EP1931573B1 - Closure - Google Patents
Closure Download PDFInfo
- Publication number
- EP1931573B1 EP1931573B1 EP06779371A EP06779371A EP1931573B1 EP 1931573 B1 EP1931573 B1 EP 1931573B1 EP 06779371 A EP06779371 A EP 06779371A EP 06779371 A EP06779371 A EP 06779371A EP 1931573 B1 EP1931573 B1 EP 1931573B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- closure
- neck
- container
- sealing surface
- projection
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Not-in-force
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D41/00—Caps, e.g. crown caps or crown seals, i.e. members having parts arranged for engagement with the external periphery of a neck or wall defining a pouring opening or discharge aperture; Protective cap-like covers for closure members, e.g. decorative covers of metal foil or paper
- B65D41/02—Caps or cap-like covers without lines of weakness, tearing strips, tags, or like opening or removal devices
- B65D41/04—Threaded or like caps or cap-like covers secured by rotation
- B65D41/0407—Threaded or like caps or cap-like covers secured by rotation with integral sealing means
- B65D41/0414—Threaded or like caps or cap-like covers secured by rotation with integral sealing means formed by a plug, collar, flange, rib or the like contacting the internal surface of a container neck
- B65D41/0421—Threaded or like caps or cap-like covers secured by rotation with integral sealing means formed by a plug, collar, flange, rib or the like contacting the internal surface of a container neck and combined with integral sealing means contacting other surfaces of a container neck
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D41/00—Caps, e.g. crown caps or crown seals, i.e. members having parts arranged for engagement with the external periphery of a neck or wall defining a pouring opening or discharge aperture; Protective cap-like covers for closure members, e.g. decorative covers of metal foil or paper
- B65D41/02—Caps or cap-like covers without lines of weakness, tearing strips, tags, or like opening or removal devices
- B65D41/04—Threaded or like caps or cap-like covers secured by rotation
- B65D41/0407—Threaded or like caps or cap-like covers secured by rotation with integral sealing means
- B65D41/0414—Threaded or like caps or cap-like covers secured by rotation with integral sealing means formed by a plug, collar, flange, rib or the like contacting the internal surface of a container neck
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D41/00—Caps, e.g. crown caps or crown seals, i.e. members having parts arranged for engagement with the external periphery of a neck or wall defining a pouring opening or discharge aperture; Protective cap-like covers for closure members, e.g. decorative covers of metal foil or paper
- B65D41/02—Caps or cap-like covers without lines of weakness, tearing strips, tags, or like opening or removal devices
- B65D41/04—Threaded or like caps or cap-like covers secured by rotation
- B65D41/0407—Threaded or like caps or cap-like covers secured by rotation with integral sealing means
- B65D41/0428—Threaded or like caps or cap-like covers secured by rotation with integral sealing means formed by a collar, flange, rib or the like contacting the top rim or the top edges or the external surface of a container neck
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D41/00—Caps, e.g. crown caps or crown seals, i.e. members having parts arranged for engagement with the external periphery of a neck or wall defining a pouring opening or discharge aperture; Protective cap-like covers for closure members, e.g. decorative covers of metal foil or paper
- B65D41/02—Caps or cap-like covers without lines of weakness, tearing strips, tags, or like opening or removal devices
- B65D41/04—Threaded or like caps or cap-like covers secured by rotation
- B65D41/0485—Threaded or like caps or cap-like covers secured by rotation with means specially adapted for facilitating the operation of opening or closing
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D2251/00—Details relating to container closures
- B65D2251/06—Special configurations; Closures simulating or provided with another item, e.g. puppet, animal, vehicle, building
- B65D2251/065—Special configurations; Closures simulating or provided with another item, e.g. puppet, animal, vehicle, building the external skirt having a non-circular cross-section, e.g. square, elliptical
Definitions
- the present invention relates to a closure for closing an opening of a container.
- a closure device which is screwed onto a drinks container.
- US 2004/188375 discloses a cap and container wherein the cap comprises an annular skirt portion and a top wall; the top wall comprising rigid sealing members for engaging a lip of a container opening.
- a closure comprising the technical features of the preamble of claim 1 is known from US 3281000 .
- the present invention provides a closure as set out in claim 1.
- the present invention provides a container combined with a closure as set out in claim 7.
- the neck comprises a radiussed surface for engagement with the second sealing surface.
- the surface area of the neck in contact with the sealing surface is increased.
- the or each sealing surface is annular.
- a uniform sealing surface is provided which can be readily engaged with the container.
- the attachment means comprises one or more helical threads and grooves.
- a secure and releasable engagement means is provided.
- the or each projection comprises a cavity.
- the projection is readily deformable when urged against the neck of the container, to ensure that a good seal is formed even if there are inaccuracies in the moulding.
- the neck comprises one or more cavity or cavities.
- the neck is readily deformable when urged against the sealing surface of the closure, to ensure that a good seal is formed even if there are inaccuracies in the moulding.
- the closure comprises a stop to limit movement of the neck relative to the closure.
- the projection or neck is not deformed so much that plastic deformation or breakage occurs.
- the closure is integrally moulded.
- the closure can be cheaply manufactured.
- the present invention provides a closure for closing an opening of a container, wherein at least a part of the closure is formed from a thermoplastic polymeric material comprising polylactic acid (PLA) (also known as poly(lactide)) or a derivative thereof, and wherein the thermoplastic polymeric material is amorphous or at least partially amorphous.
- PLA polylactic acid
- the thermoplastic polymeric material is amorphous or at least partially amorphous.
- the present invention provides a closure for closing an opening of a container, the closure comprising: a thread or groove engageable with a corresponding portion of a container to provide closure of the container, wherein the closure is sized to interact with the container such that the closure is deformable on engagement with the container, such that engagement of the closure relative to the container can flatten a curved external surface of the closure such that at least one flattened surface is formed on the external surface of the closure.
- the present invention provides a closure for closing an opening of a container, the closure comprising: a thread or groove engageable with a corresponding portion of a container to provide closure of the container, wherein the closure has at least one flattened surface formed on an external surface of a side wall of the container; wherein the side wall is formed of a material of substantially uniform thickness.
- a container 22 having a neck 20 there is shown a container 22 having a neck 20.
- the remainder of the container 22 is not shown as its body shape may take any suitable form and may, for example, be of square, rectangular or circular cross-section, or another geometrical shape.
- the neck 20 defines a circular opening 28 having a central axis and surrounded by a substantially smooth, cylindrical internal surface 30.
- An internal edge 24 is formed at an end of the internal surface 30 remote from the body of the container 22.
- An external surface 32 of the neck 20 has an external edge 26 at an end remote from the body of the-container 22, the external edge 26 being radially outside the internal edge 24.
- the external surface 32 is provided with attachment means with which to engage complementary attachment means provided on a closure.
- the attachment means may take the form of a helical thread or groove 34.
- the thread or groove 34 may be a single thread or groove, or alternatively be in the form of a plurality of threads or grooves having different starting points.
- the closure 2 is also shown in Figure 1 .
- the closure 1 has a top 4 which is circular in plan view, and merges at a radially outer edge with a depending annular side wall 6.
- the side wall 6 is provided, on its inner surface, with attachment means for releasable engagement with the complementary attachment means provided on the neck 20.
- the attachment means may take the form of one or more helical threads or grooves 8.
- the side wall 6 defines a central axis, extending longitudinally along an axis of symmetry of the closure. The central axis is marked as line A-A on Figure 1 .
- the closure 2 is provided with an annular projection 10 extending from the top 4, the projection 10 extending from the same side of the top 4 as the side wall 6.
- the projection 10 is provided with an angled, or sealing, surface 12, which faces radially outwardly and away from the top 4.
- the angled surface 12 is preferably angled at 45 degrees to the top 4, and may be angled between 10 and 80 degrees.
- the angled surface 12 can be considered to be inclined to a plane perpendicular to the central axis of the closure.
- the angled surface 12 could also be considered to be inclined to the longitudinal axis of the threads or grooves 8 of the closure.
- the annular projection 10 is circumferentially spaced apart from the side walls 6.
- the angled surface 12 is located such that when the closure 2 is attached to the container 22 by the attachment means, the internal edge 24 of the neck 20 abuts against the angled surface 12 in order to close the opening 28.
- the angled surface 12 is shown in profile to define a straight line.
- the angled surface may also have an arcuate profile. The effect of the angle is that the angled surface 12 and/or the neck 20 undergo a slight elastic deformation in a radial direction when urged together.
- Figure 2 shows a second version of the neck 20.
- the internal surface 30 has an internal radiussed surface 224 at an end remote from the body of the container 22.
- the closure 2 and the other features of the container 22 are as described in the first version.
- the internal radiussed surface 224 has a profile curved with a constant radius, or the surface 224 may take any arcuate form.
- the angled surface 12 may also have an arcuate profile, which may be complementary to radiussed surface 224.
- the radiussed surface 224 and angled surface 12 may abut each other to seal the opening 28.
- the internal surface 224 may alternatively be chamfered at an angle complimentary to the angle of the angled surface 12, as shown in Figure 2 .
- the radiussed surface 224 provides a greater surface area in contact with the angled surface 12 than provided by the edge 24.
- Figure 3a shows a further version of the closure 2.
- the closure 2 is provided with a second projection 310.
- the second projection 310 is an annular projection extending from the top 4 in substantially the same direction as the annular projection 10 and side walls 6.
- the second projection 310 is located radially outwardly and spaced apart from the projection 10.
- the second projection 310 is provided with a second angled surface 312.
- the second angled surface 312 faces radially inwardly, and away from the top 4.
- the angled surface 312 is shown in profile to define a straight line.
- the angled surface 312 may also have an arcuate profile.
- the second angled surface 312 is positioned to abut external edge 26 of the neck 20, in order to assist in the sealing of opening 28.
- the second projection 310 may be the same size, or larger or smaller than the projection 10.
- the angled surface 312 may be orientated at the same angle from the top 4 as the projection 10, or alternatively, the second angled surface may be at a smaller or larger angle than the angled surface 12.
- Figure 3a shows annular projection 10 in abutment with the internal radiussed surface 224 of the second version.
- the internal surface 30 may end at an internal edge, for example internal edge 24 as described in the first embodiment.
- Figure 3b indicates that external surface 32 of the neck 20 has an external radiussed surface 326 at an end remote from the body of the container 22.
- the external radiussed surface 326 may have a profile curved with a constant radius, or the surface 326 may have a profile of any arcuate form.
- the surface 326 may also have an arcuate profile, which may be complementary to radiussed surface 312.
- the radiussed surface 326 and angled surface 310 may abut each other to assist in sealing the opening 28.
- the radiussed surface 326 may alternatively be chamfered at an angle complimentary to the angle of the angled surface 312, as shown in Figure 3b .
- the radiussed surface 326 provides a greater surface area in contact with the angled surface 310 than provided by the edge 26.
- the abutment of the external radiussed surface 326 with the second angled surface 312 assists in sealing the opening 28.
- Figure 4 shows a version with differences from the second version described above and shown in Figure 2 .
- An annular projection 410 is provided on the top 4, the annular projection 410 having an angled surface 412 as previously described.
- the annular projection 410 is not a solid projection, but comprises a cavity.
- the annular projection 410 is hollow and defines an annular groove 405 on the top 4.
- the annular projection 410 may alternatively comprise a cavity which does not have an opening.
- the hollow projection 410 results in the angled surface 412 being more easily elastically deformable than the angled surface 12 when urged by the neck 20.
- the angled surface 412 is shown in profile to define a straight line.
- the angled surface 412 may also have an arcuate profile, which may be convex or concave.
- the internal surface 30 may have an internal radiussed surface 424 at an end remote from the body of the container 22.
- the closure 2 and the other features of the container 22 are as described in the first version.
- the internal radiussed surface 424 may have a profile curved with a constant radius, or the surface 424 may take any arcuate form.
- the internal radiussed surface 424 may take the form of a chamfer, having a profile of a straight line.
- the internal radiussed surface 424 may be an edge.
- the angled surface 412 may have an arcuate profile or straight-line profile complementary to radiussed surface 224.
- the closure 2 may optionally be provided with a stop 407, the stop 407 being an annular projection on the top 4 and adjacent the side wall 6.
- the stop 407 is positioned to be engageable with the end of the neck 20 remote from the body of the container 22, when the closure 2 is attached to the neck 20.
- the stop 407 has a height chosen to allow some elastic deformation of the angled surface 412, but limits movement of the neck 20 to prevent excess deformation of the annular projection 410.
- Figure 5 shows a further version of the neck of the container.
- Neck 520 is provided with an annular cavity 505 extending around the neck.
- the cavity 505 opens onto the end of the neck 20 remote from the body of the container 22, but may alternatively open onto the internal surface 530 or external surface of the neck.
- Internal edge 524 of the neck 520 is able to engage with angled surface 512 on the closure 2. When the internal edge 524 is urged onto the angled surface 512, the part of the neck supporting the internal edge 524 can elastically deform inwardly, into the cavity 505. This embodiment thus allows a relatively large elastic deformation of the neck in order to create a good seal for closing the opening.
- the angled surface 512 and projection 510 may be any of the surfaces or projections described in any of the embodiments.
- the internal edge 524 may be a radiussed edge, or chamfered or arcuate, as described in any of the versions.
- the closure 2 for use with neck 520 may be provided with a stop as described in the embodiment of Figure 4 , in order to limit the deformation of the neck 520.
- the neck may optionally be provided with a second cavity (not shown) adjacent an external edge of the neck.
- the second cavity may allow greater elastic deformation of the neck with a second angled surface in the version of Figures 3a or 3b .
- Third and/or further cavities may be provided for the same purpose.
- Figure 6 shows a further version of the closure 2.
- Neck 620 is the same as that described in Figure 5 , having a cavity 605.
- Edges 611 are formed at the end of the annular cavity 605 remote from the container.
- Closure 2 is provided with a projection 610, having two angled sealing surfaces 612. One angled surface 612 faces radially outwardly, and one angled surface 612 faces radially inwardly. Each angled surface is inclined at an angle of approximately 10 to 80 degrees to the central axis of the closure.
- the projection 612 may be hollow, comprising a cavity to allow it to readily elastically deform.
- the projection 612 may be solid.
- the angled surfaces 612 are located to each engage with an edge 611 of the neck 620.
- the apex of the projection 610 thus extends into the cavity 605.
- the edges 611 may be urged radially apart and/or the sealing surfaces 612 may be urged radially together.
- the edges 611 may be radiussed, or may have an arcuate profile or be chamfered.
- the angled surfaces 612 may have a straight-line profile, or have a convex or concave arcuate profile.
- Closure 2 may comprise more than one projection 610, each projection comprising two sealing surfaces 612.
- the neck 620 may comprises a corresponding number of cavities 605 having edges for sealing against surfaces 612.
- the neck 630 may comprise three cavities 605, extending parallel to each other and circumferentially spaced.
- the three cavities 605 will form a total of six edges 611.
- the closure 2 would comprise three projections 610, having a total of six sealing surfaces 612. All the sealing surfaces 612 would simultaneously engage against the edges 611 to seal the opening of the container.
- the or each projection 610 may have one, two or more sealing surfaces 612.
- the closure 2 may be integrally formed as a single piece, for example by moulding. Alternatively, the closure 2 may be formed in two or more pieces, for example with the angled surface formed on an insert which is secured to the inside of the top 4.
- FIG 7 shows an embodiment of the present invention related to the version shown in Figure 4 .
- a closure 702 comprises an annular projection 710 provided on a top 704.
- the annular projection 710 has an angled surface 712 analogous to the earlier described versions.
- the angled surface 712 is orientated at approximately 45° to the plane surface of the top 704.
- the annular projection 710 and top 704 are integrally formed of a material having a substantially uniform thickness over the top 704.
- the annular projection 710 defines an annular groove 705 on the top 704.
- the groove 705 allows the annular projection 710 to be easily elastically deformable when a neck 720 of the container is urged against the angled surface 712.
- the top 704 is shaped to form a stop 707.
- the stop 707 is an annular projection integrally formed with the top 704, and adjacent to a side wall 706 of the closure.
- the stop 707 is positioned to be engageable with the end of the neck 720 remote from the body of the container, when the closure 702 is attached to the neck 720.
- the stop 707 is arranged so that the neck 720 can contact the angled surface 712, and when the neck 720 is urged against the angled surface 712 the annular projection 710 can be elastically deformed by the neck 720.
- the stop 707 is located to limit movement of the neck 720 relative to the angled surface 712 to prevent excess deformation of the annular projection 710.
- the stop 707 also assists in preventing the neck 720 being splayed outwardly by the annular projection 710.
- the stop 707 may also prevent the closure 702 from being over-tightened onto the neck 720.
- An internal groove 736 is located between the stop 707 and the angled surface 712.
- the annular internal groove 736 allows improved elastic deformation of the projection 710, allowing the annular projection 710 to undergo a larger deformation for the same force from the edge 724 of the neck 720.
- the location of the internal groove 736 means that the edge 724 of the neck 720 contacts the annular projection 710 at a line spaced apart from the radially outward edge of the annular projection 710.
- the annular projection 710 can be more easily be deformed when contacted away from a fixed end, that spacing being provided by the internal groove 736.
- the internal surface edge 724 of the neck 720 may be radiussed or chamfered in a similar manner to the surface 424 described with reference to Figure 4 .
- the top 704 is shaped to provide an annular shoulder 738.
- the shoulder 738 is located between the stop 707 and the side wall 706.
- the shoulder 738 extends from the restraining surface 744 at an angle to the plane of the top 704.
- the shoulder 738 is arranged to guide the neck 720 towards the stop 707 as necessary.
- the restraining surface 744 may alternatively have an angular lead-in to the stop 707, i.e. at tan angle to the side wall.
- the lead-in may alternatively be radiussed adjacent to the stop 707.
- An annular restraining surface 744 extends substantially parallel to the side wall 706.
- the restraining surface 744 is located between the stop 707 and the shoulder 738, radially outwardly of the sealing surface 712.
- the restraining surface 744 faces radially inwardly, substantially facing the sealing surface 712.
- the restraining surface 744 limits the radial movement of the neck 720.
- the restraining surface 744 is radially spaced from the external surface 732 of the neck 720 when the closure 702 is initially being attached to the container.
- the neck 720 when attached to the closure 702 preferably deforms the annular projection 710 by a distance in a radial direction. This deformation distance is preferably greater than the radial distance between the restraining surface 744 and the external surface 732 of the neck 720.
- the neck 720 is maintained in contact with the angled surface 712, with the annular projection 710 deformed, even when the neck 720 splays outwardly.
- the restraining surface 744 joins the stop 707 at a corner.
- the profile of the restraining surface 744 and stop 77 preferably supports the neck 720.
- the corner preferably has a radius of curvature equal to or smaller than the radius of curvature of the corresponding outer edge of the neck 720 of the container.
- the top 704 is preferably formed of thicker material at its radial periphery 740. This may increase the strength of the top 704 in this area.
- the top 704 may be formed of material having a substantially uniform thickness. Such an embodiment is shown with part of the top 704 shown by the dashed line 760 in Figure 7 .
- Figure 8 shows a further embodiment of the present invention of a closure.
- Top 804 defines an annular projection 810 having an angled surface 812.
- a groove 805 allows the annular projection 810 to elastically deform when a neck of a container is urged against it.
- the top 804 defines a stop 807.
- the stop 807 is located between the annular projection 810 and the sidewall 806.
- the stop 807 extends substantially parallel to the top 804.
- a groove 805 allows elastic deformation of the projection 810 when a neck engages the stop 807.
- An internal groove 836 allows the neck of the container to contact the annular projection 810 away from the end of the projection 810 connected to the stop 807. This allows the projection 810 to deform more readily when the neck is urged against the projection 810.
- Figure 9 shows a schematic plan view of an embodiment of the closure 2.
- the side walls 6 of the closure 2 in this embodiment are circular in plan view when the closure 2 is not attached to the container.
- the closure 2 is provided with groups of threads or grooves 34 arranged symmetrically around the side wall 6 of the closure 2. Preferably, there are four groups of threads or grooves 34. Between each group is a region 46 of the side wall 6 which is not provided with a thread or groove 34. The threads 34 extend radially inwardly from the side wall 6 further than the side wall 6 at the regions 46. Each group of threads or grooves may comprise one, two or more substantially parallel ridges or grooves forming a helical thread.
- the discrete groups of threads or grooves 34 are separated by smooth regions 46.
- the regions 46 may improve the manufacture of the closure by moulding.
- the closure 2 may be ejected from a mould using local expansion. This allows for faster cycle time and/or a cheaper mould.
- the closure 2 and neck of the container are dimensioned so that when the closure 2 is attached to the neck, the threads 34 are forced radially outwardly by the neck. This urges the parts of the side wall 6 having threads outwardly.
- the regions 46 of the side wall 6 not provided with threads are drawn radially inwardly, since the circumference of the side wall 6 is substantially constant. The closure 2 is therefore deformed when engaged to the container by relative rotation between the closure 2 and container.
- the closure 2 When the closure is fastened to the container, the closure 2 is deformed from being circular in a plan view to the approximately squared shape shown in Figure 10 .
- the side walls 6 in a non-deformed state have a constant radius of curvature.
- the outside of the side wall 6 in the deformed state defines areas 50 having a larger radius of curvature, which can be considered as flattened portions.
- the flattened portions 50 are generally still curved, i.e. not planar, with a radius of curvature larger than the original non-deformed closure 2.
- each flattened portion 50 is an area 52 of reduced radius of curvature.
- the areas of reduced radius of curvature can be considered as peaked areas 52.
- the peaked areas 52 coincide with the groups of threads 34.
- the presence of the flattened portions 50 and peaked areas 52 improves the ease of purchase of the closure 2 by a user.
- the flattened portions 50 and peaked areas 52 allow a better grip to be obtained on the side wall 6 by a user than on a cylindrical closure. This allows the force to be applied more easily by a user to turn the closure relative to the container. This may be of particularly benefit to elderly people, or anyone who has difficulty obtaining a grip on a cylindrical exterior of a conventional closure.
- the closure 2 may retain none, some or all of its deformity after removal from the neck of the container.
- Figure 11 shows a cross section through the closure 2 along a line A-A through regions 46 shown in Figure 10 .
- the top 4 of the closure retains a generally circular shape as the closure 2 is attached to the neck.
- the side wall 6 at the flattened portions 50 is forced inwardly. The amount of deflection of the side 6 is greatest in the centre of the flattened portions 50.
- Diametrically opposite distal ends 64 of the closure 2 are spaced closer than diametrically opposite points on the side wall 6 adjacent the top 4.
- Figure 12 shows a cross section through the closure 2 along a line B-B through the threads 34.
- the top 4 of the closure retains a generally circular shape as the closure 2 is attached to the neck.
- the side wall 6 at the areas 52 is forced outwardly. The amount of deflection of the side 6 is greatest in the centre of the peaked areas 52.
- Diametrically opposite distal ends 64 of the closure 2 are spaced further apart than diametrically opposite points on the side wall 6 adjacent the top 4.
- the closure 2 is typically formed of a polymeric material, and in particular PLA.
- the material may have a cellular microstructure, for example a closed cellular structure.
- a closed cellular structure may be achieved by using a blowing agent, to create a foamed material.
- the polymeric material of the closure may be foamed particularly adjacent the top 4 in the radially outer areas of the closure, where the top 4 and side wall 6 adjoin. This region may be thicker than other parts of the closure 2, for example for the part 704.
- the closed cellular structure is applicable to all the embodiments of the closure.
- the foaming increases the resistance of the closure 2 to shattering upon an impact.
- the foamed material may be less brittle than a non-foamed material, increasing its ability to withstand a shock load.
- the closure may be provided with a tamper evident means.
- the tamper evident means may be a ring which becomes detached from the closure when the closure is first removed from the container.
- a shrink sleeve may be applied and heated onto the container. Any known tamper evident means may be used with the closure.
- the top 704 has been described as integrally moulded.
- the top 704 may be formed of a material of substantially uniform thickness as indicated by line 760.
- the volume indicated between line 760 and line 740 may be filled with a separate piece of material.
- the separate piece of material may be inserted or pressed onto the top 704.
- the separate piece of material may by rubber, polyethylene, polyethylene foam or another material.
- the top 704 may have features to assist the separate piece of material to adhere.
- Figure 13A shows a further embodiment of the closure 1302.
- the closure 1302 has a top 1304 which is domed, the domed section centred on the central axis of the closure.
- the domed section has its convex side towards the side wall 1306.
- the closure 1302 may be used with a container storing carbonated drinks.
- the domed section can exert force to the angled sealing surface when urged by pressure in the container caused by carbonation or other pressurised gas.
- Figure 13B shows an alternate embodiment of part of the closure of Figure 13A .
- the top 1304 of Figure 13B has a flattened section 1360 on the periphery of the domed section.
- the flattened section 1360 may control transfer of force from the domed section to the angled sealing surface.
- the groove 405,705,805 and equivalent in other embodiments has been described as opening to the planar surface of the top of the closure.
- the groove may be filled with a separate filling material.
- the filling material may prevent dirt accumulating in the groove.
- the filling material is preferably deformable to allow the annular projection to deform.
- the filling material may be readily deformable such that the annular projection is readily deformable.
- a suitable material is polyethylene foam, although any suitable material may be used.
- a filling material may be provided which requires more force to deform. Such a material would cause the annular projection to require more force to deform. This may be advantageous to control the deformation of the annular projection.
- An example of such a material is rubber, although any suitable material may be used.
- the closure or at least part of the closure will typically be formed from a polymeric material such as a thermoplastic or thermosetting material.
- a thermoplastic material is, however, preferred.
- the thermoplastic polymeric material comprises polylactic acid (PLA) (also known as poly(lactide) or poly(lactic acid)) or a derivative thereof. This material has suitable mechanical, chemical and barrier properties and, furthermore, is an environmentally friendly material.
- polystyrene resin polystyrene resin
- PHA poly hydroxy-alkanoate, which is also a biodegradable polymer
- polyethylene including high density polyethylene (HDPE)
- HDPE high density polyethylene
- polypropylene poly(ethylene terephthalate).
- the polymeric material e.g. PLA
- the polymeric material is amorphous or at least partially amorphous. This has been found to result in improved mechanical properties.
- a closure formed from a polymer having a high degree of crystallinity can be difficult to remove from the container, for example a plastic bottle with a screw thread attachment.
- a highly crystalline polymer closure can fracture when it is attached to the container.
- a highly crystalline polymer may also result in the closure locking up or jamming on the bottle.
- the degree of crystallinity (volume) in the polymeric material is preferably less than 50 %, more preferably less than 30 %, still more preferably less than 20 %.
- the degree of crystallinity in the polymer material forming the closure may be reduced in a number of ways. For example, if the closure is formed by injection moulding or compression moulding, then desirable results can be achieved by ensuring that the mould cavity is filled relatively quickly, for example in ⁇ 1 second, preferably ⁇ 0.5 seconds. Moreover, it is preferable that heat is removed from the closure, once moulded, as quickly as possible. Heat can be conducted away from the moulded closure through the mould parts, for example the metal core and cavity. Cooling means are preferably provided to cool the metal core and cavity. It is also preferable if the wall section of the moulded closure is ⁇ 2 mm, preferably ⁇ 1 mm.
- the closure is preferably integrally formed from the polymeric material (e.g. PLA).
- the closure may, for example, be injection moulded or compression moulded.
- the closure 2 is screwed onto the neck 20 of the container 22.
- the closure 2 is attached to the neck 20 be means of threads and grooves 8, 34.
- One or more edge(s) or radiussed surface(s) of the neck engages against one or more angled surface(s) provided in the inside of the closure.
- the end of the neck does not directly engage against the top 4 of the closure.
- the closure then seals the opening 28. If a second angled surface is provided on the top 4, then the second angled surface simultaneously engages with a second edge or chamfered surface of the neck 20.
- the angled surface 12, 412 and/or neck 520 may be elastically deformable to improve the seal around the opening 28.
- the closure may alternatively have a single angled surface of any one of the embodiments facing radially inwardly.
- a radiussed surface may be provided in place of edge 26, in combination with an edge 24.
- any combination of one or two angled surfaces, of which one or both may be hollow, and edges or radiussed surfaces of the neck may be used.
- Any combination of convex or concave arcuate angled surfaces, or a straight-line profiled angled surfaces, with any radiussed or chamfered surface or edge of the neck may be used.
- a closure with an angled surface having a straight-line profile may be used in combination with a neck with a radiussed edge.
- the closure is described as provided with an annular angled surface, the angled surface may be any shape to fit the neck of the container, for example substantially square, oval or rectangular.
- the attachment means may be a hinge pivotally connecting the closure and container, i.e. a flip-top.
- the attachment means may also comprise a projection extending radially inwardly from the side wall of the closure engageable with a projection extending outwardly from the neck of the container, i.e. a snap-cap.
- the closure has been described as deformable whey screwed onto a container into the shape illustrated in Figure 10 .
- the closure 2 may alternatively be formed in the state illustrated in Figure 10 .
- the closure 2 is not deformed when attached to the neck, but permanently maintains the shape illustrated in Figures 10 to 12 .
- the closure 2 has been described as deformable to the shape illustrated in Figure 10 when attached to a container.
- the closure and container may be dimensioned such that there is substantially no deformation of the closure on attachment to a container.
- the closure may be permanently shaped as shown in Figures 10 to 12 .
- the flattened surfaces improve the ease with which the closure can be removed from the container.
- the side wall of this closure is preferably formed of a material having a uniform thickness.
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- Closures For Containers (AREA)
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Description
- The present invention relates to a closure for closing an opening of a container. In particular, it relates to a closure device which is screwed onto a drinks container.
- It is known to package potable fluids such as water in a container having a detachable closure to seal the container. The container and closure are typically moulded. A thread or groove is formed on the bottle, around the opening, and a complimentary thread or groove is formed on the inside of the closure. If there are any inaccuracies in the moulding of the thread and groove, then the cap may not form a fluid tight seal over the opening. This may result in a leakage of fluid from the container.
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US 2004/188375 discloses a cap and container wherein the cap comprises an annular skirt portion and a top wall; the top wall comprising rigid sealing members for engaging a lip of a container opening. A closure comprising the technical features of the preamble ofclaim 1 is known fromUS 3281000 . - The present invention provides a closure as set out in
claim 1. - The present invention provides a container combined with a closure as set out in claim 7.
- This has the advantage that a fluid tight seal is formed between the closure and the container, even if there are inaccuracies in the moulding of the closure or container.
- Optional features of the invention are set out in the dependent claims.
- Preferably, the neck comprises a radiussed surface for engagement with the second sealing surface. Thus, the surface area of the neck in contact with the sealing surface is increased.
- Preferably, the or each sealing surface is annular. Thus, a uniform sealing surface is provided which can be readily engaged with the container.
- Preferably, the attachment means comprises one or more helical threads and grooves. Thus, a secure and releasable engagement means is provided.
- Preferably, the or each projection comprises a cavity. Thus, the projection is readily deformable when urged against the neck of the container, to ensure that a good seal is formed even if there are inaccuracies in the moulding.
- Preferably, the neck comprises one or more cavity or cavities. Thus, the neck is readily deformable when urged against the sealing surface of the closure, to ensure that a good seal is formed even if there are inaccuracies in the moulding.
- Preferably, the closure comprises a stop to limit movement of the neck relative to the closure. Thus, the projection or neck is not deformed so much that plastic deformation or breakage occurs.
- Preferably, the closure is integrally moulded. Thus, the closure can be cheaply manufactured.
- In a further aspect, the present invention provides a closure for closing an opening of a container, wherein at least a part of the closure is formed from a thermoplastic polymeric material comprising polylactic acid (PLA) (also known as poly(lactide)) or a derivative thereof, and wherein the thermoplastic polymeric material is amorphous or at least partially amorphous.
- In a still further aspect, the present invention provides a closure for closing an opening of a container, the closure comprising: a thread or groove engageable with a corresponding portion of a container to provide closure of the container, wherein the closure is sized to interact with the container such that the closure is deformable on engagement with the container, such that engagement of the closure relative to the container can flatten a curved external surface of the closure such that at least one flattened surface is formed on the external surface of the closure.
- In a yet further aspect, the present invention provides a closure for closing an opening of a container, the closure comprising: a thread or groove engageable with a corresponding portion of a container to provide closure of the container, wherein the closure has at least one flattened surface formed on an external surface of a side wall of the container; wherein the side wall is formed of a material of substantially uniform thickness.
- Embodiments of the present invention will now be described, by way of example only, with reference to the accompanying drawings in which:
-
Figure 1 is a cross-sectional view of a closure and container; -
Figure 2 is a cross-sectional view of a second version of the closure and container; -
Figure 3a is a cross sectional view of a third version of the closure and container; -
Figure 3b is a cross sectional view of a fourth version of the closure and container; -
Figure 4 is a cross sectional view of a fifth version of the closure and container; -
Figure 5 is a cross sectional view of a sixth version of the closure and container; -
Figure 6 is a cross sectional view of a seventh version of the closure and container; -
Figure 7 is a cross sectional view of an embodiment of the closure and container in accordance with the present invention; -
Figure 8 is a cross sectional view of an embodiment of the closure in accordance with the present invention; -
Figure 9 is a plan view of a closure; -
Figure 10 is a plan view of a closure engaged with container; -
Figure 11 is a cross-section through the closure ofFigure 10 along a line A-A; and -
Figure 12 is a cross-section through the closure ofFigure 10 along a line B-B; -
Figure 13A is a schematic partially cut-away cross-section of a further embodiment of the closure; -
Figure 13B is a schematic cross-section of an alternate part of the closure ofFigure 13A . - Referring to
Figure 1 there is shown acontainer 22 having aneck 20. The remainder of thecontainer 22 is not shown as its body shape may take any suitable form and may, for example, be of square, rectangular or circular cross-section, or another geometrical shape. - The
neck 20 defines acircular opening 28 having a central axis and surrounded by a substantially smooth, cylindricalinternal surface 30. Aninternal edge 24 is formed at an end of theinternal surface 30 remote from the body of thecontainer 22. Anexternal surface 32 of theneck 20 has anexternal edge 26 at an end remote from the body of the-container 22, theexternal edge 26 being radially outside theinternal edge 24. - The
external surface 32 is provided with attachment means with which to engage complementary attachment means provided on a closure. The attachment means may take the form of a helical thread orgroove 34. The thread orgroove 34 may be a single thread or groove, or alternatively be in the form of a plurality of threads or grooves having different starting points. - The
closure 2 is also shown inFigure 1 . Theclosure 1 has atop 4 which is circular in plan view, and merges at a radially outer edge with a dependingannular side wall 6. Theside wall 6 is provided, on its inner surface, with attachment means for releasable engagement with the complementary attachment means provided on theneck 20. The attachment means may take the form of one or more helical threads orgrooves 8. Theside wall 6 defines a central axis, extending longitudinally along an axis of symmetry of the closure. The central axis is marked as line A-A onFigure 1 . - The
closure 2 is provided with anannular projection 10 extending from thetop 4, theprojection 10 extending from the same side of thetop 4 as theside wall 6. Theprojection 10 is provided with an angled, or sealing,surface 12, which faces radially outwardly and away from thetop 4. Theangled surface 12 is preferably angled at 45 degrees to thetop 4, and may be angled between 10 and 80 degrees. Theangled surface 12 can be considered to be inclined to a plane perpendicular to the central axis of the closure. Theangled surface 12 could also be considered to be inclined to the longitudinal axis of the threads orgrooves 8 of the closure. - The
annular projection 10 is circumferentially spaced apart from theside walls 6. Theangled surface 12 is located such that when theclosure 2 is attached to thecontainer 22 by the attachment means, theinternal edge 24 of theneck 20 abuts against theangled surface 12 in order to close theopening 28. - The
angled surface 12 is shown in profile to define a straight line. The angled surface may also have an arcuate profile. The effect of the angle is that theangled surface 12 and/or theneck 20 undergo a slight elastic deformation in a radial direction when urged together. -
Figure 2 shows a second version of theneck 20. Theinternal surface 30 has an internalradiussed surface 224 at an end remote from the body of thecontainer 22. Theclosure 2 and the other features of thecontainer 22 are as described in the first version. - The internal
radiussed surface 224 has a profile curved with a constant radius, or thesurface 224 may take any arcuate form. Theangled surface 12 may also have an arcuate profile, which may be complementary toradiussed surface 224. Theradiussed surface 224 and angledsurface 12 may abut each other to seal theopening 28. Theinternal surface 224 may alternatively be chamfered at an angle complimentary to the angle of theangled surface 12, as shown inFigure 2 . Theradiussed surface 224 provides a greater surface area in contact with theangled surface 12 than provided by theedge 24. -
Figure 3a shows a further version of theclosure 2. Theclosure 2 is provided with asecond projection 310. Thesecond projection 310 is an annular projection extending from the top 4 in substantially the same direction as theannular projection 10 andside walls 6. Thesecond projection 310 is located radially outwardly and spaced apart from theprojection 10. Thesecond projection 310 is provided with a secondangled surface 312. The secondangled surface 312 faces radially inwardly, and away from the top 4. Theangled surface 312 is shown in profile to define a straight line. Theangled surface 312 may also have an arcuate profile. - The second
angled surface 312 is positioned to abutexternal edge 26 of theneck 20, in order to assist in the sealing ofopening 28. - The
second projection 310 may be the same size, or larger or smaller than theprojection 10. Theangled surface 312 may be orientated at the same angle from the top 4 as theprojection 10, or alternatively, the second angled surface may be at a smaller or larger angle than theangled surface 12. -
Figure 3a showsannular projection 10 in abutment with the internalradiussed surface 224 of the second version. Alternatively, theinternal surface 30 may end at an internal edge, for exampleinternal edge 24 as described in the first embodiment. -
Figure 3b indicates thatexternal surface 32 of theneck 20 has an externalradiussed surface 326 at an end remote from the body of thecontainer 22. The externalradiussed surface 326 may have a profile curved with a constant radius, or thesurface 326 may have a profile of any arcuate form. Thesurface 326 may also have an arcuate profile, which may be complementary toradiussed surface 312. Theradiussed surface 326 andangled surface 310 may abut each other to assist in sealing theopening 28. - The
radiussed surface 326 may alternatively be chamfered at an angle complimentary to the angle of theangled surface 312, as shown inFigure 3b . Theradiussed surface 326 provides a greater surface area in contact with theangled surface 310 than provided by theedge 26. The abutment of the externalradiussed surface 326 with the secondangled surface 312 assists in sealing theopening 28. -
Figure 4 shows a version with differences from the second version described above and shown inFigure 2 . Anannular projection 410 is provided on the top 4, theannular projection 410 having anangled surface 412 as previously described. Theannular projection 410 is not a solid projection, but comprises a cavity. Theannular projection 410 is hollow and defines anannular groove 405 on the top 4. Theannular projection 410 may alternatively comprise a cavity which does not have an opening. Thehollow projection 410 results in theangled surface 412 being more easily elastically deformable than theangled surface 12 when urged by theneck 20. - The
angled surface 412 is shown in profile to define a straight line. Theangled surface 412 may also have an arcuate profile, which may be convex or concave. - The
internal surface 30 may have an internalradiussed surface 424 at an end remote from the body of thecontainer 22. Theclosure 2 and the other features of thecontainer 22 are as described in the first version. - The internal
radiussed surface 424 may have a profile curved with a constant radius, or thesurface 424 may take any arcuate form. The internalradiussed surface 424 may take the form of a chamfer, having a profile of a straight line. The internalradiussed surface 424 may be an edge. Theangled surface 412 may have an arcuate profile or straight-line profile complementary toradiussed surface 224. - The
closure 2 may optionally be provided with astop 407, thestop 407 being an annular projection on the top 4 and adjacent theside wall 6. Thestop 407 is positioned to be engageable with the end of theneck 20 remote from the body of thecontainer 22, when theclosure 2 is attached to theneck 20. Thestop 407 has a height chosen to allow some elastic deformation of theangled surface 412, but limits movement of theneck 20 to prevent excess deformation of theannular projection 410. -
Figure 5 shows a further version of the neck of the container.Neck 520 is provided with anannular cavity 505 extending around the neck. Thecavity 505 opens onto the end of theneck 20 remote from the body of thecontainer 22, but may alternatively open onto theinternal surface 530 or external surface of the neck.Internal edge 524 of theneck 520 is able to engage withangled surface 512 on theclosure 2. When theinternal edge 524 is urged onto theangled surface 512, the part of the neck supporting theinternal edge 524 can elastically deform inwardly, into thecavity 505. This embodiment thus allows a relatively large elastic deformation of the neck in order to create a good seal for closing the opening. - The
angled surface 512 andprojection 510 may be any of the surfaces or projections described in any of the embodiments. Theinternal edge 524 may be a radiussed edge, or chamfered or arcuate, as described in any of the versions. - The
closure 2 for use withneck 520 may be provided with a stop as described in the embodiment ofFigure 4 , in order to limit the deformation of theneck 520. - The neck may optionally be provided with a second cavity (not shown) adjacent an external edge of the neck. The second cavity may allow greater elastic deformation of the neck with a second angled surface in the version of
Figures 3a or 3b . Third and/or further cavities may be provided for the same purpose. -
Figure 6 shows a further version of theclosure 2.Neck 620 is the same as that described inFigure 5 , having acavity 605.Edges 611 are formed at the end of theannular cavity 605 remote from the container. -
Closure 2 is provided with aprojection 610, having two angled sealing surfaces 612. Oneangled surface 612 faces radially outwardly, and oneangled surface 612 faces radially inwardly. Each angled surface is inclined at an angle of approximately 10 to 80 degrees to the central axis of the closure. - The
projection 612 may be hollow, comprising a cavity to allow it to readily elastically deform. Alternatively, theprojection 612 may be solid. - The
angled surfaces 612 are located to each engage with anedge 611 of theneck 620. The apex of theprojection 610 thus extends into thecavity 605. As theedges 611 are urged against theangled surfaces 612, theedges 611 may be urged radially apart and/or the sealing surfaces 612 may be urged radially together. - The
edges 611 may be radiussed, or may have an arcuate profile or be chamfered. Theangled surfaces 612 may have a straight-line profile, or have a convex or concave arcuate profile. -
Closure 2 may comprise more than oneprojection 610, each projection comprising two sealingsurfaces 612. Theneck 620 may comprises a corresponding number ofcavities 605 having edges for sealing againstsurfaces 612. For example, theneck 630 may comprise threecavities 605, extending parallel to each other and circumferentially spaced. The threecavities 605 will form a total of sixedges 611. Theclosure 2 would comprise threeprojections 610, having a total of six sealing surfaces 612. All the sealingsurfaces 612 would simultaneously engage against theedges 611 to seal the opening of the container. Furthermore, the or eachprojection 610 may have one, two or more sealing surfaces 612. - The
closure 2 may be integrally formed as a single piece, for example by moulding. Alternatively, theclosure 2 may be formed in two or more pieces, for example with the angled surface formed on an insert which is secured to the inside of the top 4. -
Figure 7 shows an embodiment of the present invention related to the version shown inFigure 4 . Aclosure 702 comprises anannular projection 710 provided on a top 704. Theannular projection 710 has anangled surface 712 analogous to the earlier described versions. Theangled surface 712 is orientated at approximately 45° to the plane surface of the top 704. Theannular projection 710 and top 704 are integrally formed of a material having a substantially uniform thickness over the top 704. - The
annular projection 710 defines anannular groove 705 on the top 704. Thegroove 705 allows theannular projection 710 to be easily elastically deformable when aneck 720 of the container is urged against theangled surface 712. - The top 704 is shaped to form a
stop 707. Thestop 707 is an annular projection integrally formed with the top 704, and adjacent to aside wall 706 of the closure. Thestop 707 is positioned to be engageable with the end of theneck 720 remote from the body of the container, when theclosure 702 is attached to theneck 720. - The
stop 707 is arranged so that theneck 720 can contact theangled surface 712, and when theneck 720 is urged against theangled surface 712 theannular projection 710 can be elastically deformed by theneck 720. Thestop 707 is located to limit movement of theneck 720 relative to theangled surface 712 to prevent excess deformation of theannular projection 710. Thestop 707 also assists in preventing theneck 720 being splayed outwardly by theannular projection 710. Thestop 707 may also prevent theclosure 702 from being over-tightened onto theneck 720. - An
internal groove 736 is located between thestop 707 and theangled surface 712. When theneck 720 is engaged with thestop 707, the annularinternal groove 736 allows improved elastic deformation of theprojection 710, allowing theannular projection 710 to undergo a larger deformation for the same force from theedge 724 of theneck 720. The location of theinternal groove 736 means that theedge 724 of theneck 720 contacts theannular projection 710 at a line spaced apart from the radially outward edge of theannular projection 710. Theannular projection 710 can be more easily be deformed when contacted away from a fixed end, that spacing being provided by theinternal groove 736. - The
internal surface edge 724 of theneck 720 may be radiussed or chamfered in a similar manner to thesurface 424 described with reference toFigure 4 . - The top 704 is shaped to provide an
annular shoulder 738. Theshoulder 738 is located between thestop 707 and theside wall 706. Theshoulder 738 extends from the restrainingsurface 744 at an angle to the plane of the top 704. When theneck 720 is engaging with theclosure 702, theshoulder 738 is adjacent to anexternal surface 732 of theneck 720. Theshoulder 738 is arranged to guide theneck 720 towards thestop 707 as necessary. The restrainingsurface 744 may alternatively have an angular lead-in to thestop 707, i.e. at tan angle to the side wall. The lead-in may alternatively be radiussed adjacent to thestop 707. - An
annular restraining surface 744 extends substantially parallel to theside wall 706. The restrainingsurface 744 is located between thestop 707 and theshoulder 738, radially outwardly of the sealingsurface 712. The restrainingsurface 744 faces radially inwardly, substantially facing the sealingsurface 712. - The restraining
surface 744 limits the radial movement of theneck 720. The restrainingsurface 744 is radially spaced from theexternal surface 732 of theneck 720 when theclosure 702 is initially being attached to the container. Theneck 720 when attached to theclosure 702 preferably deforms theannular projection 710 by a distance in a radial direction. This deformation distance is preferably greater than the radial distance between the restrainingsurface 744 and theexternal surface 732 of theneck 720. Theneck 720 is maintained in contact with theangled surface 712, with theannular projection 710 deformed, even when theneck 720 splays outwardly. There is preferably an initial 0.05mm radial clearance between the restrainingsurface 744 andexternal surface 732. - The restraining
surface 744 joins thestop 707 at a corner. The profile of the restrainingsurface 744 and stop 77 preferably supports theneck 720. The corner preferably has a radius of curvature equal to or smaller than the radius of curvature of the corresponding outer edge of theneck 720 of the container. - The top 704 is preferably formed of thicker material at its
radial periphery 740. This may increase the strength of the top 704 in this area. - Alternatively, the top 704 may be formed of material having a substantially uniform thickness. Such an embodiment is shown with part of the top 704 shown by the dashed
line 760 inFigure 7 . -
Figure 8 shows a further embodiment of the present invention of a closure.Top 804 defines anannular projection 810 having anangled surface 812. Agroove 805 allows theannular projection 810 to elastically deform when a neck of a container is urged against it. - The top 804 defines a
stop 807. Thestop 807 is located between theannular projection 810 and thesidewall 806. Thestop 807 extends substantially parallel to the top 804. Agroove 805 allows elastic deformation of theprojection 810 when a neck engages thestop 807. Aninternal groove 836 allows the neck of the container to contact theannular projection 810 away from the end of theprojection 810 connected to thestop 807. This allows theprojection 810 to deform more readily when the neck is urged against theprojection 810. -
Figure 9 shows a schematic plan view of an embodiment of theclosure 2. Theside walls 6 of theclosure 2 in this embodiment are circular in plan view when theclosure 2 is not attached to the container. - The
closure 2 is provided with groups of threads orgrooves 34 arranged symmetrically around theside wall 6 of theclosure 2. Preferably, there are four groups of threads orgrooves 34. Between each group is aregion 46 of theside wall 6 which is not provided with a thread orgroove 34. Thethreads 34 extend radially inwardly from theside wall 6 further than theside wall 6 at theregions 46. Each group of threads or grooves may comprise one, two or more substantially parallel ridges or grooves forming a helical thread. - The discrete groups of threads or
grooves 34 are separated bysmooth regions 46. Theregions 46 may improve the manufacture of the closure by moulding. Theclosure 2 may be ejected from a mould using local expansion. This allows for faster cycle time and/or a cheaper mould. - With reference to
Figure 10 , theclosure 2 and neck of the container are dimensioned so that when theclosure 2 is attached to the neck, thethreads 34 are forced radially outwardly by the neck. This urges the parts of theside wall 6 having threads outwardly. Theregions 46 of theside wall 6 not provided with threads are drawn radially inwardly, since the circumference of theside wall 6 is substantially constant. Theclosure 2 is therefore deformed when engaged to the container by relative rotation between theclosure 2 and container. - When the closure is fastened to the container, the
closure 2 is deformed from being circular in a plan view to the approximately squared shape shown inFigure 10 . Theside walls 6 in a non-deformed state have a constant radius of curvature. The outside of theside wall 6 in the deformed state definesareas 50 having a larger radius of curvature, which can be considered as flattened portions. The flattenedportions 50 are generally still curved, i.e. not planar, with a radius of curvature larger than the originalnon-deformed closure 2. - Between each flattened
portion 50 is anarea 52 of reduced radius of curvature. The areas of reduced radius of curvature can be considered aspeaked areas 52. Thepeaked areas 52 coincide with the groups ofthreads 34. - The presence of the flattened
portions 50 and peakedareas 52 improves the ease of purchase of theclosure 2 by a user. The flattenedportions 50 and peakedareas 52 allow a better grip to be obtained on theside wall 6 by a user than on a cylindrical closure. This allows the force to be applied more easily by a user to turn the closure relative to the container. This may be of particularly benefit to elderly people, or anyone who has difficulty obtaining a grip on a cylindrical exterior of a conventional closure. - The
closure 2 may retain none, some or all of its deformity after removal from the neck of the container. -
Figure 11 shows a cross section through theclosure 2 along a line A-A throughregions 46 shown inFigure 10 . Thetop 4 of the closure retains a generally circular shape as theclosure 2 is attached to the neck. Theside wall 6 at the flattenedportions 50 is forced inwardly. The amount of deflection of theside 6 is greatest in the centre of the flattenedportions 50. Diametrically opposite distal ends 64 of theclosure 2 are spaced closer than diametrically opposite points on theside wall 6 adjacent the top 4. -
Figure 12 shows a cross section through theclosure 2 along a line B-B through thethreads 34. Thetop 4 of the closure retains a generally circular shape as theclosure 2 is attached to the neck. Theside wall 6 at theareas 52 is forced outwardly. The amount of deflection of theside 6 is greatest in the centre of thepeaked areas 52. Diametrically opposite distal ends 64 of theclosure 2 are spaced further apart than diametrically opposite points on theside wall 6 adjacent the top 4. - The
closure 2 is typically formed of a polymeric material, and in particular PLA. The material may have a cellular microstructure, for example a closed cellular structure. A closed cellular structure may be achieved by using a blowing agent, to create a foamed material. - The person skilled in the art will recognise that a variety of polymers may be used as the polymeric material in the present invention. Some other examples of polymeric materials have been listed previously.
- The polymeric material of the closure may be foamed particularly adjacent the top 4 in the radially outer areas of the closure, where the top 4 and
side wall 6 adjoin. This region may be thicker than other parts of theclosure 2, for example for thepart 704. However, the closed cellular structure is applicable to all the embodiments of the closure. - The foaming increases the resistance of the
closure 2 to shattering upon an impact. The foamed material may be less brittle than a non-foamed material, increasing its ability to withstand a shock load. - The closure may be provided with a tamper evident means. The tamper evident means may be a ring which becomes detached from the closure when the closure is first removed from the container. A shrink sleeve may be applied and heated onto the container. Any known tamper evident means may be used with the closure.
- The top 704 has been described as integrally moulded. Alternatively, the top 704 may be formed of a material of substantially uniform thickness as indicated by
line 760. The volume indicated betweenline 760 andline 740 may be filled with a separate piece of material. The separate piece of material may be inserted or pressed onto the top 704. The separate piece of material may by rubber, polyethylene, polyethylene foam or another material. The top 704 may have features to assist the separate piece of material to adhere. -
Figure 13A shows a further embodiment of theclosure 1302. Theclosure 1302 has a top 1304 which is domed, the domed section centred on the central axis of the closure. The domed section has its convex side towards theside wall 1306. Theclosure 1302 may be used with a container storing carbonated drinks. The domed section can exert force to the angled sealing surface when urged by pressure in the container caused by carbonation or other pressurised gas. -
Figure 13B shows an alternate embodiment of part of the closure ofFigure 13A . The top 1304 ofFigure 13B has a flattenedsection 1360 on the periphery of the domed section. The flattenedsection 1360 may control transfer of force from the domed section to the angled sealing surface. - The groove 405,705,805 and equivalent in other embodiments has been described as opening to the planar surface of the top of the closure. Alternatively, the groove may be filled with a separate filling material. The filling material may prevent dirt accumulating in the groove. The filling material is preferably deformable to allow the annular projection to deform.
- The filling material may be readily deformable such that the annular projection is readily deformable. An example of a suitable material is polyethylene foam, although any suitable material may be used. Alternatively, a filling material may be provided which requires more force to deform. Such a material would cause the annular projection to require more force to deform. This may be advantageous to control the deformation of the annular projection. An example of such a material is rubber, although any suitable material may be used.
- The following is relevant to any aspect or embodiment of the invention.
- The closure or at least part of the closure will typically be formed from a polymeric material such as a thermoplastic or thermosetting material. A thermoplastic material is, however, preferred. Advantageously, the thermoplastic polymeric material comprises polylactic acid (PLA) (also known as poly(lactide) or poly(lactic acid)) or a derivative thereof. This material has suitable mechanical, chemical and barrier properties and, furthermore, is an environmentally friendly material.
- The skilled person will recognise that many suitable polymers can be used in conjunction with the present invention, either by themselves or as a blend. Some other examples of polymeric materials include PHA (poly hydroxy-alkanoate, which is also a biodegradable polymer), polyethylene (including high density polyethylene (HDPE)), polypropylene and poly(ethylene terephthalate).
- The inventor has found that it is advantageous if the polymeric material (e.g. PLA) is amorphous or at least partially amorphous. This has been found to result in improved mechanical properties. In particular, it has been found that a closure formed from a polymer having a high degree of crystallinity can be difficult to remove from the container, for example a plastic bottle with a screw thread attachment. Moreover, a highly crystalline polymer closure can fracture when it is attached to the container. A highly crystalline polymer may also result in the closure locking up or jamming on the bottle. Having identified this problem the inventor have found that improved mechanical properties can be achieved if the degree of crystallinity (volume) in the polymeric material is preferably less than 50 %, more preferably less than 30 %, still more preferably less than 20 %.
- The degree of crystallinity in the polymer material forming the closure may be reduced in a number of ways. For example, if the closure is formed by injection moulding or compression moulding, then desirable results can be achieved by ensuring that the mould cavity is filled relatively quickly, for example in ≤ 1 second, preferably ≤ 0.5 seconds. Moreover, it is preferable that heat is removed from the closure, once moulded, as quickly as possible. Heat can be conducted away from the moulded closure through the mould parts, for example the metal core and cavity. Cooling means are preferably provided to cool the metal core and cavity. It is also preferable if the wall section of the moulded closure is ≤ 2 mm, preferably ≤ 1 mm.
- The closure is preferably integrally formed from the polymeric material (e.g. PLA).
- As to manufacture, the closure may, for example, be injection moulded or compression moulded.
- In use, the
closure 2 is screwed onto theneck 20 of thecontainer 22. Theclosure 2 is attached to theneck 20 be means of threads andgrooves top 4 of the closure. The closure then seals theopening 28. If a second angled surface is provided on the top 4, then the second angled surface simultaneously engages with a second edge or chamfered surface of theneck 20. Theangled surface neck 520 may be elastically deformable to improve the seal around theopening 28. - Although the closure has been described in one embodiment as having a single angled surface facing in part radially outwardly, the closure may alternatively have a single angled surface of any one of the embodiments facing radially inwardly. A radiussed surface may be provided in place of
edge 26, in combination with anedge 24. Thus, any combination of one or two angled surfaces, of which one or both may be hollow, and edges or radiussed surfaces of the neck, may be used. Any combination of convex or concave arcuate angled surfaces, or a straight-line profiled angled surfaces, with any radiussed or chamfered surface or edge of the neck may be used. In particular, a closure with an angled surface having a straight-line profile may be used in combination with a neck with a radiussed edge. - Although the closure is described as provided with an annular angled surface, the angled surface may be any shape to fit the neck of the container, for example substantially square, oval or rectangular.
- The attachment means may be a hinge pivotally connecting the closure and container, i.e. a flip-top. The attachment means may also comprise a projection extending radially inwardly from the side wall of the closure engageable with a projection extending outwardly from the neck of the container, i.e. a snap-cap.
- The closure has been described as deformable whey screwed onto a container into the shape illustrated in
Figure 10 . Theclosure 2 may alternatively be formed in the state illustrated inFigure 10 . In this embodiment, theclosure 2 is not deformed when attached to the neck, but permanently maintains the shape illustrated inFigures 10 to 12 . - The
closure 2 has been described as deformable to the shape illustrated inFigure 10 when attached to a container. Alternatively, the closure and container may be dimensioned such that there is substantially no deformation of the closure on attachment to a container. Alternatively, the closure may be permanently shaped as shown inFigures 10 to 12 . The flattened surfaces improve the ease with which the closure can be removed from the container. The side wall of this closure is preferably formed of a material having a uniform thickness.
Claims (8)
- A closure (2; 702) for closing an opening (28) of a container (22), the closure comprising:attachment means (8; 34) for attaching, in use, the closure to the container;a sealing surface (712; 812) inclined to a plane perpendicular to a central axis (A-A) of the closure, and located such that when the closure is attached to the container by the attachment means the sealing surface is engageable with the container;wherein the sealing surface is provided on a projection (710; 810) extending from the closure,wherein the projection comprises a cavity (705,805); characterised in that the closure comprises a stop (707; 807), such that in use the stop limits movement of the neck relative to the closure; andthe closure further comprising a groove (736; 836) arranged between the stop and the sealing surface such that the neck contacts the sealing surface at a position spaced from the stop.
- A closure as claimed in claim 1 wherein the sealing surface faces radially outwardly from the central axis of the closure.
- A closure as claimed in claim 1 or claim 2 wherein the attachment means (8; 34) comprises one or more helical threads or grooves.
- A closure as claimed in any one of the preceding claims wherein the closure comprises a restraining surface (744) substantially facing the sealing surface, such that when the neck contacts the sealing surface the restraining surface is located adjacent the neck to prevent substantial radial movement of the neck.
- A closure as claimed in any one of the preceding claims wherein at least part of the closure is formed from a polymeric material, and the polymeric material comprises polylactic acid (PLA) or a derivative thereof.
- A closure as claimed in any one of the preceding claims wherein the closure comprises a top part which is dome-shaped.
- A container (22) combined with a closure as claimed in any preceding claim, wherein the container comprises a neck (20; 720) defining an opening (28); the closure closing the opening with the neck engaging the sealing surface of the closure.
- A closure and container as claimed in claim 7 wherein the neck (20; 720) of the container (22) comprises a radiussed surface, the radiussed surface engageable with the sealing surface of the closure.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
GB0518593A GB2429971A (en) | 2005-09-12 | 2005-09-12 | Closure with projection having an angled sealing surface |
GB0616902A GB2430930A (en) | 2005-09-12 | 2006-08-25 | Closure with a projection having an angled surface |
PCT/GB2006/003355 WO2007031719A2 (en) | 2005-09-12 | 2006-09-11 | Closure |
Publications (2)
Publication Number | Publication Date |
---|---|
EP1931573A2 EP1931573A2 (en) | 2008-06-18 |
EP1931573B1 true EP1931573B1 (en) | 2013-04-03 |
Family
ID=37421088
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP06779371A Not-in-force EP1931573B1 (en) | 2005-09-12 | 2006-09-11 | Closure |
Country Status (2)
Country | Link |
---|---|
EP (1) | EP1931573B1 (en) |
WO (1) | WO2007031719A2 (en) |
Family Cites Families (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3281000A (en) * | 1964-08-17 | 1966-10-25 | Lowen Stanley | Closure apparatus |
GB1261772A (en) * | 1968-04-25 | 1972-01-26 | Eberhard Roder | Container and closure cap therefor |
US3792793A (en) * | 1972-08-09 | 1974-02-19 | A Rose | Safety closure |
DE8003050U1 (en) * | 1980-02-06 | 1980-11-06 | Kroma Herrmann & Wolf Ohg | Container |
GB2264108B (en) * | 1992-01-24 | 1995-11-15 | Beeson & Sons Ltd | A container closure assembly |
US5275287A (en) * | 1991-04-10 | 1994-01-04 | Mcg Closures Ltd. | Closures |
US5687863A (en) * | 1996-01-30 | 1997-11-18 | Owens-Illinois Closure Inc. | Squeeze and turn child resistant package |
GB2339770A (en) * | 1998-07-18 | 2000-02-09 | Rexam Containers Ltd | Container neck with a deformable sealing portion |
US20040188375A1 (en) | 2002-07-03 | 2004-09-30 | Fabricas Monterrey, S.A. De C.V. | Linerless plastic closure with a sealing lip |
DE20211431U1 (en) * | 2002-07-12 | 2003-02-06 | Wella Ag | Cap for container has internal thread formed by several thread sections provided on threaded ring which has at least one slot open to container |
-
2006
- 2006-09-11 EP EP06779371A patent/EP1931573B1/en not_active Not-in-force
- 2006-09-11 WO PCT/GB2006/003355 patent/WO2007031719A2/en active Application Filing
Also Published As
Publication number | Publication date |
---|---|
EP1931573A2 (en) | 2008-06-18 |
WO2007031719A2 (en) | 2007-03-22 |
WO2007031719A3 (en) | 2007-07-19 |
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