The present invention relates to a blank for forming a carrier and to the carrier itself. More specifically, but not exclusively, the invention relates to a blank for forming carrier of the basket-style wherein a medial partition divides the carrier into at least two cells, and wherein a carrying handle is provided which facilitates the transport of the carrier.
In the field of packaging it is known to provide basket-style article carriers for carrying multiple articles. Basket-style article carriers are well known in the art and are useful for enabling consumers to transport, store and access a group of articles for consumption. These carriers typically have a handle on top, such that the carrier mimics a conventional basket, and typically include a riser or medial partition from which the handle is fashioned. 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. Typically blanks for forming such carriers are arranged on a blank grid—the more blanks that can be fitted onto the grid, the less material that is wasted. In certain applications, a too close arrangement of too tight nesting of blanks in a blank grid can be disadvantageous. This is because the closer fitting of the blanks makes it difficult to separate and remove the cut blanks, without tearing of the blanks, from a larger sheet of material from which a plurality of individual blanks are cut. Accordingly, there is a balance between the total number of blanks in a blank grid that are cut simultaneously from a single sheet, and the time taken in carefully removing those blanks without tearing.
The present invention seeks to provide an improvement in the field of basket-style article carriers, typically formed from paperboard or the like.
According to a first aspect of the present invention there is provided a blank for forming a basket-style carrier. The blank comprises a plurality of panels for forming walls of the carrier including a first side panel, a second side panel and a bottom panel. The first side panel is hinged to the bottom panel and the bottom panel is asymmetrical and has first and second opposed end edges. The first end edge is offset from a first end edge of the adjacent first side panel by a first distance. The second end edge of the bottom panel is offset from a second end edge of the adjacent first side panel by a second distance (D5). The first distance is greater than the second distance. The bottom panel may also comprise a beveled corner, which beveled corner is located at an intersection of the first end edge of the bottom panel with a free side edge of the bottom panel, which free side edge is opposite from a side edge of the bottom panel that is hinged to the first side panel.
The first end edge of the bottom panel is off-set, in other words, laterally spaced from a notional line passing through the first end edge of the first side panel. Similarly, the second end edge of the bottom panel is off-set by being laterally spaced from a notional line passing through the second end edge of the first side panel. By reducing the overall size of the bottom panel and by skewing its position to the side and making it “off-center”, when adjacent blanks are nested, a greater space (cut-out region) is provided between adjacent blanks in the grid, thus enabling them to be more easily separated from one another and from the sheet of material from which they are struck, even when the number of blanks in the blank grid results in tight and close positioning of blanks. The non-rectangular, i.e. beveled corner further increases the separation between blanks and permits easier release of adjacent blanks from the blank grid. By beveling or otherwise shaping an edge of the bottom panel a cut-out section between adjacent nested blanks in the blank grid may be shaped to lead into a cut line and promote easy removal of blanks along cut-lines and mitigate against unintentional tearing of corner portions (or other parts) of blanks, which it is known, can otherwise occur. Of particular benefit is the provision of a beveled corner, optionally angled in the region of 45° which creates a vertex where converging cut lines (for example the free edge of the bottom panel and the first end edge of the bottom panel) promote complete removal of blanks from the blank grid without tearing.
Optionally, the bottom panel is asymmetrical about a central axis of the first side panel.
Optionally, the first side panel has a width defined as the distance between first and second end edges thereof, and wherein the bottom panel has a width defined as the distance between first and second opposed end edges thereof, the width of the bottom panel may be less than the width of the first side panel, and a notional half-way line of the bottom panel may be off-set from a notional half-way line of the first side panel.
Optionally, a center line of the blank is defined by a notional line through the center of blank 10, positioned half-way along the length of the blank.
A corner distance may be defined as the distance between a notional line coincident with the first end edge of the bottom panel and a notional line coincident with a termination of the beveled corner along said free side edge. A first center distance may be defined as the distance between the first side edge of the bottom panel and the center line. The corner distance may be greater than or equal to the first center distance and the corner distance may be less than or equal to three times the first center distance.
Optionally, said first distance may be greater than the first center distance and the first may be less than two times the first center distance.
Optionally, a corner depth of the beveled corner is defined by the formula: D3=D4×tan(180−θ), wherein ‘θ’ is an angle defined by the free side edge and the beveled corner (59). Optionally, said angle ‘θ’ is greater than or equal about 100° and is less than 145°.
Optionally, the second side panel is spaced from and located opposite to the first side panel, and wherein a securing panel is hinged to the second side panel, the securing panel is for attachment to the bottom panel, and the securing panel is asymmetrical about a central axis of the adjacent second side panel and has first and second opposed end edges. Optionally, the first end edge of the securing panel is offset from a first end edge of the adjacent second side panel by a third distance. The second end edge of the securing panel may be offset from a second end edge of the adjacent second side panel by a fourth distance, and the third distance is greater than the fourth distance.
Optionally, the third distance may be a similar distance to the first distance at which first end edge of the bottom panel is offset from the first end edge of the first side panel.
Optionally, the blank is removed from a blank grid.
Optionally, the blank is cut from a larger sheet of material along with a plurality of other similar such blanks and wherein said other similar such blanks and said blank are closely nested on said larger sheet of material.
Optionally, a cut-out region between bottom panels of adjacent nested blanks is generally “Z”-shaped or at least comprises an angled portion. It is envisaged that the bevelled corner of a bottom panel may be provided by at least one angled straight line and in some alternative embodiments by more than one angled and contiguous cut lines. Additionally, or alternatively, the bevelled corner in some arrangements may be provided by a curvilinear cut line or an arcuate cut line that leads into the corner of the cut-out region to allow the blank to be peeled off the blank grid optionally starting in that corner.
Within the scope of this application it is envisaged and 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 carriers 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 carriers 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.
Referring to
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 and carrying 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 blank 10 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 recognised 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 illustrated embodiment, the blank 10 is configured to form a carton or carrier 90 for packaging an exemplary arrangement of exemplary articles. In the illustrated embodiment, the arrangement is a 2×3 matrix or array and the articles are bottles. Alternatively, the blank 10 can be configured to form a carrier for packaging other types, number and size of articles and/or for packaging articles in a different arrangement or configuration. More specifically, the blank may be configured for forming a carrier for holding a 2×2 arrangement of articles and in such an application, eight such (2×2) blanks may be nested or tessellated on and struck from a single large sheet of material (whereas only 6 of the (2×3) blanks may be nested or tessellated on and struck from a single large sheet of material.
Referring to
The blank 10 comprises a bottom panel 22, optionally hinged to the first side panel 18 by a hinged connection such as a fold line 19. A securing panel 12 is hinged to the second side panel 14 by a hinged connection such as a fold line 13.
The first end panel 16a and the third end panel 20a together form a first end wall 16a/20a of the carrier 90. The second end panel 16b and the fourth end panel 20b together form a second end wall 16b/20b of the carrier 90.
The blank 10 comprises a first riser panel 24a hinged to the second end panel 16b by a hinged connection such as a fold line 23b. The blank 10 comprises a second riser panel 24b hinged to the fourth end panel 20b by a hinged connection such as a fold line 23a. The first riser panel 24a is hinged to the second riser panel 24b by a hinged connection such as a fold line 33. Together the first and second riser panels 24b, 24b assist in coupling the second end panel 16b to the fourth end panel 20b to form the first composite end wall 16b/20b when the blank 10 is assembled. The first riser panel 24a comprises a first recess R1 which is configured to form a hook-like projection on a side edge thereof. The second riser panel 24b comprises a second recess R2 which is configured to form a hook-like projection on a side edge thereof.
The bottom panel 22 comprises an entirely optional hinged connection such as a fold line 21 which extends longitudinally thereacross so as to longitudinally divide the bottom panel 22. The bottom panel 22 comprises a further recess R3 struck from a first end edge thereof; the fold line 21 extends from the further recess R3. The further recess R3 is configured to form a notch for interlocking with the hook-like projections formed in the first riser panel 24a and the second riser panel 24b.
The second and first side panels 14, 18 are spaced apart; the first end panel 16a and the second end panel 20a are spaced apart (in blank form); and between them, there is provided first and second handle panels 30a, 30b which form part of a carrying handle structure. A fold line 31a between the first and second handle panels 30a, 30b hingedly couples those panels 30a, 30b together. The first handle panel 30b is hinged to a first partition panel 26a along a hinged connection such as a fold line 29b. The second handle panel 30a is hinged to a second partition panel 26b along a hinged connection such as a fold line 29a. Optionally in some arrangements one or both of the first and second handle panels 30a, 30b may be omitted.
The first partition panel 26a is hinged to the first end panel 16a along a hinged connection such as a fold line 25a.
The second partition panel 26b is hinged to the first partition panel 26a along a hinged connection such as interrupted fold line 31. The second partition panel 26b is hinged to the third end panel 20a along a hinged connection such as a fold line 25a. A second securing panel 43a is hinged by fold line 43b to a bottom edge of the first partition panel 26a.
The first and second riser panels 24a, 24b and the first and second partition panels 26a, 26b each form a partial medial panel of the carrier 90.
The blank 10 further comprises a plurality of partition structures. The partition structures are provided to divide the interior of the basket carrier 90 into separate cells. The cells may or may not be of uniform size and, optionally in the present arrangement, the partition structures divide the interior of the basket carrier 90 into six cells arranged in two rows of three cells each.
The first partition structure comprises a first divider panel 40a that is struck from material that would otherwise form part of the first partition panel 26a and is hinged thereto by a hinged connection such as a fold lines 53a, 53b. The first partition structure comprises a first securing tab 42a that is hinged to the first partition panel 26a by a hinged connection such as a fold line 41c. A second divider panel 40b is hinged to the first partition panel 26a by a hinged connection such as a fold line 41c. The first securing tab 42a is provided to secure a first end of the first divider panel 40a, to the second side panel 14. A second securing tab 41b is provided to secure a first end of the second divider panel 40b, to the second side panel 14. The second securing tab 41b is hinged to the second divider panel 40b by means of a fold line 42b.
The second partition structure comprises a third divider panel 50a that is struck from material that would otherwise form part of the second partition panel 26b and is hinged thereto by a hinged connection such as a fold lines 55a, 55b. The second partition structure comprises a third securing tab 52a that is hinged to the second partition panel 26b by a hinged connection such as a fold line 51c. A fourth divider panel 50b is hinged to the second partition panel 26b by a hinged connection such as a fold line 51c. The third securing tab 52a is provided to secure a first end of the third divider panel 50a, to the first side panel 18. A fourth securing tab 51b is provided to secure a first end of the fourth divider panel 50b, to the first side panel 18. The fourth securing tab 51b is hinged to the fourth divider panel 50b by means of a fold line 52b.
The first and second partition panels 26a, 26b each form a longitudinal partition within the carrier 90. The first, second, third and fourth divider panels 40a, 40b, 50a, 50b each form a transverse partition within the carrier 90.
The first and second handle panels 30a, 30b comprises a first handle structure H1 and a second handle structure H2 respectively. The first handle structure H1 comprises a first handle opening defined in the first handle panel 30b. The first handle opening is defined in part by a cut line. Optionally, the first handle opening is defined in part by a first handle aperture A2 struck from the first handle panel 30. Optionally, the first handle opening is defined at least in part by a first cushioning flap 62a struck from the first handle panel 30a and hingedly connected thereto by a fold line 65b.
A portion of the first partition panel 26a forms a third handle panel. The portion of the first partition panel 26a which forms the third handle panel comprises a third handle structure A4 defined therein. The third handle structure A4 comprises a third handle opening A4. The third handle opening is defined in part by a cut line. Optionally, the third handle opening is defined by a third handle aperture A4 struck from first partition panel 26a.
Optionally, a portion of the second partition panel 26b forms a fourth handle panel. The portion of the second partition panel 26b which forms the fourth handle panel comprises a fourth handle structure A3 defined therein. The fourth handle structure A3 comprises a fourth handle opening A3. The fourth handle opening is defined in part by a cut line. Optionally, the fourth handle opening is defined by a fourth handle aperture A3 struck from second partition panel 26b.
The first and second partition panels 26a 26b are hinged together along a common top edge by interrupted fold line 31. The fold line 31 may be oriented to extend in a longitudinal direction in a set up carrier 90. The fold line 31 may be substantially parallel to the bottom panel 22 in a setup carrier 90. The fold line 31 may substantially perpendicular to the fold line 29a which hinges the second handle panel 30a to the second partition panel 25.
The blank 10 is arranged so as to comprise a first row or linear series L1 of panels 24a, 16b, 14, 16a, 26a/28 and a second row or linear series L2 of panels 24b, 20b, 18, 20a, 26b. The first row L1 of panels is hinged to the second row L2 of panels by the fold line 33 between the first and second riser panels 24a, 24b; by the fold line 31a between the first and second handle panels 30a, 30b; and by the interrupted fold line 31 between the first and second partition panels 26a, 26b. The outer perimeter of the first and second linear series of panels L1, L2 defines a general footprint of the blank 10. Depending from the second side panel 14, and thus from the first linear series panels L1 is the securing panel 12. Similarly, on the opposite side of the blank 10, the bottom panel 22 extends from the first side panel 18 beyond the second linear series L2.
In the present arrangement, it can be seen that the securing panel 12 is not fully co-extensive with the second side panel 14. Whereas a left-hand edge 69 of the securing panel 12 is laterally spaced from the fold lines 15b at a fourth distance D7 (
Similarly, the bottom panel 22 is not fully co-extensive with the first side panel 18. Whereas a left-hand end edge 63 of the bottom panel 22 is laterally spaced from a notional line aligned with fold line 17b by a small distance (second distance D5; see
As can be seen in
For reference,
By forming the blanks 10 as show in
Referring to
Turning to the construction of the carrier 90 from the blank 10 the carrier 90 may be formed by a series of sequential folding operations in a straight-line machine so that the carrier 90 may not be required to be inverted to complete its construction. Construction of the blank 10 into a carrier 90 is conducted in a usual manner and will therefore only be described briefly.
Glue or other adhesive treatment is applied to the first partition panel 26a in the region of the third handle structure A4. Similarly, glue or other adhesive treatment is applied to the second partition panel 26b in the region of fourth handle structure A3. The first and second handle panels 30a, 30b are folded 180° about fold lines 29b, 29a respectively and into face-contacting and affixed relationship with the first partition panel 26a and second partition panel 26b.
Glue G or other adhesive treatment is applied to the first securing tab 42a, second securing tab 41b, third securing tab 52a, and fourth securing tab 51b. The blank 10 is then folded about the fold lines 25a, 25b so as to bring the first and second securing tabs 42a, 41b into face contacting relationship with the second side panel 14 and secured thereto. The second and third securing tabs 52a, 51b are brought into face contacting relationship with the first side panel 18 and are secured thereto.
The blank 10 is folded about fold lines 23a, 23b, such that portions of the first and second riser panels 24a, 24b are brought into face contacting relationship with the second and fourth end panels 16b, 20b.
Glue or other adhesive treatment is then applied to the second riser panel 24b and to the second partition panel 26b.
Second securing panel 43a may then be folded about fold line 43b and glue or other adhesive treatment applied to second securing panel 43a.
The blank 10 is then folded about fold lines 31a, 33 and 31 to bring the first partition panel 26a into face contacting relationship with the second partition panel 26 and secured thereto. The first riser panel 24a is brought into face contacting relationship with the second riser panel 24b and is secured thereto.
Glue or other adhesive treatment is then applied to bottom panel 22, in alternative embodiments glue may be applied to the securing panel 12 (see
To complete the construction of the blank 10, the bottom panel 22 is folded about fold line 21, such that the securing panel 12 is secured to the bottom panel 22. A flat collapsed carrier is thereby formed; the flat collapsed carrier can be opened into a basket-style article carrier 90, as shown in
Once the carrier 90 is erected, the first and second handle panels 30a, 30b, first and second partition panels 26a, 26b, and first and second riser panels 24A, 24B form a medial partition structure that is disposed medially and substantially within the interior of the carrier 90 defined by the outer wall panels 18, 20b, 16b, 14, 16a, 20a. The medial partition divides the interior of the carrier 90 into two separate cells. The partition panels 40a, 40b 50a, 50b further divide the basket carrier into cells.
As can be seen best in
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 carrier may be configured and arranged to package a different number of articles. In such embodiments, the carrier may comprise an alternative number of partition structures so as to separate adjacent articles. In the first illustrated embodiment, the side and end walls 20, 22, 16/18, 24/26 are substantially of the same height as the bottles contained within the carrier. In other embodiments, a top cover may additionally be applied to the carrier to more fully enclose the tops of the articles, albeit utilising the recess for accessing the carrying handle. In yet other embodiments, the side and end walls 20, 22, 16/18, 24/26 are not substantially of the same height as the bottles contained within the carrier.
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 terms “hinged connection” and “fold line” refer 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. Any reference to “hinged connection” should not be construed as necessarily referring to a single fold line only; indeed, a hinged connection can be formed from two or more fold lines wherein each of the two or more fold lines may be either straight/linear or curved/curvilinear in shape. When linear fold lines form a hinged connection, they may be disposed parallel with each other or slightly angled with respect to each other. When curvilinear fold lines form a hinged connection, they may intersect each other to define a shaped panel within the area surrounded by the curvilinear fold lines. A typical example of such a hinged connection may comprise a pair of arched or arcuate fold lines intersecting at two points such that they define an elliptical panel therebetween. A hinged connection may be formed from one or more linear fold lines and one or more curvilinear fold lines. A typical example of such a hinged connection may comprise a combination of a linear fold line and an arched or arcuate fold line which intersect at two points such that they define a half moon-shaped panel therebetween.
As used herein, the term “fold line” may refer to one of the followings: 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, a line of aligned slits, a line of scores and any combination of the aforesaid options.
It should be understood that hinged connections 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.
Number | Name | Date | Kind |
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3794210 | Stout | Feb 1974 | A |
3917059 | Wood | Nov 1975 | A |
4000813 | Stout | Jan 1977 | A |
4117925 | Wood | Oct 1978 | A |
4480746 | Wood | Nov 1984 | A |
20160318649 | Bundy | Nov 2016 | A1 |
Number | Date | Country | |
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20190055071 A1 | Feb 2019 | US |
Number | Date | Country | |
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62547921 | Aug 2017 | US |