The present application pertains to paperboard containers including cellular back and side walls with reinforced corners for improved stacking strength.
When displaying items in bulk, it can be beneficial to have a container, tray, or bin with a low front wall that allows a customer to view and retrieve products from the container. However, when made from materials such as corrugated paperboard, such trays tend to suffer from poor stacking strength, limiting the number of trays that can be stacked and/or the type, size, weight, etc., of the products that can be accommodated. Existing trays can also be laborious to assemble because multiple folding actions are required to erect the various walls, particularly the rear and side walls. Accordingly, there exists a need for improved trays for storing and displaying items.
It can be desirable to have a tray used for product display purposes with enhanced stacking or vertical loading strength to support the stacking of loads, such as from other trays.
It can be also desirable to provide a tray comprising cellular back and side walls, a front wall and a bottom. With reference to the back and side walls, the term “cellular” refers to respective side and back walls having inner and outer spaced apart wall panels with a gap therebetween. Desirably the front wall is shorter than the back wall so that product on the tray is readily visible by, for example, a customer.
The trays described herein can be used in displaying a myriad of merchandise types and can be particularly useful in club and discount store applications.
By providing a tray with design features that enhance stacking strength, for a given loading, thinner paperboard material can be used for the tray while still supporting the same load without being crushed. The use of thinner material reduces the cost of the tray.
The description below is with respect to an example of a four-sided tray. The tray may have three, five or more sides and still include the features, such as the reinforced corner features described herein.
In a representative embodiment, a tray comprises a back wall, at least two side walls, a front wall, and a bottom. The side walls each comprise an inner side wall panel and an outer side wall panel, a gap being provided between the inner and outer side wall panels. The back wall comprises an outer back wall panel and an inner back wall panel, a gap being provided between the inner back wall panel and the outer back wall panel. The inner back wall panel comprises first and second side edges, a top edge, and a bottom edge. A first of the inner side wall panels comprises a back edge, a front edge, a top edge, and a bottom edge. A multilayered corner reinforcing structure couples the back edge of the first inner side wall panel to the first side edge of the inner back wall panel at a first corner of the tray.
In any or all of the disclosed embodiments, the multilayered corner reinforcing structure is a double-layered corner reinforcing structure.
In any or all of the disclosed embodiments, the multilayered corner reinforcing structure comprises a reinforcing panel folded between the first inner side wall panel and the inner back wall panel.
In any or all of the disclosed embodiments, the reinforcing panel abuts an interior of the first corner.
In any or all of the disclosed embodiments, the reinforcing panel comprises a first reinforcing panel portion coupled to the back edge of the first inner side wall panel and a second reinforcing panel portion coupled to the first reinforcing panel portion and to the first side edge of the inner back wall panel. The first and second reinforcing panel portions extend outwardly from the respective first inner side wall panel and the inner back wall panel toward the first corner.
In any or all of the disclosed embodiments, the first reinforcing panel portion has first and second surfaces on opposite sides of the first reinforcing panel portion, the second reinforcing panel portion has first and second surfaces on opposite sides of the second reinforcing panel portion, and the first surface of the first reinforcing panel portion faces the first surface of the second reinforcing panel portion.
In any or all of the disclosed embodiments, the first surface of the first reinforcing panel portion abuts the first surface of the second reinforcing panel portion.
In any or all of the disclosed embodiments, the first and second reinforcing panel portions are coupled together along an interior of the first corner.
In any or all of the disclosed embodiments, the first reinforcing panel portion extends at an angle of 45° from the first corner and the second reinforcing panel portion extends at an angle of 45° from the first corner.
In any or all of the disclosed embodiments, the at least two side walls comprise a first side wall and a second side wall, the first inner side wall panel is part of the first side wall, the second side wall comprises a second inner side wall panel, and the first reinforcing panel portion extends between the inner back wall panel and the first inner side wall panel of the first side wall and couples the inner back wall panel to the first inner side wall panel. The second reinforcing panel portion extends between the inner back wall panel and the second inner side wall panel of the second side wall and couples the inner back wall panel to the second inner side wall panel.
In any or all of the disclosed embodiments, there are at least two back corners of the tray and at least two such multilayer corner reinforcing structures, one multilayer corner reinforcing structure being located at each of such corners.
In any or all of the disclosed embodiments, a first outer side wall panel, and not the first inner side wall panel, has a flap coupled to a front edge of the outer side wall panel, the flap including a portion insertable between first and second front wall panel portions that are folded to form a front wall of the tray.
In any or all of the disclosed embodiments, both a front edge of a first outer side wall panel and the front edge of the first inner side wall panel include flaps projecting outwardly therefrom along the front of the tray, and wherein only the outer of said flaps has a portion which is inserted between first and second front wall panel portions of the tray.
In any or all of the disclosed embodiments, the inner side wall panels each comprise a tab or section that is adhesively secured to a respective bottom-forming panel coupled to a lower edge of the adjacent outer side wall panel.
In any or all of the disclosed embodiments, the bottom-forming panels each comprise a tuck portion inserted below the bottom edge of the inner back wall panel and into the gap between the inner and outer back wall panels.
In any or all of the disclosed embodiments, the inner back wall panel comprises a tab or section that is adhesively secured to a bottom-forming panel that is coupled to a lower edge of the outer back wall panel.
In another representative embodiment, a tray comprises a back wall, at least two side walls, a front wall, and a bottom. The side walls each comprise an inner side wall panel and an outer side wall panel, a gap being provided between the inner and outer side wall panels. The back wall comprises an outer back wall panel and an inner back wall panel, a gap being provided between the inner back wall panel and the outer back wall panel. The inner back wall panel comprises first and second side edges, a top edge, and a bottom edge. A first of the inner side wall panels comprises a back edge, a front edge, a top edge, and a bottom edge. A corner reinforcing structure couples the back edge of the first inner side wall panel to the first side edge of the inner back wall panel at a first corner of the tray. The corner reinforcing structure comprises a first reinforcing panel portion coupled to the back edge of the first inner side wall panel, a second reinforcing panel portion coupled to the first reinforcing panel portion and to first side edge of the inner back wall panel, the first and second reinforcing panel portions extending outwardly from the respective first inner side wall panel and the inner back wall panel toward the first corner.
In any or all of the disclosed embodiments, the first reinforcing panel portion has first and second surfaces on opposite sides of the first reinforcing panel portion, the second reinforcing panel portion has first and second surfaces on opposite sides of the second reinforcing panel portion, and the first surface of the first reinforcing panel portion faces the first surface of the second reinforcing panel portion.
In any or all of the disclosed embodiments, the first surface of the first reinforcing panel portion abuts the first surface of the second reinforcing panel portion.
In any or all of the disclosed embodiments, the first and second reinforcing panel portions abut the interior of the first corner.
In another representative embodiment, a tray comprises a back wall, first and second side walls, a front wall, and a bottom. The first and second side walls each comprise an inner side wall panel and an outer side wall panel with a gap between the inner and outer side wall panels. The back wall comprises an outer back wall panel and an inner back wall panel, a gap being provided between the inner back wall panel and the outer back wall panel. The inner back wall panel comprises first and second side edges, the inner side wall panel of the first side wall comprises a back edge and a front edge, and the inner side wall panel of the second side wall comprising a back edge and a front edge. The inner back wall panel is coupled to the inner side wall panel of the first side wall by a first reinforcing panel extending between the inner back wall panel and the inner side wall panel of the first side wall, and the inner back wall panel is coupled to the inner side wall panel of the second side wall by a second reinforcing panel extending between the inner back wall panel and the inner side wall panel of the second side wall.
In another representative embodiment, a tray comprises a back wall, first and second side walls, a front wall, and a bottom. The first and second side walls each comprise an inner side wall panel and an outer side wall panel with a gap between the inner and outer side wall panels. The back wall comprises an outer back wall panel and an inner back wall panel, a gap being provided between the inner back wall panel and the outer back wall panel. The inner back wall panel comprises first and second side edges. The inner side wall panel of the first side wall comprises a back edge and a front edge. The inner side wall panel of the second side wall comprises a back edge and a front edge. A first multilayered corner reinforcing structure couples the back edge of the inner side wall panel of the first wall to the first side edge of the inner back wall panel at a first corner of the tray, and a second multilayered corner reinforcing structure couples the back edge of the inner side wall panel of the second side wall to the second side edge of the inner back wall panel at a second corner of the tray.
The foregoing and other objects, features, and advantages of the disclosed technology will become more apparent from the following detailed description, which proceeds with reference to the accompanying figures.
The trays/containers/bins of the embodiments disclosed herein, referred to hereinafter as trays, can be formed from a single piece, or unitary integrated, paperboard blank. The blank can be corrugated paperboard comprising at least one corrugated layer between paper sheets. For increased vertical stacking strength, the corrugations of the portions of the blank that form side walls and a back wall of the tray are desirably configured to extend in an upright, and more desirably a vertical direction, from the bottom of the tray in the assembled tray.
Trays in accordance with this disclosure can comprise cellular side walls and a cellular back wall. That is, as explained below, the side walls can each comprise an outer side wall panel and an inner side wall panel. The inner and outer side wall panels are opposed to one another and are spaced apart to provide a gap or cell therebetween. Desirably the inner and outer side wall panels are parallel to one another and are upright, and most desirably vertical, extending upwardly from the tray bottom, of the finished tray. In addition, the tray back wall also desirably comprises an outer back wall panel and an inner back wall panel. The inner and outer back wall panels are opposed to one another and are spaced apart to provide a gap or cell therebetween. Desirably the inner and outer back wall panels are parallel to one another and are upright, and most desirably vertical, extending upwardly from the tray bottom, of the finished tray.
A rear/back side edge of the outer side wall panel of the first side wall can be coupled to a first side edge of the outer rear wall panel at a first outer tray corner. A rear side edge of the outer side wall panel of the second side wall can be coupled to a second side edge of the outer rear wall panel at a second outer tray corner. A first inner corner reinforcing panel structure can couple a rear side edge of an inner side wall panel of the first wall to a first side edge of the inner back wall panel. A second inner corner reinforcing panel structure can couple a rear side edge of an inner side wall panel of the second side wall to a second side edge of the inner back wall panel. In the constructed trays, the corner reinforcing structures can provide a plurality of multilayered, upright walls at the rear corners of the trays and can enhance the vertical strength of such corners.
For example, in certain embodiments the corner reinforcing structures can comprise reinforcing panels folded into two, three, four, five panel sections, or more. In certain embodiments, the reinforcing panel sections can be folded over alternatingly in the manner of a fan or a bellows. These upright, multilayered wall structures can be received in the outer corners formed by the outer side wall panels and the outer back wall panel, and can extend diagonally, or at some other angle, away from the adjacent outer corners of the tray (e.g., toward the interior of the tray). In certain embodiments, the reinforcing corner structures described herein can provide added strength to the corners in, for example, the direction of the flutes/corrugations of the paperboard. This can allow multiple trays loaded with product to be stacked on top of one another without buckling at the corners.
These corner reinforcing structures, by coupling the inner side wall panels and inner back wall panel together, can also facilitate the assembly of the container. For example, the corner reinforcing structures and the inner panels of the first and second side walls and the back wall can be folded over together to overlay the respective outer side wall panels and outer back wall panel without having to account for separated inner side wall and back wall panels. It should be noted that the same corner reinforcing structures can be provided at other corners of a tray or container, such as at the front corners of a tray. However, in the illustrated exemplary embodiments, a different corner structure is provided at the front corners of the tray.
An exemplary tray 10 in accordance with a first embodiment of this disclosure is shown in
The tray 10 can be formed from the single piece blank 17 shown in
In the design of
Referring to
The illustrated tray comprises an outer back wall panel 19, an outer first or right-side wall panel 12, and an outer second or left-side wall panel 14. Respective right-angled outer box corners 11, 13 are present between panels 19 and 12, and between panels 19 and 14.
An inner back wall panel 16 is provided with an outer wall spacer panel section 18 between the inner back wall panel 16 and the outer back wall panel 19 that couples these two outer wall panel sections together. When assembled, a glue flap 20 extending outwardly from the upper edge of the inner back wall panel 16 ends up secured, such as by a glue line 22, to an interior surface of a bottom panel 24. The bottom panel 24 desirably is coupled to and extends from the lower edge 26 of the outer back panel 19. The glue line 22 can be spaced inwardly from the edge 26 so that a gap exists between the outer back wall panel 19 and the glue line. This gap can be adjusted together with the width of the panel section 18 such that a gap or cell is provided between the outer and inner back wall panels 19 and 16 when erected to form the back wall 23. In certain embodiments, these panels 19, 16 can be parallel or substantially parallel to one another, spaced apart, and vertical or substantially vertical in the assembled tray. The fold line between the glue flap 20 and the inner back wall panel 16 can be the lower/bottom edge of the inner back wall panel 16 in the assembled tray. The fold line between the panel section 18 and the inner back wall panel 16 can be the upper/top edge of the inner back wall panel 16 in the assembled tray.
The illustrated tray also comprises an inner first or right-side inner wall panel 36. A first side wall spacer panel section 38 can be provided between the first inner wall panel 36 and the first outer wall panel 12 and couples the panel sections 12, 36 together. When assembled, the fold line between the panel 36 and the spacer panel section 38 can be the top edge of the inner side wall panel 36. When assembled, a glue flap 40, extending outwardly from the upper edge (e.g., a bottom edge of the panel in the erected tray) of the inner side wall panel 36 ends up secured, such as by a glue line 42, to an interior surface of a bottom-forming panel 44. The bottom-forming panel 44 can be coupled to and extend from a lower edge 45 of the outer side wall panel 12. The glue line 42 can be spaced inwardly from the edge 45 so that a gap exists between the outer side wall panel 12 and the glue line. This gap can be adjusted together with the width of the panel section 38 such that a gap or cell is provided between the outer and inner side wall panels 12 and 36 when erected to form the first side wall 25. In certain embodiments, the panels 12, 36 can be parallel or substantially parallel to one another, spaced apart, and vertical or substantially vertical in the assembled tray.
In the assembled container the bottom-forming panel flap 44 desirably overlays at least a portion of the bottom panel 24.
A cutout 50 can be provided between spacer panels 18 and 38. The cutout 50 can be triangular with an apex of the triangle intersecting the edge 11 between the outer panels 19 and 12. In addition, a second cutout 53 can be provided between glue tabs or sections 20, 40. This second cutout 53 can be trapezoidal. These cutouts can facilitate folding of the inner wall panels such that adjacent side edges of the inner wall panels 16 and 36 are adjacent to, and can abut, one another in the assembled container.
An exemplary corner forming or corner reinforcing structure between inner back wall panel 16 and inner side wall panel 36 is indicated generally at 52 in
The exemplary assembled corner is best seen in
In addition, the respective interior surfaces of the reinforcing panel portions 59 and 61 are shown abutting one another with side edges of the reinforcing panel portions abutting the interior of the corner 11. For example, with reference to
As can be seen in
Referring again to
The left-side tray components are mirror images of the right-side tray components. For convenience, each of the left-side components is given the same number plus a prime (′) designation as the number of the corresponding right-side component and will not be discussed further. Accordingly, the corner 13 can comprise a multilayer corner reinforcing structure formed by the reinforcing panel 55′ similar to the reinforcing structure of the corner 11.
The front of the tray is formed by a first outer front panel portion/section 80 coupled to the front edge of the bottom panel 24 by a fold line 81 and by a second inner front panel portion/section 86 joined to the front panel portion 80 by a pair of spaced apart fold lines 82, 84. Optional projecting tabs 90, 92 of front panel portion 86 can be inserted into respective slots 94, 96 when the front wall 21 of the tray is assembled. The projecting portion 66 of the right-side flap 62 is inserted between the front panel portions 80, 86 in the assembled tray.
With reference to
The various panel sections that fold relative to one another desirably are joined together by weakened lines. The weakened lines can be formed such as by creases, perforations, combinations of slits separated by lands and/or score lines. In
In
The embodiment of
Additionally, when the front wall 21 is assembled, the panel 86 can abut the panels 110 and 110′. In certain embodiments, the panel 86 can abut the edges of the panels 110 and 110′ such that the panel 86 is coplanar with the panels 110 and 110′. Thus, the panel 86 can form a corner with each of the panels 110 and 110′. As noted above, because only the portions 66 and 66′ of the L-shaped flaps 62 and 62′ are received between the panels 80 and 86 of the front wall 21, the panel 86 does not bulge inwardly into the tray area, and the tray can snugly/tightly receive product(s) between four straight walls.
The embodiment of
As noted above, the tray embodiments described herein can be assembled from blanks comprising a single piece of material, such as corrugated paperboard/containerboard having one or more face sheets with a corrugated or fluted layer therebetween. The trays can also comprise any of a variety of other cellulosic fiber-based materials/cellulose-based materials, such as linerboard, kraft paper, multi-ply or single ply sheet materials, and the like.
One or more of the tray embodiments described herein can provide significant advantages over existing tray designs. For example, the multilayered corner reinforcing structures described herein can improve the vertical load-bearing capability of the trays, allowing multiple loaded trays to be stacked without buckling. Trays including the multilayered corner reinforcing structures described herein can also meet specified stacking strength requirements with wall panels that are thinner than traditional designs, thereby reducing material consumption and cost. Additionally, because the outer wall panels of the side walls and the back wall are coupled together by the reinforcing panels, all of the outer wall panels can be folded over in a single step during tray construction. This reduces the number of folding steps from three in existing designs where the outer wall panels are not coupled together, to a single folding step, thereby shortening assembly time.
Throughout this disclosure, when a reference is made to a first element being coupled to a second element, the term “coupled” is to be construed to mean both direct connection of the elements as well as indirect connection of the elements by way of one or more additional intervening elements. Also, the singular terms “a”, “and”, and “first”, mean both the singular and the plural unless the term is qualified to expressly indicate that it only refers to a singular element, such as by using the phase “only one”. Thus, for example, if two of a particular element are present, there is also “a” or “an” of such element that is present. In addition, the term “and/or” when used in this document is to be construed to include the conjunctive “and”, the disjunctive “or”, and both “and” and “or”. Also, the terms “includes” and “has” have the same meaning as “comprises” and the terms “including” and “having” have the same meaning as “comprising”. The terms end, side, top and bottom are used for convenience with reference to the tray being oriented with the bottom surface of the bottom wall on a support surface such as the top of another box or tray, or other support such as another container or pallet. Due to manufacturing tolerances, box dimensions are typically specified to the nearest 1/32nd of an inch (e.g. plus or minus 1/32nd of an inch). Therefore, terms such as equal, the same, vertical and the like, unless qualified by the term “exactly”, are met if within these manufacturing tolerances. The scope of this disclosure includes any features disclosed herein combined with any other features disclosed herein, unless physically impossible.
Although the operations of some of the disclosed embodiments are described in a particular, sequential order for convenient presentation, it should be understood that this manner of description encompasses rearrangement, unless a particular ordering is required by specific language set forth herein. For example, operations described sequentially may in some cases be rearranged or performed concurrently. Moreover, for the sake of simplicity, the attached figures may not show the various ways in which the disclosed components can be used in conjunction with other components.
In the description, certain terms may be used such as “up,” “down,” “upper,” “lower,” “horizontal,” “vertical,” “left,” “right,” and the like. These terms are used, where applicable, to provide some clarity of description when dealing with relative relationships. But, these terms are not intended to imply absolute relationships, positions, and/or orientations. For example, with respect to an object, an “upper” surface can become a “lower” surface simply by turning the object over. Nevertheless, it is still the same object.
Having illustrated and described the principles of this technology with reference to exemplary embodiments, it should be apparent to those of ordinary skill in the art that the embodiments may be modified in arrangement and detail without departing from the principles of this disclosure. All such modifications are encompassed in this disclosure. We therefore claim all that comes within the scope and spirit of the following claims and their equivalents.
The present application claims the benefit of U.S. Provisional Application No. 62/958,882, filed on Jan. 9, 2020. The entire disclosure of U.S. Provisional Application No. 62/958,882 is incorporated herein by reference in its entirety.
Number | Name | Date | Kind |
---|---|---|---|
7004379 | Holdsworth | Feb 2006 | B2 |
7708187 | Keefe, Jr. et al. | May 2010 | B2 |
7748604 | Keefe, Jr. et al. | Jul 2010 | B2 |
8864014 | Keefe | Oct 2014 | B2 |
9205947 | Waldschmidt | Dec 2015 | B1 |
20030141356 | Sheffer | Jul 2003 | A1 |
20080078821 | Keefe | Apr 2008 | A1 |
Entry |
---|
Stackable Tray Design—2016. |
Number | Date | Country | |
---|---|---|---|
62958882 | Jan 2020 | US |