Carton and Carton Blank with Access

Abstract

A carton for containing bottles, has a top closure (20). The top closure (20) has a plurality of apertures (56) each to receive a bottle neck. At least one of the apertures (56) has a tear feature which comprises at least one group of short slits (37). The short slits (37) are offset from one another and arranged such that removal of the bottles causes the tear feature to break and the one aperture (56) to be enlarged.

Description

BACKGROUND OF THE INVENTION

The present invention relates to a carton for containing a plurality of similar articles, such as bottles and a means for retaining the bottles within the carton and in particular to a means of accessing the articles.

Cartons for encasing multiple articles are useful for enabling consumers to obtain and transport a desired quantity of individual articles such as soft drinks or other beverages. Such cartons need to be strong enough to support multiple articles, especially if the articles are bottles. It is also desirable for such cartons to be easy to handle and portable.

It often desirable for the articles contained within the carton to be displayed and also for the carton to have large areas which can be printed with advertising graphics. It is also often desirable for the articles to be easily accessible and it is also preferable for the articles to be secured in place within the carton, especially if the articles are fragile, for example glass bottles. It is however undesirable for articles to be accessed too easily, for example, before being purchased.

It is also desirable to have a carton which after the contents of the articles have been consumed can be used to return the empty articles to a recycling point.

The present invention seeks to provide a means for displaying the articles or a portion of the articles in combination with an access means for removal of the articles where the access means leaves the carton with sufficient integrity for replacement of articles for the purpose of returning to a recycling point.

SUMMARY OF THE INVENTION

According to a first aspect of the invention, a top closure panel for closing the top of an open-topped container, the panel having at least one aperture, each to receive a portion of an article held within the container and including a tear feature for enlarging the size of the or each aperture, the tear feature comprising at least one discrete group of short slits, the short slits radiating from the aperture and being arranged substantially perpendicular to a notional radial line such that removal of an article through the aperture causes a tear to propagate divergently from the notional radial line thereby causing the size of the aperture to be progressively increased.

Preferably wherein the or each discrete group of short slits may comprise at least two short slits wherein the short slit furthest from the aperture is longer than the short slit closest to the aperture.

Preferably wherein the or each discrete group of concentric short slits may comprise five short slits arranged such that a short slit closest to an aperture is in overlapping relation with at least two short slits further spaced from the aperture.

Preferably a termination of one short slit is spaced between 1 mm and 5 mm from a termination of an adjacent short slit.

Additionally the top closure panel may be prevented from being completely released from the open top container by a retaining means provided by the open top container.

Preferably the aperture may comprise an initiating cut disposed substantially on the notional radial line. The short slits may also be of substantially equal length.

Preferably the short slits furthest from the aperture may be larger than the short slits closest to the aperture

According to a second aspect of the invention, a blank for forming a top closure panel for closing the top of an open-topped container, the panel having at least one aperture, each to receive a portion of an article held within the container when in use and including a tear feature for enlarging the size of the or each aperture, the tear feature comprising at least one discrete group of short slits, the short slits radiating from the aperture and being arranged substantially perpendicular to a notional radial line such that removal of an article through the aperture causes a tear to propagate divergently from the notional radial line thereby causing the size of the aperture to be progressively increased.

Preferably the or each discrete group of short slits may comprise at least two short slits wherein the short slit furthest from the aperture is longer than the short slit closest to the aperture.

Additionally the tearing feature may further comprise an initiating means which extends normally from an edge of the aperture and towards the group of short slits.

BRIEF DESCRIPTION OF THE DRAWINGS

An exemplary embodiment of the invention will now be described, by way of example only, with reference to the accompanying drawings in which;

FIG. 1 shows a first part of a blank for forming a carton according to one embodiment of the invention;

FIG. 2 shows a second part of a blank for forming a carton according to one embodiment of the invention;

FIG. 3 is a perspective view from the front, side and top of a carton constructed from the blanks of FIGS. 1 and 2;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

FIGS. 1 and 2, show first and second parts of a two-part blank for forming a carton 30, made from paperboard or similar foldable sheet material. It is envisaged that a unitary blank could be used instead, without departing from the scope of the invention. In the first embodiment of the invention two blanks 10 and 20, of FIGS. 1 & 2 are formed into a tubular crate and a cover respectively. The cover is inserted into the tubular crate to form the carton 30 of the first embodiment, which is shown in FIG. 1C.

It is envisaged that minor variations to the invention could be made for example a crash bottom of the type known in the art, could be employed without departing from the scope of the invention. The invention is designed to receive similar articles, such as bottles, but it is envisaged that the present invention could be used to contain other articles, without departing from the scope of the invention.

The blank 10 for forming the tubular crate is shown in FIG. 1. The blank 10 comprises first and second side panels, 12, 16, front and back panels 14, 18 and corner panels 90 hinged one to another in series along fold lines 42a, 42b, 44a, 44b, 46a, 46b, 48a and 48b respectively. A glue flap 88 is provided to secure the back panel 18 to the first side wall 12, in this embodiment a recess is provided toward the top end of the glue flap 88.

Handle apertures 54 are struck from the first and second side walls 12, 16 and are provided with finger gripping tabs 58. The finger gripping tabs 58 protrude inward from the upper edges of the handle apertures 54. The finger gripping tabs enable the erected carton to be easily grasped and lifted by the handle apertures 54. Top end flaps 76 are hinged to each of the front, back and corner panels 14, 18 and 90, to provide reinforcement of the top edges of the front, back and corner panels 14, 18 and 90, when the blank 10 is erected into a tubular crate.

Turning to the construction of the tubular crate from blank 10, a series of sequential folding and gluing operations are required, which preferably can be performed in a straight line machine, so that the crate and/or blank 10 are not required to be rotated or inverted to complete the construction. The folding process is not limited to that described below and can be altered according to particular manufacturing requirements.

The first stage is to apply glue to the outside edge of glue flap 88 and then fold it 180° about fold line 48 so that it lies in flat face contacting relation with the inside corner panel 90. The front panel 14 is then folded about fold line 44b so that it lies flat on top of the inside face of second side panel 16. This causes the first side panel 12 to come into flat face contacting relation with the back panel 18 and the glued outer edge of glue flap 88, so that the first side panel 12 becomes stuck to the glue flap 88, thus connecting the first side panel 12 and back panel 18. The blank 10 can then be erected into a tubular structure and using a similar series of folding and gluing steps, the bottom end flaps 72, 74 can be secured to form a bottom end closure means.

A second blank 20, shown in FIG. 2, can be formed into a cover for the tubular crate formed from the blank 10 of FIG. 1. The blank 20 comprises a main panel 22, which is, on either side, hinged to inner handle panels 24. Handle apertures 54 are struck from the inner handle panels 24 and finger gripping tabs 58 protrude inward from the upper edges of the handle apertures 54. The inner handle panels 24 are hinged to outer handle panels 26, which have finger gripping tabs 58 integrally formed at their edges. The outer handle panels 26 are recessed and formed such that they complement the shape of the handle apertures 54 struck from both the inner handle panels 24 and those struck from the front and back panels 14, 18. Cover end flaps 28 are hinged to the main panel 22 and can provide structural rigidity as well as aesthetic appeal to the carton 30, when assembled.

In this embodiment of the invention the main panel 22 is provided with twelve apertures 56, arranged in four rows of three, each for receiving a portion of a bottle. After loading the tubular crate with bottles the cover formed from blank 20 is brought into registry with the bottle necks. Inner handle panels 24, cover end flaps 28 and tabs 92 can then be secured to inside faces of the first and second side panels, 12, 16, front and back panels 14, 18 and corner panels 90 respectively. The outer handle panels 26 can be secured to outer faces of the first and second side walls 12, 16. In this way a three layer reinforced handle structure is formed in opposing ends of the carton 30, one of the layers being provided by the first and second side walls 12, 16 and two of the layers being provided by the inner and outer handle panels 24, 26.

The carton formed from the blanks 10 and 20 is shown in FIG. 1C. It can be seen that the bottles are secured within the carton, once the cover made from blank 20 has been secured inside the tubular crate. Access to the bottles is gained by separating the frangible connections or cuts 37, this may be achieved simply by pulling on a bottle contained within the carton 30. In this way each bottle can be accessed individually, whilst the structural integrity of the carton 30 is maintained. Bottles not removed are held in position by the apertures 56 in the cover. Therefore the carton provides an adaptable carrying container, the structural integrity of which is not destroyed when the bottles are accessed. This enables the carton to be reused for the convenient returning of the empty bottles.

In other embodiments of the invention the cover formed from blank 20 may not comprise to inner and outer handle panels and may not be secured by glue to the tubular crate, formed from blank 10. The tubular crate may further comprise retaining tabs to prevent the cover from being completely removed from the carton upon removal of the articles. In this way the main panel 22 may be flexible to accommodate removal of the articles. It is also envisaged that reinforcement of the handle apertures 54 could be provided by inner handle panels 24 secured to the blank 10 for forming the tubular crate and not to the cover of blank 20.

Access to the bottles contained within the closed carton 30 can be achieved by pulling the bottles from the carton 30. The apertures 56 are sized to accommodate the neck of a bottle and removal of a bottle is achieved by enlarging the size of the apertures 56. This is achieved by tears which propagate between short slits or cuts 37, when the bottles are pulled through the aperture. The short slits or cuts 37 are arranged in discrete groups, each discrete group of short slits comprising a series of partial concentric short slits around the apertures 56, at least some of the short slits in different concentric locations being offset relative to those in other concentric locations. The diameter of each aperture 56 can be progressively expanded or the periphery of that aperture 56 displaced out of the normal plane of the main panel 22 in response to pulling the bottle neck through the aperture. Removal of a bottle is achieved without substantially rupturing the panel.

Short slits 37 following the notional line of one concentric ring may be offset from short slits 37 provided in a notional line of an adjacent concentric ring. The short slits 37, in this embodiment, are arranged in discrete groups of either three or five short slits 37 arranged in three substantially concentric rows. The terminations of the short slits 37 in one row may be offset from the terminations of the short slits 37 of an adjacent row. In this embodiment of the invention each aperture 56 also comprises an initiating cut which extends, from the edge of the aperture 56, towards each group of short slits or cuts 37.

Sufficient separation of the weakened connections can be achieved by pulling a bottle from the carton 30. In this embodiment of the invention, as a bottle is pulled from the carton 30, diverging tears propagate from each initiating cut and can follow paths which are defined by the terminations of each partially concentric short slit 37. In this embodiment of the invention two tears may diverge from each initiating cut which extends towards a group of five short slits 37. The two tears are guided from the initiating cut to the short slit 37 closest to the aperture 56 and propagate from the terminations of the closest short slit 37 to offset terminations of the next adjacent outer short slit 37. The tears link the termination points of one short slit 37 to the next, propagating out from the aperture to an extent defined by the outermost short slit 37 of a group. In this way the size of an aperture 56 can be progressively increased by the propagation of the tear which continues until the bottle is removed.

The cuts 37 of the outermost notional concentric ring may define the maximum enlargeable size of the aperture 56, this may be designed to be sufficiently large to allow a bottle to be withdrawn from the carton 30. Removal of bottles from adjacent apertures may cause the tears propagating from one of the apertures to intersect tears propagating from one of the adjacent apertures. This may cause material to be removed from the top panel once a few bottles have been removed, however it is envisaged that the apertures and cuts 37 could be arranged and sized such that the tears of adjacent apertures do not intersect and hence the top panel 22 remains substantially integral once the bottles have been removed.

In another embodiment of the present invention each discrete group of short slits may comprise only two short slits 37 arranged in overlapping relation wherein the short slit furthest from the aperture is longer than the short slit closest to the aperture. The two short slits 37 may be positioned such that a pair of their terminations lies on a notional radial line extending from the aperture or they may be positioned such that a pair of their terminations lies on a notional tangential line extending from the aperture. i.e. at least at one end of the short slits 37 the terminations are staggered and a tear can propagate between the staggered ends.

It can be appreciated that various changes may be made within the scope of the present invention, for example, the size and shape of the panels and apertures may be adjusted to accommodate articles of differing size or shape. In other embodiments of the invention it is envisaged that the apertures formed within the top panel may not be perfectly circular and may also be provided with additional tabs protruding into the aperture, to aid retention of the bottle necks or other articles contained within the carton. It is also envisaged that each group of cuts 37 could comprise more or less than five cuts. If for example articles shaped with very narrow necks and larger bottoms are to be held within the carton, it is envisaged that seven cuts could make up each group, the cuts may be arranged in four offset-rows and the diameter of the extended aperture, after the articles are removed, would be substantially larger than the original aperture 56.

It will be recognised that as used herein, directional references such as “top”, “bottom”, “front”, “back”, “end”, “side”, “inner”, “outer”, “upper” and “lower” do not limit the respective panels to such orientation, but merely serve to distinguish these panels from one another. Any reference to hinged connection should not be construed as necessarily referring to a single fold line only; indeed it is envisaged that hinged connection can be formed from one or more of the following, a short slit, a frangible line or a fold line without departing from the scope of the invention.

Claims

1-14. (canceled)

15. A top closure panel for closing a top of an open-topped container, said panel comprising at least one aperture for receiving a portion of an article held within said container, and a tear feature for enlarging the size of said at least one aperture, said tear feature comprising at least one discrete group of slits, said slits of said at least one discrete group radiating from said at least one aperture, each of said slits of said at least one discrete group extending generally perpendicularly to a notional radial line of said at least one aperture, said slits in said at least one discrete group being arranged such that removal of an article through said aperture causes a tear to propagate to break portions of said top closure panel between radially successive slits of said at least one discrete group, said tear propagating divergently with respect to said notional radial line thereby causing the size of said at least one aperture to be progressively increased.

16. The top closure panel according to claim 15 wherein said at least one aperture comprises initiating means for initiating tearing of said panel, said initiating means being disposed between said at least one aperture and said at least one discrete group of slits.

17. The top closure panel according to claim 16 wherein said initiating means comprises a cut line disposed in registry with a notional radial line of said at least one aperture.

18. The top closure panel according to claim 16 wherein said initiating means comprises a cut line extending radially from said at least one aperture generally toward a slit of said at least on discrete group closest to said at least one aperture.

19. The top closure panel according to claim 15 wherein said at least one discrete group of slits includes at least two slits, and wherein one of said at least two slits furthest from said at least one aperture is longer than another one of said at least two slits closest to said at least one aperture.

20. The top closure panel according to claim 15 wherein said at least one discrete group of slits includes five slits concentrically arranged with respect to said at least one aperture such that one of said five slits closest to said at least one aperture is disposed in overlapping relation with at least two of said five slits further spaced from said aperture.

21. The top closure panel according to claim 15 wherein a termination of one slit of said at least one discrete group is spaced between 1 mm and 5 mm from a termination of an adjacent slit of said at least one discrete group.

22. The top closure panel according to claims 15, further comprising retaining means for preventing the top closure panel from being completely released from said open top container, wherein said retaining means is so arranged as to engage complementary retaining means provided by said open-topped container.

23. The top closure panel according to claim 15 wherein said slits of said at least one discrete group are of substantially equal length.

24. The top closure panel according to claim 15 wherein each of slits of said at least one discrete group furthest from said at least one aperture are longer than a slit closest to said at least one aperture

25. A blank for forming a top closure panel for closing a top of an open-topped container, said blank having at least one aperture for receiving a portion of an article, and a tear feature for enlarging the size of said at least one aperture, said tear feature comprising at least one discrete group of slits, said slits of said at least one discrete group radiating from said at least one aperture, each of said slits of said at least one discrete group extending generally perpendicularly to a notional radial line of said at least one aperture, said slits of said at least one discrete group being arranged such that removal of an article through said at least one aperture causes a tear to propagate to break portions of said blank between radially successive slits, said tear propagating divergently with respect to said notional radial line, thereby causing the size of said at leas one aperture to be progressively increased.

26. The blank according to claim 25 wherein said at least one discrete group of slits comprises at least two slits, and wherein each of slits of said at least one discrete group furthest from said at least one aperture is longer than a slit of said at least one discrete group closest to said at least one aperture.

27. The blank according to claims 25 wherein said at least one discrete group comprises initiating means for initiating tearing of said panel, said initiating means extending from an edge of said at least one aperture towards the slits of said at least one discrete group.