This application is the US-national stage of PCT application PCT/EP2017/050265 filed 6 Jan. 2016 and claiming the priority of German patent application 102016200162.0 itself filed 8 Jan. 2016.
The invention relates to a container closure having a closure bottom part and a cap, and also a mouthpiece and means for piercing a closure film, wherein a tamper-indicating band is provided that ensures that the closure film can be pierced by the means only when the tamper-indicating band has been removed, wherein the tamper-indicating band is between the closure bottom part and the cap, according to the features of the preamble of claim 1.
EP 0 214 095 [U.S. Pat. No. 4,722,449] discloses a container closure that can be fitted, for example screwed, onto a container, for example a plastic bottle. This container closure has a closure bottom part and a cap, and also a mouthpiece and means for piercing a closure. A tamper-indicating band is also provided that ensures that the closure film can be pierced by the means only when the tamper-indicating band has been removed.
A further development of such a container closure is disclosed in DE 10 2014 207 652. In this container closure, the tamper-indicating band is between the closure bottom part and the cap, wherein the circumferential bottom edge of the cap and the upper circumferential edge of the closure bottom part are connected to each other via at least one web designed as a film hinge. With this container closure, it is made possible for the cap to be able to be pivoted but at the same time to remain on the closure bottom part when the tamper-indicating band has been removed. In this way, the cap cannot be lost, such that it is possible for the container closure to be reclosed. Moreover, the cap remains permanently on the container closure, such that this unit can therefore be disposed of, preferably together with the bottle, for example can be sent for recycling.
However, in both of the aforementioned container closures, there is still the disadvantage that the tamper-indicating band is separated from the container closure after removal. This results in unnecessary waste material, since the tamper-indicating band cannot be sent for recycling and has to be disposed of by the user of the container closure. The object of the invention is to improve a container closure of the type in question such that no additional waste material arises from the handling of the container closure.
This object is achieved by the features of claim 1.
According to the invention, provision is made that the tamper-indicating band is designed as a closed ring that is connected to a bottom edge of the cap via at least one separable web, and the cap is mounted on the closure bottom part so as to be able to be rotated and pressed in respective regions. By virtue of the design of the tamper-indicating band as a closed ring, it remains on the container closure after the actuation of the cap, such that the generation of waste material is effectively avoided. After use, the container closure can be disposed of, if appropriate together with the container on which it is mounted. At the same time, the operation of the container closure is optimized, since the cap is mounted on the closure bottom part so as to be able to be rotated and pressed in respective regions. By virtue of the rotation movement of the cap relative to the closure bottom part, the closed ring, which is mounted axially but not rotatably on the closure bottom part, is separated from the cap, since the at least one web is severed by the rotation movement of the cap relative to the tamper-indicating band, which does not rotate therewith. The design of the at least one web, preferably of several webs, is chosen here such that a certain force needs to be applied to rotate the cap and to separate the at least one web from the tamper-indicating band in the process. After the separation, it is possible that the closed ring can move axially, that is to say along the longitudinal axis of the container closure. It moves away as it were from the bottom edge of the cap after the at least one web has been severed, a sufficient space being available for this movement.
After the cap has been rotated about a certain partial circumference relative to the closure bottom part, it reaches a position in which a pressing movement is possible. This position, in which the pressing movement is possible, can be realized by a corresponding limit stop. Once the cap has reached this point after the rotation, not only is the tamper-indicating band designed as a closed ring separated from the cap, but the cap can also be moved toward the lower part of the closure bottom part, that is to say toward the container, by application of a pressing force from above. As a result of this movement, the means for piercing the closure film are also entrained and separate this closure film. The separation of the closure film has the effect that a medium located in the closure bottom part, and initially arranged sealingly in the closure bottom part by means of the closure film, can pass into the container lying below.
Overall, the container closure according to the invention thus affords the advantage that the means for piercing the closure film can be actuated by a handling procedure that is easy to carry out, while at the same time the generation of waste material is effectively avoided. After their movement (separation of the tamper-indicating band, piercing of the closure film), all parts of the container closure remain on the container closure, which can thus be disposed of as a unit after use thereof, if appropriate together with the container, and can be advantageously sent for recycling.
In a development of the invention, the cap is formed by a lower part on which a pivot part is mounted. While the lower part is mounted captively on the closure bottom part so as to be able to be rotated and pressed, the pivot part can be moved relative thereto in order to permit access to the mouthpiece and to withdraw the content of the container. In this case, the pivot part is a separate part and can, for example, be mounted on the lower part by form-fit and/or force-fit engagement.
In a development of the invention, the pivot part is movable and captured on the lower part. While it is conceivable, as has already been described above, that the pivot part is a separate part from the lower part and may possibly be lost, the pivot part in this further configuration of the invention is at the same time movably and captively on the lower part. This affords the advantage that the pivot part can also be moved in order to make the mouthpiece accessible. At the same time, however, this pivot part is likewise secured captively on the lower part, such that the generation of waste material is also thereby avoided after the final use of the container closure.
In a development of the invention, the tamper-indicating band designed as a closed ring is on the bottom edge of the lower part of the cap via the at least one web. In this original state, the lower part of the cap and the tamper-indicating band are therefore initially connected to each other. If a force is now applied to the cap including the lower part, it is possible, on account of the admissible rotation movement of the cap and of the lower part thereof, that this element can be twisted relative to the closure bottom part. At the same time, however, the tamper-indicating band designed as a closed ring is mounted on the closure bottom part in such a way that an axial movement along the longitudinal axis of the container closure is possible, but a rotation movement is not possible. The force that is applied to the cap in order to rotate the latter thus rotates the cap with its lower part itself, but the closed ring cannot follow along with this rotation movement. As a result, the at least one web is separated. The separation is a visual indicator that the cap has been rotated. In addition, this visual perception of the separation of the tamper-indicating band is enhanced by the fact that the tamper-indicating band designed as a closed ring moves away from the circumferential bottom edge of the lower part of the cap. This additionally creates space for the bottom edge of the lower part to approach the tamper-indicating band when a pressing force is applied to the cap, by which pressing force the means for piercing the closure film are actuated.
In a development of the invention, a distance of the bottom edge of the tamper-indicating band from an upper edge of the closure bottom part corresponds at least to the path that can be traveled by the means for piercing the closure film. This ensures that the tamper-indicating band designed as a closed ring cannot obstruct the axial path of the cap when a pressing force is applied to it. At the same time, this path is so dimensioned that the means for piercing the closure film are also moved along such a path, which opens the closure film at least to such an extent that the medium located therein can move toward the container located below.
An illustrative embodiment of a container closure according to the invention and its function are described below and explained with reference to the figures.
Means (not shown), for example locking means or the like, are also present that have the effect that the tamper-indicating band 6 is secured with respect to the closure bottom part 5 in such a way that it does not follow a rotation of the cap 2 (as a result of which the at least one web 8 is separated), but an axial movement (likewise along the axial direction 9) is possible. After the separation of the at least one web 8 and therefore the release of the tamper-indicating band 6 from the cap 2, the latter is able to move axially toward an upper edge 10 of the closure bottom part 5 without executing a rotation movement. A space is available for this, since a distance A is available (
The mouthpiece 3 has a guide groove 11 along which a correspondingly configured and inwardly facing projection, for example a pin (round, square, elongate or the like), of the cap 2 slides during the rotation and pressing movement of the cap 2 and is thereby guided. The guide groove 11 has a horizontal portion 12 and a vertical portion 13 (as seen in
According to the configuration of the guide groove 11 in
As long as the projection on the cap 2 is located in the horizontal portion 12 of the guide groove 11, it can only be rotated and cannot be pressed (axially moved). Only after the transition from the horizontal portion 12 toward the vertical portion 13 is a purely axial movement or a combination of rotation movement and pressing movement permitted.
The opening and closing procedure shown in
Number | Date | Country | Kind |
---|---|---|---|
10 2016 200 162 | Jan 2016 | DE | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/EP2017/050265 | 1/6/2017 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2017/118731 | 7/13/2017 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
3182858 | Beaudoin | May 1965 | A |
4307821 | McIntosh | Dec 1981 | A |
4722449 | Dubach | Feb 1988 | A |
5862953 | Long, Jr. | Jan 1999 | A |
20090101618 | Seelhofer | Apr 2009 | A1 |
Number | Date | Country |
---|---|---|
102014207652 | Oct 2014 | DE |
Number | Date | Country | |
---|---|---|---|
20190023465 A1 | Jan 2019 | US |