The present invention relates to a packaging assembly, including a bottle and a closure without any added gasket for closing the neck of the bottle.
The invention thus concerns bottles of liquid, notably containing at least about 10 liters of liquid, often water, typically three, four or five gallon bottles, which are used in the upside-down position in drinking water dispensing fountains. Presently most of the bottles of this type are made in polycarbonate and may therefore be reused many times, while being cleaned before each filling. During the lifetime of such a bottle, the outer face of its neck gets damaged, which requires that an added flexible seal gasket, be provided in the bottom of the closure for closing the neck of the bottle, which avoids leaks by accommodating scratches and other surface irregularities of the neck. This packaging assembly however poses problems: polycarbonate is an expensive and relatively heavy material on the one hand and, the presence of an added gasket in the closure tends to give a spoiled odor and taste to the water contained in the bottle.
These problems are partly tackled by WO-A-2008/098362, which proposes a closure for closing a bottle without any added gasket. The seal is achieved by several outer sealing lips, which are applied on the outer face of the neck, including on the protruding bead with which this outer face is provided and around which an inner clip of the skirt of the closure is forcibly engaged, with flexible deformation of the closure until the clip is axially blocked against the bead of the neck.
For its part, WO-A-03/097475, on which is based the preamble of claim 1, discloses a closure interiorly provided with a sealing lip intended to cooperate with the inner face of the neck of a bottle. On paper, this solution seems appealing, but its practical application is thwarted: upon placement of the closure on the neck, an inner clip of the skirt of this closure interferes so much with an outer bead of the neck so as to in fine result in securing the contents of the bottle in the upside-down position, sufficiently strongly for withstanding, notably weight stresses, so that the closure undergoes overall deformation leading to bad positioning of the sealing lip relatively to the neck, or even to its squeezing between the free end surface of the neck and the remainder of the closure.
The bottle and the closure of DE-U-299 12 652 get round this problem by providing that the bead of the neck of the bottle is so far from the free end of this neck that, when this bead begins to interfere with the inner clip of the skirt of the closure, the free end of the neck is already facing radially a cylindrical running portion of a sealing lip with which the closure is interiorly provided: when the closure begins to deform under the effect of the interference between the aforementioned clip and bead, a large portion of this lip is therefore already accommodated inside the neck. This solution is of course not applicable to all the bottles.
The object of the present invention is to improve existing packagings, by proposing a both reliable and economic solution for ensuring the seal of the closure of the neck with a closure without any added gasket.
For this purpose, the object of the invention is a packaging assembly, as defined in claim 1.
One of the ideas at the basis of the invention is to try and seal the closing of the neck by the closure, from the inside of this neck. To do this, according to the invention, the closure includes a sealing lip with which the cap is provided, and which is conformed so as to substantially bear radially to the central axis of the neck, against the inner face of this neck, thereby forming between them a peripheral seal line. The invention further intends to take into account the specific context of the bottles of the type mentioned above, a context in which the closure has a large skirt diameter considering the outer diameter of the neck, with a value of several centimeters on the one hand, and the size of the bottle forces great interference between the inner clip of the skirt and the outer bead of the neck on the other hand, which causes the closure to undergo significant overall deformation when the clip is forcibly engaged around the bead, until it is axially blocked against the bead in order to secure the skirt around the neck; thus, according to the invention, the inner sealing lip has, in its terminal portion opposite to the cap, in other words in its terminal portion which will first interact with the neck upon putting the closure around the neck, a ramp surface, against which, during the aforementioned placement, the free end of the neck bears axially: by a ramp effect, the interference between this surface and the free end of the neck guides the engagement of the lip into the inside of the neck, by means of corresponding deformation of the lip, controlled by the sliding of the ramp surface against the free end of the neck. In other words, the interference between this ramp surface and the free end of the neck, upon putting the closure on the neck, advantageously allows improvement in the centering and introduction of the sealing lip into the inside of this neck. This arrangement of the invention is essential in the sense that, by default, because of the overall deformation undergone by the closure during the interference between the inner clip of its skirts and the outer bead of the neck, the inner sealing lip would be axially crushed between the free end surface of the neck and the cap of the closure.
By means of the inner sealing lip of the closure according to the invention, this closure may do without any added seal gasket, while guaranteeing reliable sealed closing of the neck. Moreover, the performances of this inner sealing lip are such that the invention finds a preferential application to a packaging assembly, the bottle of which containing at least about ten liters of liquid, and is made in polyethylene terephthalate (PET). Further, the presence of this inner sealing lip is economical, in the sense that the closure according to the invention remains easy to make, notably by molding of plastic material.
Advantageous additional features of the packaging assembly according to the invention, taken individually or according to all technically possible combinations, are specified in the dependent claims 2 to 10.
The invention will be better understood upon reading the following description, only given as an example and made with reference to the drawings, wherein:
A closure 1 capable of closing the neck 3 of a bottle 2 is illustrated in
Generally, the neck 3 is either made in the same material with the remainder of the bottle 2, notably when the latter is in glass or in plastic, or adapted so as to be permanently firmly attached onto a wall of the bottle 2, at an aperture crossing this wall. As discussed in the introductory portion of the present document, the bottle 2 preferentially contains at least about 10 liters of liquid, notably water. This bottle thus has for example a capacity of three, four or five gallons. In this context, this bottle, notably its neck 3, is advantageously made in polyethylene terephthalate (PET), which gives the bottle, some lightness while allowing its reuse several times.
The neck 3 has a globally tubular shape, the central longitudinal axis is referenced as X-X. Conveniently, the following of the description of the closure 1 is oriented relatively to the axis X-X, by considering that the terms of<<lower>>et<<bottom>>describe a portion of the closure, which is directed axially towards the main body of the bottle 2 when the closure 1 obturates the neck 3 of this bottle and while the latter rests on a horizontal plane, such as a table, with its neck 3 directed upwards, like in the figures. Conversely, the terms of<<upper>>and<<top>>correspond to an axial direction in the opposite sense. Also, the term of<<inner>>describes a portion of the closure 1, which is directed transversely towards the axis X-X, while the term of<<outer>>corresponds to a transverse direction in the opposite sense.
The neck 3 includes a globally tubular body 4, with a circular base and centered on the axis X-X. The top axial end 5 of the body 4 is free, while opening outwards, while, at its opposite axial end, the body 4 opens into the main body of the bottle 2. The free end 5 of the body 4 connects the inner 4A and outer 4B faces of this body, with each other. The outer face 4A is substantially cylindrical, centered on the axis X-X, and with a circular base. The outer face 4B of the body 4 is provided with a bead 6 protruding outwards, the convex surface 6A of which connects a running axial portion of the body 4 to the free end 5 of the latter.
As this is clearly apparent in
At the outer periphery of the cap 10, a globally tubular skirt 20 extends downwards, centered on the axis X-X, and with a circular base, having been made in the same material, with the peripheral portion 11 of the cap. The running portion of the inner face 20A of the skirt 20 is provided with a clip 21 protruding inwards, this clip being intended to cooperate by diametrical interference with the outer bead 6 of the neck 3 with the purpose of attaching the skirt 20 coaxially around the neck 3 when the closure 1 is in the closing configuration on this neck, as explained in more detail subsequently. In the embodiment, considered in the figures, the clip 21 runs over the inner periphery of the skirt 20 while being regularly interrupted, which amounts to stating that this clip 21 consists of a succession of a bulging portions, distributed along the periphery of the inner face 20A of the skirt 20. In a way known per se, this layout aims at increasing the transverse flexibility of the skirt 20 at the axial level of the clip 21. Of course, as an alternative, not shown, this clip may be provided so as to be continuous over the whole inner periphery of the skirt.
The closure 1 also includes a sealing lip 30, which has a globally ring-shaped form, with a circular base and centered on the axis X-X, which extends downwards from the cap 10, while having been made in the same material with the lower face 11B of the outer peripheral portion 11 of this cap 10. The lip 30 runs over the whole lower periphery of the portion 11 of the cap 10. This lip 30 is laid out coaxially inside the skirt 20, with radial interposition between them of a free space which, when the closure 1 is in a closing configuration on the neck 3, is occupied by the free end 5 of the body 4 of the latter.
In the embodiment of
The outer face 31B of the lip 30 in its running portion has a convex surface 33, which is intended for tight bearing against the inner face 4A of the body 4 of the neck 3, and which is connected to the lower free end 32 of the wall 31 by a substantially flat surface 34.
Advantageously, the closure 1 also includes a sealing lip 40, which extends protrusively inwards from the lower face 20A of the skirt 20, while being axially located between the clip 21 and the upper end of the skirt 20, bound to the outer periphery of the cap 10. The lip 40 runs over the whole inner periphery of the skirt 20. For reasons which will appear later on, the lip 40 is substantially located radially facing the convex surface 33 of the lip 30. Also, for reasons which will become apparent later on, it will be noted that, as this is clearly apparent in the left portion of
Other features of the closure 1, in particular of its cap 10, of its skirt 20 and of its lips 30 and 40, will be explained hereafter. Considering the successive steps for placing the closure 1 on the neck 3 of the bottle 2, with view to closing this neck.
Initially, the closure 1 has the rest configuration illustrated by the left half of
It will be noted that, in this rest configuration of the closure 1, the latter has dimensions adapted to the neck 3 of the bottle 2. In particular, the maximum outer diameter of the lip 30, which corresponds to the maximum diameter of the convex surface 33 of its outer face 31B, is strictly greater than the diameter of the inner face 4A of the body 4 of the neck 3. Further, the minimum inner diameter of the clip 21 of the skirt 20 is strictly smaller than the maximum outer diameter of the bead 6 of the neck 3.
When the closure 1 is in its rest configuration, it is axially engaged around the neck 3, the free end 5 of this neck being introduced into the open lower end of the skirt 20 and gradually moved closer axially to the cap 10. Of course, the engagement movement between the closure 1 and the neck 3 is relative, so that, in practice, either one or both of them are caused to move for the purpose of this engagement.
It is understood that, during the engagement towards the top of the neck 3 inside the skirt 20, the clip 21 of the skirt will diametrically interfere with the bead 6 of the neck 3, as illustrated at gradually in
By taking into account the foregoing explanations, it is understood that the ramp effect described above is advantageously reinforced by providing that the surface 34 has a substantially frusto-conical conformation centered on the X-X axis and convergent towards this axis in the opposite direction to the cap 10, when the free end 5 of the neck 3 interferes with this surface 34. In practice, as this is clearly apparent by comparing
By continuing the engagement towards the top of the neck 3 inside the skirt 20, the inner face 4A of this neck, is again found, after guiding its free end 5 along the ramp surface 34, radially bearing against the convex surface 33, as shown in
By further continuing the engagement towards the top of the neck 3 inside the skirt 20 until the closing configuration of the closure 1, illustrated in the right half of
Advantageously, in the closing configuration which the closure 1 finally attains, illustrated in the right portion of
In
The closure 101 is distinguished from the closure 1 by arrangements aiming at sealing the outside of the neck 3. More specifically, the closure 101 includes an outer sealing lip 140, which, like the lip 40 of the closure 1, extends protruding from the inner face 120A of the skirt 120, while being axially located between the clip 121 and the cap 110 on the one hand and radially facing the sealed supporting surface 133 of the inner sealing lip 130. However, unlike the lip 40 of the closure 1, the lip 140 does not have in connection with the cap, a continuously curved sealed surface, similar to the surface 42 described above. On the contrary, in the connecting area between the lip 140 and the lower face 111B of the outer peripheral portion 111 of the cap 110, two protruding teeth 143 are provided, positioned in order to form respective contact points with the upper portion of the convex surface 6A of the bead 6. The shape of the lip 140 and the presence of the teeth 143 are in fact compliant with the technical teaching of WO-A-2008/098362 to which the reader may refer for more detail. It will be noted that the aforementioned technical teaching is of particular new interest within the closure 101, because of its association with the inner sealing lip 130.
In
The closure 201 is distinguished from the closure 1 by the embodiment of its inner sealing lip 230. Indeed, as this is clearly apparent in
Producing the lip 230 with both ring-shaped walls 231.1 and 231.2 facilitates the making of this lip, notably its removal from the mold, and gives greater flexibility to the lip, comparatively with the production of the lip 30 with the single ring-shaped wall 31. However, considering the lack of material between these walls 231.1 and 231.2, in particular, radially between their upper end 235.1 and 235.2, the upper face 211A of the outer peripheral portion 211 of the cap 210 has a more limited radial extent so as to adhesively bond an added label or more generally, so as to firmly attach a similar added element thereto.
Various arrangements and alternatives of the bottle 2 and of the closures 1, 101 and 201 described up to now may moreover be contemplated.
Number | Date | Country | Kind |
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1154665 | May 2011 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2012/059830 | 5/25/2012 | WO | 00 | 4/29/2013 |