This invention relates generally to platforms for supporting and displaying products, and more particularly to modular platforms that can be abutted with one another in various permutations to provide a display of products that cooperate to form numerous three dimensional patterns or shapes.
Platforms supporting and displaying products for purchase are well-known. Such platforms can serve several purposes. For example, one purpose is to provide a slight space between the products and the floor in order to minimize water damage should the floor become wet or to enable air to circulate beneath the products. Another purpose is to dispose the products at an elevated position closer to eye level for enhanced visibility.
A drawback with prior platforms is that such platforms can be extremely heavy and therefore difficult to move. Prior platforms, such as wooden crate platforms, can be an eye sore as well as dangerous to handle because of rough surfaces that can release splinters. Such platforms are typically square or rectangular, and require additional components to interlock adjacent platforms together in order to enhance stability to the overall structure. Further, prior platforms that are significantly larger than the products stacked thereon can be wasteful in consuming floor space when not completely covered with products. Accordingly, it is a general object of the present invention to overcome the above-identified drawbacks of prior display platforms.
A modular display platform comprises at least two sections of substantially the same shape for supporting products such as, for example boxes or crates holding cans of beverages such as soda or beer. More specifically, the number of sections can range, for example, from two to ten. The sections are preferably fabricated from a material including high density polyethylene (HPDE) such as HPDE injection molded plastic. The sections are preferably rectangular and integrally molded with one another to form a unitary structure. Each section is fixedly disposed next to at least one adjacent section in staggered relationship such that a perimeter of the at least two sections cooperate to form a stepped pattern for facilitating the abutting and interlocking of additional platforms at the perimeter. The at least two sections cooperate to include a support surface for products disposed thereon and extends generally over an area bounded by the perimeter. In a preferred embodiment, each section has a width of about 10 inches, a length of about 19 inches, and a height of about 3 inches. Moreover, each section is preferably offset from an adjacent segment by about 4.75 inches in a direction along a length of the sections.
A sidewall is disposed generally along at least a portion of the perimeter and extends in a direction generally transverse to that of the support surface from a proximal end adjacent to the support surface to a distal end having an edge for engaging an external mounting surface. In a preferred embodiment, the sidewall is disposed substantially along the entire perimeter. The support surface and the sidewall cooperate to define a recess in order to reduce the overall weight and cost of the platform.
At least one standoff is disposed within the recess and has a surface extending in a direction generally parallel to that of the sidewall from a proximal end adjacent to the support surface to a distal end for engaging the external surface in order to strengthen the support surface at locations inwardly of the perimeter. In a preferred embodiment, the surface of the standoffs are generally cylindrical and define a generally hollow interior in order to minimize the additional weight and cost of the platform as a result of providing the standoffs.
With reference to
The modular display platform 10 indudes a support surface 14, and one or more sidewalls 16, 16 depending from at least a portion of a perimeter 17 of the support surface. The sidewalls 16, 16 may be used to provide advertisements for products such as those to be displayed on the platform 10. The one or more sidewalls 16, 16 each extend from a proximal end 18 of the sidewall adjacent to the support surface 14 to a distal end 20 of the sidewall at an underside of the platform 10 or side opposing the support surface for engaging an external floor or other surface. Preferably, as shown in the figures, the sidewalls 16, 16 depend from generally the entire perimeter of the support surface to provide strength to the platform 10.
An underside of the platform 10 or side opposing the support surface 14 is preferably generally open-ended such that the distal end 20 of the sidewalls 16, 16 serve to bear the weight of the platform and products to be supported on the platform. In other words, the support surface 14 and the sidewalls 16, 16 cooperate to define a recess or open-ended structure on the underside of the platform 10. The open-ended structure provides a lightweight and inexpensive platform relative to either a solid or hollow platform including a substantial floor surface.
The platform 10 preferably defines a plurality of projections or standoffs 22, 22 disposed within the recess and depending from the support surface 14 inwardly of and generally in the same direction as the one or more sidewalls 16, 16. More specifically, the standoffs 22, 22 each extend from a proximal end 24 of the standoff adjacent to the support surface 14 to a distal end 26 of the standoff at the underside of the platform 10 or side opposing the support surface for engaging an external floor or other surface to assist the distal ends 20 of the sidewalls 16, 16 in bearing the weight of the platform and products supported thereon. The standoffs 22, 22 provide structural integrity to the platform 10 to prevent the support surface 14 from sagging, collapsing or otherwise failing under the weight of several stackable layers of products supported thereon. As shown in
As shown in the figures, the perimeter 17 of the platform 10 has a generally repeatable stepped or zigzagged shape that facilitates the abutting or interlocking together of a plurality of platforms to form an almost endless variety of configurations for visually enhancing the display of products supported on the platforms. More specifically, the perimeter 17 of each platform 10 generally takes the overall form of a plurality of repeatable shapes or sections that are located in side-by-side and slightly staggered relationship to one another. Preferably, the repeatable shapes or sections are rectangles. As shown in
The modular display platform 10 is especially suited for supporting and displaying products for sale such as, for example, beverages either packaged in boxes or openly displayed in crates. For example, each of the sections 28 generally in the form of a rectangle is ideally shaped for accommodating rectangular boxes or cases 30, 30 holding cans of beverages such as soda or beer as shown in
Preferably, each section 28 of the platform 10 is sized and shaped to accommodate two cases or “fridge packs” wherein each fridge pack is sized to be two 12 oz. beverage cans wide by six 12 oz. cans deep. Moreover each section 28 is sized and shaped to accommodate standard industry injection molded two liter crates or trays that hold 8 two liter beverage bottles. In a preferred embodiment, as shown in
Each platform 10 preferably accommodates up to about 80 fridge packs or 30 conventional cases 30, 30 of soda (see
In operation, the perimeter 17 of a plurality of platforms 10 can be abutted or interlocked together in an almost endless variety of ways to form various multiple platform configurations for visually enhancing the display of products supported on the platforms. Moreover, no additional parts are needed to couple adjacent platforms together. The different zigzag configurations of the displayed items resulting from abutting and interlocking the platforms in a variety of ways produces what is called the “dissolve effect”. Consumers first see the graphic panel that is angled directly towards them. Then out of their peripheral vision they catch the next panel towards their side. This can stop them in their tracks and can make them take a step or two back just so that they do not think they have missed anything. An offset of about 4.75 inches per section accommodates an exact full bottle view when two liter trays are stored on the platforms.
Examples of different visually appealing patterns are illustrated. For example, as shown in
As will be recognized by those of ordinary skill in the pertinent art, numerous modifications and substitutions may be made to the above-described embodiment of the present invention without departing from the scope of the invention. For example, platforms having a number of sections other than the four-section platform 10 can be substituted or combined with a four-section platform. The number of sections can typically range from two to ten depending upon the available area for display. For example, a two-section platform 110 is shown in
This application claims the benefit of U.S. Provisional Application Ser. No. 60/459,597 filed on Apr. 2, 2003 entitled “Modular Display Platform”, the disclosure of which is incorporated by reference herein in its entirety.
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Number | Date | Country | |
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20040195191 A1 | Oct 2004 | US |
Number | Date | Country | |
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60459597 | Apr 2003 | US |