BACKGROUND
It is often desirable to serve a large quantity of containers, such as beverage and foodstuff containers, in a chilled condition. It may be desirable or necessary to chill such containers at locations or events for which there is little or no access to refrigerators or freezers, or at events for which it is not desirable to use refrigerators or freezers. For example, a large quantity of beverage and foodstuff containers may be served at parties, cookouts, picnics or vacation spots where it is desired to chill the containers for an extended period of time. In such cases, it is customary to place the containers in a cooler containing ice, which often requires the containers to be removed from their original packaging. In some cases, it would be advantageous to be able to chill containers in their original packaging without having to provide a separate cooler.
In view of the above, it is desirable to provide a carton that is convertible from a first configuration for holding containers during storage and/or transport to a second configuration in which the carton forms a cooler configured to receive ice for chilling and serving the containers.
SUMMARY
The disclosure is directed to a carton suitable for holding a plurality of containers and convertible to a configuration suitable for functioning as a cooler.
According to an embodiment, a carton can be converted from a first configuration, in which the carton is a substantially parallelepipedal structure, to a second configuration, in which the carton forms an open-top structure. When the carton is in the first configuration, the carton can comprise a first side panel, a second side panel opposite the first side panel, a bottom panel, a top panel, a first end panel, and a second end panel opposite the first end panel. The top panel can comprise a first outer top panel section foldably connected to the first side panel, a second outer top panel section foldably connected to the second side panel, and at least one central top panel section extending between and detachably connected to the first outer top panel section and the second outer top panel section. When the carton is in the second configuration, the at least one central top panel section is detached from the first outer top panel section and the second outer top panel section and forms a handle configured for carrying the carton. In the second configuration, the first outer top panel section and the second outer top panel section can be folded outwardly to extend upwardly from the first side panel and the second side panel, respectively, thereby forming an open top of the carton, with the handle extending across the open top.
According to an embodiment, a carton can comprise a first side panel, a second side panel opposite the first side panel, a bottom panel, a top panel, a first end panel, and a second end panel opposite the first end panel. The first end panel can include a first upper end closure flap overlapping a first lower end closure flap. The second end panel can include a second upper end closure flap overlapping a second lower end closure flap. A handle can extend in the top panel and can include first and second end portions in the first and second upper end closure flaps, respectively. The handle can be detachable from the top panel, and the first and second end portions of the handle can be at least partially detachable from the first and second upper end closure flaps, respectively.
A blank for forming a carton is also disclosed.
Other features, aspects, and embodiments will be apparent from the following description and accompanying figures.
BRIEF DESCRIPTION OF THE DRAWING FIGURES
FIG. 1 is a plan view of a carton blank according to an embodiment of this disclosure, with an outer or print side of the blank facing upwardly.
FIG. 2 shows the carton blank of FIG. 1 with its inner side facing upwardly (outer or print side facing downwardly).
FIGS. 3-15 illustrate, in one form, a series of steps carried out in erecting a carton from the blank of FIGS. 1 and 2.
FIG. 16 shows the carton fully erected in a first configuration.
FIGS. 17-19 illustrate, in one form, a series of steps carried out in opening the erected carton and converting the carton to a second configuration forming a cooler for chilling and dispensing containers.
DETAILED DESCRIPTION
The disclosure generally relates to cartons suitable for storing and dispensing articles such as, for example, beverage containers, and methods of erecting such cartons from a carton blank. Articles that can be contained by such cartons include, but are not limited to, petaloid bottle containers, beverage cans, glass or plastic bottles, or other containers such as those used in the packaging of juices and other foodstuffs. For purposes of illustration and not limitation, the detailed description below describes one embodiment of the invention within the context of a carton for beverage cans. However, any other appropriate containers or articles might be substituted for the beverage cans within the scope of the invention. Further, references herein to “end,” “side,” “bottom,” and “top” refer to orientations or positions of elements when the carton is erected and disposed in an upright orientation. The terms “upper,” “lower,” “vertical,” “horizontal,” “lateral,” and “oblique,” and any variations thereof, generally refer to the location and/or orientation of an element or line with respect to a drawing figure in which it appears.
Referring now in more detail to the drawing figures, wherein like reference numerals indicate like parts throughout the several views, FIGS. 1 and 2 illustrate a carton blank 1 from which a carton 400 (FIGS. 15 and 16) can be erected. The blank 1 is shown with its outside or print side up in FIG. 1, and with its inner side facing up in FIG. 2. The blank 1 includes a bottom panel 10, a first side panel 20, a second side panel 30, a first outer top panel section 40, a second outer top panel section 50, a first central top panel section, or handle panel section 60, and a second central top panel section 70. Horizontal fold lines 16, 18 form front and rear edges, respectively, of the panels 10, 20, 30 and the panel sections 40, 50, 60 and 70. The first and second side panels 20, 30 are foldably connected to opposite sides of the bottom panel 10 along vertical fold lines 12, 14, respectively. The first and second outer top panel sections 40, 50 are connected to the first and second side panels 20, 30, respectively, by vertical fold lines 22, 32. The first and second outer top panel sections 40, 50 include respective handle access panels 80, 90 defined by arcuate tear lines 82, 92. The handle access panels 80, 90 include respective finger tabs 84, 94 defined by arcuate tear lines 86, 96 which have endpoints intersecting the arcuate tear lines 82, 92, respectively. The first and second central top panels 60, 70 are connected to the first and second outer top panel sections 40, 50, respectively by tear lines 42, 52, which extend transversely to the fold lines 16, 18.
The panels 10, 20, 30 and the panel sections 40, 50, 60, 70 are substantially rectangular in shape. However, the first and second outer top panels 40, 50 and the first and second central top panel sections 60, 70 are not perfectly rectangular, due to the pattern of the tear lines 42, 52 and exterior side edges 62, 72 of the first and second central top panel sections 60, 70. Specifically, the tear lines 42, 52 include vertically extending central segments 42a, 52a, obliquely extending first end segments 42b, 52b and obliquely extending second end segments 42c, 52c. Similarly, the edges 62, 72 include vertically extending central segments 62a, 72a, obliquely extending first end segments 62b, 72b and obliquely extending second end segments 62c, 72c. The tear line 42 and the outer edge 62 are spaced apart in the first central top panel section 60, with the first end segments 42b, 62b diverging from each other and the second end segments 42c, 62c diverging from each other. Similarly, the tear line 52 and the outer edge 72 are spaced apart in the second central top panel 70, with the first end segments 52b, 72b diverging from each other and the second end segments 52c, 72c diverging from each other. Thus, the end portions of the central top panel sections 60, 70 are wider than the central portions of the central top panels 60, 70.
The blank 1 includes a first bottom end panel 100 foldably connected to a first end of the bottom panel 10 along the fold line 16 and a second bottom end panel 110 foldably connected to a second end of the bottom panel 10 along the fold line 18. The first and second bottom end panels 100, 110 can be rectangular in shape. A first lower gusset 120 is foldably connected to a first side of the first bottom end panel 100 along the fold line 12, and a second lower gusset 140 is foldably connected to a second side of the first bottom end panel 100 along the fold line 14. A third lower gusset 130 is foldably connected to a first side of the second bottom end panel 110 along the fold line 12, and a fourth lower gusset 150 is foldably connected to a second side of the second bottom end panel 110 along the fold line 14. In the embodiment shown, the gussets 120, 130, 140, 150 are substantially triangular in shape.
A first bottom end flap 320 is foldably connected to the first bottom end panel 100 along a horizontal fold line 106. A second bottom end flap 330 is foldably connected to the second bottom end panel 110 along a horizontal fold line 116. As shown in FIG. 1, the first and second bottom end flaps 320, 330 can be rectangular in shape.
The blank 1 further includes a first side end flap 160, a second side end flap 180, a third side end flap 170, and a fourth side end flap 190. The first and third side end flaps 160, 170 are foldably connected to opposite ends of the first side panel 20 along the fold lines 16, 18, respectively. The second and fourth side end flaps 180, 190 are foldably connected to opposite ends of the second side panel 30 along the fold lines 16, 18, respectively.
The first side end flap 160 includes two flap sections 160a, 160b connected by a fold line 161 extending collinearly from the fold line 22. The second side end flap 180 includes two flap sections 180a, 180b connected by a fold line 181 extending collinearly from the fold line 32. The third side end flap 170 includes two flap sections 170a, 170b connected by a fold line 171 extending collinearly from the fold line 22. The fourth side end flap 190 includes two flap sections 190a, 190b connected by a fold line 191 extending collinearly from the fold line 32. The flap sections 160a, 170a, 180a, 190a are foldably connected to respective lower gussets 120, 130, 140, 150 by oblique fold lines 122, 132, 142, 152.
The blank 1 includes a first upper gusset 200, a second upper gusset 220, a third upper gusset 210, and a fourth upper gusset 230. The first and third upper gussets 200, 210 are foldably connected to opposite ends of the first outer top panel 40 along the fold lines 16, 18, and are foldably connected to respective flap sections 160b, 170b of the first and third side end flaps 160, 170 along oblique fold lines 162, 172. The second and fourth upper gussets 220, 230 are foldably connected to opposite ends of the second outer top panel 50 along the fold lines 16, 18, and are foldably connected to respective panel sections 180b, 190b of the second and fourth side end flaps 180, 190 along oblique fold lines 182, 192.
First and second top attachment panels 240, 260 are foldably connected to first ends of the first and second central top panel sections 60, 70, respectively, along the fold line 16. The first and second top attachment panels 240, 260 are foldably connected to the first and second upper gussets 200, 220 along respective fold-and-tear lines 202, 222, which extend collinearly from the tear lines 42, 52, respectively. First and second top attachment flaps 280, 300 are foldably connected to the first and second top attachment panels 240, 260, respectively, along horizontal fold lines 242, 262. The first top attachment panel 240 and the second top attachment flap 300 can include respective adhesive regions 244, 302 on the outer surface of the blank 1.
Third and fourth top attachment panels 250, 270 are foldably connected to second ends of first and second central top panel sections 60, 70 along the fold line 18, and are foldably connected to the third and fourth upper gussets 210, 230 along fold-and-tear lines 212, 232, which extend collinearly from the tear lines 42, 52, respectively. Third and fourth top attachment flaps 290, 310 are foldably connected to the third and fourth top attachment panel 250, 270, respectively, along horizontal fold lines 252, 272. The third top attachment panel 250 and the fourth top attachment flap 310 can include adhesive regions 254, 312 on the outer surface of the blank 1.
FIGS. 3-16 illustrate an example of a suitable method of erecting a carton 400 (FIGS. 15 and 16). Referring to FIG. 3, the first and third top attachment flaps 280, 290 are folded inwardly along respective fold lines 242, 252 into a substantially flat orientation against the first and third top attachment panels 240, 250, respectively, such that the inner surfaces of the first and third top attachment flaps 280, 290 face the inner surfaces of the first and third top attachment panels 240, 250. As shown in FIG. 4, the blank 1 is then folded along the fold line 22 such that the first outer top panel section 40 and the first central top panel section 60 lie substantially flat against a remainder of the blank 1, and the outer surfaces of the first outer top panel section 40 and the first central top panel section 60 face outwardly and the inner surfaces of the first outer top panel section 40 and the first central top panel section 60 face the inner surface of the remainder of the blank 1.
Thereafter, as shown in FIG. 5, the second central top panel section 70, the second outer top panel section 50 and the second side panel 30 are folded inwardly along the fold line 14 into a substantially flat orientation such that the second central top panel section 70 is aligned with the first central top panel section 60, and the inner surface of the second central top panel section 70 faces the outer surface of the first central top panel section 60. In this configuration, the second and fourth top attachment panels 260, 270 are aligned with the first and third top attachment panels 240, 250, respectively. The inner surface of the second top attachment panel 260 is adhesively attached to the outer surface of the first top attachment panel 240 via the adhesive region 244, and the inner surface of the fourth top attachment panel 270 is adhesively attached to the outer surface of the third top attachment panel 250 via the adhesive region 254.
Next, as show in FIGS. 6 and 11, the blank is “opened” into a substantially rectangular tube 2. The tube 2 is formed by folding the blank along the fold lines 12, 14, 22, 32 such that the first and second side panels 20, 30 extend substantially parallel to each other and the top panel sections 40, 50, 60, 70 form a top panel 360 extending substantially parallel to the bottom panel 10, with the top panel 360 and the bottom panel 10 extending substantially perpendicularly to the first and second side panels 20, 30. A plurality of containers C can be loaded into the interior I of the tube 2. The containers C can be cylindrical cans, bottles or other types of containers.
As shown in FIG. 7, the first side end flap 160 is folded inwardly towards the interior I of the tube 2 along the fold lines 16, 122, 162 so as to extend transversely with respect to the first and second side panels 20, 30. The second side end flap 180 is folded inwardly towards the interior I of the tube 2 along the fold lines 16, 142, 182 so as to extend transversely with respect to the first and second side panels 20, 30. The first and second side end flaps 160, 180 also fold slightly along their respective fold lines 161 and 181 during this step. As illustrated in FIG. 8, the first and second lower gussets 120, 140 are folded inwardly and downwardly about the fold lines 12, 122 and the fold lines 14, 142, respectively, such that the inner surfaces of the first and second lower gussets 120, 140 lie substantially flat, facing the inner surface of the first bottom end panel 100.
Next, as shown in FIG. 9, the first bottom end panel 100 and the first bottom end flap 320 are folded inwardly and upwardly about the fold line 16 with respect to the bottom panel 10 such that the first bottom end panel 100 and the first bottom end flap 320 extend transversely between the first and second side panels 20, 30 and the top and bottom panels 10, 360. The first and second lower gussets 120, 140 are simultaneously folded upwardly about respective fold lines 122, 142 and are thereby respectively tucked between the flap section 160a and the first bottom end panel 100, and the flap section 180a and the first bottom end panel 100. The first bottom end flap 320 can then be adhesively attached to the flap sections 160a, 180a such that the first bottom end flap 320 overlies the flap sections 160a, 180a of the first and second side end flaps 160, 180, respectively, and a laterally extending free edge 322 of the first bottom end flap 320 is aligned with the fold lines 161, 181 in the first and second side end flaps, 160, 180. The first bottom end panel 100, the first bottom end flap 320, and the first and second lower gussets 120, 140 thereby form a first lower end closure flap 340.
Still referring to FIG. 9, the flap sections 160b, 190b are folded upwardly along the fold lines 161, 181, respectively, as the first and second upper gussets 200, 220 and the second top attachment panel 240 are folded upwardly about the fold line 16. The second top attachment flap 300 is then folded over the flap sections 160b, 180b along the fold line 262 such that the inner surface of the second top attachment flap 300 contacts the outer surfaces of the flap sections 160b, 190b, and a free lateral edge 304 of the second top attachment flap 300 is aligned with the fold lines 161, 181. The flap sections 160b, 180b are thereby engaged between the second top attachment flap 300 and the first top attachment flap 280 (FIG. 8). The flap sections 160b, 180b can be adhesively attached to the first and second top attachment flaps 280, 300. Thus, the flap sections 160b, 180b, the first and second top attachment panels 240, 260, the first and second top attachment flaps 280, 300 and the first and second upper gussets 200, 220 form a first upper end closure flap 342.
Referring now to FIG. 10, after completing the steps illustrate in FIG. 9, the first upper end closure flap 342 is folded inwardly and downwardly about the fold line 16 so as to extend transversely between the first and second side panels 20, 30 and the top and bottom panels 10, 360. During this folding step, the respective flap sections 160b, 180b of the first and second side end flaps 160, 180 are folded inwardly and downwardly about their respective fold lines 161, 181, and the outer surface of the second top attachment flap 300 is placed against the outer surface of the first lower end closure flap 340. The first upper end closure flap 342 is secured to the first lower end closure flap 340 by adhesive attachment of the second top attachment flap 300 to the first lower end closure flap 340 at the adhesive region 302. Thus, the first upper end closure flap 342 overlaps the first lower end closure flap 340, and the first upper end closure flap 342 and the first lower end closure flap 340 combine to form a first end panel 344 extending transversely between the first and second side panels 20, 30, and the top and bottom panels 360, 10.
The steps illustrated in FIGS. 7-10 are repeated for the opposite end of the tube 2, as will now be described in detail with respect to FIGS. 12-15.
As shown in FIG. 12, the third side end flap 170 is folded inwardly towards the interior I of the tube 2 along the fold lines 18, 132, 172 so as to extend transversely with respect to the first and second side panels 20, 30. The fourth side end flap 190 is folded inwardly towards the interior I of the tube 2 along the fold lines 18, 152, 192 so as to extend transversely with respect to the first and second side panels 20, 30. The third and fourth side end flaps 170, 190 also fold slightly along their respective fold lines 171 and 191 during this step. As illustrated in FIG. 13, the third and fourth lower gussets 130, 150 are folded inwardly and downwardly about the fold lines 12, 132 and the fold lines 12, 152, respectively, such that the inner surfaces of the third and fourth lower gussets 130, 150 lie substantially flat, facing the inner surface of the second bottom end panel 110.
Thereafter, as illustrated in FIG. 14, the second bottom end panel 110 and the second bottom end flap 330 are folded inwardly and upwardly about the fold line 18 with respect to the bottom panel 10 such that the second bottom end panel 110 and the second bottom end flap 330 extend transversely between the first and second side panels 20, 30 and the top and bottom panels 10, 360. The third and fourth lower gussets 130, 150 are simultaneously folded upwardly about respective fold lines 132, 152 and are thereby respectively tucked between the third side end flap 170 and the second bottom end panel 110, and the fourth side end flap 190 and the second bottom end panel 110. The second bottom end flap 330 can then be adhesively attached to the flap sections 170a, 190a such that the second bottom end flap 330 overlies the flap sections 170a, 190a and a laterally extending free edge 332 of the second bottom end flap 330 is aligned with the fold lines 171, 191 in the third and fourth side end flaps, 170, 190. A second lower end closure flap 350 is thereby formed by the second bottom end panel 110, the second bottom end flap 330, and the second and fourth lower gussets 130, 150.
Referring again to FIG. 14, the flap sections 170b, 190b are folded upwardly along the fold lines 171, 191, respectively, as the third and fourth upper gussets 210, 230 and the fourth top attachment panel 270 are folded upwardly about the fold line 18. The fourth top attachment flap 310 is then folded over the flap sections 170b, 190b along the fold line 272 such that the inner surface of the fourth top attachment flap 310 contacts the outer surfaces of the flap sections 170b, 190b, and a free lateral edge 314 of the fourth top attachment flap 310 is aligned with the fold lines 171, 191. The flap sections 170b, 190b are thereby engaged between the fourth top attachment flap 310 and the third top attachment flap 290 (FIG. 13). The flap sections 170b, 190b can be adhesively attached to the third and fourth top attachment flaps 290, 310. Thus, a second upper end closure flap 352 is formed by the flap sections 170b, 190b, the third and fourth top attachment panels 250, 270, the third and fourth top attachment flaps 290, 310 and the third and fourth upper gussets 210, 230.
Turning to FIG. 15, the second upper end closure flap 352 is then folded inwardly and downwardly about the fold line 18 so as to extend transversely between the first and second side panels 20, 30 and the top and bottom panels 10, 360. During this folding step, the respective flap sections 170b, 190b of the third and fourth side end flaps 170, 190 are folded inwardly and downwardly about their respective fold lines 171, 191, and the outer surface of the fourth top attachment flap 310 is placed against the outer surface of the second lower end closure flap 350. The second upper end closure flap 352 is secured to the second lower end closure flap 350 by adhesive attachment of the fourth top attachment flap 310 to the second lower end closure flap 350 at the adhesive region 312. As a result, the second upper end closure flap 352 overlaps the second lower end closure flap 350, and the second upper end closure flap 352 and the second lower end closure flap 350 combine to form a second end panel 354 extending transversely between the first and second side panels 20, 30 and the top and bottom panels 360, 10.
FIG. 16 shows the fully erected carton 400. In this configuration, the carton 400 is generally suitable for storing and shipping the containers C. The carton 400 is parallelpipedal and includes the top panel 360, the bottom panel 10 (see FIGS. 7 and 12), the first and second side panels 20, 30 extending substantially perpendicularly to the top and bottom panels 360, 10, and the first and second end panels 344, 354 extending substantially perpendicularly to the first and second side panels 20, 30 and the top and bottom panels 360, 10. The carton 400 includes a central handle 370 having a central gripping portion 372 extending longitudinally across the top panel 360, a first end portion 374 in the first top end flap 342, and a second end portion 376 in the second top end flap 352 (see FIG. 15). The central gripping portion 372 of the handle 370 is formed by the second center top panel section 70 and the first center top panel section 60 underlying the second center top panel section 70. The first end portion 372 is formed by the second top attachment panel 260 and the first top attachment panel 240, which is positioned behind the second top attachment panel 260. The second end portion 374 is formed by the fourth top attachment panel 270 and the third top attachment panel 250, which is positioned behind the fourth top attachment panel 270. The first and second handle access panels 80, 90 are positioned on opposite lateral sides of the central gripping portion 372 of the handle 370.
FIGS. 17-19 illustrate an example of a suitable procedure for converting the carton 400 to an open-top basket or cooler 500 that is fillable with ice for chilling the containers C therein. Referring to FIG. 17, a person can at least partially separate the finger tabs 84, 94 from the respective handle access panels 80, 90 along the tear lines 86, 96 and/or the tear line segments 42a, 52a of the tear lines 42, 52 using fingers or thumbs, and then grip the handle access panels 80, 90 and at least partially separate the handle access panels 80, 90 from the first and second outer top panel sections 40, 50, respectively, along the respective arcuate tear lines 82, 92 and/or tear line segments 42a, 52a. Separation of the handle access panels 80, 90 from the first and second outer top panel sections 40, 50 leaves respective openings 85, 95 in the first and second outer top panel sections 40, 50 providing access to the handle 370. The openings 85, 95 are illustrated as being substantially semi-circular, however, other shapes are possible by altering the shape of the tear lines 82, 92, for example.
Still referring to FIG. 17, the handle 370 can be separated from the first and second outer top panel sections 40, 50 along the end segments 42b, 42c of the tear line 42 and the end segments 52b, 52c of the tear line 52. The first and second top end flaps 342, 352 can be separated from the first and second bottom end flaps 340, 350 and folded upwardly by breaking the bonds formed at the adhesive regions 302, 312.
Turning now to FIGS. 18 and 19, the first and second upper gussets 200, 220 can be detached from the first and second top attachment panels 240, 260, respectively. Similarly, the third and fourth upper gussets 210, 230 can be detached from the third and fourth top attachment panels 250, 270 respectively. Thus, the handle 370 is separated from portions of the first and second upper closure panels 342, 352 (upper gussets 200, 210, 220, 230, 240), thereby allowing the first and second outer top panel sections 40, 50, and the upper gussets 200, 210, 220, 230, 240 to be rotated outwardly towards the respective side panels 20, 30 to provide an open top T exposing all of the interior I and containers C therethrough. The first and second top attachment flaps 280, 300 remain adhesively attached to the flap sections 160b, 180b of the first and second side end flaps 160, 180, and the third and fourth top attachment flaps 290, 310 remain adhesively attached to the flap sections 170b, 190b of the third and fourth side end flaps 170, 190. As a result, in the configuration of FIGS. 18 and 19, a cooler 500 for chilling and serving the containers C is formed. The cooler 500 includes a substantially flat first side wall 420, a substantially flat second side wall 430 extending substantially parallel to the first side wall 420, a substantially flat first end wall 440 extending substantially perpendicularly to the first and second side walls 420, 430, a substantially flat second end wall 450 extending substantially parallel to the first end wall 440, the bottom panel 10, and the handle 370 extending between the first and second end walls 440, 450 across the open top T.
The first side wall 420 is formed by the first side panel 20 and the first outer top panel section 40 extending substantially vertically above and substantially coplanar with the first side panel 20. The second side panel 30 and the second outer top panel section 50, which extends substantially vertically above and substantially coplanar with the first side panel 30, constitute the second side wall 430. The first end wall 440 is formed by the first lower end closure flap 340, the first and second side end flaps 160, 180, and a portion of the first upper end closure flap 342 (the first and second upper gussets 200, 220 and the first and second top attachment flaps 260, 280). The first and second upper gussets 200, 220, the flap sections 160b, 180b, and the first and second top attachment flaps 260, 280 extend substantially vertically above and substantially coplanar with the first lower end closure flap 340 in the first end wall 440. Similarly, the second end wall 450 is formed by the second bottom end flap 350, the third and fourth side end flaps 170, 190 and a portion of the second upper end closure flap 352 (the third and fourth upper gussets 210, 230 and the third and fourth top attachment flaps 290, 310). The third and fourth upper gussets 210, 230, the flap sections 170b, 180b, and the third and fourth top attachment flaps 290, 310 extend substantially vertically above and substantially coplanar with the second lower end closure flap 350.
The side walls 420, 430 and end walls 440, 450 of the cooler 500 are taller than the side panels 20, 30 and end panels 344, 354 of the carton 400. The interior of the cooler therefore has a depth such that the cooler 500 can be loaded with ice or the like through the open top T for chilling the containers C therein. In order to prevent degradation of the cooler 500 due to the melting of ice contained therein, the inner surface of the blank 1 (FIG. 2), and therefore the inner surfaces of the carton 400/cooler 500, can be coated with a water-proof or water-resistant coating, or my be covered with a water-proof or water-resistant film in a known manner.
Furthermore, the overlapping arrangement of the top panel sections 60, 70 and the attachment of the first and third top attachment panels 240, 250 to the second and fourth top attachment panels 260, 270, respectively, provide the handle 370 with a durable construction. Secure and durable attachment of the handle 370 to the end walls 440, 450 of the cooler 500 is provided by the attachment of the first and second top attachment flaps 280, 300 to the first and second side end flaps 160, 180, and the attachment of the third and fourth top attachment flaps 290, 310 to the third and fourth side end flaps 170, 190.
The containers C illustrated and described herein are cylindrical cans, and are loaded in the carton 400 and cooler 500 in a four-by-five configuration, with each container C resting on its bottom. However, it should be understood that different types of containers can be stored in the carton 400/cooler 500, and different numbers and configurations of containers are possible. Additionally, each of the above described embodiments, which include gussets at the bottom corners that are folded upon forming the carton, are configured to hold liquids, such as water melting from ice used to chill containers C and to keep those liquids from leaking around the gusseted corners. More specifically, these lower gussets ensure that there is a continuous band or strip of paperboard material extending completely around the bottom portion of the cooler that is uninterrupted by discontinuities or glued areas in the paperboard. Employing gussets in this manner is thus useful in keeping water from leaking from the corners of the carton. Further, the interior surfaces of the cooler may be coated with a material that renders the paperboard resistant to absorption of water at least for a reasonable length of time so that water contained in the cooler is not prone to leak through the paperboard during average use.
The foregoing disclosure provides illustrative embodiments of the invention and is not intended to be limiting. As understood by those of skill in the art, the overall invention encompasses other embodiments not specifically enumerated herein. For example, although the carton 400 is shown in the form of a parallelpipedal box, it can alternatively be shaped differently, and likewise the various detachable sections, panel sections, panels and flaps described herein can be shaped and arranged differently.