EP1622814B1

EP1622814B1 - Valve closure

Info

Publication number: EP1622814B1
Application number: EP04729845A
Authority: EP
Inventors: Christopher Paul Ramsey
Original assignee: Obrist Closures Switzerland GmbH
Current assignee: Obrist Closures Switzerland GmbH
Priority date: 2003-05-07
Filing date: 2004-04-28
Publication date: 2008-03-26
Anticipated expiration: 2024-04-28
Also published as: ES2303069T3; US20060249545A1; DE602004012733T2; WO2004099024A1; DE602004012733D1; CA2524477C; BRPI0410017A; EP1622814A1; PL1622814T3; ATE390365T1; MXPA05011982A; CA2524477A1

Abstract

A valve closure for a container, having a body, a valve and a lid. The valve is positioned across the opening of the container and itself has an opening through which the contents of the container may be dispensed. The lid is moveable relative to the body between open and closed positions and is shaped to block the valve opening, when the lid is in its closed position. The lid has a projection, which forms a peripheral seal around the valve opening, when the lid is in its closed position, and within the periphery of the projection, the shape of the lid substantially conforms to the shape of the valve and/or body, to minimise the volume therebetween.

Description

The present invention relates to a closure used to seal a container having a valve. In particular, the closure is designed to prevent leakage from the valve during transport or storage of the container.
Many liquid food products (e.g. honey and sauces such as tomato sauce) are now packaged in containers incorporating a valve, which is used to control dispensing of the product. Also, liquid toiletries, such as shower gel are packaged in such containers, because the valve allows the container to be stored in an inverted position without substantial loss of product, whilst allowing easy dispensing of the product upon activation of the valve. In many cases, a self-closing valve is preferred. A self-closing valve opens in response to increased product pressure in the container, achieved for example by a user squeezing the container. When the product pressure is relieved, the valve automatically assumes a closed configuration in which the valve opening is substantially sealed. However, such valves are known to leak a little over time and may be activated accidentally during mishandling or pressure /temperature variation during transport.
To overcome these problems, it is known to provide an overcap for the valve, which prevents the valve from opening or leaking, during prolonged storage or transport. Many different types of overcap arrangement are described in the prior art. Conventional overcap designs are concerned with preventing leakage from the dispensing orifice in the valve, see for example JP-A-10236498 , US-A-5,743,443 , US-A-5,632,420 and WO 02/096770A1 .
In contrast, the present invention is base upon the acceptance that all valves will leak to some degree, but the level of leakage may be controlled to acceptable levels by reducing the volume of the cavity into which leakage can occur.
Accordingly, the present invention provides a closure for a container, the closure having a body, a valve comprising a valve head, and a connecting wall, said valve head having an opening through which the contents of the container may be dispensed, and a lid, moveable between open and closed positions relative to the body, and shaped to block the opening in the valve, when the lid is in its closed position, wherein the lid has an annular projection, located adjacent the periphery of the valve head, and the shape of the lid within the periphery of the projection substantially conforms to the shape of the valve head within the peripheral seal, such that when the lid is in its closed position it contacts the valve head over substantially the whole of the area thereof within the peripheral seal to minimise the volume therebetween, characterised in that, the annular projection is configured to either press against the surface of the valve head within the periphery thereof, or against the body adjacent the connecting wall radially outside the valve head, so that in use with the lid in its closed position, the projection forms an annular peripheral seal around the valve opening and minimises the volume between the valve head and the lid within the annular projection.
Therefore, the closure according to the invention has an open position, in which the contents of the container may be dispensed and a closed position (for transport or storage), where the closure lid defines a peripheral, fluid tight seal around the valve opening. The shape of the lid within the boundary of this peripheral seal is closely matched to the shape of the valve and surrounding closure parts lying within the periphery of the seal. In this way, the volume into which the valve may leak is minimised and any leakage that occurs is limited to an acceptable level in the eyes of the user.
In a preferred embodiment of the invention, the closure comprises a body, which carries the valve and is designed to engage the container neck, either removeably (using a screw thread arrangement, for example) or permanently (using a snap-fit arrangement, for example). The closure also has a lid, which is capable of moving relative to the body between open and closed positions. When the lid is in its open position, the contents of the container may be dispensed through the opening in the valve. However, when the lid is in its closed position, it blocks the valve opening, preventing substantial leakage from the valve.
Unlike the sealing systems described in the prior art, the lid is not intended to prevent leakage entirely, instead the aim of the invention is to minimise the volume into which leakage may occur, thus controlling the leakage to acceptable levels. If the volume is sufficiently small, then the leakage will form a thin film and surface tension, prevents a drip forming. Thus, the surface appears clean.
Accordingly, in the present invention, the lid is provided with a projection, which is adapted to form a fluid-tight, peripheral seal around the valve opening. The fluid-tight seal may be formed by the lid projection applying pressure directly to the valve around the valve opening. However, in some cases this is not desirable, particularly where the valve is made from a material which is prone to creep when subjected to an applied load. Such creep may reduce the effectiveness of the peripheral seal over time or may affect the normal dispensing operation of the valve.
An advantage of the present invention is that the peripheral seal may be provided by interaction between the two most suitable surfaces. Therefore, if the valve is prone to creep, the projection may be arranged to co-operate with the closure body, rather than the valve and thereby create an effective fluid tight seal. Advantageously, the lid projection and the closure body are designed to form a bore seal therebetween, when the lid is in its closed position.
In order to minimise the volume into which leakage may occur, the shape of the lid, within the periphery of the projection must closely match the shape of the valve and/or body of the closure within the peripheral seal, when the lid is in its closed position. In addition, if the valve is prone to creep and the peripheral seal is therefore formed between the lid projection and the closure body, the shape of the valve protruding from the closure body must be relatively simple, to enable close matching of the portion of the lid within the projection and the portion of the closure body and valve within the peripheral seal.
The present invention will now be described, by way of example only, with reference to the accompanying drawings, in which

FIGURE 1 shows a valve sealing arrangement according to a first embodiment of the invention, comprising a conventional self-closing valve not prone to excessive creep and a lid, shown in its closed position.
FIGURE 2 shows a valve sealing arrangement according to a second embodiment of the invention, comprising a conventional self-closing valve not prone to excessive creep and a lid, shown in its closed position
FIGURE 3 shows a closure according to a third embodiment of the invention, having a self-closing valve prone to creep and lid, shown in its closed position.

Wherever possible, like components have been referenced using the same reference numerals.
According to figures 1 and 2, a valve sealing arrangement comprises a conventional self-closing valve 1 held in a body 2 by a clip 3 and a lid 5, moveable relative to the body 2 between open and closed positions. The body 2 may either form part of a container or a closure. In figures 1 and 2, the clip is shown attached to the internal surface of the body 2, although it will be appreciated that the relative positions of the body 2 and the clip 3 may be reversed and the clip 3 may be attached to the external surface of the body 2. The clip 3 clamps the valve 1 in the body 2, by means of a snap fit connection 23 between the body 2 and the clip 3.
The valve 1 comprises a securement flange 11, connected to a valve head 15 by a connecting wall 12. The valve head takes the form of an inwardly concave dish, with an opening 17 provided in the centre thereof. In figures 1 and 2, the connecting wall 12 of the valve 1 takes the form of a V-shaped elbow, although many different connecting wall configurations are known from the prior art. For example, the connecting wall may have a loose folded configuration, which functions like a rolling diaphragm upon opening of the valve or a simple linear configuration, which simply stretches slightly, as the valve opens.
Referring now to figure 1, the lid 5 is provided with an annular projection 51, which encircles the valve opening 17. The annular projection 51 is designed to apply an axial sealing force F to the valve head 15, which is braced by the opposing support 31 provided by the clip 3. The interaction between the annular projection 51, the valve head 15 and the support 31, produces the sealing force F, which creates a fluid-tight seal A around the periphery of the valve opening 17. The shape of the lid within the periphery of the projection 51, closely matches the shape of the valve head 15 within the periphery of the annular seal A. Thus, the volume defined between the lid 5 and the valve head 15 within the periphery of the annular seal A is reduced to a minimum, thereby minimising the volume of leakage that can occur from the valve opening 17.
Figure 2 shows an alternative valve sealing arrangement, in which no force is applied to the valve head 15. This may be an important consideration where the design of the valve head is critical and therefore the application of forces to the valve head for a prolonged period is undesirable. In this arrangement, the body 2 is designed to apply a radial sealing force F to the connecting wall 12. The dimensions of the aperture in the body 2, through which the valve head 15 protrudes; are chosen to provide the necessary radial sealing force F to form a fluid-tight annular seal A. In this arrangement, the lid 5 has an annular flange 55, which is arranged to form a bore seal with an annular collar 25 provided in the body 2. The tip 56 of the annular flange 55 may also be designed to form a face seal within the recess 21 formed in the body 2 adjacent to the collar 25.
The fluid-tight seal A extends around the periphery of the valve head 15 and thereby encompasses the valve opening 17. The shape of the lid 5 within the periphery of the annular flange 55, closely matches the shape of the valve 1 within the periphery of the annular seal A. Thus, the volume defined between the lid 5, the valve head 15 and valve connecting wall 12 within the periphery of the annular seal A is reduced to a minimum. Thereby minimising the volume of leakage that can occur from the valve opening 17.
Referring now to figure 3, which shows a closure according to the present invention having a valve, which is made from a material that is prone to creep or distortion when subjected to an applied load for prolonged periods, for example TPE. The advantage of TPE is that it can be used to produce valves at low cost and is suitable for sequential moulding with other materials such as rigid polypropylene (PP).
In the embodiment shown in figure 3, a TPE valve 1 is sequentially moulded to a rigid polypropylene ring 16. The polypropylene ring 16 is clipped into a closure body 2 and is held in place by a bead 22. The valve has a dish-shaped, inwardly concave valve head 15, which is connected to the polypropylene ring 16 by a connecting wall 12. The closure also includes a removable lid 5, which is closed on the body 2 and secured in position by means of a snap fit arrangement 24. The lid 5 does not apply any forces to the valve 1, because this could cause distortion. Instead, the lid 5 has an annular flange 55, which is designed to co-operate with the closure body 2 to form a peripheral fluid-tight seal around the valve opening 17. The annular flange 55 is arranged to form a bore seal within an annular channel 21 provided in the body 2. The tip of the annular flange 55 may also be designed to form a face seal within the annular channel 21 as previously described with reference to the embodiment shown in figure 2. Thus, the annular flange 55, may be adapted to form a fluid-tight peripheral seal A in the form of a bore seal, a face seal or a combination of the two.
The fluid-tight seal A extends around the periphery of the valve head 15 and thereby encompasses the valve opening 17. The shape of the lid 5 within the periphery of the annular flange 55, closely matches the shape of the valve 1 within the periphery of the annular seal A. Thus, the volume defined between the lid 5, the valve head 15 and valve connecting wall 12 within the periphery of the annular seal A is reduced to a minimum. Thereby minimising the volume of leakage that can occur from the valve opening 17.
The embodiments described above are provided as an illustration of the invention only and many other configurations of valve and arrangements of the closure will be apparent to the person skilled in the art. The invention is ideally suited to liquid seals, where the reduction in leakage volume allows positive surface tension effects to occur. However, the invention is also suitable for gas seals (for example for processed and /or aseptically filled foods) where a hermetic quality seal is required. The valve closure according to the invention can meet this requirement and thus a separate foil seal is not required (e.g. closures for sauce bottles often need a barrier foil under the closure).

Claims

A closure for a container, the closure having
a body (2), a valve (1) comprising a valve head (15), and a connecting wall (12), said valve head (15) having an opening through which the contents of the container may be dispensed, and a lid (5), moveable between open and closed positions relative to the body (2), and shaped to block the opening (17) in the valve (1), when the lid (5) is in its closed position,
wherein the lid (5) has an annular projection (51,55), located adjacent the periphery of the valve head (15), and the shape of the lid (5) within the periphery of the projection (51,55) substantially conforms to the shape of the valve head (15), such that when the lid (5) is in its closed position it contacts the valve head (15) over substantially the whole of the area thereof within the periphery of the projection (51,55) to minimise the volume therebetween,
characterised in that,
the annular projection (51,55) is configured either to press against the surface of the valve head (15) within the periphery thereof, or against the body (2) adjacent the connecting wall (12) radially outside the valve head (15), so that in use with the lid (5) in its closed position, the projection (51,55) forms an annular peripheral seal around the valve opening (17) and minimises the volume between the valve head (15) and the lid (5) within the annular projection (51,55).
A closure according to Claim 1, including a support member (31) on the opposite side of the valve head (15) from the lid (2) for bracing against the sealing force provided by the annular projection (51).
A closure according to Claim 1, wherein the body (2) has a sealing face and the projection (55) on the lid (5) engages with the sealing face of the body (2) to form a peripheral seal around the valve opening (17).
A closure according to Claim 3, wherein the projection (55) and the sealing face of the body (2) are adapted to form a bore seal therebetween.
A closure according to any preceding claim, wherein the body (2) is arranged to apply a radial sealing force to the connecting wall (12).
A closure according to any preceding claim, wherein the valve (1) is formed integrally with the body (2).
A closure according to any of Claims 1 to 5, wherein the valve (1) is a self-closing valve having a flange (11) adapted to be constrained between the closure body (2) and a clip (3), a valve head (15) defining the valve opening (17) and a connecting wall (12) therebetween.
A closure according to Claim 7, wherein the valve connecting wall (12) has a substantially linear configuration to allow the shape of the lid (5) within the projection (51,55) to substantially conform to the shape of the body (2) and/or valve head (15) within the peripheral seal.
A closure according to any preceding claim, wherein the lid (5) has a plug inside the periphery of the annular projection (51,55) and the plug is shaped to substantially conform to the shape of the body (2) and/or valve (1) within the peripheral seal.
A container in combination with a closure according to any preceding claim.