The present invention relates to a container with a closure which opens automatically when the container is tilted in order to dispense its contents, and which closes automatically when the container is returned to an upright position.
Many types of container closures are well known. One example is a hinged lid or flap which must be manually opened and closed, and usually manually held out of the way to keep the container open while it is being tilted. Another example is a ring pull as on a conventional drinks can which must be manually opened and cannot then be re-closed.
In many applications, the need for manual opening and closing is undesirable or inconvenient. For containers with a ring pull-type closure it may be disadvantageous that the container cannot be re-closed when some of the contents remain inside, since they may spill accidentally or become contaminated.
It is known to provide a pivoted closure flap, controlled by a weighted portion. However, these arrangements are typically designed for containers in which a significant deviation from vertical is desired to open the container. For systems which require a small deviation from vertical, it is known to provide a weighted portion immediately vertically beneath the pivot point. However, this requires a relatively large weight in order to function.
The present invention provides a container having an opening and a closure movable between a first position in which the opening is closed and a second position in which the opening is exposed, the closure comprising a closure flap located within the container and a pivot arm, the pivot arm having a first end secured to the closure flap and a second end having a weighted portion, the pivot arm being pivotally mounted within the container at a pivot point located between the first and second ends, wherein when the container is in a first position the centre of mass of the weighted portion is offset horizontally and vertically from the pivot point and acts to bias the closure flap to close the opening and when the container is rotated in a first direction to a second position, the weighted portion causes the pivot arm and the closure flap to rotate relative to the container in a second direction opposite to the first direction, thereby to bias the closure flap away from the opening in order to expose the opening, wherein in the first position, the weighted portion is offset vertically by a greater distance than it is offset horizontally.
In this way, a container is provided which will be closed when it sits in a normal upright position, will open automatically when the container is tilted in order to dispense its contents, and will automatically re-close when it is returned to its upright position. By providing a weight offset by a greater distance vertically than horizontally, a low-mass weight may be used and a greater opening angle may be achieved.
Preferably the pivot arm is pivotally secured to a support member located within the container and the pivot point is located at a position spaced from an upper surface of the container and from a side wall of the container.
Preferably the pivot arm comprises a first arm portion between the first end and the pivot point and a second arm portion between the second end and the pivot point, wherein the first and second arm portions are at an obtuse angle to one another.
The container may further comprise a locking mechanism operable by the user when desired and in any orientation of the container, to optionally retain the closure flap in the first, closed position.
In one example, the locking mechanism comprises a locking arm rotatably mounted to an upper surface of the container and a projection on the closure flap, wherein the locking arm is rotatable in order to engage the projection and prevent movement of the closure flap out of the opening.
The container may further comprise a second projection on the upper surface of the container, wherein, when the locking arm is rotated to engage the first projection, another part of the locking arm engages the second projection.
Alternatively, the locking mechanism may comprise a locking arm movably located within the container and actuation means external to the container operable to move the locking arm into a position beneath the closure flap to prevent movement of the closure flap out of the opening.
In another example, the locking mechanism may comprise a blocking member movably located in the container and actuation means external to the container operable to move the blocking means into a position to prevent pivotal movement of the pivot arm about the pivot point.
The container may further comprise a ring pull arrangement with a tab operable to break away part of a surface of the container in order to first create the opening.
Another type of container may further comprise a removable cover initially covering the opening and removable to expose the opening.
When a locking mechanism, is present, the container may further comprise an anti-tamper device operable to prevent unlocking of the locking mechanism until the anti-tamper device is broken.
Such an anti-tamper device may comprise a breakable loop on the locking mechanism which engages a protrusion on the container until it is broken.
In the case where the container includes a locking mechanism with a locking arm on the upper surface of the container engageable with a projection on the closure flap, the container may further comprise co-operating cam surfaces on the closure flap and the locking arm which are operable to push the closure flap into the container as the locking arm is moved from the locked position towards the unlocked position. This is helpful if the container is internally pressurised, to force the closure flap open against the action of increased internal pressure.
The co-operating cam surfaces may comprise a protrusion which is received in a co-operating recess when the locking arm is in the locked position. In particular, the protrusion may be formed on the closure flap and the recess on the locking arm.
Alternatively, the co-operating cam surfaces may comprise a protrusion on the closure flap, in a location which is not overlapped by the locking arm in the locked position, and an edge portion of the locking arm. In this way, as the locking arm is moved from the locked to the unlocked position, the edge portion contacts the protrusion in order to urge the closure flap into the container. Preferably, the edge portion of the locking arm may be chamfered to provide a sloping surface which will interact with the protrusion more smoothly. The present invention will now be described in detail, by way of example only, with reference to the accompanying drawings, in which:
The upper surface 16 defines an opening 22 for dispensing contents from the container 12. The opening 22 is located eccentrically in the upper surface 16, towards its outer perimeter 20 but with a small spacing between the opening 22 and the outer perimeter 20.
The opening 22 may simply be a preformed aperture in the upper surface 16 as shown in
The closure 10 of the present invention is mounted within the container 12 as shown in
The support member 34 extends downwardly from the interior of the upper surface 16. It may be a separate item attached to the upper surface 16. For example, it may be a short rod which passes through an aperture in the upper surface 16 and is secured in place by an external rivet 36. Alternatively, the support member 34 may be bonded or adhered in some way to the interior of the upper surface 16. It could also be formed integrally with the upper surface 16, for example, if the upper surface 16 and support member 34 are formed as a unitary plastic moulding. The support member 34 is located a small distance radially inwardly of the perimeter 20 of the side wall 14. Thus, a spacing S1 is provided between the support member 34 and the side wall 14.
The pivot arm 32 is pivotally secured to the support member 34, for example, by a pivot pin 38 which provides a pivot axis. The pivot pin 38 is spaced a small distance S2 below the upper surface 16. The pivot arm 32 comprises a first portion 40 and a second portion 42 extending either side of the pivot pin 38. These may be integral, or separate arm portions fixed together. The closure flap 30 is secured to the end of the first arm portion 40. A weight 44 is located on the second arm portion 42. This may be formed integrally with the second arm portion 42, e.g. as an enlarged end part, or it may be a heavy bead (or more than one bead) attached to the end of the pivot arm 32. The first and second arm portions 40, 42 are preferably arranged at an obtuse angle relative to one another as shown. The combined weight of the second arm portion 42 and the weight 44 is greater than the combined weight of the first arm portion 40 and the closure flap 30. The weight 44 is preferably rounded in shape so that liquid will flow smoothly over it in use. For example, it may be spherical, cylindrical or ovoid.
When the container 12 is in a normal rest or storage position in which it stands upright as shown in
Alternatively, the second arm portion 42 may be L-shaped with a first section extending vertically downwards from the pivot pin 38, and a second section extending horizontally from the end of the first section. The weight 44 is then located at the end of this second section of the second arm portion 42.
In particular, the centre of mass of the weight 44 should be offset horizontally from the pivot pin 38 by a smaller amount than it is offset vertically from the pivot pin 38. Preferably, for a conventional 330 ml soft drink can, the weight 44 may be offset horizontally by between 1 mm to 10 mm. In such an embodiment, the weight 44 may be offset vertically by between 5 mm to 15 mm. However, these ranges are not exhaustive and different dimensions may be used as required to suit a given container
This is mechanically advantageous as it allows a smaller weight to be used for the same desired effect. Additionally, by providing a weight 44 which is offset in this manner the closure flap 30 naturally opens a greater amount compared to a weight without a horizontal offset when the can is tilted to a conventional pouring position. The smaller offset weight 44 is also able to be located above the position of the liquid in conventional containers which the present invention may be used in.
In particular, for a conventional 330 ml soft drink can, testing was carried out comparing a weight 44 offset by 2 mm with a purely vertical weight with the can at an angle of {X} degrees and the following results were achieved:
As can be seen, the offset weight 44 is advantageous over the purely vertical weight. Indeed, as a can weighs approximately 13.7 g when empty, the purely vertical weight is doubling the weight of the assembly.
Typically for a conventional 330 ml can, the weight 44 should be less than about 10 g, preferably less than about 5 g. In one example the weight 44 is 4.5 g. However, the precise dimensions of the offset and the mass of the weighted portion will depend on the size and nature of the container being used.
The first arm portion 40 extends upwardly from the pivot pin 38 at an angle between the horizontal and vertical towards the upper surface 16. The closure flap 30 is secured to the end of the first arm portion 40 and in this first position, extends horizontally and locates within the opening 22 in order to close the opening 22.
Preferably, the closure flap 30 comprises a closure member 46 uppermost which is the same shape as the opening 22 but very slightly smaller, so that it sits within the opening 22 and substantially closes it. For enhanced sealing of the opening 22, the closure flap 30 preferably also comprises a sealing member 48 which lies beneath the closure member 46 and is larger all round. This locates against the interior of the upper surface 16 of the container 12, completely surrounding the opening 22, in order to close any gaps between the edge of the opening 22 and the closure part 46. The closure member 46 and sealing member 48 may be separate parts joined together, or may be integrally formed. Alternatively, an annular seal, for example, of a resilient material, may be provided around the edge of the closure member 46.
In order to dispense the contents of the container 12, any initial closure such as a ring pull or tear-away cover is activated/removed in order to expose the opening 22. The container is then tilted away from the vertical and in a first direction effectively towards the opening 22, i.e. it is rotated anti-clockwise from the
Since the entire closure mechanism 10 is located within the container 12 it does not in any way affect or get in the way of a user attempting to drink from the container.
Furthermore, the location of the closure flap 30 relative to the opening 22 when the container 12 is tilted improves the flow characteristics of liquid exiting the container 12. With reference to
When a sufficient amount has been dispensed, the container 12 is returned to its starting position, i.e., rotated clockwise from the
Thus, tilting the container 12 automatically opens the container and restoring it to the vertical automatically closes it. No user intervention is required other than tilting the container 12 and there is no need to touch the closure itself or the upper surface 16 in the vicinity of the opening 22.
If the container 12 includes a conventional ring pull arrangement as in
In some situations, it may be desirable to have a locking mechanism which the user can operate when desired to keep the container 12 closed even when it is tilted, for example, to prevent spillage of the contents if the container is tilted accidentally. One example of a locking mechanism is illustrated in
In this embodiment, the closure part 46 is provided with a projection 52 shaped as an inverted L-shape or a wedge as best seen in the enlarged view of
A second projection 56, of the same general form as the first projection 52, may also be provided on the upper surface 16. Therefore, as the tab 24 is rotated into engagement with the first projection 52, another portion of the tab 24 may be received in the gap created between the second projection 56 and the upper surface 16, in order to lock the tab 24 and the closure flap 30 even more securely. The second projection 56 may also include a stop to limit rotation of the tab 24.
If preferred, the tab 24 may not be associated with a conventional ring pull mechanism and may be present purely as a locking tab, rotatable on the upper surface 16 to engage and disengage with the projection(s) 52, 56.
Alternative locking mechanisms may also be envisaged. As shown in
Another approach is to prevent the pivot arm 32 from being able to swing as the container 12 is tilted. For example, some form of blocking member may be provided inside the container 12 which can be operated from outside the container 12 and caused to move into a blocking position when locking is required and moved out of the way of the pivot arm 32 when automatic opening and closing is required.
In the embodiments described above, the container 12 is shown with the opening 22 in a substantially horizontal upper surface 16. However, the invention is also applicable to containers of different configurations. For example, in the embodiment shown in
The closure 10 is generally the same as described above, although the angle between the first and second arm portions 40, 42 is larger to suit the geometry of the container 12. The support member 34 protrudes from the sloping wall 15, generally perpendicular thereto. There is still a spacing S1 between the pivot axis and the side wall 14, allowing the relative movement between the container 12 and the pivot arm 32 as the container 12 is tilted. Although not shown, a locking mechanism operable by the user may also be provided.
Thus, the invention is not limited to a container with an opening in a substantially horizontal upper surface, but can be applied to any container with an opening, where the container must be tilted in order to dispense contents through the opening.
Another embodiment of the invention is shown in
In this embodiment, the second arm portion 42 of the pivot arm 32 extends at an angle to the vertical, and towards the opposite side of the pivot pin 38 from the first arm portion 40. The first arm portion 40 is not completely straight but changes direction at an elbow 70. It will be appreciated that the precise shape of the pivot arm 32 can be varied to suit the container and space available etc.
The closure flap 30 includes an upwardly extending projection 72 with an enlarged head 74 and narrower neck 76, which is engageable in a slot 78 formed in a locking arm 80 to keep the container 12 closed. The locking arm 80 is rotatably mounted on the upper surface 16 of the container 12 and can be rotated to disengage from the projection 72 in order to allow the pivot arm 32 to rotate relative to the container 12 and open the container 12 when it is tilted. The closure flap 30 may be formed of one piece or more than one. For example, as with the embodiments shown in
Initially, the locking arm 80 is fixed in position engaging the projection 72 on the closure flap 30 by virtue of a loop 82 on the locking arm 80 which fits around a protrusion 84 extending from the surface of the container 12, as best seen in
The cross section of the locking arm 80 may vary in thickness along the length of the slot 78, so that it is thinnest at the open end of the slot 78 and thickest at the closed end of the slot 78. In this way, as the projection 72 travels from the open end towards the closed end of the slot 78, it is pulled upwardly, ensuring that the closure flap 30 is pulled tightly into engagement with the edges of the opening 22 in container 12, to ensure a good seal. The edges of the slot 78 may be chamfered to fit with the shape of the enlarged head 74 of the projection 72, to facilitate its movement along the slot 78.
In the embodiment of
In a further development of the invention as shown in
The opening-assist means preferably comprises co-operating surfaces on the locking arm 80 and the closure flap 30 which act in the manner of a cam device, so that as the locking arm 80 is moved from the locked to the unlocked position, the closure flap 30 is pushed downwardly into the container 12 to overcome any biasing effect of increased pressure within the container. As soon as the closure flap 30 has slightly opened, the pressure is released and the closure flap 30 and pivot arm 40 can then act as normal.
Preferably, the opening-assist means comprises co-operating ramped surfaces on the closure flap 30 and the locking arm 80. For example, there may be a protrusion on one part and a correspondingly shaped recess on the other. Both protrusion and recess have gently ramped or sloping surfaces. In the locked position, the protrusion is received or nested within the recess so that no downward pressure is applied to the closure flap 30. As the locking arm 80 is moved from the locked to the unlocked position, the ramped surfaces of the protrusion comes into contact with the ramped surface of the recess and they interact to push the closure flap 30 down.
In one specific embodiment, the closure flap 30 is provided on its upper surface with a protrusion in the form of a mound 90 with gently sloping sides. The locking arm 80 is provided with a recess 92 in its lower surface, shaped to correspond with the mound 90 and slightly larger so that it can accommodate the mound 90 in the locked position. As the locking arm 80 is moved towards the unlocked position the sides of the recess 92 come into contact with the sides of the mound 90, tending to push the closure of flap 30 downwardly into the container 12. Once the closure flap 30 has slightly opened, the pressure in the container 12 is released and the closure flap 30 can open further as normal when the container 12 is tilted. The locking arm 80 and closure flap 30 then move apart so the mound 90 and recess 92 no longer interact and the locking arm 80 can continue movement to the fully unlocked position unimpeded. To close, the container 12 is returned to its upright position and the closure flap 30 and pivot arm 40 move into the closed position as normal. The locking arm 80 can then be twisted back from the unlocked to the locked position. As it passes over the mound 90 it will again push down on the closure flap 30 but once it reaches the fully locked position the mound 90 will be received in the recess 92 so that no downward pressure is exerted on the closure flap 30 and it can seal the container 12 as normal.
In a variation which is shown in
In this way, there is no need for a recess in the locking arm 80. However, the edge portion 94 of the locking arm 80 may be shaped to facilitate smooth engagement with the mound 90. For example, the locking arm 80 may have a chamfer on its lower surface at the edge to form a sloping surface to smoothly engage with the mound 90.
It will be appreciated that the precise form of the opening-assist means may vary. For example, the mound 90 may be on the lower surface of the locking arm 80 and the recess 92 formed on the upper surface of the closure flap 30. The precise size, shape and position of the mound and recess (if present), or other co-operating cam surfaces, may be altered provided that the relevant surfaces have fairly gentle slopes so that they interact smoothly as the locking arm is moved from the locked to the unlocked position.
The embodiments of
The invention has been described above with reference to a container 12 in which the opening 22 is formed directly in the container itself and the entire opening 22 is closed by the closure flap 30. However, it will be appreciated that the invention may also be provided as part of a separate lid which can be mounted to a container to cover the opening. For example, if the top of a container is completely open, or its entire top surface is removable to provide an open top, a lid may then be fitted over the container to close the open top. The surface of the lid then forms the upper surface 16 and defines the dispensing opening 22. The closure 10 is provided as part of the lid itself in order to provide a closure for the opening 22.
The present invention provides an improved container closure, which automatically opens and recloses a container as the container is tilted. It will be appreciated that while specific examples have been described, the precise configuration of the container and opening, and parts such as the pivot arm, closure flap and locking mechanism, may be varied or modified without departing from the scope of the claims. For example, while the container of
Number | Date | Country | Kind |
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1703728.4 | Mar 2017 | GB | national |
Filing Document | Filing Date | Country | Kind |
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PCT/GB2018/050517 | 2/28/2018 | WO | 00 |