a given radial extent of engagement between the upwardly facing shoulder on the attachment ring and the downwardly facing shoulders on the lug guide surfaces, the resistance to forced withdrawal of the attachment ring is thereby increased in comparison to the prior art configuration having a plain upwardly facing shoulder on the attachment ring. As a corollary, the radial extent of the engagement between the upwardly facing shoulder on the attachment ring and the downwardly facing shoulders on the lug guide surfaces may be reduced, while still maintaining satisfactory retention of the attachment ring against forced withdrawal from between the lugs. This results in a reduction in the force required to press the attachment ring down between the lugs until the upwardly facing shoulder thereon snap-fits beneath the downwardly facing shoulders of the lug guide surfaces. The cap attachment ring's upwardly facing shoulder and its lip may be configured and positioned for “backwards compatibility” with legacy plugs whose lugs are not equipped with the complementary depending lips (albeit with reduced resistance against forced withdrawal of the attachment ring).
The cap may comprise tamper indicating features, for example similar to the cap disclosed in EP2144821B1. Thus the cap top and the attachment ring may be connected by at least one frangible connection. Attempts to prise off the cap will break the frangible connection to provide a tamper indication, while leaving the attachment ring retained between the lugs.
The cap top and the attachment ring may additionally be connected by at least one permanent connection configured to retain the cap top and the attachment ring in one piece upon breaking of the at least one frangible connection for removal of the cap from the container closure or closure plug. This assists in convenience of recycling the removed cap, and reduces the likelihood of small broken off pieces of the cap polluting the environment or accidentally being dropped into the container to contaminate its contents.
The at least one frangible connection may be located at a top portion of the attachment ring. The cam surface and the upwardly facing shoulder may thus be positioned at or towards a bottom portion of the attachment ring so that they are recessed well within the container closure or closure plug in use, and are therefore inaccessible to prying-off tools or the like.
The at least one permanent connection may interconnect the bottom portion of the attachment ring and a tear strip extending at least partially within the cap top. The permanent connection, tear strip and at least a part of the cap top may form parts of a handle, by which a user may apply a pulling force directly to the bottom portion of the attachment ring, causing it to distort radially inwardly, whereby the upwardly facing shoulder is disengaged from beneath the downwardly facing shoulders of the container closure or closure plug lugs. For example, the handle may continue in the top portion of the attachment ring, e.g. as a portion of the tear strip defined by a pair of parallel frangible grooves extending part-way down the attachment ring. The permanent connection may interconnect the respective portions of the tear strip in the cap top and in the attachment ring. The cap may comprise a skirt which is frangibly attached to the periphery of the cap top, to provide a further tamper-indicating feature, as well as further securing the attachment ring against illegitimate access in use. The permanent connection may also interconnect the cap top and skirt, so that when the frangible connections between the cap top and skirt have been broken, the skirt forms a ring-shaped portion of the handle, which is graspable to apply the required pulling force to the bottom portion of the attachment ring.
The invention correspondingly provides a screw-threaded container closure or closure plug comprising a plurality of lugs engageable by a wrench or other drive tool and each having a radially inwardly facing guide surface comprising a downwardly and radially inwardly sloping portion and a downwardly facing shoulder extending radially outward below the downwardly and radially inwardly sloping portion; characterised in that the downwardly facing shoulder comprises a radially extending, radially outer portion and a radially inner, depending lip. This depending lip is therefore engageable with the upwardly extending lip provided on the cap, to provide the improved snap-fit retention of the cap as described above. The radially outer portion and the depending lip of the downwardly facing shoulder may nevertheless be configured and positioned for “backwards compatibility” with legacy caps whose attachment rings are not equipped with the complementary upwardly extending lips (albeit with reduced resistance against forced withdrawal of the attachment ring).
Upper ends of the respective guide surfaces may form an entrance portion between the lugs, into which the attachment ring is insertable as a sliding fit. This makes engagement between the cap and the container closure or closure plug (in particular coaxial engagement between the attachment ring camming surface and the downwardly and inwardly sloping portions of the lug guide surfaces) easier.
The downwardly facing shoulder may be formed by undercut groove positioned at a distance from the upper end of the lug. For example, the undercut grove may be positioned towards the base of the lug. The base of the lug may join a wall of the container closure or closure plug and the undercut groove may be positioned at or near to this wall. This makes the groove/downwardly facing shoulder less accessible to prying-off tools or the like.
The invention is therefore able to provide, in combination, a cap and a screw-threaded container closure or closure plug,
the cap comprising a cap top and an attachment ring extending axially downward from beneath the bottom surface of the cap top under a central portion of the cap top; the attachment ring being securingly engageable with the container closure or closure plug; the attachment ring comprising a) a cam surface configured to deflect the attachment ring radially inward upon engagement of the attachment ring with the container closure or closure plug and b) an upwardly facing shoulder above the cam surface;
the container closure or closure plug comprising a plurality of lugs engageable by a wrench or other drive tool and each having a radially inwardly facing guide surface comprising a downwardly and radially inwardly sloping portion and a downwardly facing shoulder extending radially outward below the downwardly and radially inwardly sloping portion;
characterised in that the upwardly facing shoulder comprises an inner, radially outwardly extending portion and an outer, upwardly extending lip and the downwardly facing shoulder comprises a radially extending, radially outer portion and a radially inner, depending lip complementary to the outer, upwardly extending lip.
For a more complete understanding of the invention and some of its further features and advantages, illustrative and non-limiting embodiments are described below with reference to the drawings in which:
a, b, c are perspective views showing the removal of the cap of
A tamper-evident cap in accordance with the present invention is illustrated by
The upwardly facing shoulder 28a of the ring 26 has an inner, radially outwardly extending portion 28b and an outer, upwardly extending lip 28c. Correspondingly, the downwardly facing shoulder 17a formed by the upper wall of the plug groove 17 comprises a radially extending, radially outer portion 17b and a radially inner, depending lip 17c. The upwardly extending or upstanding lip 28c is therefore configured for engagement behind the complementary depending lip 17c, so as to constrain inward deformation of the attachment ring 26 upon attempted forced withdrawal from between the lugs 12. For this purpose the radially extending, radially outer portion 17b of the downwardly facing shoulder 17a and its radially inner, depending lip 17c need not be confined to precisely the shape or profile shown in the drawings. Similarly, there may be considerable variation in the shape or profile of the inner, radially outwardly extending portion 28b and the outer, upwardly extending lip 28c of the ring upwardly facing shoulder 28a. These components of the ring upwardly facing shoulder on the one hand and the lug downwardly facing shoulder on the other hand, co-operate to form a complementary pair of interlocking hook-like structures, so that the upstanding lip on the attachment ring and the depending lips on the lugs engage behind one another in the radial direction, to resist inward distortion of the attachment ring as its forced withdrawal from between the lugs is attempted. The radial overlap Y between the lugs 12 and the attachment ring 26 required to provide a given pull-out resistance may therefore be reduced. The reduced radial overlap Y reduces the distortion of the ring required to pass the lug guide surface portions 10b, and hence the amount of force required to fit the cap 23 to the plug 6. A suitable clearance X, at least equal to the height of the upwardly extending lip 28c above shoulder portion 28b, is provided between the bottom end of the ring 26 and the lower side of the undercut groove 17. With the skirt 25 grounded on the container or container neck 1,
The cap 23 and the attachment ring 26 are formed as a single moulding with the ring axially separated from the cap top 24 by a series of frangible connections 30 and an essentially non-frangible or permanent connection 31. As shown more clearly in
A tear-strip 34 extends diametrically of the central region 35 part way across cap top 24, above and within the circle of frangible connections 30, and is formed by a pair of parallel frangible membranous side grooves 36 in the cap top 24 with a further frangible membranous cross groove 37 linking grooves 36 at one end of tear strip 34. As can be seen in
The upper surface of the cap 24 is unbroken and essentially flat, because the membranous grooves 36, 37 and 38 are provided on the bottom (i.e. inner) surface of the cap top 24. This enables the cap 24 to seal a container closure or closure plug, function as a capseal, and to allow for text such as advertising matter, logos, etc. to be applied to or printed on the upper surface of the cap with little or no distortion.
The cap 23 can be fitted to the closure plug 6 simply by pressing the cap down onto the closure plug. This can be achieved manually or by use of a specially shaped tool (not shown). There is no need to rotationally align the cap attachment ring 26 with the closure plug lugs.
In use and as illustrated by
Continued removal of the cap top 24 from the closure plug will tear the attachment ring grooves 39, leaving an aperture in the ring wall that permits deflection/distortion of the attachment ring 26, to enable the ring flange 28 to disengage from the closure plug locking groove 17. Cap top 24 and attachment ring 26 will remain connected together by the tear strip 34 after the cap has been removed from the closure plug.
Cap skirt 25 is attached to the cap top 24 by a series of frangible ties 43 (see
The present invention has been illustrated with reference to caps snap-fitted to closure plugs, but it can provide, in accordance with the claims, a permanent connection for any cap having frangible means of attachment to a container closure, wherein a frangible connection can extend between the attachment means and the cap top.
Filing Document | Filing Date | Country | Kind |
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PCT/EP2018/053364 | 2/9/2018 | WO | 00 |
Number | Date | Country | |
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62459994 | Feb 2017 | US |