Patent Grant
8863952
The present invention relates to a package comprising a carton and a blank for forming the carton, wherein an arrangement is provided to improve the close and/or tight fit of the carton about a group of articles to minimise or eliminate gaps in the corners of the carton to mitigate against article damage due to article collision within the package.
In the field of packaging it is often required to provide consumers with a package comprising multiple primary product containers, such multi-packs are desirable for shipping and distribution and for display of promotional information. For cost and environmental considerations, such cartons or carriers need to be formed from as little material as possible and cause as little wastage in the materials from which they are formed as possible.
Another consideration is the closeness of the fit of the carton about the package for securely holding the articles. This is of particular concern where the articles are tapered, round and/or fragile, for example glass bottles. Where round articles are contained in a square-shaped carton, there is space at the corners of the carton. This space allows the round articles some degree of movement within the carton which may cause the articles to damage one another. For example, product labelling may be scuffed, the bottles may be chipped or could even break because of the glass bottles knocking against one another. The closeness of the match between the carton shape and the shape of an article group is therefore an important consideration for both the security of the articles and also for material saving benefits.
In U.S. Pat. No. 5,246,112 to Stout, a carrier is disclosed for packaging bottles which is specifically constructed to prevent bottle breakage due to collision between adjacent bottles. In Stout, a gable topped carrier is provided wherein the top panel of the carrier is not as long or as wide as the bottom panel of the carrier. The side and end walls are tapered and the carrier shape is more closely matched to that of the article group than a square-cornered carton. In addition, it is disclosed in Stout to use pairs of triangular web panels, provided in web panels coupled to the side walls, to form an elongate diamond corner portion. The triangular web panels extend from the vertex of the carrier between the top, side and end walls and terminate between the side and end walls. As such, the corners of the carrier are cut-off proximate to the top, neck and shoulder of the corner bottles. In this way the shape of the carrier is more closely matched to the shape of the bottles and the space between the corner bottles and the corner of the carrier is reduced.
In contrast to the teaching of Stout, in the present invention it has been recognised that a carton or carrier can be constructed with shaped panels that more closely follow the shape of the corner articles and that thereby wrap more tightly, particularly but not exclusively, about the base portions of the articles held within the carrier. By increasing the closeness of the shape of the carton and the tightness with which the carton fits about the articles, the corner gap at least proximate to the base portion of the articles is eliminated or at least minimised and thereby any opportunity for the bottles to move within the package is removed or at least minimised. Furthermore, the automated set-up of a carton according to the present invention may be easier compared to the automated set-up of the carrier disclosed in U.S. Pat. No. 5,246,112.
According to a first aspect of the present invention there is provided a package comprising a carton and a group of bottles, the carton comprising a tubular structure formed from an interconnected series of panels including: a top panel, a first side panel, a bottom panel and a second side panel, wherein each of the first and second side panels comprises a notional longitudinal line disposed at an elevation above the bottom panel that is less than the elevation of the shoulders of the bottles, wherein each end of the tubular structure is closed by a composite end wall formed from a series of affixed panels including: a top end closure panel, first and second side end closure panels and a bottom end closure panel, wherein each first and second side end closure panel is hinged to the adjacent first or second side wall along a first fold line, wherein each of the first fold lines is interrupted by a pair of at least substantially triangular panels, each of the pairs of at least substantially triangular panels being formed such that a lowermost triangular panel of the pair is disposed below the notional longitudinal line and such that an uppermost triangular panel of the pair is disposed above said the notional longitudinal line, wherein each of the pairs of at least substantially triangular panels is defined by a pair of divergent fold lines, wherein the lowermost of the triangular panels are each defined by a pair of fold lines diverging from a point spaced above the bottom panel toward the notional longitudinal line and wherein the uppermost of the triangular panels are each defined by a pair of fold lines diverging from a point spaced below the top panel toward the notional longitudinal line, whereby the triangular panels of each pair substantially follow the contour of the corner bottles disposed within the carton at least proximate to the shoulders of the corner bottles such that the bottles are tightly enclosed by the carton.
Preferably, the length of the top panel is at least substantially the same as the length of the bottom panel, and wherein each of the first and second side end closure panels is hinged to the adjacent first or second side wall at about 90°.
Preferably, the point from which the pair of fold lines of the lowermost triangular panels diverge from is spaced above the interconnection between the bottom panel and a first or a second side panel.
Optionally, the point from which the pair of fold lines of the uppermost triangular panels diverge from is spaced below the interconnection between the top panel and a first or a second side panel.
Preferably, wherein the point from which the pair of fold lines of the lowermost triangular panels diverge from is spaced above the bottom panel by a first distance (X), wherein the first distance is between about 5% and 10% of the distance between the bottom panel and the top panel.
Preferably, the first distance is about 7% of the distance between the bottom panel and the top panel.
Optionally, wherein the point from which the pair of fold lines of the uppermost triangular panels diverge from is spaced below the top panel by a second distance (Y), wherein the second distance is between about 30% and 40% of the distance between the bottom panel and the top panel.
Preferably, wherein the second distance is about 33% of the distance between the bottom panel and the top panel.
Optionally, wherein each of the first and second side end closure panels has a height which is less than the distance between the bottom panel and the top panel.
Preferably, wherein each of the first and second side end closure panels terminates in an edge spaced above the bottom panel and wherein the point from which the pair of fold lines of the lowermost triangular panels diverge from is disposed on the edge.
Preferably, the uppermost and lowermost at least substantially triangular panels are each isosceles triangles in shape and wherein the odd angle of each of the uppermost triangular panels is between about 45° and about 55° and/or wherein the odd angle of each of the lowermost triangular panels is between about 25° and about 35°.
Optionally, wherein each fold line of a pair of divergent fold lines that defines one of said uppermost, at least substantially, triangular panels, terminates on the notional longitudinal line at a first and a second point respectively and wherein each fold line of the pair of divergent fold lines that defines the oppositely positioned lowermost, at least substantially, triangular panel, also terminates on the notional longitudinal line and at said first or second point respectively such that together the two pairs of divergent fold lines form a diamond shape.
According to a second aspect of the present invention there is provided a blank for forming a carton for containing bottles, the blank comprising a series of panels for forming an interconnected tubular carton body including: a top panel, a first side panel, a bottom panel and a second side panel, wherein each of the first and second side panels comprises a notional longitudinal line positioned such that when the carton is constructed, the notional longitudinal line is disposed at an elevation above the bottom panel that is less than the elevation of the shoulders of bottles to be or contained in the carton, wherein the blank further comprises a series of panels for forming composite end closure walls including: a top end closure panel, first and second side end closure panels and a bottom end closure panel, wherein each of the first and second side end closure panels is hingedly connected to the adjacent first or second side wall along a first fold line, wherein each of the first fold lines is interrupted by a pair of at least substantially triangular panels, each of the pairs of at least substantially triangular panels being formed such that a lowermost triangular panel of the pair is disposed on one side of the notional longitudinal line and such that an uppermost triangular panel of the pair is disposed on the other side of the notional longitudinal line, wherein each of the pairs of at least substantially triangular panels is defined by a pair of divergent fold lines, wherein the lowermost of the triangular panels are each defined by a pair of fold lines diverging from a point that is spaced from an interconnection between the adjacent first or second side panel and the bottom panel toward the notional longitudinal line and wherein the uppermost of the triangular panels are each defined by a pair of fold lines diverging from a point spaced below an interconnection between the adjacent first or second side panel and the top panel toward the notional longitudinal line, thereby the triangular panels of each pair are configured to substantially follow the contour of the corner bottles, disposed within a carton formed from the blank, at least proximate to the shoulders of the corner bottles such that the bottles can be tightly enclosed by the carton.
Preferably, the length of the top panel is at least substantially the same as the length of the bottom panel and wherein each of the first and second side end closure panels is hingedly connected to the adjacent first or second side wall to be disposed at about 90° with respect thereto when the blank is erected into a carton.
Within the scope of this application it is envisaged that the various aspects, embodiments, examples, features and alternatives set out in the preceding paragraphs, in the claims and/or in the following description and drawings may be taken independently or in any combination thereof. For example, features described in connection with one embodiment are applicable to all embodiments unless there is incompatibility of features.
Exemplary embodiments of the invention will now be described with reference to the accompanying drawings, in which:
Detailed descriptions of specific embodiments of the package, blanks and cartons are disclosed herein. It will be understood that the disclosed embodiments are merely examples of the way in which certain aspects of the invention can be implemented and do not represent an exhaustive list of all of the ways the invention may be embodied. As used herein, the word “exemplary” is used expansively to refer to embodiments that serve as illustrations, specimens, models, or patterns. Indeed, it will be understood that the packages, blanks and cartons described herein may be embodied in various and alternative forms. The figures are not necessarily to scale and some features may be exaggerated or minimised to show details of particular components. Well-known components, materials or methods are not necessarily described in great detail in order to avoid obscuring the present disclosure. Any specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the invention.
In the embodiments detailed herein, the terms carton and carrier refer, for the non-limiting purpose of illustrating the various features of the invention, to a container for engaging, carrying, and/or dispensing articles, such as bottles. However, it is contemplated that the teachings of the invention can be applied to various containers, which whilst preferably tapered may or may not be cylindrical.
Referring to
The main panels are hinged together in series along fold lines 36, 38, 42 and 44. Fold lines 34 and 40 separate the side panels 12 and 16 into two halves which are shaped at their edges such that the resulting carton 8 (see
Referring more specifically to the diamond corner portions, it can be seen in
Each of the at least substantially triangular panels is defined by a pair of divergent fold lines 58a, 52a; 58b, 52b; 56a, 48a; 56b, 48b. The lowermost of the triangular panels are each defined by a pair of fold lines that diverge from a point that is spaced from the interconnection 36, 38 between the adjacent first or second side panel 12, 16 and the bottom panel 14 and toward the longitudinal fold line 34, 40 in that adjacent first or second side panel 12, 16. The uppermost of the triangular panels are each defined by a pair of fold lines that diverge from a point spaced below the interconnection 42 between the adjacent first side panel 16 and the top panel 18 (or edge of the second side panel 12) toward the longitudinal fold line 40, 34, in that adjacent first or second side panel 16, 12.
Optionally, the point from which the pair of fold lines of the lowermost triangular panels diverge from is spaced from the interconnection 36, 38 between the adjacent first or second side panel 12, 16 and the bottom panel 14 by a first distance. The first distance is optionally between about 5% and 10% of the height of the first or second side panel 12, 16 (i.e. the distance between the bottom panel 14 and the top panel 18 in a set-up carton 8). Preferably, but nevertheless optionally, the first distance is about 7% of the distance between the bottom panel 14 and the top panel 18 (in a set-up carton 8).
Further optionally, the point from which the pair of fold lines of the uppermost triangular panels diverge from is spaced below the top panel 18 (in a set-up carton 8) by a second distance. Optionally, the second distance is between about 30% and 40% of the height of the first or second side panel 12, 16 (i.e. the distance between the bottom panel 14 and the top panel 18 in a set-up carton 8). Preferably, but nevertheless optionally, the second distance is about 33% of the distance between the bottom panel 14 and the top panel 18.
Turning to the construction of the carton 8 as illustrated in FIG. 2—it is envisaged that the carton 8 can be formed by a series of sequential folding operations in a straight line machine so that the carton 8 is not required to be rotated or inverted to complete its construction. The folding process is not limited to that described below and may be altered according to particular manufacturing requirements.
To form a flat folded part formed carton, glue strip 20, along with top panel 18 and a part of the second side panel 16 is folded about fold line 40 and placed in flat face contact with the second part of the second side panel 16, bottom panel 14 and part of the first side panel 12. Glue is then applied to an outside face of the glue strip 20 and reinforcing flaps 30a, 30b. The blank 10 is then folded about fold line 34 to bring part of the first side panel 12 and its associated side end flaps 22a, 22b into overlaying relationship with the glue flap 20, reinforcing flaps 30a, 30b and part of the first side panel 12 respectively. Pressure is then applied to the first side panel 12 and glue flap 20 and to the side end flaps 22a, 22b and reinforcing flaps 30a, 30b. This adheres the inside surface of the first side panel 12 to the outside surface of the glue flap 20 and the outside surface of the reinforcing flaps 30a, 30b to the inside surfaces of the side end closure flaps 22a, 22b. Thereby the first side panel 12 is connected to the top panel 18 and in this way a flat-folded tubular structure is formed. In this condition, the blank 10 may be supplied to a converting plant, whereat, the part formed, flat folded blank is opened into an open ended tubular structure, loaded from one or both of its open ends with articles such as bottles and then sealed to form a closed carton or package 8 as shown in
Each end of the carton 8 is the same and therefore the folding of only one end wall is described. Each side end closure panel 22b, 26b, is folded about its fold line 48b, 52b, such that it partially closes the end of the carton 8. In doing this, the reinforcing flap 30b that is adhered to side end closure flap 22b is also folded. The substantially diamond corner portions assist in the close or tight folding of the end closure panels 22b, 26b about the end most corner bottles contained in the carton 8.
Optionally, though preferably, the longitudinal length of the top panel 18 (between fold lines 54a and 54bb) is less than the longitudinal length of the bottom panel 14 (between fold lines 50a and 50b). As such the fold lines 50a, 52a, 54a and 48a are not in linear alignment line with one another when the blank 10 is disposed in flat form (as in
The triangular panels of each pair 159b form a diamond corner portion 48a/56a, 52a/58a, 48b/56b, 52b/58b that bends about and substantially follows the contour of the corner bottles ‘B’ that are disposed close to the diamond corner portion 48a/56a, 52a/58a, 48b/56b, 52b/58b of the loaded carton 8.
Preferably, but nevertheless optionally, the uppermost triangular panels are sized to fit about the top of a shoulder of a bottle ‘B’ and may optionally be shorter than the lowermost triangular panels. In this way, the diamond corner portions 48a/56a, 52a/58a, 48b/56b, 52b/58b, not only cut-off or cut across the diagonal of the square corner that would otherwise be created by the composite end walls formed from the end closure panels (top end closure panels 28a, 28b, first and second side end closure panels 26a, 26b, 22a, 22b and bottom end closure panels 24a, 24b), but fold and even curve slightly about the bottles ‘B’, at least proximate to the shoulders of the corner bottles ‘B’ and therebelow such that the bottles ‘B’ are wrapped by the carton 8 and can be tightly enclosed by the carton 8 to mitigate against chinking of the bottles ‘B’.
Construction of the carton 8 is completed by optionally folding the top end closure panels 24a, 24b into face contacting, overlapping and affixed relationship with the upper portions of the side end closure panels 26a, 26b, 22a, 22b. Finally the bottom end closure panels 24a, 24b are folded upwardly and into face contacting, overlapping and affixed relationship with the lower portions of the side end closure panels 26a, 26b, 22a, 22b.
The handle arrangement 36a, 36b, 34a, 34b, 32a, 32b is entirely optional and is not described further.
In
The blank 110 is formed from a sheet of suitable substrate. It is to be understood that, as used herein, the term “suitable substrate” includes all manner of foldable sheet material such as paperboard, corrugated board, cardboard, plastic, combinations thereof, and the like. It should be recognized that one or other numbers of blanks may be employed, for example, to provide the carrier structure described in more detail below.
In the exemplary embodiment, the blank 110 is configured to form a carton or carrier for packaging an exemplary arrangement of exemplary articles ‘B’. For example, the arrangement is a matrix including rows and columns such as a 3×6 arrangement of bottles ‘B’. The blank 110 can be alternatively configured to form a carrier 90 for packaging other articles ‘B’ and/or different arrangements of articles ‘B’.
The blank 110 is optionally, but nevertheless preferably configured for forming a carton 190 for containing bottles ‘B’. The blank 110 comprises a series of panels for forming an interconnected tubular carton body including: a top panel 114, a first side panel 116/118, a bottom panel 120 and a second side panel 122/124. The series of panels are hinged together along longitudinal fold lines 115, 119 and 121. A glue panel or lap panel 112 is disposed at one end of the blank 110 for affixing the opposite ends of the blank 110 together. The glue panel 112 is optionally hinged to the top panel 114 by means of a fold line 113. Glue panel flaps 126a, 126b are optionally hinged to each end thereof.
The blank 110 further comprises a series of panels at each end of the blank 110 for forming composite end closure walls including: top end closure panels 128a, 128b, first and second side end closure panels 130a/132a, 130b/132b, 136a/138a, 136b/138b and bottom end closure panels 134a, 134b. The top end closure panels 128a, 128b are hinged to each end of the top panel 114 by means of fold lines 125a, 125b respectively. The first side end closure panels 130a/132a, 130b/132b are hinged to each end of the first side panel 116/118 by means of fold lines 147a, 147b. These fold lines 147a, 147b are also referred to herein as first fold lines 147a, 147b. The second side end closure panels 136a/138a, 136b/138b are hinged to each end of the second side panel 122/124 along fold lines 145a, 145b. The fold lines 145a, 145b are also referred to herein as first fold lines 145a, 145b. The bottom end closure panels 134a, 134b are hinged to each end of the bottom panel 120 along fold lines 135a, 135b.
Optionally, though preferably, the longitudinal length of the top panel 114 (between fold lines 125a and 125b) is at least substantially the same as the longitudinal length of the bottom panel 120 (between fold lines 135a and 135b). The term “at least substantially the same” should be interpreted as meaning either approximately the same or exactly the same. As such the fold lines 125a, 147a, 135a and 145a are in line with one another when the blank 110 is disposed in flat form (as in
Each of the first and second side panels 116/118, 122/124 and first and second side end closure panels 130a/132a, 130b/132b, 136a/138a, 136b/138b optionally comprises a longitudinally extending fold line 117, 123 that extends coincidentally with a notional longitudinal line for that side panel 116/118 or 122/124. The notional longitudinal line for each side panel 116/118 and 112/124 is disposed at an elevation above the bottom panel 120 that is below the elevation of the shoulders of the bottles to be packaged in the carton to be erected from the blank 110 of
Optionally, each longitudinally extending fold line 117, 123 is positioned such that when the carton 190 is constructed (see
Each of the first fold lines 147a, 147b, 145a, 145b is interrupted by a pair of at least substantially triangular panels 156a/154a, 156b/154b, 158a/159a, 158b/159b. The term “at least substantially triangular panel” should be interpreted as meaning either a panel with a shape approximating a triangular shape or a panel having a perfectly triangular shape. Each of the pairs of at least substantially triangular panels 156a/154a, 156b/154b, 158a/159a, 158b/159b is optionally formed such that a lowermost triangular panel 154a, 154b, 158a, 158b of the pair 156a/154a, 156b/154b, 158a/159a, 158b/159b is disposed on one side of the longitudinal fold line 117, 123 adjacent the lower first or second side panel 118, 122 and such that an uppermost triangular panel 156a, 156b, 159a, 159b of the pair 156a/154a, 156b/154b, 158a/159a, 158b/159b is disposed on the other side of the longitudinal fold line 117, 123, adjacent the first or second upper side panel 116, 124.
Each of the at least substantially triangular panels 156a, 154a, 156b, 154b, 158a, 159a, 158b, 159b is defined by a pair of divergent fold lines 127a, 129a; 131a, 133a; 127b, 129b; 133b, 131b; 139a, 137a; 141a, 143a; 137b, 139b; 143b, 141b. The lowermost of the triangular panels 154a, 154b, 158a, 158b are each defined by a pair of fold lines 131a, 133a; 133b, 131b; 141a, 143a; 143b, 141b diverging from a point that is spaced from the interconnection 119, 121 between the adjacent first or second side panel 118/116, 122/124 and the bottom panel 120 and toward the longitudinal fold line 117, 123 in that adjacent first or second side panel 118/116, 122/124. The uppermost of the triangular panels 156a, 156b, 159a, 159b are each defined by a pair of fold lines 127a, 129a; 127b, 129b; 139a, 137a; 137b, 139b; that diverge from a point spaced below the interconnection 115 between the adjacent first side panel 116/118 and the top panel 120 (or edge of the second side panel 122/124) toward the longitudinal fold line 117, 123, in that adjacent first or second side panel 118/116, 122/124.
Optionally, the point from which the pair of fold lines 131a, 133a; 133b, 131b; 141a, 143a; 143b, 141b of the lowermost triangular panels 154a, 154b, 158a, 158b diverge from is spaced from the interconnection 119, 121 between the adjacent first or second side panel 116/118, 122/124 and the bottom panel 120 by a first distance ‘X. The first distance ‘X’ is optionally between about 5% and 10% of the height of the first or second side panel 116/118, 122/124 (i.e. the distance between the bottom panel 120 and the top panel 114 in a set-up carton 190). Preferably, but nevertheless optionally, the first distance is about 7% of the distance between the bottom panel 120 and the top panel 114 (in a set-up carton 190).
Further optionally, the point from which the pair of fold lines 127a, 129a; 127b, 129b; 139a, 137a; 137b, 139b of the uppermost triangular panels 156a, 156b, 159a, 159b diverge from is spaced below the top panel 114 (in a set-up carton 190) by a second distance ‘Y’. Optionally, the second distance ‘Y’ is between about 30% and 40% of the height of the first or second side panel 116/118, 122/124 (i.e. the distance between the bottom panel 120 and the top panel 114 in a set-up carton 190). Preferably, but nevertheless optionally, the second distance ‘Y’ is about 33% of the distance between the bottom panel 120 and the top panel 114.
The blank 110 comprises additional optional features that do not necessarily form part of the focus of the invention. For example an entirely optional carrying handle arrangement and an entirely optional access feature. These optional features will now be very briefly described and it will be understood that these features may be excluded and/or substituted for alternative carrying handle arrangements and/or access features in other embodiments of the invention.
The carrying handle arrangement comprises two outer handle arrangements 160a, 161a, 162a, 166a, 164a, 172a, 170a, 176a, 178a; 160b, 161b, 162b, 166b, 164b, 172b, 170b, 176b, 178b formed in the top end closure panels 128a, 128b respectively. The outer handle arrangements are supported by inner handle flaps 180a, 180b, 146a, 146b formed in the side end closure panels 130a/132a, 130b/132b, 136a/138a, 136b/138b. An outer handle flap is hinged to the top end closure panel 128a, 128b by means of opposed arcuate fold lines 160a/161a; 160b/161b and a leaf-shaped panel 162a; 162b. Inward movement of the handle panel creates a handle aperture though which a user can at least partially insert at least part of their hand for grasping the carton 90 about a cushioned upper edge, which cushioned upper edge is supported and/or further cushioned by the arcuate fold lines 148a, 182a, 182b, 148b and leaf-shaped panels 184a, 184b, 144a, 144b of the inner handle flaps 180a, 180b, 146a, 146b.
The access feature 140 comprises a detachable section defined by a perforate or weakened line 152a, 152b, 151 and having an initiator section 150 that is defined by a cut line 153 and hinge line 151.
Turning to the construction of the carton 190 from the blank 110 it is envisaged that the carton 190 can be formed by a series of sequential folding operations in a straight line machine so that the carton 190 is not required to be rotated or inverted to complete its construction. The folding process is not limited to that described below and may be altered according to particular manufacturing requirements.
The blank 110 is optionally folded about longitudinal fold line 117 to bring the upper first side panel 116, top panel 114 and glue panel 112 (with their associated end closure panels 130a, 130b, 128a, 128b, 126a, 126b) into face contacting relationship with the inside face of lower first side panel 118 and bottom panel 120 respectively. Adhesive, for example hot-melt glue, may be applied to the glue panel 112 (and the flaps 126a, 126b). In other envisaged embodiments other affixing means may be used, for example, tape, pressure-adhesive, staples, clips or mechanical locking features. The upper second side panel 124 (with its associated end closure panels 138a, 138b) is then folded about longitudinal fold line 123 to bring it into partial overlapping face contacting relationship with an inside face of the lower second side panel 122 and into overlapping face contacting relationship with an outside face of the glue panel 112 such that the upper second side panel 124 is interconnected to the top panel 114. The resulting work product is a part formed—flat folded blank.
The part formed—flat folded blank is then opened into a tubular structure,
The carton 190 is then loaded with articles, preferably bottles ‘B’, though one or both ends thereof. The composite end walls are then formed. Optionally, the first and second side end closure panels 130a/132a, 130b/132b, 136a/138a, 136b/138b are folded about the first fold lines 147a, 147b, 145a, 145b. See
Preferably, but nevertheless optionally, the uppermost triangular panels 156a, 156b, 159a, 159b are sized to fit about the top of a shoulder ‘S’ of a bottle ‘B’ and may optionally be shorter than the lowermost triangular panels 154a, 154b, 158a, 158b. In this way, the diamond structures 142, not only cut-off or cut across the diagonal of the square corner that would otherwise be created by the composite end walls formed from the end closure panels (top end closure panels 128a, 128b, first and second side end closure panels 130a/132a, 130b/132b, 136a/138a, 136b/138b and bottom end closure panels 134a, 134b), but fold and even curve slightly about the bottles ‘B’, at least proximate to the shoulders ‘S’ of the corner bottles ‘B’ and therebelow such that the bottles ‘B’ are wrapped by the carton 190 and can be tightly enclosed by the carton 190 to mitigate against chinking of the bottles ‘B’. See
Construction of the carton 190 is completed by optionally folding the top end closure panels 128a, 128b into face contacting, overlapping and affixed relationship with the upper portions 130b, 130a, 138a, 138b of the side end closure panels 130a/132a, 130b/132b, 136a/138a, 136b/138b (see
It can be appreciated that various changes may be made within the scope of the present invention, for example, the size and shape and relative position of the triangular panels may be adjusted to accommodate articles of differing size or shape. Optionally, the uppermost and lowermost at least substantially triangular panels 156a/154a, 156b/154b, 158a/159a,158b/159b are each isosceles triangles in shape. The odd angle of each of the uppermost triangular panels may be between about 25° and 35° and/or the odd angle of each of the lowermost triangular panels may be between about 45° and 55°. In other embodiments the triangular panels are the same size and/or the same shape. In other embodiments the triangular panels are equally spaced from the top and bottom panels. In other embodiments the lowermost triangular panels is relatively disposed further up the carton. In other embodiments the second distance ‘Y’ is less than or equal to the first distance ‘X’
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.
As used herein, the terms “hinged connection” and “fold line” refers to all manner of lines that define hinge features of the blank, facilitate folding portions of the blank with respect to one another, or otherwise indicate optimal panel folding locations for the blank. A fold line is typically a scored line, an embossed line, or a debossed line. Any reference to hinged connection or fold line should not be construed as necessarily referring to a single fold line only; indeed it is envisaged that hinged connection can be formed from any one or more of the following, a short slit, a frangible line or a fold line without departing from the scope of the invention.
As used herein, the term “severance line” refers to all manner of lines that facilitate separating portions of the substrate from one another or that indicate optimal separation locations. Severance lines may be frangible or otherwise weakened lines, tear lines, cut lines, or slits.
It should be understood that hinged connection, severance lines and fold lines can each include elements that are formed in the substrate of the blank including perforations, a line of perforations, a line of short slits, a line of half-cuts, a single half-cut, a cut line, an interrupted cut line, slits, scores, any combination thereof, and the like. The elements can be dimensioned and arranged to provide the desired functionality. For example, a line of perforations can be dimensioned or designed with degrees of weakness to define a fold line and/or a severance line. The line of perforations can be designed to facilitate folding and resist breaking, to facilitate folding and facilitate breaking with more effort, or to facilitate breaking with little effort.
This application is a continuation-in-part of PCT Application Number PCT/US2012/023711, filed Feb. 3, 2012, which claims the benefit of U.S. Provisional Application No. 61/441,240, filed Feb. 9, 2011, each of which are also incorporated herein by reference in their entirety.
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|---|---|---|---|
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| 5246112 | Stout et al. | Sep 1993 | A |
| 5704470 | Sutherland | Jan 1998 | A |
| 6227367 | Harrelson et al. | May 2001 | B1 |
| 7478743 | Holley, Jr. | Jan 2009 | B2 |
| 20060081691 | Smalley | Apr 2006 | A1 |
| 20060169755 | Spivey, Sr. | Aug 2006 | A1 |
| 20060254942 | Cargile, Jr. | Nov 2006 | A1 |
| 20070164093 | Spivey et al. | Jul 2007 | A1 |
| Number | Date | Country |
|---|---|---|
| 0044169 | Nov 1985 | EP |
| Number | Date | Country | |
|---|---|---|---|
| 20130015090 A1 | Jan 2013 | US |
| Number | Date | Country | |
|---|---|---|---|
| 61441240 | Feb 2011 | US |
| Number | Date | Country | |
|---|---|---|---|
| Parent | PCT/US2012/023711 | Feb 2012 | US |
| Child | 13622126 | US |
