The present disclosure relates generally to display cartons for containing and displaying products such as in a retail establishment. The present disclosure relates more particularly to an open-top, open-front display carton of the type that frequently is shipped to the retailer pre-loaded with products such that it is merely necessary for the retailer to remove the carton from the shipping container and set the carton on a store shelf.
Because of the speed and ease with which such a display carton can be set up in a retail establishment, a carton of this type is sometimes called a “PDQ”. A common placement for a PDQ is on an end cap at the end of a store aisle. In this usage, the display carton is often relatively wide (in the left-to-right direction) in comparison to its height and depth dimensions. For instance, an exemplary size for a PDQ for an end cap is about 30 inches wide by 14 inches deep (front-to-rear) by 10 or 11 inches high.
In the case of products that have a small base in relation to their height, the products tend to topple over easily. To prevent the products from toppling forward out of a display carton, it is known to incline the floor panel of the carton so that the products are tilted rearwardly toward the rear panel. In many display cartons having an inclined floor panel, the carton also has an additional horizontal bottom wall lying beneath the inclined floor panel. The bottom wall provides the carton with the rigidity needed when shipping the carton, and also forms the base on which the carton is supported on a store shelf.
The present disclosure is directed to a display carton such as a PDQ that is open at the top and front and that has an inclined floor panel. The display carton is “bottomless” in that it does not include any further bottom wall beyond the inclined floor panel. This design saves considerably on total material usage. At the same time, the display carton's construction provides substantial rigidity despite the lack of an additional bottom wall.
In accordance with one embodiment of the invention, the open-top, open-front display carton comprises a floor panel inclined upwardly from a rear edge to a front edge of the floor panel, a front panel joined to the front edge of the floor panel and extending downwardly therefrom to engage a support surface on which the carton is supported, a rear panel joined to the rear edge of the floor panel and extending upwardly therefrom, and a pair of side panel assemblies respectively located proximate opposite side edges of the floor panel. Each side panel assembly has an upper portion that extends upwardly from the respective side edge of the floor panel and a lower portion that extends downwardly from the respective side edge of the floor panel to engage the support surface.
Thus, the display carton is supported on all four sides, by the rear edge of the floor panel, the lower edge of the front panel, and the lower edges of the side panel assemblies.
In one embodiment, each side panel assembly includes an inner side panel integrally connected to either the floor panel along a fold line at the respective side edge of the floor panel or to the rear panel along a fold line at the respective side edge of the rear panel. Each side panel assembly further includes an outer side panel integrally connected (either directly or via an intermediate top panel) to the respective inner side panel along a fold line. The outer side panels are folded outwardly (away from each other) to extend downwardly and outwardly of the inner side panels. The outer side panels form the lower portions of the side panel assemblies that engage the support surface.
In one embodiment, the front panel is integrally connected to the front edge of the floor panel along a fold line therebetween. The front panel can comprise an outer front panel connected to the floor panel along the fold line, and an inner front panel integrally connected along a fold line to a lower edge of the outer front panel. The inner front panel is folded inwardly and upwardly so that it lies against an inwardly facing surface of the outer front panel. An upper edge of the inner front panel defines one or more tabs that fit into one or more slots in the floor panel to lock the inner front panel (and therefore the outer front panel, as well) in place.
In one embodiment, each side panel assembly includes a tab that is engaged between the inner front panel and the outer front panel. The tabs can project from front edges of the outer side panels.
In one embodiment, the display carton is formed as a fold-and-lock carton from a one-piece sheet defining a plurality of panels that are folded relative to one another and locked into position by inter-engagement of locking elements formed in the sheet.
Having thus described the disclosure in general terms, reference will now be made to the accompanying drawings, which are not necessarily drawn to scale, and wherein:
The present invention now will be described more fully hereinafter with reference to the accompanying drawings in which some but not all embodiments of the inventions are shown. Indeed, these inventions may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will satisfy applicable legal requirements. Like numbers refer to like elements throughout.
A blank 10 for making an open-top, open-front display carton in accordance with one embodiment of the invention is depicted in
A first side edge of the floor panel 12 is connected along a fold line 15a to a first inner side panel 16a, which in turn is connected along a fold line 17a to a first outer side panel 18a. Similarly, a second side edge of the floor panel is connected along a fold line 15b to a second inner side panel 16b, which in turn is connected along a fold line 17b to a second outer side panel 18b. The rear edge of the first inner side panel 16a is connected along a fold line 23a to a first rear locking panel 24a, which defines a tab 26a at an edge of the panel opposite from the fold line 23a. Similarly, the rear edge of the second inner side panel 16b is connected along a fold line 23b to a second rear locking panel 24b, which defines a tab 26b. The inner and outer side panels 16a, 18a form a first side panel assembly, and the inner and outer side panels 16b, 18b form a second side panel assembly.
A front edge of the first outer side panel 18a is connected to a front locking panel 28a and a tab 34a; similarly, a front edge of the second outer side panel 18b is connected to a front locking panel 28b and a tab 34b. The rear edges of the outer side panels 18a,b are respectively connected to tabs 32a,b.
With reference to
As depicted in
The tabs 32a,b on the outer side panels are respectively inserted into slots 33a,b disposed at the rear edges of the inner side panels 16a,b to help lock the outer side panels in place. The front locking panels 28a,b on the outer side panels 18a,b are folded inwardly to lie against the inner surfaces of the inner side panels 16a,b, and tabs on the front locking panels 28a,b are respectively engaged in slots 29a,b defined at the side edges of the floor panel 12 to further lock the outer and inner side panels in place. The tabs 34a,b on the outer side panels 18a,b are engaged between the outer and inner front panels 20, 22.
The carton 40 can be quickly and easily erected from the blank. Once erected, the carton can be pre-loaded with products and placed into a shipping container (possibly along with one or more additional pre-loaded cartons 40) for shipping to the retailer. The retailer can simply open the shipping container, remove the pre-loaded carton 40, and set it on a store shelf.
By virtue of the inclined floor panel 12 of the carton, products displayed in the carton are tipped rearwardly toward the rear panel 14 so they are discouraged from toppling forward out of the carton. Another significant aspect of the display carton is the fact that the outer side panels 18a,b have lower edges that are disposed below (i.e., at a lower vertical level than) the floor panel 12 to engage the support surface. This provides additional support for the carton and is a significant part of the reason why the carton can be made in a large size (e.g., 30″×14″×10.5″) and still have sufficient rigidity to maintain its shape and integrity when fully loaded with products. Furthermore, because of the design of the side panel assemblies, the front panel assembly 20, 22 is not solely responsible for supporting the floor panel 12 in the inclined orientation; indeed, the front panel assembly can be entirely omitted, if desired.
The carton 40 can be formed from various materials. Suitable materials include corrugated cardboard, corrugated plastic, and any other sheet material having sufficient rigidity as well as foldability.
In the illustrated display carton 40, the outer side panels 18a,b have lower edges each of which includes a medial portion shaped generally like a circular arc. These medial portions of the lower edges do not contact the support surface, so that a person can insert his or her fingers in the resulting clearances and readily grasp and pick up the carton. Alternatively, however, the lower edges of the outer side panels could be straight such that they contact the support surface without any substantial clearances therebetween.
As one example of a display carton in accordance with the invention, the floor panel 12 can have a width of about 29.5 inches and a depth of about 14 inches. The rear panel 14 and outer side panels 18a,b can have a height of about 7 to 7.5 inches. The front panel 20 can have a height of about 2.5 inches. The floor panel 12 is inclined at an angle of about 10° relative to a support surface on which the carton is supported.
The dimensions of the carton noted above are only exemplary and are not limiting in any way. Based on the present disclosure, persons of ordinary skill in the art would understand how to modify the dimensions of the panels in various ways to alter the overall shape and size of the carton, and would understand that the particular locking features shown and described herein are not the only way to lock the panels in place, but can be replaced with other locking arrangements.
Although the carton 40 described herein is a fold-and-lock type of carton, the principles of the present invention can be applied to other carton types such as fold-and-glue cartons.
A second embodiment of the invention is illustrated in
While the side panel assemblies in the first embodiment are connected to the opposite edges of the floor panel, in the second embodiment the side panel assemblies are connected to opposite side edges of the rear panel 114. Thus, the blank includes a first inner side panel 116a connected along a fold line to a first side edge of the rear panel 114, and a corresponding second inner side panel 116b connected along a fold line to an opposite second side edge of the rear panel 114. The side panel assemblies are configured such that they are tapered in height from the rear to the front of the display carton. Thus, the inner side panels 116a,b have a maximum height at their rear edges where they connect to the rear panel 114, and a minimum height at their opposite front edges. The upper edge of the first inner side panel 116a is connected along a fold line to a first top panel 117a, and similarly the second inner side panel 116b is connected along a fold line to a second top panel 117b. The opposite edge of the first top panel 117a is connected along a fold line to a first outer side panel 118a; similarly, the opposite edge of the second top panel 117b is connected along a fold line to a second outer side panel 118b.
The outer edge (which becomes the lower edge, when the carton is erected) of the first outer side panel 118a is connected to a tab 132a, and the outer/lower edge of the second outer side panel 118b is connected to a tab 132b. The front edge of the first outer side panel 118a is connected to a tab 134a, and the front edge of the second outer side panel 118b is connected to a tab 134b.
A first intermediate side panel 135a is connected along a fold line to a first side edge of the floor panel 112. The opposite edge of the first intermediate side panel 135a is connected along a fold line to a panel 136a. Similarly, a second intermediate side panel 135b is connected along a fold line to a second side edge of the floor panel 112. The opposite edge of the second intermediate side panel 135b is connected along a fold line to a panel 136b.
To erect the carton 140 (
The inner side panels 116a,b are folded inwardly approximately 90° about the fold lines where they connect to the rear panel 114. The intermediate side panels 135a,b are folded upwardly approximately 90° about the fold lines where they connect to the floor panel 112. The panels 136a,b are folded inwardly approximately 90° about the fold lines where they connect to the intermediate side panels 135a,b.
Next, the top panels 117a,b are folded outwardly approximately 90° about the fold lines where they connect to the inner side panels 116a,b. The outer side panels 118a,b are folded downwardly approximately 90° about the fold lines where they connect to the top panels 117a,b. The tabs 132a,b are respectively inserted into slots 129a,b formed in the intermediate side panels 135a,b adjacent their fold lines with the floor panel. The tabs 134a,b are inserted between the outer and inner front panels 122, 120.
In the erected carton 140, as best seen in
Many modifications and other embodiments of the inventions set forth herein will come to mind to one skilled in the art to which these inventions pertain having the benefit of the teachings presented in the foregoing descriptions and the associated drawings. Therefore, it is to be understood that the inventions are not to be limited to the specific embodiments disclosed and that modifications and other embodiments are intended to be included within the scope of the appended claims. Although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.
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20090308786 A1 | Dec 2009 | US |