This application is the National Stage of International Application No. PCT/EP2009/001594, filed on Mar. 6, 2009, which claims the benefit of German Application Serial No. 10 2008 016 320.1, filed on Mar. 28, 2008, the contents of both of the foregoing applications are hereby incorporated by reference in their entirety.
The invention relates to a closure for beverage containers having a substantially cylindrical neck with an end opening and a closure cap.
Various kinds of beverage containers with generic closures are known. These are widely used as keg vessels. In the majority of cases, keg vessels are made from metal and, where applicable, have rubber casings. At the top end, the keg vessels have a substantially cylindrical neck with an end opening. This opening is closed with a closure cap. The cap conventionally has a valve and a connection for a coupling element to a tap. The valve is connected to a tube that is located inside the vessel and that extends to the bottom region of the vessel. Overpressure in the keg vessel's interior presses the contents of the keg vessel up to the valve via this tube.
A number of different systems are known for connecting the closure cap to the neck. WO 2007/064277 A1, for example, shows an arrangement where the closure cap engages over the neck on the outside. A positive locking arrangement between circumferential grooves and corresponding collars locks the closure cap to the vessel's neck. In addition, a circumferential ring on the neck underneath the closure cap is necessary for the stabilization and handling of the vessel.
Additional vessel closures are made known, for example, in DE 101 38 365 A1, EP 0 915 283 B1, and DE 36 08 300 A1.
The prior art container closures are complex, costly, and difficult to clean. Additionally, to achieve stability, they require strengthening in the neck region. This strengthening enables them to absorb the sometimes high-pressure loads in the interior of the vessel.
The invention provides a simple, reliable closure that yields a neck arrangement having the same or even greater stability than those in the prior art.
In the closure cap described herein, an inside detent collar interacts with a detent groove that is located on an outside circumference of a substantially ring-shaped insertion shaft in such a manner that, after the closure cap has been inserted, the detent groove, which has a tapering profile, can be displaced over the detent collar. After it has been pushed in, it engages over the detent collar on the underside so that the detent groove is locked in a circumferential manner to the ring surface of the detent collar that lies in the direction of insertion. This ensures reliable holding of the closure cap. A tapered profile of the detent groove in the direction of insertion makes simple insertion of the cap possible. The dimensions of the effective depths of the detent collar and corresponding detent groove are selected to ensure a secure hold on the closure cap.
As a result, surface features necessary for holding the cap are in the interior of the neck. This leaves the outside neck region free for development features while preserving or enhancing the stability of the overall arrangement.
The container development according to the invention offers a number of advantages compared to the known container developments.
One advantage is that the outside of the container neck can take on multifarious developments depending on the desired application. For example, the outside of the neck can be totally smooth, or it can have a circumferential ring for compatibility with existing systems. It can even have a circumferential groove, the result of which is a particularly compact and nevertheless reliably graspable container.
Another advantage is that the inside locking of the container to the closure cap results in a reliable connection between the two elements. This reliably protects the contents of the container against environmental influences and provides a high degree of pressure resistance.
In some embodiments, the closure cap has a circumferential support and/or guiding ring that engages over the neck on the outside.
The ring is developed such that it engages over the neck opening on the outside. This enables precise guiding of the cap when it is being fitted. It also makes possible a transfer of force from the inside insertion shaft via the topside of the closure cap to the outside of the neck. This improves the stability and the holding characteristics of the cap arrangement.
In some embodiments, a seal is provided on the ring surface of the detent collar on the opening side.
An upper circumferential sealing ring yields the advantageous possibility of sealing the beverage container from the environment. This is because the closure cap, once fitted, is pressed against the seal and locks on the lower ring surface of the detent collar so that a reliable and strong pressing force acts on the seal. As a result, the seal becomes quite reliable.
In some embodiments, a seal is provided on the outer surface of the insertion shaft.
By dimensioning the individual parts in a corresponding manner, in particular, by dimensioning the sealing ring, a good sealing effect can also be achieved between the inside surface of the detent collar and the outside surface of the insertion shaft by placing a seal between the two.
In one embodiment, the neck has a circumferential support ring on the outside.
Such support rings, also called neck rings, are known for certain versions of keg vessels. However, in the prior art, support rings are used for stabilizing the overall arrangement. This is precisely what is not necessary in the case of the neck development according to the invention. Nevertheless, a corresponding ring can be provided on the outside. The ring, in this case, is used substantially to retain compatibility with existing filling or tap systems. However, as a result of the inventive features on the neck, the support ring is no longer necessary for the actual stability and functioning of the container closure.
Consequently, since no neck ring is needed, it can be omitted. As a result, some embodiments include a neck that has a circumferential holding and/or guiding groove on the outside.
Such a groove can also be provided to facilitate automatic beverage container handling. Containers can be reliably grasped at such a groove and conveyed through the systems necessary for filling and the like. Since, as mentioned, the neck development according to the invention no longer requires structural measures disposed outside the neck for increasing stability, container handling can rely on the groove instead of the now unnecessary support ring that had hitherto provided this function.
In some embodiments, the neck has a circumferential support ring on the inside. Having a support ring on the inside can stabilize the overall arrangement even further.
In particular, such a support ring supports mechanical loads from outside and loads resulting from overpressure in the interior.
In this case, it can be advantageous for the circumferential support ring on the inside to be developed in such a manner that when the closure cap is deformed, the detent groove jams with the support ring.
In such an embodiment, the support ring sits underneath the circumferential detent collar at a spacing that is required for allowing reliable entering and locking of the detent groove to the lower ring surface of the detent collar. In addition, the spacing is selected such that when the closure cap is deformed, the corresponding bending-up transferred by the insertion shaft acts in such a manner on the detent groove that the detent groove contacts the support ring below. This generates a jamming effect that further increases stability.
Additional advantages and features of the invention are produced from the drawings, in which
A beverage container 1, as shown in
The neck 2 has an interior circumferential detent collar 4 that extends radially inward. The circumferential detent collar 4 has a first ring surface 7 and a second ring surface 8. These surfaces are called “ring surfaces” because they look like rings. The first ring surface 7 faces the direction of insertion. The second ring surface 8 faces away from the direction of insertion.
The closure cap 3 has an insertion shaft 5 that extends downward from the cap 3. A circumferential detent groove 6 is located at the end of the insertion shaft 5 remote from the cap 3. The detent groove 6 is profiled to be beveled in the direction of insertion. This makes it easier to insert the closure cap 3 into the neck 2.
Upon insertion of the cap 3, the detent groove 6 engages over the first ring surface 7. A first ring seal 9 is located on the second ring surface 8 of the detent collar 4. In addition, a circumferential support ring 10 extends radially outward to enable the beverage container 1 to be reliably grasped using known systems.
An alternative embodiment, shown in
A circumferential second ring seal 12 between the surface of the insertion shaft 5 and the container neck cooperates with the first ring seal 9 lying on the detent collar 4 to further improve sealing.
The embodiment shown in
In another embodiment, shown in
An embodiment shown in
The embodiment shown in
Naturally, the invention is not limited to the present exemplary embodiments, but can be converted in a wide respect without departing from the inventive concept.
Thus, for example, the developments of the neck just as the dimensioning of the individual components are dependent on the application and are variable.
Number | Date | Country | Kind |
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10 2008 016 320 | Mar 2008 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2009/001594 | 3/6/2009 | WO | 00 | 9/8/2010 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2009/118090 | 10/1/2009 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
296876 | Rosenzi | Apr 1884 | A |
4497758 | Clark | Feb 1985 | A |
4572399 | Bock | Feb 1986 | A |
5031785 | Lemme | Jul 1991 | A |
5535900 | Huang | Jul 1996 | A |
5680954 | Arnold et al. | Oct 1997 | A |
5988423 | Auzureau | Nov 1999 | A |
6834770 | Lo | Dec 2004 | B2 |
20040045965 | Dwinell | Mar 2004 | A1 |
Number | Date | Country |
---|---|---|
2542594 | Apr 2003 | CN |
36 08 300 | Mar 1986 | DE |
9306792 | Sep 1994 | DE |
101 38 365 | Feb 2003 | DE |
0 915 283 | May 1999 | EP |
671899 | May 1952 | GB |
9425360 | Nov 1994 | WO |
2007064277 | Jun 2007 | WO |
Entry |
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International Preliminary Report on Patentability received in International Application No. PCT/EP2009/001594 dated Nov. 18, 2010. |
Number | Date | Country | |
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20110000926 A1 | Jan 2011 | US |