The present invention relates to a closure lid for the container neck of a container closure having an inner part that is retained on an outer part provided on its outer circumference with an annular groove defined by an annular rib toward the outer part, and into which a sealing ring is inserted; and a container closure having such a closure lid which is movable between an open position, in which it can be removed from the container neck and a closing position in which it is moved axially with its inner part into the container neck, and the inner part is provided on the outside with an annular groove defined by an annular rib toward the lid and into which a sealing ring is inserted. The container neck at the level of the sealing ring, when the closure lid is in the closing position, has a sealing face on which the sealing ring rests sealingly, and when the closure lid is in a position between the closing and open positions, has a radial neck enlargement for generating a pressure relief gap between the sealing ring and neck enlargement; and the pressure relief gap, via a pressure relief chamber, is in communication with the ambient atmosphere.
One such container closure, and one such closure lid for the container neck of a container closure, are known from German Utility Model DE-U 299 28 541. This reference also describes how such container closures and closure lids are inserted, in order to seal off the container in the closing position of the closure lid, or upon rotation of the closure lid in the opening direction before the closure lid is finally released or removed from the container neck, to achieve a pressure relief on the basis of the still existing overpressure in the container interior, so that liftoff of the closure lid from pressure, which risks a burn injury from hot coolant as it shoots out, can be avoided.
In this prior art, one phenomenon of conventional container closures or closure lids, known as the champagne cork effect, is also described. In it, if the closure lid comes loose from the container neck, at elevated internal pressures, despite the radially inward-oriented tension that intrinsically presses the sealing ring against the annular groove, the sealing ring can still remain in contact with the inner wall of the container neck, if the sealing ring comes out of the region of the sealing face into the region of the neck enlargement, in the unscrewing direction of the closure lid. In other words, in this phenomenon, the sealing ring is lifted radially outward from the bottom of the annular groove by the overpressure in the container interior, so that after further unscrewing of the closure lid, the aforementioned champagne cork effect occurs from a sudden pressure relief. The aforementioned prior art avoids this phenomenon by providing that the annular rib toward the lid has pressure relief conduits, which connect the annular groove with the pressure relief chamber, or are open toward the side of the annular rib remote from the groove, whenever the sealing ring has been lifted from the bottom of the annular groove. Although this does substantially prevent the aforementioned champagne cork effect, nevertheless, because the overpressure is only partly reduced, a residual pressure in the container remains, which especially upon very fast release or unscrewing of the closure lid can still cause the closure lid to jump off suddenly, even if only slightly.
The object of the present invention is therefore to embody a closure lid for the container neck of a container closure, and a container closure itself, each of the type defined at the outset, in such a way that the champagne cork effect caused by the sealing ring's lifting radially away from the groove bottom is averted in advance, thus achieving pressure relief of the container interior before the open position of the closure lid is reached.
For attaining this object, in a closure lid for the container neck of a container closure, the annular rib toward the outer part is provided with an uneven contact face for the sealing ring, and for a container closure, the same configuration of the annular rib is provided.
By the provisions of the invention, it is attained that whenever the sealing ring comes free of the sealing face of the container neck and gets into the neck enlargement, the sealing ring can either escape in the axial direction, upon subjection of certain regions of its annular circumference to the overpressure prevailing in the container interior, so that the sealing ring deforms axially asymmetrically, or the sealing ring is already deformed in the axial direction because of the design of the annular groove boundary, so that at these circumferential regions it more likely enters the range of the neck enlargement, thus partly and in advance opening up a venting route. This axial deformation, or deformed condition, of the sealing ring not only creates an advance venting route but also prevents the sealing ring from lifting radially outward from the bottom of the annular groove, so that the champagne cork effect phenomenon cannot even arise in the first place. In this way, a total pressure equalization can be achieved even at a relatively high overpressure in the container interior, before the closure lid has reached its fully open position.
In a preferred embodiment, the annular rib toward the container is provided with an uneven contact face for the sealing ring, as a result of which a suitably deformed installation position is already predetermined for the sealing ring. This leads to the further advantage of reduced frictional resistance as the closure lid is screwed in onto the container neck or is unscrewed and released from it.
In preferred features, the sealing ring contact face of the annular rib toward the outer part and/or of the annular rib toward the container is provided with one or more support ribs that protrude into the annular groove and are distributed over the circumference. The support rib can be disposed or embodied to be offset at angles from one another relative to the support rib of the annular rib toward the container, and/or each annular rib has a pair of diametrically opposed support ribs, and the two pairs are offset from one another by 90°, and/or the support ribs protrude axially from the contact face and have a radial length corresponding to the width of the annular rib. In normal operation, the support ribs bring about a linear support of the sealing ring inside the annular groove and can either fix the sealing ring in deformed fashion or, upon overpressure in the container interior, during the unscrewing motion of the closure lid, they can allow an adequate axial motion of the sealing ring between adjacent support ribs.
A further embodiment is defined in that the sealing ring contact face of the annular rib toward the outer part is provided with at least one axial recess which extends radially from the circumferential edge of the annular rib, and in combination with them optionally the recess is provided at two diametrically opposed points and/or has an inner boundary line that is embodied as convexly swooping.
A further embodiment is obtained by the recess having a crescent-shaped bottom face, and in an embodiment optionally the crescent-shaped bottom face extends over the entire circumference of the annular rib toward the outer part and over that course varies its radial width constantly from a width corresponding to the width of the annular rib down to zero, and/or an uneven contact face for the sealing ring is provided on an annular rib toward the container that additionally defines the annular groove.
In these last two embodiments, wherein the groove bottom of the annular groove, in a widening of the contact face, has an encompassing groove the axial mobility or predeformed fixation of the sealing ring is provided by means of variously designed recesses or indentations in the annular rib contact face or faces.
Further details of the invention can be learned from the ensuing description, in which the invention is described and explained in further detail in terms of the exemplary embodiments shown in the drawing.
The container neck 11 on the bottom has a narrowed neck portion 13, which is in communication with an opening in a container, not shown, preferably a radiator for internal combustion engines. An enlarged neck portion 14 is provided in the upper region of the container neck 11 and is joined to the lower neck portion 13 via a conical intermediate portion (ramp) 15. The container neck 11 is provided with a male thread 16, by way of which the closure lid 12, 12′ can be screwed to a female thread 17, or in other words can be screwed on and unscrewed.
The closure lid 12 and 12′ has a caplike outer part 21, which fits over the container neck 11 and which is provided with the female thread 17 for screwing onto and unscrewing from the container neck 11. The closure lid 12, 12′ also has a cup-shaped inner part 22, which is shown in perspective in
In the first exemplary embodiment, shown in
In the second exemplary embodiment shown in
In a completely closed position, not shown, of the closure lid 12, 12′ or inner part 22, 22′ in the container neck 11, the annular sealing face of the lower neck portion 13 of the container neck 11 is located facing the annular groove 26 and thus the sealing ring 27, 27′, so that this ring rests sealingly in the lower neck portion 13 of the container neck 11. Thus the sealing ring 27, 27′ is deformed such that it is compressed into an oval.
If now, as shown in
If as shown in
Thus a pressure relief of the closure lid 12, 12′ is achieved and completed during the unscrewing of the closure lid, before the closure lid 12, 12′ with its female thread 17 comes completely free of the male thread 16.
Number | Date | Country | Kind |
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201 07 582 U | May 2001 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP02/04741 | 4/30/2002 | WO | 00 | 8/29/2003 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO02/090202 | 11/14/2002 | WO | A |
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Number | Date | Country |
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299 18 541 | Mar 2000 | DE |
199 46 845 | Apr 2001 | DE |
100 51 444 | May 2001 | DE |
Number | Date | Country | |
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20040069784 A1 | Apr 2004 | US |