The present invention relates to a carton and to a blank for forming the carton more specifically, but not exclusively, to a carton having a carrying handle.
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 strength of the packaging and its suitability for holding and transporting large weights of articles.
It is desirable to provide a carrying handle so that a consumer may transport the package from a retail outlet. It is desirable that the carrying handle is both comfortable to use and strong enough to bear the load of the package contents.
The present invention seeks to overcome or at least mitigate the problems of the prior art.
According to a first aspect of the present invention there is provided a carrying handle for a carton comprising a plurality of panels wherein the carrying handle comprises a handle structure struck from at least one of the plurality of panels, the handle structure comprising a tab struck from the at least one of the plurality of panels, the tab being hingedly connected, by a hinged connection, to the at least one of the plurality of panels and arranged to fold at least in part about an article disposed in the carton to form at least in part a first handle opening so as to allow a user to grasp a portion of the carton disposed adjacent to the article and the article to carry the carton.
In some embodiments, the article is substantially tubular and comprises tubular axis and wherein the hinged connection is orientated in parallel with the tubular axis of the article.
Preferably, the tab comprises a first fold line for facilitating folding of the tab about the article.
Preferably, the tab is hingedly connected to a first one of said plurality of panels and the handle structure comprises a web panel coupling the tab to a second one of the plurality of panels, the second one of the plurality of panels being disposed adjacent to the first one of said plurality of panels.
In some embodiments, the second one of the plurality of panels being is disposed substantially perpendicularly to the first one of said plurality of panels.
Optionally, a thumb opening is provided in a third one of said plurality of panels, third the one of the plurality of panels being disposed adjacent to the first one of said plurality of panels.
Preferably, the thumb opening is defined at least in part by a thumb tab, the thumb tab being at least partially detachable from the third the one of the plurality of panels.
Preferably, the thumb opening is defined at least in part by a thumb tab, the thumb tab being hingedly connected to the third the one of the plurality of panels.
In some embodiments, the thumb opening is arranged such that in use a user inserts a thumb of one hand into the thumb opening and at least one finger of the same hand into the first handle opening.
A lower edge of the tab may be shaped so as to accommodate a portion of the article when the tab is folded internally of the carton.
Preferably, a lower edge of the tab is defined by an aperture, the aperture forming part of the first handle opening, the aperture being struck from at least one of the plurality of panels.
In some embodiments, the tab comprises a fold line extending transversely there across so as allow a lower portion of the tab to fold about a portion of the article when the tab is folded internally of the carton.
Preferably, a side edge of the tab is defined by an aperture, the aperture forming part of the first handle opening, the aperture being struck at least from the at least one of the plurality of panels.
In some embodiments, at least a portion of the upper edge of the tab is defined by an aperture, the aperture forming part of the handle opening the aperture being struck at least from a second one of the plurality of panels, the second one of the plurality of panels being disposed adjacent to the at least one of the plurality of panels, such that the first handle opening is defined in the at least one of the plurality of panels and in the second one of the plurality of panels.
In some embodiments, the handle structure comprises an extension panel hingedly connected to the tab and struck at least in part form a second one of the plurality of panels, the second one of the plurality of panels being disposed adjacent to the at least one of the plurality of panels.
The extension panel may be coupled to the second one of the plurality of panels by a hinge line.
The extension panel may be coupled to the web panel by a severance line.
In some embodiments, the at least one of the plurality of panels is a composite panel formed from two or more panels disposed in at least partial overlapping relationship with one another, a first one of the two or more panels comprising the tab and a second one of the two or more panels comprises a cutaway arranged in registry with the tab so as to allow the tab to pass through the second one of the two or more panels when folded.
In some embodiments, the handle structure comprises a second tab struck from the at least one of the plurality of panels, the second tab being hingedly connected, by a hinged connection, to the at least one of the plurality of panels and arranged to fold with respect to the at least one of the plurality of panels to form the first handle opening.
Preferably, the handle structure comprises a second handle structure including a second tab struck from at least a second one of the plurality of panels, the second tab being hingedly connected, by a hinged connection, to the at least a second one of the plurality of panels and arranged to fold with respect to the at least a second one of the plurality of panels to form a second handle opening, the at least a second one of the plurality of panels being disposed adjacent to the at least one of the plurality of panels such that a user may insert a thumb of one hand into the first handle opening and at least one finger of the same hand into the second handle opening.
In some embodiments, the at least one of the plurality of panels is a composite panel formed from two or more panels disposed in at least partial overlapping relationship with one another, a first one of the two or more panels comprising the a first portion tab and a second one of the two or more panels comprises a cutaway arranged in registry with the tab so as to allow the tab to pass through the second one of the two or more panels when folded.
According to a second aspect of the present invention there is provided a carton comprising the carrying handle of the foregoing paragraphs wherein a handle structure is struck from an end wall of the carton.
According to a third aspect of the present invention there is provided a carton comprising the carrying handle as described hereinabove wherein a handle structure is struck from a side wall of the carton.
According to a fourth aspect of the present invention there is provided a carton comprising the carrying handle as described hereinabove wherein a first handle structure is struck from an end wall and second handle structure is struck from an adjacent side wall of the carton.
Preferably, the carton comprises a corner panel disposed between the end wall and the adjacent side wall.
According to a fifth aspect of the present invention there is provided a carton comprising the carrying handle as described hereinabove the carton comprising side walls and end walls, wherein a handle structure is struck from each of the side walls and end walls.
Preferably, the carton comprises a corner panel disposed between each end wall and the adjacent side wall.
According to a sixth aspect of the present invention there is provided package comprising a carton and a plurality of articles, the carton comprising a plurality of walls including a top wall, base wall, first side wall, second side wall, first end wall and second end wall, the carton comprising at least one handle structure struck from at least one of the plurality of walls, the at least one handle structure comprising a tab struck from the at least one of the plurality of walls, the tab being hingedly connected, by a hinged connection, to the at least one of the plurality of walls and arranged to fold at least in part about an article disposed within the carton to form at least a portion of a handle opening so as to allow a user to grasp a portion of the carton disposed adjacent to the article and the article thereby forming a carrying handle.
According to a seventh aspect of the present invention there is provided blank for forming a carton, the blank comprising a plurality of panels for forming a top wall, base wall, first side wall, second side wall, first end wall and second end wall, the blank comprising at least one handle structure struck from at least one of the plurality of panels, the at least one handle structure comprising a tab struck from the at least one of the plurality of panels, the tab being hingedly connected, by a hinged connection, to the at least one of the plurality of panels and in use the tab being arranged to fold at least in part about an article disposed within an assembled carton, thereby forming at least a portion of a handle opening so as to allow a user to grasp a portion of the carton disposed adjacent to the article and the article, whereby forming a carrying handle.
Within the scope of this application it is intended 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 product containers. It is contemplated that the teachings of the invention can be applied to various product containers, which may or may not be tapered and/or cylindrical. Exemplary containers include bottles (for example metallic, glass or plastics bottles), cans (for example aluminium cans), tins, pouches, packets and the like.
The blanks are 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, where suitable, for example, to provide the carrier structure described in more detail below.
In the exemplary embodiment, the blanks are configured to form a carton or carrier for packaging an exemplary arrangement of exemplary articles. In some of the illustrated exemplary embodiments, the arrangement is a 3×6 matrix or array of eighteen articles which are bottles, in one of the illustrated embodiments the arrangement is a 3×4 matrix or array of twelve bottles, in yet other illustrated embodiments the arrangement is a 2×2 matrix or array of four cans. The blank can be alternatively configured to form a carrier for packaging other types, number and size of article and/or for packaging articles in a different arrangement or configuration.
The blank 10 comprises a plurality of main panels 12, 14, 16, 18, 20 hingedly connected one to the next in a linear series. The blank 10 comprises a glue panel 12 hingedly connected to a top panel 14 by a fold line 13. The top panel 14 is hingedly connected to a first side panel 16 by a fold line 15. The first side panel 16 is hingedly connected to a base panel 18 by a fold line 17. The base panel 18 is hingedly connected to a second side panel 20 by a fold line 19.
The plurality of main panels 12, 14, 16, 18, 20 of the blank 10 form an open ended tubular structure in a set-up condition.
Each of the ends of the tubular structure is at least partially closed by end closure panels. In the illustrated embodiment the ends of the tubular structure are fully closed by end closure panels 26a, 28a, 30a, 32a, 26b, 28b, 30b, 32b.
End closure panels 26a, 28a, 30a, 32a are configured to close a first end of the tubular structure and end panels 26b, 28b, 30b, 32b are configured to close a second end of the tubular structure.
A first end closure panel 26a is hingedly connected to a first end of top panel 14 by a fold line 27a. A second end closure panel 28a is hingedly connected to a first end of first side panel 16 by a pair of fold lines 29a, 29b. A third end closure panel 30a is hingedly connected to a first end of base panel 18 by a fold line 31a. A fourth end closure panel 32a is hingedly connected to a first end of the second side panel 20 by a pair of fold lines 33a, 33b. The pair of fold lines 29a, 29b define first corner panel 16a disposed between the first side panel and the second end closure panel 28a. The pair of fold lines 33a, 33b define second corner panel 20a disposed between the second side panel and the fourth end closure panel 32a.
A fifth end closure panel 26b is hingedly connected to a second end of top panel 14 by a fold line 27b. A sixth end closure panel 28b is hingedly connected to a second end of the first side panel 16 by a pair of fold lines 29c, 29d. A seventh end closure panel 30b is hingedly connected to a second end of base panel 18 by a fold line 31b. An eighth end closure panel 32b is hingedly connected to a second end of second top panel 18 by a pair of fold lines 33c, 33d.
The pair of fold lines 29c, 29d define third corner panel 16b disposed between the first side panel and the sixth end closure panel 28b. The pair of fold lines 33c, 33d define fourth corner panel 20b disposed between the second side panel and the eighth end closure panel 32b.
The second end closure panel 28a and the fourth end closure panel 32a each form a minor side end closure panel. The sixth end closure panel 28b and the eighth end closure panel 32b form a minor side end closure panel.
The first end closure panel 26a and the fifth end closure panel 26b each form a major upper end closure panel. The third end closure panel 30a and the seventh end closure panel 30b each form a major lower end closure panel.
The blank 10 comprises a first handle structure HA1 in the first end closure panel 26a and a second handle structure HA2 in the fifth end closure panel 26b. Each of the handle structures HA1, HA2 are substantially the same in construction, and each comprises a tab 44a, 44b struck from the respective one of the first end closure panel 26a or second end closure panel 26b. Each tab 44a, 44b is hingedly connected along an upper edge to the respective one of the first end closure panel 26a or second end closure panel 26b by a respective fold line 42a, 42b. In the illustrated embodiment each tab 44a, 44b defines in part an opening in the respective one of the first and second end closure panels 26a, 26b when the respective tab 44a, 44b is folded out of the plane of the first end closure panel 26a or second end closure panel 26b. Each opening is defined in part by an aperture 40a, 40b struck from the respective one of the first end closure panel 26a or second end closure panel 26b. Each opening provides a carrying handle for a user to insert their hand into the carton 90. Each of the tabs 44a, 44b provides a cushioning flap when folded internally of the carton 90 so as to provide a comfortable handle.
The second end closure panel 28a comprises a first cutaway or recess R1 struck from an end edge thereof. The first recess R1 is configured such that it is in alignment or registry with the tab 44a of the first handle structure HA1 or the opening defined in part by the tab 44a of the first handle structure HA1.
The sixth end closure panel 28b comprises a second cutaway or recess R2 struck from an end edge thereof. The second recess R2 is configured such that it is in alignment or registry with the tab 44b of the second handle structure HA2 or the opening defined in part by the tab 44b of the second handle structure HA2.
The second end closure panel 28a comprises an optional fold line 21a extending between fold line 29b and a free end edge of the second end closure panel 28a. The second end closure panel 28a can be folded about fold line 21a when closing the end of the carton 90.
The fourth end closure panel 32a comprises an optional fold line 23a extending between fold line 33b and a free end edge of the fourth end closure panel 32a. The fourth end closure panel 32a can be folded about fold line 23a when closing the end of the carton 90.
The sixth end closure panel 28b comprises an optional fold line 21b extending between fold line 29d and a free end edge of the sixth end closure panel 28b. The sixth end closure panel 28b can be folded about fold line 21 b when closing the end of the carton 90.
The eighth end closure panel 32b comprises an optional fold line 23b extending between fold line 33d and a free end edge of the eighth end closure panel 32b. The eighth end closure panel 32b can be folded about fold line 23b when closing the end of the carton 90.
The first side panel 16 comprises an optional first thumb tab 46a defined in part by a severance line such as a first cutline 48a which is substantially U-shaped. Each end of the first cutline 48a terminates at the fold line 29a such that the first thumb tab 46a is hingedly connected to the carton 90. The first thumb tab 46a is provided in an upper portion of the first side panel 16 such that a user may engage the first thumb tab 46a and the first handle structure HA1 together.
The first side panel 16 comprises an optional second thumb tab 46b defined in part by a severance line such as a second cutline 48b which is substantially U-shaped. Each end of the second cutline 48b terminates at the fold line 29c such that the second thumb tab 46b is hingedly connected to the carton 90. The second thumb tab 46b is provided in an upper portion of the first side panel 16 such that a user may engage the second thumb tab 46b and the second handle structure HA2 together.
In alternative embodiments the first thumb tab 46a and the second thumb tab 46b may be replace with apertures or cutaways struck from the first side panel 16 such that a user may engage the respective one of the apertures or cutaways and the first or second handle structure HA1, HA2 together.
In alternative embodiments the first and second cut lines 48a, 48b may be severance lines.
Turning to the construction of the carton 90 as illustrated in
The blank 10 is folded about fold line 15, such that the glue panel 12 and top panel 14 are folded thereabouts. The top panel 14 is brought into face contacting relationship with the first side panel 16; the glue panel 12 is brought into face contacting relationship with the base panel 18 and/or the first side panel 16.
Glue or other adhesive treatment is applied to the glue panel 12 or, in alternative embodiments, to a corresponding portion of the second side panel 20.
The second side panel 20 is folded about the fold line 19 such that the second side panel 22 overlies the glue panel 12.
The second side panel 20 is secured to the glue panel 12 to form a flat collapsed carton. The carton 90 may be shipped or distributed in this flat collapsed form.
In alternative embodiments the second side panel 20 may be secured to the glue panel 12 by alternative securing means for example, but not limited to, staples or other mechanical fixing means.
The flat collapsed carton 90 may be erected into a tubular structure by separating the top panel 14 from the base panel 16.
The carton 90, in its open ended tubular form, may be loaded with articles B through one or both open ends. It will be appreciated that in other embodiments one of the open ends of the carton 90 may be closed before loading the carton 90 with articles B through the remaining open end.
In some embodiments, some or all of the end closure panels 26a, 28a, 30a, 32a, 26b, 28b, 30b, 32b are folded outwardly to form a funnel at one or both ends of the carton 90 this facilitates loading of the articles B into the carton 90 and reduces the risk of the end closure panels 26a, 28a, 30a, 32a, 26b, 28b, 30b, 32b interfering with the articles B when they are being loaded.
Once the carton 90 is loaded with articles B the ends of the tubular structure are closed.
A first end of the tubular structure is closed by folding the second and fourth end closure panels 28a, 32a about fold lines 29b, 33b respectively.
Glue or other adhesive treatment may be applied to the second end closure panel 28a or in alternative embodiments to a corresponding portion of the third end closure panel 30a.
Glue or other adhesive treatment may be applied to the fourth end closure panel 32a or in alternative embodiments to a corresponding portion of the third end closure panel 30a.
The third end closure panel 30a is then folded about the fold line 31a to be brought into contact with the second and fourth end closure panels 28a, 30a and optionally secured thereto.
Glue or other adhesive treatment may be applied to the second end closure panel 28a or in alternative embodiments to a corresponding portion of the first end closure panel 26a.
Glue or other adhesive treatment may be applied to the fourth end closure panel 32a or in alternative embodiments to a corresponding portion of the first end closure panel 26a.
Glue or other adhesive treatment is applied to an inner surface of the first end closure panel 26a or in alternative embodiments to an outer surface of the third end closure panel 30a.
The first end closure panel 26a is then folded about the fold line 27a to be brought into contact with the second and fourth end closure panels 28a, 32a and the third end closure panel 30a.
The first end closure panel 26a is secured to the third end closure panel 30a. Optionally, the first end closure panel 26a is secured to the second and fourth end closure panels 28a, 32a.
In alternative embodiments the first end closure panel 26a may be folded about fold line 27a prior to folding the third end closure panel 30a about fold line 31a, it will be appreciated that in such embodiments the third end closure panel 30a is disposed outermost.
A second end of the tubular structure is closed by folding the sixth and eighth end closure panels 28b, 32a about fold lines 29d, 33d respectively.
Glue or other adhesive treatment may be applied to the sixth end closure panel 28b or in alternative embodiments to a corresponding portion of the seventh end closure panel 30b.
Glue or other adhesive treatment may be applied to the eighth end closure panel 32b or in alternative embodiments to a corresponding portion of the seventh end closure panel 30b.
The seventh end closure panel 30b is then folded about the fold line 31b to be brought into contact with the sixth and eighth end closure panels 28b, 30b and optionally secured thereto.
Glue or other adhesive treatment may be applied to the sixth end closure panel 28b or in alternative embodiments to a corresponding portion of the fifth end closure panel 26b.
Glue or other adhesive treatment may be applied to the eighth end closure panel 32b or in alternative embodiments to a corresponding portion of the fifth end closure panel 26b.
Glue or other adhesive treatment is applied to an inner surface of the fifth end closure panel 26b or in alternative embodiments to an outer surface of the seventh end closure panel 30b.
The fifth end closure panel 26b is then folded about the fold line 27b to be brought into contact with the sixth and eighth end closure panels 28b, 32b and the seventh end closure panel 30b.
The first end closure panel 26a is secured to the third end closure panel 30a. Optionally, the first end closure panel 26a is secured to the second and fourth end closure panels 28a, 32a.
In alternative embodiments the fifth end closure panel 26b may be folded about fold line 27b prior to folding the seventh end closure panel 30b about fold line 31 b, it will be appreciated that in such embodiments the seventh end closure panel 30b is disposed outermost.
The handle structure HA2 forms a handle opening when the tab 44b is folded internally of the carton 90. Preferably, the handle opening (and the tab 44b) is placed at a position generally aligned with a space or void disposed between an article disposed in the corner of the carton 90 and an adjacent article. In the illustrated embodiment in which the array or matrix of articles is greater than 2×2, then each handle opening may be located closer to the carton top than to the carton bottom and to one side of the carton 90 than to the other opposing side of the carton 90. Preferably, each handle opening is oriented such that the longitudinal axis of each handle opening extends along, if not parallel to, the cylindrical axis of the adjacent corner article.
The second thumb tab 46b forms a thumb opening when the second thumb tab 46b is folded internally of the carton 90. Preferably, the thumb opening (and the second thumb tab 46b) is placed at a position generally aligned with a space or void disposed between an article disposed in the corner of the carton 90 and an adjacent article.
As can been seen in
In this way the corner article forms a part of the carrying handle, the carrying handle is strengthened or reinforced by the corner article. The article is generally formed from materials, or shaped and configured so as to be a rigid article, or at least having greater rigidity than the carton 90. The user engages at least in part with the article and a comfortable handle structure is formed. The tabs 44a, 44b and the first and second thumb tabs 46a, 46b provide padding increasing the comfort to the user, the tabs 44a, 44b and the first and second thumb tabs 46a, 46b may in some embodiments be configured to shield the user from a portion of the article, for example a closure device such as a crown cork, so as to reduce the risk of injury to the user when employing the carrying handle.
A further advantage of the invention is that the user grasps an article having a depth or thickness greater than that of the sheet material from which the carton is formed. This may be particularly advantageous to users who have a weak grip or those whose range of finger movement is restricted.
The tab 44a is shaped at a lower edge such that a lower edge of the tab 44a may pass over a shoulder of the corner article. In this way the tab 44a can be readily brought to bear against a neck portion of the corner article.
Referring now to
The blank 110 comprises a plurality of main panels 112, 114, 116, 118, 120 hingedly connected one to the next in a linear series. A top panel 114 is hingedly connected to a first side panel 116 by a fold line 115. The first side panel 116 is hingedly connected to a base panel 118 by a fold line 117. The base panel 118 is hingedly connected to a second side panel 120 by a fold line 119. The blank 110 comprises a glue panel 112 hingedly connected to top panel 114 by a fold line 113.
The plurality of main panels 112, 114, 116, 118, 120 of the blank 110 form an open ended tubular structure in a set-up condition.
Each of the ends of the tubular structure is at least partially closed by end closure panels. In the illustrated embodiment the ends of the tubular structure are fully closed by end closure panels 126a, 128a, 130a, 132a, 134a, 126b, 128b, 130b, 132b, 134b.
End closure panels 126a, 128a, 130a, 132a, 134a are configured to close a first end of the tubular structure and end panels 126b, 128b, 130b, 132b, 134b are configured to close a second end of the tubular structure.
A first end closure panel 126a is hingedly connected to a first end of top panel 114 by a fold line 127a. A second end closure panel 128a is hingedly connected to a first end of first side panel 116 by a pair of fold lines 129a, 129b. A third end closure panel 130a is hingedly connected to a first end of base panel 118 by a fold line 131a. A fourth end closure panel 132a is hingedly connected to a first end of the second side panel 120 by a pair of fold lines 133a, 133b. The pair of fold lines 129a, 129b define first corner panel 116a disposed between the first side panel and the second end closure panel 128a. The pair of fold lines 133a, 133b define second corner panel 120a disposed between the second side panel and the fourth end closure panel 132a. A fifth end closure panel 134a is hingedly connected to a first end of glue panel 112 by a fold line 135a.
A sixth end closure panel 126b is hingedly connected to a second end of top panel 114 by a fold line 127b. A seventh end closure panel 128b is hingedly connected to a second end of the first side panel 116 by a pair of fold lines 129c, 129d. An eighth end closure panel 130b is hingedly connected to a second end of base panel 118 by a fold line 131b. A ninth end closure panel 132b is hingedly connected to a second end of second side panel 120 by a pair of fold lines 133c, 133d which define a fourth corner panel 120b connecting between the second side panel 120 and the ninth end closure panel 132b. A tenth end closure panel 134b is hingedly connected to a second end of glue panel 112 by a fold line 135b.
The pair of fold lines 129c, 129d define third corner panel 116b disposed between the first side panel and the seventh end closure panel 128b. The pair of fold lines 133c, 133d define fourth corner panel 120b disposed between the second side panel and the ninth end closure panel 132b.
The blank 110 comprises a first handle structure HA1 struck in part from the first end closure panel 126a and in part from the top panel 114.
The first handle structure HA1 comprises a first aperture 140a struck from the top panel 114 and a tab 144a struck from the first end closure panel 126a. The tab 144a is substantially elongate in shape. The tab 144a is hingedly connected to the first end closure panel 126a by a first fold line 142a. The tab 144a comprises a second fold line 143a which extends transversely across the tab 144a from the first fold line 142a, defining a first side edge, to an opposing second side edge thereof. The second fold line 143a defines in part a lower portion of the tab 144a. The tab 144a comprises a third fold line 141a which extends longitudinally from the second fold line 143a to an upper edge of the tab 144a. The upper edge of the tab 144a is defined by the first aperture 140a and is substantially collinear with the fold line 127a hinging the first end closure panel 126a to the top panel 114.
The blank 110 comprises a second handle structure HA2 struck in part from the sixth end closure panel 126b and in part from the top panel 114.
The second handle structure HA2 comprises a second aperture 140b struck from the top panel 114 and a tab 144b struck from the sixth end closure panel 126b. The tab 144b is substantially elongate in shape. The tab 144b is hingedly connected to the sixth end closure panel 126b by a first fold line 142b. The tab 144b comprises a second fold line 143b which extends transversely across the tab 144b from the first fold line 142b, defining a first side edge, to an opposing second side edge thereof. The second fold line 143b defines in part a lower portion of the tab 144b. The tab 144b comprises a third fold line 141b which extends longitudinally from the second fold line 143b to an upper edge of the tab 144b. The upper edge of the tab 144b is defined by the second aperture 140b and is substantially collinear with the fold line 127b hinging the sixth end closure panel 126b to the top panel 114.
The blank 110 comprises a first recess R1 struck from the fourth end closure panel 132a. The first recess R1 is substantially elongate in shape and is struck from an upper edge of the fourth end closure panel 132a. The first recess R1 is configured such that when the blank 110 is in an assembled state the first recess R1 and the first handle structure HA1 are disposed in an overlying relationship. The first recess R1 is shaped and dimensioned such that the tab 144a can pass through the fourth end closure panel 132a when folded internally of the carton 190.
The blank 110 comprises a second recess R2 struck from the ninth end closure panel 132b. The second recess R2 is substantially elongate in shape and is struck from an upper edge of the ninth end closure panel 132b. The second recess R2 is configured such that when the blank 110 is in an assembled state the second recess R2 and the second handle structure HA2 are disposed in an overlying relationship. The second recess R1 is shaped and dimensioned such that the tab 144b can pass through the ninth end closure panel 132b when folded internally of the carton 190.
The handle structure HA2 forms a handle opening when the tab 144b is folded internally of the carton 190. Preferably, the handle opening (and the tab 144b) is placed at a position generally aligned with a space or void disposed between an article disposed in the corner of the carton 190 and the adjacent article. In the illustrated embodiment in which the array or matrix of articles is greater than 2×2, then each handle opening may be located closer to the carton top than to the carton bottom and to one side of the carton 190 than to the other opposing side of the carton 190. Preferably, each handle opening is oriented such that the longitudinal axis of each handle opening extends along, if not parallel to, the cylindrical axis of the adjacent corner article.
In the second embodiment of
The second fold lines 143a, 143b allow lower portions of the tabs 144a, 144b respectively to be folded over a shoulder portion of a corner article such that the tab 144a may deform about a shoulder of the corner article. In this way the upper portion of tab 144a can be readily brought to bear against a neck portion of the corner article.
The blank 210 comprises a plurality of main panels 212, 214, 216, 218, 220 hingedly connected one to the next in a linear series. The blank 210 comprises a glue panel 212 hingedly connected to a top panel 214 by a fold line 213. The top panel 214 is hingedly connected to a first side panel 216 by a fold line 215. The first side panel 216 is hingedly connected to a base panel 218 by a fold line 217. The base panel 218 is hingedly connected to a second side panel 220 by a fold line 219.
The plurality of main panels 212, 214, 216, 218, 220 of the blank 210 form an open ended tubular structure in a set-up condition.
Each of the ends of the tubular structure is at least partially closed by end closure panels. In the illustrated embodiment the ends of the tubular structure are fully closed by end closure panels 226a, 228a, 230a, 232a, 226b, 228b, 230b, 232b.
End closure panels 226a, 228a, 230a, 232a, are configured to close a first end of the tubular structure and end panels 226b, 228b, 230b, 232b are configured to close a second end of the tubular structure.
The blank 210 comprises a first handle structure HA1 struck in part from a first end closure panel 226a and in part from the top panel 214. The blank 210 comprises a second handle structure HA2 struck in part from a sixth end closure panel 226b and in part from the top panel 214. The second handle structure HA2 is substantially similar in construction to the first handle structure HA1 and the first and second handle structures HA1, HA2 will be described by reference to the first handle structure HA1.
The tab 244a comprises a fifth fold line 245a which extends from a first side edge defined by the first fold line 242a to a second opposing side edge defined by the first aperture 240a. The fifth fold line 245a extends from a vertex defined by the fourth fold line 247a, the fold line 227a and the first fold line 242a.
The tab 244a comprises a sixth fold line 249a which extends from the fifth fold line 245a to a vertex defined by the fold line 227a and the second fold line 241a.
The third fold line 243a and the fifth fold line 245a are arranged convergently with respect to each other and converge towards the second edge of the tab 244a defined by the first aperture 240a.
The blank 210 comprises a first recess R1 struck from a fourth end closure panel 232a. The first recess R1 is struck from an upper edge and a side edge of the fourth end closure panel 232a so as to remove a corner portion of the fourth end closure panel 232a. The first recess R1 is configured such that when the blank 210 is in an assembled state the first recess R1 and the first handle structure HA1 are disposed in an overlying relationship. The first recess R1 is shaped and dimensioned such that the tab 244a can pass through the fourth end closure panel 232a when folded internally of the carton 290.
The blank 210 comprises a second recess R2 struck from the eighth end closure panel 232b. The second recess R2 is struck from an upper edge and a side edge of the eighth end closure panel 232b so as to remove a corner portion of the eighth end closure panel 232b. The second recess R2 is configured such that when the blank 210 is in an assembled state the second recess R2 and the second handle structure HA2 are disposed in an overlying relationship. The second recess R1 is shaped and dimensioned such that the tab 244b can pass through the eighth end closure panel 232b when folded internally of the carton 290.
The handle structure HA1 forms a handle opening when the tab 244a is folded internally of the carton 290. Preferably, the handle opening (and the tab 244a) is placed at a position generally aligned with a space or void disposed between an article disposed in the corner of the carton 290 and the adjacent article. In the illustrated embodiment in which the array or matrix of articles is greater than 2×2, then each handle opening may be located closer to the carton top than to the carton bottom and to one side of the carton 190 than to the other opposing side of the carton 290. Preferably, each handle opening is oriented such that the longitudinal axis of each handle opening extends along, if not parallel to, the cylindrical axis of the adjacent corner article.
The user can then employ the first handle structure HA1 as a carrying handle as shown in
The second fold line 243a allows a lower portion of the tab 244a respectively to be folded over a shoulder portion of a corner article such that the tab 244a may deform about a shoulder of the corner article. In this way the upper portion of tab 244a can be readily brought to bear against a neck portion of the corner article.
The blank 310 comprises a plurality of main panels 312, 314, 316, 318, 320 hingedly connected one to the next in a linear series .The blank 310 comprises a glue panel 312 hingedly connected to a top panel 314 by a fold line 313. The top panel 314 is hingedly connected to a first side panel 316 by a fold line 315. The first side panel 316 is hingedly connected to a base panel 318 by a fold line 317. The base panel 318 is hingedly connected to a second side panel 320 by a fold line 319.
The plurality of main panels 312, 314, 316, 318, 320 of the blank 310 form an open ended tubular structure in a set-up condition.
Each of the ends of the tubular structure is at least partially closed by end closure panels. In the illustrated embodiment the ends of the tubular structure are fully closed by end closure panels 326a, 328a, 330a, 332a, 326b, 328b, 330b, 332b.
End closure panels 326a, 328a, 330a, 332a are configured to close a first end of the tubular structure and end panels 326b, 328b, 330b, 332b are configured to close a second end of the tubular structure.
The blank 310 comprises a first handle structure HA1 struck in part from a first end closure panel 326a and in part from the top panel 314. The blank 310 comprises a second handle structure HA2 struck in part from a sixth end closure panel 326b and in part from the top panel 314. The second handle structure HA2 is substantially the similar in construction to the first handle structure HA1 and the first and second handle structures HA1, HA2 will be described by reference to the first handle structure HAI.
A web panel 350a is hingedly connected to the top panel 314 by a fourth fold line 347a. The fourth fold line 347a is arranged convergent with respect to the fold line 327a. The fourth fold line 347a intersects or meets with the fold line 327a at a first end and intersects or meets with the first fold line 342a at the first end. The web panel 350a is football-shaped and is defined in part by the fourth fold line 347a and in part by an opposing fifth fold line 351a.
An extension panel 354a is hingedly connected to the upper edge of the tab 344a along a fold line 327a. The extension panel 354a is hingedly connected to the web panel 350a along a first side edge by the fifth fold line 351a. A second side edge of the extension panel 354a is defined by the portion of the first aperture 340a struck from the top panel 314. The extension panel 354a is severably connected to the top panel along an upper edge thereof by a severance line 353a.
The fourth fold line 347a is arcuate in shape. The fifth fold line 351a is arcuate in shape. A first end of the fourth fold line 347a and a first end of the fifth fold line 351a intersect or meet to form a first vertex. A second end of the fourth fold line 347a and a second end of the fifth fold line 351a intersect or meet to form a second vertex. In this way the web panel 350a is substantially elliptical in shape, the ellipse comprising a major axis or transverse diameter and a minor axis or conjugate diameter, wherein the web panel 350a comprises pointed ends at each end of the major axis.
The tab 344a comprises a sixth fold line 345a which extends from a first side edge defined by the first fold line 342a to a second opposing side edge defined by the first aperture 340a. The sixth fold line 345a extends from a vertex defined by the fourth fold line 347a, the fold line 327a and the first fold line 342a.
The third fold line 343a and the sixth fold line 345a are arranged convergently with respect to each other and converge towards the second edge of the tab 344a defined by the first aperture 340a.
The blank 310 comprises a first recess R1 struck from a fourth end closure panel 332a. The first recess R1 is struck from an upper edge of the fourth end closure panel 332a. The first recess R1 is configured such that when the blank 310 is in an assembled state the first recess R1 and the first handle structure HA1 are disposed in an overlying relationship. The first recess R1 is shaped and dimensioned such that the tab 344a can pass through the fourth end closure panel 332a when folded internally of the carton 390.
The blank 310 comprises a second recess R2 struck from the eighth end closure panel 332b. The second recess R2 is struck from an upper edge of the eighth end closure panel 332b so as to remove a corner portion of the eighth end closure panel 332b. The second recess R2 is configured such that when the blank 310 is in and assembled state the second recess R2 and the second handle structure HA2 are disposed in an overlying relationship. The second recess R1 is shaped and dimensioned such that the tab 344b can pass through the eighth end closure panel 332b when folded internally of the carton 390.
The handle structure HA2 forms a handle opening when the tab 344b is folded internally of the carton 390. Preferably, the handle opening (and the tab 344b) is placed at a position generally aligned with a space or void disposed between an article disposed in the corner of the carton 390 and the adjacent article. In the illustrated embodiment in which the array or matrix of articles is greater than 2×2, then each handle opening may be located closer to the carton top than to the carton bottom and to one side of the carton 390 than to the other opposing side of the carton 390. Preferably, each handle opening is oriented such that the longitudinal axis of each handle opening extends along, if not parallel to, the cylindrical axis of the adjacent corner article.
A user can employ the second handle structure HA2 as a carrying handle by placing a thumb against the second side panel 320 and inserting their fingers into the carton 390 through the opening formed by the first aperture 340b and the displacement of the tab 344b. The web panel 350b has been folded about fold line 347b out of the plane of the top panel 314 to be disposed internally of the walls of the carton 390. The web panel 350b has been folded about the fold line 327b with respect to the tab 344b. A user may wrap their hand and/or fingers about the first fold line 342b and the second fold line 341b. The user may wrap their hand and/or fingers about the tab 344b and outer portion 352b of the tab 344b. The tab 344b forms an ergonomic comfortable carrying handle in combination with the corner article B. The web panel 350b restricts the range of movement of the upper portion of the tab 344b internally of the carton 390. The proximity with which a user may place their hand to the upper end portion of the corner article is thereby limited. This reduces the likelihood of the user grasping the closure device of the article. Additionally or alternatively the web panel 350b shields the users hand from the closure device of the article.
The third fold line 343b allows a lower portion of the tab 344b respectively to be folded over a shoulder portion of a corner article such that the tab 344b may deform about a shoulder of the corner article. In this way the upper portion of tab 344b can be readily brought to bear against a neck portion of the corner article.
The tab 344b may be in frictional engagement with the corner article which frictional engagement facilitates retention of the tab 344b in the folded, operative condition.
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. The glue panel may take the form of a second top panel disposed outermost, the top panel being secured to an inner face of the second top panel.
The blank 410 comprises a plurality of main panels 412, 414, 416, 418, 420 hingedly connected one to the next in a linear series. A first side panel 414 is hingedly connected to a top panel 416 by a fold line 415. The top panel 416 is hingedly connected to a second side panel 418 by a fold line 417. The second side panel 418 is hingedly connected to a base side panel 420 by a fold line 419. The blank 410 comprises a glue panel 412 hingedly connected to base panel 414 by a fold line 413.
The plurality of main panels 412, 414, 416, 418, 420 of the blank 410 form an open ended tubular structure in a set-up condition.
Each of the ends of the tubular structure is at least partially closed by end closure panels. In the illustrated embodiment the ends of the tubular structure are fully closed by end closure panels 426a, 428a, 430a, 432a, 426b, 428b, 430b, 432b.
End closure panels 426a, 428a, 430a, 432a are configured to close a first end of the tubular structure and end panels 426b, 428b, 430b, 432b are configured to close a second end of the tubular structure.
A first end closure panel 426a is hingedly connected to a first end of first side panel 414 by a fold line 427a. A second end closure panel 428a is hingedly connected to a first end of top panel 416 by a fold line 429a. A third end closure panel 430a is hingedly connected to a first end of second side panel 418 by a fold line 431a. A fourth end closure panel 432a is hingedly connected to a first end of the base panel 420 by a fold line 433a.
A fifth end closure panel 426b is hingedly connected to a second end of first side panel 414 by a fold line 427b. A sixth end closure panel 428b is hingedly connected to a second end of the top panel 416 by a fold line 429b. A seventh end closure panel 430b is hingedly connected to a second end of second side panel 418 by a fold line 431b. An eighth end closure panel 432b is hingedly connected to a second end of base panel 418 by a fold line 433b.
The blank 410 comprises a first handle structure HA1 struck from the first side panel 414. The blank 410 comprises a second handle structure HA2 struck from the first side panel 418. The blank 410 comprises a first part C1 of a third handle structure C1/C3 struck from the second end closure panel 428a. The blank 410 comprises a second part C3 of the third handle structure C1/03 struck from the fourth end closure panel 432a. The blank 410 comprises a first part C2 of a fourth handle structure C2/C4 struck from the fifth end closure panel 428b. The blank 410 comprises a second part C4 of the fourth handle structure C2/C4 struck from the eighth end closure panel 432b.
The first handle structure HA1 comprises a first tab 444a struck from the first side panel 414 and a second tab 444b struck from the first side panel 414. The first and second tabs 444a, 444b are each substantially elongate in shape. The first and second tabs 444a, 444b are each hingedly connected to the first side panel 414 by fold lines 443a, 443b respectively.
The first and second tabs 444a, 444b are separated from each other by a severance line such as a cut line 445. In some embodiments the first and second tabs 444a, 444b are severably connected to each other by a severance line.
The second handle structure HA2 comprises a first tab 444a struck from the first side panel 418 and a second tab 444b struck from the second side panel 418. The first and second tabs 444a, 444b are each substantially elongate in shape. The first and second tabs 444a, 444b are each hingedly connected to the first side panel 418 by fold lines 443a, 443b respectively. The first and second tabs 444a, 444b are separated from each other by the cut line 445. In some embodiments the first and second tabs 444a, 444b are severably connected to each other by a severance line.
The third handle structure C1/03 comprises the first portion C1 defined in the second end closure panel 428a and the second portion C3 defined in the fourth end closure panel 432a. The first portion C1 comprises a first tab 446a struck from the second end closure panel 428a and a second tab 446b struck from the second end closure panel 428a. The first and second tabs 446a, 446b are each substantially elongate in shape. The first and second tabs 446a, 446b are each hingedly connected to the second end closure panel 428a by fold lines 447a, 447b respectively. The first and second tabs 446a, 446b are separated from each other by a severance line such as a cut line 450a. In some embodiments the first and second tabs 446a, 446b are severably connected to each other by a severance line. The second portion C3 comprises a third tab 448a struck from the fourth end closure panel 432a and a fourth tab 448b struck from the fourth end closure panel 432a. The third and fourth tabs 448a, 448b are each substantially elongate in shape. The third and fourth tabs 448a, 448b are each hingedly connected to the fourth end closure panel 432a by fold lines 449a, 449b respectively. The third and fourth tabs 448a, 448b are separated from each other by a severance line such as a cut line 450b. In some embodiments the third and fourth tabs 448a, 448b are severably connected to each other by a severance line.
The first part C1 of the third handle structure C1/03 and the second part C3 of the third handle structure C1/03 are arranged such that they are aligned in a set up carton 490. The fold line 447a and the fold line 449a are substantially collinear. The fold line 447b and the fold line 449b are substantially collinear. The first tab 446a is disposed in partially overlapping relationship with the fourth tab 448b and form a composite tab 446a/448b. The second tab 446b is disposed in partially overlapping relationship with the third tab 448a and form a composite tab 446b/448a.
The fourth handle structure C2/C4 comprises the first portion C2 defined in the sixth end closure panel 428b and the second portion C4 defined in the eighth end closure panel 432b. The first portion C2 comprises a first tab 446c struck from the sixth end closure panel 428b and a second tab 446c struck from the sixth end closure panel 428b. The first and second tabs 446c, 446d are each substantially elongate in shape. The first and second tabs 446c, 446d are each hingedly connected to the sixth end closure panel 428b by fold lines 447c, 447d respectively. The first and second tabs 446c, 446d are separated from each other by a severance line such as a cut line 450c. In some embodiments the first and second tabs 446c, 446d are severably connected to each other by a severance line. The second portion C4 comprises a third tab 448c struck from the eighth end closure panel 432b and a fourth tab 448d struck from the eighth end closure panel 432b. The third and fourth tabs 448c, 448d are each substantially elongate in shape. The third and fourth tabs 448c, 448d are each hingedly connected to the eighth end closure panel 432b by fold lines 449c, 449d respectively. The third and fourth tabs 448c, 448d are separated from each other by a severance line such as a cut line 450d. In some embodiments the third and fourth tabs 448c, 448d are severably connected to each other by a severance line.
The first part C2 of the fourth handle structure C2/C4 and the second part C4 of the fourth handle structure C2/C4 are arranged such that they are aligned in a set up carton 490. The fold line 447c and the fold line 449a are substantially collinear. The fold line 447d and the fold line 449d are substantially collinear. The first tab 446c is disposed in partially overlapping relationship with the fourth tab 448d and form a composite tab 446c/448d. The second tab 446d is disposed in partially overlapping relationship with the third tab 448c and form a composite tab 446d/448c.
Similarly, the first part C2 of the fourth handle structure C2/C4 and the second part C4 of the fourth handle structure C2/C4 form a fourth handle structure (not shown in
Each of the first and second side panels 414, 418 respective handle structure HA1, HA2, and each of the composite end panels 428a/432a, 428b/432b comprises a respective handle structure HA3, C2/C4.
The handle structure HA2 forms a handle opening when one or both of the tabs 444a, 444b are folded internally of the carton 490. Preferably, the handle opening (and the tabs 444a, 444b) is placed at a position generally aligned with a space or void disposed between an article disposed in the corner of the carton 490 and the adjacent article.
The handle structure HA3 forms a handle opening when one or both of the composite tabs 446a/448b, 446b/448a are folded internally of the carton 490.Preferably, the handle opening (and the composite tabs 446a/448b, 446b/448a) is placed at a position generally aligned with a space or void disposed between an article disposed in the corner of the carton 490 and the adjacent article.
In the illustrated embodiment in which the array or matrix of articles is 2×2, then each handle opening is located centrally, that is to say equidistant from each side edge of the carton wall within the respective handle opening is defined. In the illustrated embodiment the carton is configured to accommodate articles which have a substantially similar or constant diameter along their tubular axis, each handle opening is located centrally, that is to say equidistant from the top and bottom edges of the carton wall within the respective handle opening is defined. Preferably, each handle opening is oriented such that the longitudinal axis of each handle opening extends along, if not parallel to, the cylindrical axis of the adjacent corner article.
A user may engage any pair of the handle structures HA1, HA2, HA3, C2/C4 along with an article disposed in the corner of the carton 490 to form a carrying handle, as shown in
Referring now to
The carton 590 comprises a bevel or corner panel disposed at each corner of the carton 590. The carton 590 comprises a bevel or corner panel 560 disposed between the second side panel 518 and a first composite end panel 528a/532a. The carton 590 comprises a bevel or corner panel 562 disposed between the second side panel 518 and a second composite end panel 528b/532b. The top panel 516 is octagonal in shape. The base panel 520 is octagonal in shape.
The carton 590 comprises a handle structure in each of the first and second side walls and comprises a handle structure in each of the composite end panels 528b/532b.
A handle structure HA2 forms a handle opening when one or both of the tabs 544a, 544b are folded internally of the carton 590. Preferably, the handle opening (and the tabs 544a, 544b) is placed at a position generally aligned with a space or void disposed between an article disposed in the corner of the carton 590 and the adjacent article.
The handle structure HA3 forms a handle opening when one or both of the composite tabs 546a/548b, 546b/548a are folded internally of the carton 590. Preferably, the handle opening (and the composite tabs 546a/548b, 546b/548a) is placed at a position generally aligned with a space or void disposed between an article disposed in the corner of the carton 590 and the adjacent article.
In the illustrated embodiments in which the array or matrix of articles is 2×2, then each handle opening is located centrally, that is to say equidistant from each side edge of the carton wall within the respective handle opening is defined. In each of the illustrated embodiments where the array or matrix of articles is 2×2 and where the carton is configured to accommodate articles which have a substantially similar or constant diameter along their tubular axis, each handle opening is located centrally, that is to say equidistant from the top and bottom edges of the carton wall within the respective handle opening is defined. Preferably, each handle opening is oriented such that the longitudinal axis of each handle opening extends along, if not parallel to, the cylindrical axis of the adjacent corner article.
One advantage of providing the bevel or corner panels at each corner of the carton 590 between a pair of handle structures HA2, HA3 is that the carrying handle is more comfortable since the user does not have to grasp a sharp corner in their hand.
The blank 610 comprises a plurality of main panels 612, 614, 616, 618, 620 hingedly connected one to the next in a linear series .The blank 610 comprises a glue panel 612 hingedly connected to a first end panel 614 by a fold line 613. The first end panel 614 is hingedly connected to a first side panel 616 by a fold line 615. The first side panel 616 is hingedly connected to a second end panel 618 by a fold line 617. The second end panel 618 is hingedly connected to a second side panel 620 by a fold line 619.
The plurality of main panels 612, 614, 616, 618, 620 of the blank 610 form a tubular structure with an open top and an open bottom in a set-up condition.
Each of the top and bottom of the tubular structure is at least partially closed by top and bottom closure panels. In the illustrated embodiment, the top and bottom of the tubular structure are substantially closed by top and bottom closure panels 628a, 632a, 628b, 632b.
Inner and outer top closure panels 628a, 632a are configured to close the top of the tubular structure while outer and inner bottom closure panels 628b, 632b are configured to close the bottom of the tubular structure.
The inner top closure panel 628a is hingedly connected to the top end of first side panel 616 by a hinged connection such as a fold line 629. The outer top closure panel 632a is hingedly connected to the top end of the second side panel 620 by a hinged connection such as a fold line 633.
The outer bottom closure panel 628b is hingedly connected to the bottom end of the first side panel 616 by a hinged connection such as a pair of fold lines 629c, 629d. A first heel panel 616b is defined between the fold lines 629c, 629d. A plurality of bottom receiving apertures 680 are defined in the first heel panel 616b and optionally extend into the first side panel 616. The outer bottom closure panel 628b is provided with male locking tabs 682 each struck from the outer bottom closure panel 628b. The inner bottom closure panel 632b is hingedly connected to the bottom end of the second side panel 620 by a hinged connection such as a pair of fold lines 133c, 133d. A second heel panel 620b is defined between the fold lines 633c, 633d. A plurality of bottom receiving apertures 684 are defined in the second heel panel 620b and optionally extend into the second side panel 620. The inner bottom closure panel 632b is provided with female locking tabs 686 each struck from the inner bottom closure panel 632b. The female locking tabs 686 define locking apertures in the inner bottom closure panel 632b when folded out of the plane of the inner bottom closure panel 632b. When the inner and outer bottom closure panels 632b, 628b are disposed in an overlapping arrangement, the locking apertures in the inner bottom closure panel 632b receive the respective locking tabs 682 wherein the female tabs 686 retain the male tabs 682 in the respective locking apertures. By this means, the inner and outer bottom closure panels 632b, 628b are secured together in the overlapping arrangement.
The blank 610 further comprises a first handle structure HA1 struck (or otherwise formed) in part from the inner top closure panel 628a, in part from the first side panel 616 and in part from the second end panel 618. The blank 610 still further comprises a second handle structure HA2 struck (or otherwise formed) in part from the outer top closure panel 632b, in part from the second side panel 320 and in part from the second end panel 618. The second handle structure HA2 is similar in construction to the first handle structure HA1, and the first and second handle structures HA1, HA2 will be described by reference to the first handle structure HA1. However, in
Referring to
A web panel 650a is hingedly connected to the inner top closure panel 628a by a fourth fold line 647a. The fourth fold line 647a is arranged convergent with respect to the fold line 629. The fourth fold line 647a intersects or meets with the fold line 629 at its first end and intersects or meets with the first fold line 642a at the first end. The web panel 650a is triangular in shape and is defined in part by the fold line 629, in part by fourth fold line 647a and in part by the second aperture 639a. The web panel 650a is hingedly connected to the upper edge of the hand tab 644a along a fold line 629.
The tab 644a comprises a sixth fold line 645a which extends from the first side edge of the tab 644a defined by the first fold line 642a to the second opposing side edge defined by the first aperture 640a. The sixth fold line 645a extends from a vertex defined by the fourth fold line 647a, the fold line 629 and the first fold line 642a.
The third fold line 643a and the sixth fold line 645a are arranged divergently with respect to each other and diverge towards the first edge of the tab 644a defined by the first fold line 642a. The lower edge of the hand tab 644a is detachably connected to the first side panel 616 along a severance line 662a. The severance line 662a extends from the first aperture 640a to the lower end of the first fold line 642a. However, the first handle structure HA1 is further provided with a relief severance line 664a such as a cut line. The relief severance line 664a emanates from the vertex of the severance line 662a and the first fold line 642a generally toward a cushioning panel 666a and terminates in a downturned, curled end 665a. The cushioning panel 666a is generally trapezoidal in shape and connects between the upper portion of the first side panel 616 and a gusset panel 668a. The cushioning panel 666a is hingedly connected to the first side panel 616 by a generally L-shaped fold line 670a and to the gusset panel 668a by the fold line 617. The gusset panel 668a is similar in shape to the cushioning panel 666a in that the gusset panel 668a is less in width somewhat than the cushioning panel 666a and equal in vertical length to the cushioning panel 666a. The gusset panel is connected to the second end panel 618 by a fold line 672a. The cushioning panel 666a and the gusset panel 668a are brought into face-contacting arrangement with each other when the blank 610 is erected into a carton and together provide a foldable hand cushion which constitutes part of the first handle structure HA1.
The blank 610 further comprises a first recess R1 struck from the inner top closure panel 628a. The first recess R1 is struck from a free edge of the inner top closure panel 628a. The first recess R1 is configured such that when the blank 610 is in an assembled state, the first recess R1 is disposed under the web panel 650b and second aperture 639b of the second handle structure HA2 in alignment therewith. The first recess R1 is shaped and dimensioned such that the web panel 650b of the second handle structure HA2 can pass through the inner top closure panel 628a when folded internally of the erected carton 690 as best shown in
The blank 610 further comprises a second recess R2 struck from the outer top closure panel 632a. The second recess R2 is struck from a free edge of the outer top closure panel 632a. The second recess R2 is configured such that when the blank 610 is in an assembled state, the second recess R2 is disposed over the web panel 650a and second aperture 639a of the first handle structure HA1 in alignment therewith. The second recess R2 is shaped and dimensioned to remove a portion of the outer top closure panel 632a that could otherwise be disposed over the web panel 650a of the first handle structure HA1 such that such a portion does not interfere with user's hand when the web panel 650a is folded internally of the carton 690.
The handle structure HA2 forms a handle opening when the tab 644b is folded internally of the carton 690. Preferably, the handle opening (and the tab 644b) is placed at a position generally aligned with a space or void disposed between the neck of the corner article at the corner of the carton 690 and the neck of the adjacent article. In the illustrated embodiment in which the array or matrix of articles is greater than 2×3, each handle opening may be located closer to the carton top than to the carton bottom and to the recessed end (618) of the carton 690 than to the partially closed end of the carton 690. Preferably, each handle opening is oriented such that the longitudinal axis of each handle opening extends along, if not parallel to, the cylindrical axis of the adjacent corner article.
A user can employ the second handle structure HA2 as a carrying handle by placing a thumb against the second end panel 618 and inserting their fingers into the carton 690 through the opening formed by displacing the hand tab 644b. The web panel 650b has been folded about fold line 647b out of the plane of the outer top panel 632a to be disposed internally of the carton 690. The user may wrap their hand and/or fingers about the first fold line 642b and the second fold line 641 b. The user may wrap their hand and/or fingers about the tab 644b and outer portion 652b of the tab 644b. The tab 644b forms an ergonomic comfortable carrying handle in combination with the neck of the corner article B. The web panel 650b restricts the range of movement of the upper portion of the tab 644b internally of the carton 690. The proximity with which a user may place their hand to the neck of the corner article is thereby limited. This reduces the likelihood of the user grasping the closure device (e.g., a cap/crown) of the article. Additionally or alternatively the web panel 650b shields the users hand from the closure device of the article.
The gusset panel 668b that has been folded into face-contacting arrangement with the cushioning panel 666b cooperate with the cushioning panel 666b to serve as a hand cushion when they are folded about the fold line 670b toward the other gusset panel 668a.
The third fold line 643b allows a lower portion of the tab 644b to be folded over a shoulder portion of the corner article such that the tab 644b may deform about a shoulder of the corner article. In this way the upper portion of tab 644b can be readily brought to bear against a neck portion of the corner article.
The tab 644b may be in frictional engagement with the corner article. Such frictional engagement facilitates retention of the tab 644b in the folded, operative condition.
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. The glue panel may take the form of a second top panel disposed outermost, the top panel being secured to an inner face of the second top panel.
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 embodiments of the invention the tabs 44a, 44b, 144a, 144b, 244a, 244b, 344a, 344b, 444a, 444b, 446a, 446c, 446d, 446b, 448a, 448b, 448c, 448d, 544a, 544b, 548a, 548b, 644a, 644b, 650a, 650b may be omitted. In embodiments of the invention the thumb tabs 46a, 46b may be omitted.
In some embodiments the carton 490, 590 may comprise less than four handle structures, for example the carton 490, 590 may comprise a pair of handle structures disposed in adjacently disposed walls of the carton 490, 590. In some embodiments a handle structure may be provided in the top panel and/or in the base panel and in at least one of the side or end walls of the carton 490, 590 such that a user may grasp a corner of the carton 490, 590; in such embodiments the articles such as cans or bottles may be disposed in rolling contact with the base panel 420, 520. That is to say, the articles have a substantially cylindrical shape having a cylindrical axis which is orientated so as to extend perpendicularly between a pair of opposed side or end walls of the carton 490, 590. In those embodiments having less than four handle structures the carton 590 may comprise fewer bevel or corner panels, such that a bevel or corner panel is only provided between a pair of adjacent side and end walls, each wall of said pair of adjacent side and end walls having a handle structure.
It will be recognised that as used herein, directional references such as “top”, “bottom”, “base”, “front”, “back”, “end”, “side”, “inner”, “outer”, “upper” and “lower” do not necessarily limit the respective panels to such orientation, but may merely serve to distinguish these panels from one another.
As used herein, the term “hinged connection” refers to all manner of lines that define hinge features in a substrate of sheet material, for facilitating folding portions of the substrate with respect to one another, or otherwise for indicating optimal folding locations in the substrate. For example, a hinged connection should not be construed as necessarily referring to a single fold line only: indeed a hinged connection can be formed from one or more fold lines.
As used herein, the term “fold line” refers to one of the following: a scored line, an embossed line, a debossed line, a line of perforations, a line of short slits, a line of half-cuts, a single half-cut, an interrupted cut line, aligned slits, a line of scores and any combination of the aforesaid options.
As used herein, the term “severance line” refers to all manner of lines formed in a substrate of sheet material, that facilitate separating portions of the substrate from one another, or otherwise indicate optimal separation locations on the substrate. For example, a severance line in a substrate of sheet material is predisposed to allow a tear to propagate there along. A severance line may be one of the following: a single cut, a single half-cut, a single slit, an interrupted cut, a score line, an interrupted score line, a line of perforations, a line of short cuts, a line of short slits, a line of short half cuts, and any combination of the aforementioned options.
It should be understood that hinged connections, 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 claims the benefit of US Provisional Patent Application No. 61/873316 filed Sep. 3, 2013, which is incorporated herein by reference in its entirety.
Number | Date | Country | |
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61873316 | Sep 2013 | US |
Number | Date | Country | |
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Parent | 14916478 | Mar 2016 | US |
Child | 17152946 | US |