The present invention relates to a closure for a beverage keg that is configured for storing, transporting and dispensing beverage. Aspects of the invention relate to a closure for a beverage keg, and to a beverage keg supplied with or fitted with a closure.
Kegs are widely used in the distribution and dispensing of beverages such as beer. Kegs are typically provided with a closure that closes and seals a neck of the keg. The closure may define a pair of flow paths that enable beverage to be introduced into the keg during a filling operation, which is generally performed with the keg inverted. The flow paths may further enable beverage to be dispensed from the keg, for example with pressurised gas being introduced into the keg via a first one of the flow paths in order to force beverage out of the keg via the second flow path.
Traditional kegs are generally formed of metal, and are intended to be used many times before disposal. However, plastic kegs have also been introduced to the market, including disposable kegs that are stretch blow moulded from a preform of PET or another plastics material.
It is generally desirable to ensure that a keg is depressurised after use, for example after the contents of the keg have been dispensed. This is particularly the case for disposable plastic kegs, which are generally crushed after use. For this purpose some dispense heads include a purge valve that is operable to vent propellant gas from the keg before the closure is disconnected from the dispense head. Some closures also include a mechanism for preventing a valve element of the closure from returning to a closed state after disconnection from a dispense head in order to ensure that no residual pressure remains within the keg. However, such mechanisms are often complicated and expensive, and may include long tolerance chains and be prone to failure.
In addition, it is desirable to limit the internal pressure experienced within a keg. For this purpose some closures include an automatic venting system. However, known venting systems are generally complicated and expensive, especially when applied to plastics closures that may in some cases be disposable items intended for disposal together with a keg after use, and may not provide reliable venting at a consistent internal pressure.
Finally, it is generally desirable to minimise the cost and complexity of keg closures, to increase the ease of assembly, and to provide a rugged design. However, known closures often include a significant number of parts forming the main structure of the closure, and can be difficult and time-consuming to assemble.
It is an aim of the present invention to address disadvantages associated with the prior art.
According to a first aspect of the present invention there is provided a closure for a beverage keg, the closure comprising an outer housing wall defining at least a portion of a valve housing and an inner duct that is located within the outer housing wall and extends through at least a portion of the valve housing to define a flow path through the closure, wherein the outer housing wall and the inner duct are integrally formed together as part of a single housing component.
The closure may further include an outer flow path at least partially surrounding the flow path provided through the inner duct, the outer flow path being defined between the outer housing wall and the inner duct.
By forming the outer housing wall and the inner duct together as part of a single integrated housing component the present invention provides a closure that is rugged and simple to assemble with a reduced parts count compared to prior art closures.
The outer housing wall may be connected to the inner duct by a connecting portion extending radially inwardly from the outer housing wall.
The connecting portion may extend inwardly from a location at or near to a base of the outer housing wall, the base defining a bottom end of the valve housing. Alternatively, the connecting portion may define the base of the valve housing.
The closure may further comprise a valve element and a biasing device such as a spring that is configured to bias the valve element towards a closed position, wherein a lower end of the biasing device rests against the connecting portion. With such a design, there is no need to provide any additional formations for engaging the biasing device. Alternatively the biasing device may engage a formation provided on the interior of the outer housing wall or the exterior of the inner duct at its lower end.
The connecting portion may take the form of a wall or a plurality of struts connecting the outer housing wall to the inner duct.
The connecting portion may include one or more apertures formed therein. The aperture(s) may extend through the wall or be provided between adjacent struts. The aperture(s) may provide fluid communication between the interior of the valve housing and a headspace in a keg to which the closure may be fitted. The aperture(s) may also allow one or more protruding elements of a pressure release system for locking the valve element in an open position to protrude to the exterior of the valve housing.
The inner duct may extend below the connecting portion in a direction towards the base of the keg to define a tail portion that is configured to be connected to an elongate tube or spear.
The outer housing wall may be at least substantially annular.
At least a portion of the outer housing wall may be configured to be received within a neck of a keg when the closure is fitted to a keg.
The housing component may be connected to a separate outer component providing a head portion of the closure that is configured for attachment to a filling head or dispense head and/or an attachment portion configured for attachment to a neck of a keg.
The head portion may be configured for attachment to flat type filling heads and dispense heads, for example Type-A or Type-G filling heads and dispense heads.
The attachment portion may comprise an outer wall arranged around the outside of the outer housing wall and surrounding at least a portion of the outer housing wall, for example at least an upper portion of the outer housing wall. The attachment portion may be provided with one or more engagement elements for attaching the closure to the neck of the keg, for example one or more clip formations to enable the closure to be snap fitted to the neck of the keg or internal threading to enable the closure to be screwed onto the neck of the keg.
The outer housing wall may be provided with one or more engagement elements such as clip formations for securing the outer housing wall to the outer component.
Alternatively one or both of the head portion and the attachment portion may be integrally formed together with the outer housing wall as part of the housing component.
The housing component may be an injection moulded plastics component.
The closure may further comprise a head portion configured for attachment to a filling head or dispense head. The head portion may be configured for attachment to flat type filling heads and dispense heads, for example Type-A or Type-G filling heads and dispense heads, or alternatively for attachment to Type-S or Type-D filling heads and dispense heads.
According to a second aspect of the invention, a closure for a beverage keg is provided, the closure comprising a housing wall defining at least a portion of a valve housing, an inlet for admitting a pressurised gas into a headspace of the beverage keg and a venting system provided in the housing wall, separate from the inlet and configured to provide fluid communication between the headspace of the keg and an exterior of the closure, the valve housing being connected to a separate outer component, the outer component providing a head portion of the closure that is configured for attachment to a filling head or dispense head and/or an attachment portion configured for attachment to a neck of a keg.
An important advantage of the venting system being provided in the valve housing, and not in the separate outer component is that the total height of the valve closure can be smaller.
According to a further aspect of the present invention there is provided a beverage keg supplied with or fitted with a closure including any of the features described above.
Within the scope of this application it is expressly intended that the various aspects, embodiments, examples and alternatives set out in the preceding paragraphs, in the claims and/or in the following description and drawings, and in particular the individual features thereof, may be taken independently or in any combination. That is, all embodiments and/or features of any embodiment can be combined in any way and/or combination, unless such features are incompatible. The applicant reserves the right to change any originally filed claim or file any new claim accordingly, including the right to amend any originally filed claim to depend from and/or incorporate any feature of any other claim although not originally claimed in that manner.
One or more embodiments of the invention will now be described, by way of example only, with reference to the accompanying drawings, in which:
The keg 90 comprises a substantially hemispherical base portion including a plurality of blister like feet arranged in a petaloid formation on which the keg 90 may stand in use. The keg 90 further comprises a cylindrical body portion that is integrally formed with and extends upwardly from the top of the base portion, and a substantially hemispherical shoulder portion 91 that is integrally formed with the body portion at the top edge thereof. At the top of the shoulder portion 91 the keg 90 is provided with a neck portion 92 that defines an opening of the keg 90. The closure 1 is connected to the neck 92 of the keg 90 via a snap fit engagement, as described in more detail below.
The keg 90 is stretch blow moulded from a preform of plastic, such as a PET preform, and is configured to be used in the distribution and pressurised dispensing of a beverage such as draught beer (although in other embodiments the keg 90 may equally be configured for use with other carbonated or non-carbonated beverages). The keg 90 is designed to be self-standing on the feet of its base portion in use (for example during pressurized dispensing using conventional draught beer dispensing apparatus), and is designed to be able to independently withstand the internal pressures associated with the pressurised dispensing of draught beer (for example at a pressure of 1 to 4 bar). The keg 90 may include a barrier layer in order to increase the shelf life of beer contained therein.
The structure and operation of the closure 1 will now be described. It will be appreciated that all references to directions made in relation to the closure 1 and components of the closure 1 throughout this specification, such as “upwardly”, “downwardly”, “top”, “bottom” and “underside”, are made with respect to a closure in an upright orientation as illustrated in
The closure 1 comprises an attachment part 10 or outer head part or snap ring for attaching the closure 1 to the neck 92 of the keg 90. The attachment part 10 comprises an annular head portion 11 that is arranged at the top of the neck 92 of the keg 90 when the closure has been fitted to the keg 90. The head portion 11 has a substantially planar top surface and includes a flange portion that overhangs the neck 92 of the keg 90, and is configured to cooperate with filling heads and dispense heads. The closure 1 is a Type-A closure, and the head portion 11 is configured to cooperate with standard Type-A filling heads and dispense heads used in the distribution and pressurised dispensing of draught beer in a conventional manner. The head portion 11 comprises a central aperture 12 that is configured to be opened and closed by a movable valve element 30 in order to selectively open and close concentric inner and outer flow paths through the closure 1, as described in more detail below.
The attachment part 10 further comprises an annular attachment portion or outer wall 13 that extends downwardly from the underside of the head portion 11. The annular wall 13 is configured to receive at least an upper portion of the neck 92 of the keg 90 therein when the closure 1 has been fitted to the keg 90. The annular wall 13 is provided with a plurality of clip formations 14 that extend radially inwardly from the annular wall 13 towards its lower end. The clip formations 14 are configured to snap over an annular ring provided around the neck 92 of the keg 90 in order to enable the closure 1 to be snap fitted onto and securely retained on the neck 92 of the keg 90.
The closure 1 further comprises an integrated housing component 20 that is mounted to the attachment part 10. The integrated housing component 20 is illustrated in isolation in
The integrated housing component 20 comprises an annular wall or outer housing wall 21. The outer housing wall 21 and the head portion 11 of the attachment part 10 together define a valve housing within which the valve element 30 and a spring 40 configured to bias the valve element 30 towards a closed position are housed. The main body of the housing is defined by the outer housing wall 21, and the top part of the housing is defined by the head portion 11 of the attachment part 10.
The top edge of the outer housing wall 21 is received within a circumferential groove provided on the underside of the head portion 11 of the attachment part 10. The integrated housing component 20 is mounted to the attachment part 10 by a plurality of clip formations 23 that are connected to the outer housing wall 21 adjacent to its top edge and are received within a corresponding plurality of apertures provided in the annular wall 13 of the attachment part 10 when the integrated housing component 20 has been push fitted together with the attachment part 10.
The outer housing wall 21 is received with a close fit within the neck portion 92 of the keg 90 when the closure 1 has been fitted to the keg 90. An O-ring may optionally be provided between the outer housing wall 21 and the inner surface of the neck 92 of the keg 90 in order to improve sealing performance. The outer housing wall 21 comprises an upper portion that extends above the top of the neck 92 of the keg when the closure 1 has been fitted to the keg 90.
The integrated housing component 20 further comprises an inner duct part 24 or spear connector in the form of an elongate tube. The inner duct 24 is arranged concentrically within the outer housing wall 21 and extends through the housing defined by the outer housing wall 21. The inner duct 24 divides the housing into an annular outer space (between the outer housing wall 21 and the inner duct 24) defining an outer flow path through the closure 1, and an inner space (inside the inner duct 24) defining an inner flow path through the closure 1.
The inner duct 24 extends to a height slightly below the top edge of the outer housing wall 21, and is provided with a centre cover 60 at its upper end. The centre cover 60 comprises an end cap 61 that sits above the open upper end of the inner duct 24. The centre cover 60 further comprises a plurality of legs 62 that extend downwardly from the end cap 61, each comprising an outwardly protruding clip formation. The legs 62 are received within the upper end of the inner duct 24 with the clip formations provided on the legs 62 engaged with a downwardly facing shoulder formed near to top of the inner duct 24 in order to securely retain the centre cover 60 with respect to the inner duct 24 and resist outward movement of the centre cover 60. The end cap 61 of the centre cover 60 is spaced slightly apart from the top end of the inner duct 24 such that the centre cover 60 does not seal the top end of the inner duct 24, but rather allows fluid communication between the interior of the inner duct 24 and the region immediately surrounding the top end of the inner duct 24 in between the legs 62 of the centre cover 60.
The annular valve element 30 comprises an annular head portion 31 and a skirt 32 that extends downwardly from the head portion 31, both of which surround the inner duct 24 and engage the outer surface of the inner duct 24. The valve element 30 further comprises a plurality of arms 33 that extend downwardly from the head portion 31 outboard of the skirt 32. The arms 33 are spaced apart from each other such that flow passages are provided between the arms 33. Each arm 33 is provided with a radially outwardly extending engagement structure 34 or catch formation at its lower end. The engagement structures 34 or catch formations each include a ramped lower surface and an upper surface defining a hook. The purpose of the arms 33 and engagement structures 34 or catch formations is described in detail below.
The valve element 30 is configured for sliding movement along the inner duct 24 within the valve housing. The valve element 30 has an upper closed position (illustrated in
In the present embodiment, the inner duct 24 is connected to the outer housing wall 21 forming the main body of the valve housing by a connecting portion 25 such that the inner duct 24 and the outer housing wall 21 are integrally formed together as part of a single integrated housing component 20. The connecting portion 25 extends radially inwardly from the bottom edge of the outer housing wall 21, and defines a closed base of the valve housing. The spring 40 (which is located within the valve housing in the annular space between the outer housing wall 21 and the inner duct 24) is arranged in compression between the connecting portion 25 (forming the base of the valve housing) and the valve element 30 such that the valve element 30 is biased upwardly towards its closed position.
The connecting portion 25 may take the form of a wall, optionally a substantially planar horizontal wall including a plurality of apertures 26 or cut-outs, or a plurality of separate struts spaced circumferentially apart from each other to define apertures 26 or cut-outs therebetween. The apertures 26 provided in the connecting portion 25 allow fluid communication between the outer flow path of the closure 1 and the headspace within the keg 90, for example to allow beverage to be introduced into a keg 90 through the closure 1 during filling operations and to allow beverage to be passed through the closure 1 to the exterior of a keg 90 during dispensing operations.
The apertures 26 are also configured to receive legs of a locking element located within the valve housing, as described in detail below. Four of the apertures are provided with a stop formation 25a that projects into its respective aperture. The stop formations 25a are illustrated in
The inner duct 24 extends downwardly below the connecting portion 25 to provide a tail portion that may be press fitted into an elongate tube or spear (not illustrated). The tube preferably extends to a position at or close to the bottom of the keg 90 in order to provide fluid communication between the bottom of the keg 90 and the interior of the inner duct 24, thereby allowing beverage contained within the keg 90 to be drawn from the bottom of the keg 90 up into the interior of the inner duct 24 and through the closure 1 via the inner flow path.
The attachment part 10, integrated housing component 20 and valve element 30 are each preferably injection moulded plastics components. The above-described closure 1 may be assembled by first inserting the spring 40 and valve element 30 into the annular space defined between the outer housing wall 21 and the inner duct 24 of the integrated housing component 20. The centre cover 60 may then be press fitted into the inner duct 24 and the integrated housing component 20 may be press fitted together with the attachment part 10 in order to complete the closure 1. The elongate tube may optionally be supplied together with the closure 1, and may be fitted to the closure before the closure 90 is fitted to the neck 92 of a keg 90.
The above-described closure construction results in a closure 1 that is simple, rugged and reliable. The closure 1 is also easy to assemble with a low parts count.
In accordance with the present invention, the closure 1 is provided with a venting system for automatically limiting internal pressure within a keg 90 to which the closure 1 is fitted. The venting system comprises a vent aperture 27 formed through a portion of the valve housing. In the present embodiment the vent aperture 27 takes the form of a circular hole with a diameter of approximately 2.4 mm that extends through the outer housing wall 21 of the integrated housing component 20, as illustrated in
The vent aperture 27 is provided with a barrier 29 that is attached to the outer housing wall 21 around the vent aperture 27 and closes and seals the vent aperture 27 when the closure 1 is in an unvented configuration (as supplied to customers for use). The barrier 29 is not shown in
The barrier 29 comprises a membrane or layer of film with a total thickness of approximately 0.03 mm. In the present embodiment the barrier 29 takes the form of a laminated film comprising an aluminium foil layer 29a with a thickness of approximately 0.02 mm and a cover or backing layer 29b formed of a plastics material such as LDPE. The aluminium foil layer 29a is the main structural component of the barrier 29 and provides structural strength to the barrier 29. The cover or backing layer 29b faces towards the interior of the closure 1 and acts as an inert barrier between the aluminium foil layer 29a and the interior of the closure 1. The cover or backing layer 29b may additionally assist with welding or adhesion of the barrier 29 to the closure 1. The film may be similar to the aluminium films used in blister packs for medicines. The barrier 29 takes the form of a disk with a diameter of approximately 10 mm and has a circular outer shape, although other shapes are also possible.
In the present embodiment the barrier 29 is positioned on top of the annular wall 28. The barrier 29 is welded to the outer housing wall 21, for example by sonic welding, induction or heat welding, such that the annular wall 28 melts and forms a weld between an outer portion 29c or attachment portion of the barrier 29 and the outer housing wall 21, the weld extending around the vent aperture 27, as schematically illustrated in
The annular wall 13 of the attachment part 10 of the closure 1 extends downwardly from the head portion 11 to a level below the vent aperture 27 and the barrier 29. The annular wall 13 of the attachment part 10 therefore provides protection to the barrier 29 when the closure 1 has been fully assembled. However, the annular wall 13 of the attachment part 10 is provided with an inspection/access aperture 15 extending therethrough which is aligned with the vent aperture 27 provided in the outer housing wall 21. The inspection/access aperture 15 provided in the annular wall 13 of the attachment part 10 allows visual inspection of the barrier 29. The inspection/access aperture 15 also allows access to the barrier 29 to enable targeted manual depressurisation of the keg 90 to which the closure 1 is attached, as described in more detail below.
In the present embodiment the annular wall 13 of the attachment part 10 is provided with a single inspection/access aperture 15 that should be aligned with the vent aperture 27 and the barrier 29 when the attachment part 10 is attached to the outer housing wall 21 of the integrated housing component 20. In order to ensure correct alignment of the attachment part 10 relative to the outer housing wall 21 during assembly of the closure 1, the attachment part 10 and the outer housing wall 21 are each provided with a recognisable feature to assist with alignment. In the present embodiment the recognisable features take the form of a small recess provided in the top surface of the head portion 11 of the attachment part 10 and a small protrusion provided at the bottom of the outer housing wall 21 (both visible in
In other embodiments the attachment part 10 may be configured to be attached to the outer housing wall 21 of the integrated housing component 20 in multiple different orientations in order to increase the ease of assembly of the closure 1. For example, the attachment part 10 may be configured to be attached to the integrated housing component 20 in any one of four possible orientations spaced 90 degrees apart from each other about the central longitudinal axis of the closure 1 (with any one of the clip formations 23 of the integrated housing component 20 engaged within any one of the corresponding apertures provided in the annular wall 13 of the attachment part 10). In this case the annular wall 13 of the attachment part 10 may include a plurality of the inspection/access apertures 15 circumferentially spaced apart from each other around the annular wall 13, with each one of the inspection/access apertures 15 being configured to be aligned with the vent aperture 27 and the barrier 29 in one possible assembled orientation of the attachment part 10 relative to the integrated housing component 20. In this way it is possible to ensure visibility of and access to the barrier 29 irrespective of the orientation of the attachment part 10 relative to the integrated housing component 20.
The barrier 29 is configured to rupture if the internal pressure within the closure 1 (and within a keg 90 to which the closure 1 is fitted) exceeds a predetermined maximum allowable pressure. The predetermined maximum allowable pressure is preferably between the maximum working pressure of the keg 90 (that is the highest pressure expected to be experienced during use of the keg 90) and the failure pressure of the keg 90 (that is the pressure at which the keg 90 is predicted to fail). In the present embodiment the predetermined maximum allowable pressure is approximately 6 bar (gauge pressure, as used throughout the specification), and is between a maximum working pressure of approximately 5.5 bar and a keg failure pressure of approximately 7 bar. In this way the vent aperture 27 and barrier 29 allow the interior of a keg 90 to which the closure 1 is fitted to be automatically and completely vented if the internal pressure within the keg 90 exceeds a predetermined maximum pressure permitted by the closure 1.
The vent aperture 27 and the barrier 29 are positioned such that automatic venting of a keg 90 is permitted while the closure 1 is coupled to a filling head or a dispense head, as well as after the closure 1 has been separated from a filling head (for example after the completion of a filling operation) or a dispense head (for example after the contents of the keg 90 has been dispensed).
The barrier 29 is not resealable, and so the depressurisation caused by the barrier 29 rupturing is permanent, and it is not subsequently possible for the keg 90 to be re-pressurised and used with the closure 1 still attached to the keg 90.
It has been found that the above-described venting system allows reliable automatic venting of the closure 1 (and a keg 90 to which the closure 1 is attached) at a predetermined maximum allowable pressure with an acceptably small burst pressure variation between closures of the same design. The above-described venting system is also simple and cost-effective due to the low cost of the barrier 29 and the lack of additional components required to secure the barrier 29 to the valve housing.
In the present embodiment the barrier 29 typically ruptures from a region adjacent to the side of the vent aperture 27 and/or adjacent to the outer portion of the barrier 29 (which is welded to the outer housing wall 21). However, in other embodiments the barrier 29 may be configured to rupture from its centre, and/or to rupture at a pre-weakened area which may be provided at any suitable location on the barrier 29, and/or to become at least partially detached from the outer housing wall 21 (with at least a portion of the weld or bond between the barrier 29 and the outer housing wall 21 failing).
The maximum pressure permitted by the closure 1 (that is the internal pressure at which automatic venting occurs) is governed by, among other factors: a) the strength of the barrier 29; b) the strength of the weld or bond between the barrier 29 and the outer housing wall 21, c) the diameter of the free or unattached inner portion 29d of the barrier 29 (inboard of the weld or bond) and d) the diameter of the vent aperture 27. The strength of the barrier 29 is affected by, for example, the materials selected for the barrier, the thickness of the barrier 29 or individual layers of the barrier 29, and the presence or absence of any pre-weakened areas. The maximum pressure permitted by the closure 1 may therefore be varied by controlling the strength of the barrier 29, the strength of the weld or bond, the diameter of the free or unattached inner portion 29d of the barrier 29 and/or the diameter of the vent aperture 27. It is therefore possible to use the same main structural valve components (for example the same attachment part 10 and integrated housing component 20) to form different closures 1 that provide different maximum permitted pressures for different applications or different customers, for example by selecting a different barrier 29, by varying the strength of the weld or bond, by varying the diameter of the free or unattached inner portion 29d of the barrier 29 and/or by providing vent apertures 27 of different sizes.
Since the barrier 29 is visible through the inspection/access aperture 15 provided in the annular wall 13 of the attachment part 10, it is possible to determine or confirm whether or not the barrier 29 has ruptured by inspection of the barrier 29 through the inspection/access aperture 15.
It is also possible to perform manual targeted depressurisation of a keg 90 to which the closure 1 is attached by manually rupturing the barrier 29. For example, a pin or other tool may be manually inserted through the inspection/access aperture 15 and used to rupture the barrier 29 to move the barrier into an unsealed state and thereby depressurise the keg 90.
The valve housings 21 shown in
The barrier surface area may be substantially flat and plain as shown in
In the here shown exemplary embodiments, the burst marks 291, 292 are provided at the barrier outer surface. Alternatively or additionally, burst marks may be provided at the barrier inner surface too. Burst marks 291, 292 at the inner and outer barrier surface may be identical, have different designs or have the same designs, but rotated over an angle between 0° and 360°. The design and exact thickness of the indentations influences the pressure at which the barrier 29 will burst and the shape of the valve opening that appears after the bursting. Possible advantages of the use of burst marks 291, 292 instead of a plain barrier 29 are better control of the exact pressure at which the barrier 29 will burst and better control over the way in which it bursts.
It is to be noted that the burst marks 291, 292 are here described as features of an integrally moulded barrier 29, but that such burst marks can be used, with similar effect, in welded or otherwise adhered barriers 29 of various different materials too.
In accordance with the present invention, the closure 1 comprises a locking system for locking the valve element 30 in an open position after the closure has been coupled to a dispense head. The locking system comprises a locking element 50 with a generally annular shape that is received within the valve housing between the outer housing wall 21 and the head portion 11 of the attachment part 10. The locking element 50 is arranged around the inner duct 24 and the spring 40, and is configured for axial movement within the valve housing.
The locking element 50 comprises an annular main body portion 51 that extends continuously around the inner duct 24 and the spring 40. The valve element 50 further comprises a pair of arms 52 that extend upwardly from the main body portion 51. The arms 52 are spaced apart from each other on opposite sides of the main body portion 51 and are separated from each other by cut-outs or apertures.
The locking element 50 comprises a pair of upper engagement structures 53 and a pair of lower engagement structures 54 each extending radially inwardly with respect to the closure 1. The upper engagement structures 53 are integrally formed with and provided towards the upper ends of the arms 52. The lower engagement structures 54 are integrally formed with and provided towards the top of the main body portion 51. The lower engagement structures 54 are located in-between the arms 51 and at a height below the upper engagement structures 53. Each of the upper and lower engagement structures 53, 54 takes the form of an inwardly extending latch element comprising a ramped upper surface and a radially inwardly projecting underside defining a hook.
The locking element 50 further comprises a pair of resilient arms located in its main body portion 51, each including a clip formation 55. The clip formations 55 each extend radially beyond the annular main body portion 51 and include a ramped upper surface. The clip formations 55 are aligned with the upwardly extending arms 52 and the upper engagement structures 53, and in-between the lower engagement structures 54.
The locking element 50 further comprises a set of four legs 56 that extend downwardly from the main body portion 51. Each of the legs 56 tapers inwardly towards its distal lower end, and includes an inwardly stepped portion at an intermediate position along its length. Each of the legs 56 is provided with a radially inwardly projecting engagement element or hook formation 57 at its distal lower end. The legs 56 extend though the apertures 26 provided in the base 25 of the valve housing to the exterior of the valve housing.
Operation of the locking system during use of the closure 1 will now be described with reference to
When it is desired to fill a keg 90 to which the closure 1 is fitted with beverage, the closure 1 may be connected to a standard Type-A filling head including an annular plunger that presses down on the valve element 30 to move the valve element from its upper closed position downwardly (and inwardly with respect to the keg 90) into an open position in which fluid communication is established with each of the outer and inner flow paths through the closure 1, as illustrated in
When the valve element 30 is moved downwardly into its open position for filling, as illustrated in
When the closure 1 is decoupled from the filling head, the valve element 30 moves upwardly (and outwardly with respect to the keg 90) back into its closed position under the action of the spring 40, as illustrated in
As the valve element 30 moves upwardly back towards its closed position after filling, the hooked upper surfaces of the catch formations 34 that are aligned with the upper latch elements 53 engage the hooked undersides of the upper latch elements 53 such that the locking element 50 moves upwardly (and outwardly with respect to the keg 90) together with the valve element 30 into a second position or raised position as shown in
The outwardly facing clip formations 55 of the locking element are able to move inwardly on their respective resilient arms in order to enable the clip formations to ride out of the lower apertures provided in the outer housing wall 21 as the locking element 50 moves towards its raised position. Once the locking element 50 has reached its raised position, the clip formations 55 become engaged respectively with a pair of upper apertures provided in the outer housing wall 21 above the lower apertures. Engagement of the clip formations 55 with the upper apertures acts to prevent subsequent downward movement of the locking element 50 with respect to the valve housing.
When it is desired to dispense beverage from the keg 90, the closure 1 may be connected to a standard Type-A dispense head including an annular plunger that presses down on the valve element 30 to move the valve element from its closed position downwardly (and inwardly with respect to the keg 90) into an open position in which fluid communication is established with each of the outer and inner flow paths through the closure 1, as illustrated in
When the valve element 30 is moved downwardly into its open position for dispensing beverage, as illustrated in
When the closure 1 is decoupled from the dispense head, for example after beverage has been dispensed from the keg 90, the valve element 30 is released by the plunger of the dispense head. However, upward movement of the valve element 30 back towards its closed position is limited in extent by the locking element 50 which acts to prevent the valve element 30 from returning to its closed position and sealing the closure 1.
In particular, the hooked upper surfaces of the catch formations 34 that are aligned with the lower latch elements 54 engage the hooked undersides of the lower latch elements 54 to provide a second coupling between the valve element 30 and the locking element 50, which second coupling prevents upward movement of the valve element 30 relative to the locking element 50. In addition, the engagement elements or hook formations 57 provided at the ends of the legs 56 of the locking element 50 engage the stop formations 25a provided at the base 25 of the valve housing in order to prevent upward movement of the locking element 50 relative to the valve housing. In this way the closure 1 is prevented from being closed after beverage has been dispensed from the keg 90, such that it is not possible for the keg 90 to be filled, pressurised and closed for a second time after the original contents of the keg 90 have been dispensed while the closure 1 remains coupled to the keg 90.
The above-described locking system is simple and rugged, and provides a reliable and cost-effective mechanism for preventing resealing of a closure 1 after the dispensing of beverage. In particular, the arrangement of the engagement elements or hook formations 57 on legs 56 that extend outwardly from a body 51 of the locking element 50 and protrude to the exterior of the valve housing provides a space efficient mechanism for preventing upward movement of the locking element 50 after the valve element 30 has been coupled to the locking element 50 at the second coupling. The above-described locking system also advantageously allows the height to which the closure 1 extends above the top of the neck 92 of the keg 90 to be minimised.
The position to which the valve element 30 is depressed when the closure is coupled to a dispense head is typically lower than the position to which the valve element 30 is depressed when the closure is coupled to a filling head due to different standard stroke lengths for filling heads and dispense heads. The positions of the upper 53 and lower 54 latch elements relative to the main body of the locking element 50 may be set taking into account the different stroke lengths typically encountered for filling and dispensing, provided that the catch formations 34 of the valve element 30 are capable of engaging the upper latch elements 53 during a fill stroke when the locking element 50 is in its lower position, and capable of engaging the lower latch elements 54 during a dispense stroke when the locking element 50 is in its raised position.
Many modifications may be made to the above examples without departing from the scope of the present invention as defined in the accompanying claims.
For example, in the above-described embodiment, the closure 1 is configured to be snap fitted to the neck of a keg including an annular ring around the neck. However, other attachment mechanisms are also possible. For example, the closure could be configured to be screw fitted to the neck of a keg including a neck portion with external threading, in which case the annular wall of the attachment part could be provided with internal threading.
In addition, the above-described embodiment relates to a Type-A closure for use in combination with standard Type-A filling heads and dispense heads. However, in other embodiments the closure could equally be configured for use with other types of filling and dispensing apparatus. For example, a closure employing one or more of the above-described housing construction (with an integrated outer housing wall and inner duct), venting system and/or locking system could equally include a head portion and valve arrangement configured to cooperate with Type-G, Type-D or Type-S filling heads and dispense heads.
In the above-described embodiment the valve housing of the closure is provided by an outer housing wall 21 that defines a main body of the housing and a head portion 11 that defines a top portion of the housing, the outer housing wall 21 and the head portion 11 being formed separately to each other and configured for mutual attachment. However, in other embodiments at least a portion of the wall forming the main body of the valve housing could equally be integrated together with the head portion. For example, the closure could comprise an attachment part including a head portion for attachment to a filling head or dispense head, and first and second concentric annular walls extending downwardly from the head portion, with the outer one of the annular walls being configured for connection to the neck of a keg, and the inner one of the annular walls being configured to be received within the neck of the keg and to provide a housing for the valve arrangement.
In the above-described embodiment, the outer housing wall (forming the main body of the valve housing) and the inner duct (providing an inner flow path through the closure and an attachment point for an elongate tube or spear) are integrated together with each other as part of a single component. However, in other embodiments the outer housing wall and the inner duct could equally be formed as separate components. In this case the outer housing wall and the inner duct could be attached to each other by a separate intermediate connector component, which may provide a base of the valve housing and an engagement surface for the lower end of the spring.
In the above-described embodiment the vent aperture 27 of the venting system is provided through the outer housing wall 21, and the barrier 29 is attached to the outer surface of the outer housing wall 21. However, in other embodiments the barrier 29 could equally be attached to the inner surface of the outer housing wall 21. In other embodiments the venting system could alternatively be provided in the attachment part 10 by which the closure is attached to the neck of a keg, (instead of in an outer housing wall 21 formed separately to the attachment part 10), with the vent aperture 27 extending through a portion of the attachment part 10 to the exterior of the closure. In other embodiments the venting system may be omitted from the closure.
In the above-described embodiment the engagement elements or hook formations 57 that are configured to prevent further upward movement of the locking element 50 after the locking element has moved into its raised position each project inwardly with respect to the closure 1 and are configured to engage stop formations 25a provided on the underside of an integrated connecting portion that connects an outer housing wall 21 to an inner duct 24. However, in other embodiments the engagement elements or hook formations 57 could equally project radially outwardly from the legs 56 of the locking element 50 and be configured to engage the base of the outer housing wall 21. In still further embodiments the legs 56 of the locking element 50 could be configured to extend to the exterior of the valve housing through the outer housing wall 21 instead of through the base 25 of the housing. In other embodiments the locking system may be omitted from the closure.
Other modifications and variations will also be apparent to the skilled person.
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