The present invention relates to a shelving system carrying a point of purchase display rack with an integral graphic panel metallic supporting frame and, in particular, to improved graphic panels for secure attachment to the display rack, but which can be easily removed as needed.
The prior art display rack includes graphic panels that are mounted to the graphic panel metallic supporting frame of the display rack by means of hardware, such as, metallic strips with apertures for alignment with apertures in the frame and apertures around the periphery of the graphic panels. The graphic panels are maintained in place through the use of threaded members passing through the aligned apertures of the frame, an associated graphic panel, and metallic strip and engaging corresponding wing nuts, for example, whereby the graphic panels are held firmly in position. The graphic panels are typically relatively stiff foam core panels which have a paper or other exterior material on both outer sides where a graphic message may be carried.
A point of purchase display rack such as this, often includes three “embedded” graphic panels forming a background for the point of purchase display rack. Typically, there is a central rear graphic panel and adjacent left and right side graphic panels, each positioned at an angle from the rear graphic panel. Typically, the rear panel is rectangular and the side panels are trapezoidal in shape. Of course, this depends on the display configuration. At the front of the rack an additional panel is often carried in a header portion of the frame. The rack is commonly positioned on the shelving system so that the graphic panels are readily observable to the consumer. As the consumer views the retail items contained in the point of purchase display rack, the graphic panels are situated such that the consumer will be immersed in the visual wrap-around effect of the graphic panels. The graphic panels very often carry a written message or a pictorial representation or both in some way dealing with the items carried by the rack. A rack such this may carry, for example, flooring items such as, elongated vinyl or wood moldings, flooring samples, flooring installation aids video, flooring cleaner and literature. The rack includes a number of bins for holding such flooring items.
Typically, the point of purchase display rack is maintained on a shelf of a shelving system, often referred to as an “H-frame” system such as widely seen at well known home improvement stores. Two or more horizontal shelves are often suspended between series of four vertical supports. The point of purchase display rack usually is carried on a lower shelf with shelving above which may carry other items. The three graphic panel arrangement as discussed above are typically positioned under a shelf directly above and are arranged to the rear and sides of the display rack which is attached to a lower shelf.
The display rack including the graphic panel supporting frame, is generally made of a ferromagnetic material such as steel or the like.
It has been found that with the prior art use of relatively stiff graphic panels and hardware including metallic strips, threaded members and nuts to hold the graphic panels in position, often requires a great deal of time to virtually completely empty a display rack filled with consumer goods to gain access to the graphic panels and the associated hardware when it is desired to change the graphic panels.
In addition it has been found that shipping the relatively stiff prior art graphic panels often may be quite expensive because the size of the panels. Another drawback of such a prior art use of such hardware to maintain the stiff graphic panels in place is its relative complexity.
The present invention is in combination with a common shelving system having a point of purchase merchandise display rack with integral graphic panel metallic supporting frame. Typically, such a shelving system includes modular “H-frame” portions. The modular “H-frame” portions each include pairs of front and rear horizontal shelf supports. The pairs of front and rear horizontal shelf supports are attached to and carried between pairs of vertical uprights. A shelf is carried by one of the pairs of front and rear horizontal supports. The point of purchase merchandise display rack is mounted on the shelf. The point of purchase display rack usually has more than one metallic merchandise carrying bin that is attached to the display rack. The integral graphic panel metallic supporting frame is also attached to the display rack. The integral graphic panel supporting frame usually includes a rear graphic panel supporting structure, a left graphic panel supporting structure and a right graphic panel supporting structure.
The improvement of the present invention in combination with the above-described shelving system includes retrofit pliant graphic panels carrying a graphic message on the front of the panels. The retrofit pliant graphic panels are preferably very supple, and may easily be bent, folded or rolled without breaking or cracking. The retrofit pliant graphic panels of the present invention have U-shaped top clips attached to the back of the graphic panels near the upper edge of the panels. The U-shaped top clips are positioned on the panel so that when the panel is in operable position the clips align with and are configured and sized to securely engage the upper portions of the supporting frame. Also attached to the back of the graphic panels in predetermine position are pliant magnetic strips or tape. The pliant magnetic strips are positioned to align with and operably adhere to the metallic supporting frame or the metallic carrying bins. The present invention provides retrofit pliant graphic panels that may be quickly installed and remain firmly secured to the supporting frame, but that may be quickly detached from the frame to change the graphic message as desired. The retrofit pliant graphic panels may be rolled up or folded for convenience in storage, shipping or installation.
The retrofit pliant graphic panels of the present invention preferably include rear, left and right panels each in operable engagement with the respective rear, left and right graphic supporting structure. The left graphic panel supporting structure and the right graphic panel supporting structure desirably includes portions of certain of the merchandise carrying bins.
Preferably, the back of the left graphic panel has left resilient U-shaped leading edge clips attached to it near the front edge thereof and operably engaging a leading edge of one of the certain merchandise carrying bins. Likewise, the back of the right graphic panel has right resilient U-shaped leading edge clips attached to it near the front edge thereof and operably engaging a leading edge of another of the certain merchandise carry bins.
The left graphic panel supporting structure and the right graphic supporting structure each typically, respectively includes a left side tubular support and a right side tubular support having a rectangular cross-section. The U-shaped top clips of the left side panel have an open side that desirably operably engage the left tubular support and, likewise, the U-shaped top clips of the right side panel have an open side that operably engage the right side tubular support. Preferably, the U-shaped top clips of the left and right side graphic panels are made of a resilient material, such as, plastic. Also, the U-shaped top clips of the left and right side graphic panels are sized to respectively firmly engage the left side and right side tubular supports.
The metallic carrying bins typically further have right and left side metallic side panels. The pliant magnetic strips are attached to the back of the right side graphic panel near the bottom thereof and operably engage the right side metallic side panel. In a similar fashion, the magnetic strips are also attached to the back of the left side graphic panel near the bottom thereof and operably engage the left side metallic side panel.
The rear graphic supporting structure usually has a rectangular metallic rear graphic panel frame. The rectangular rear graphic panel has a top member, a bottom member, left side and right side members. The rear graphic panel desirably has the U-shaped top clips having an open bottom attached to the back of the rear graphic panel near the upper edge thereof and operably engages the top member of the rear graphic panel frame. The rear graphic panel has pliant magnetic strips attached to the back thereof near the bottom and sides of the panel such that the strips operably engage the left side member, right side member and bottom member of the rear graphic panel frame. Other features of the invention are hereinafter discussed in detail.
For a better understanding of the invention, reference may be had to the accompanying drawings exemplary of the invention, in which:
a is a sectional perspective view taken along the line 8a-8a of
b is a sectional perspective view taken along the line 8b-8b of
Referring to
The shelving system 10 as described thus far is conventional,
In a preferred configuration referring to
With reference to
The left graphic panel supporting structure 32 typically has a left side top horizontal tubular support member 76, as shown in
With reference to
Typically, the metallic carrying bins 26 include a right side metallic panel 94 as shown in
The rear graphic panel supporting structure 30 typically has a rectangular metallic graphic panel frame 102, as shown in
With reference to
Preferably, the pliant magnetic strips 54, having the adhesive backing as described above, are attached to the bottom 124 and the sides 126 of the rear graphic panel, as shown in
The present invention utilizes the firm grasping of the two versions of the top U-shaped clips 46, i.e., open bottom clip 47 and open side clip 49, and the leading edge clips 64 together with the magnetic strips 54 to prevent any movement of the graphic panels 56, 58 and 60 due to lateral forces when mounted in position on the supporting frame. Yet the invention allows for quick installation and removal of the panels 56, 58 and 60 without the necessity of removal of all the display items from the display rack 12. The rear graphic panel 56 having the open bottom clips 47 allows the panel 56 to be lowered in a vertical orientation over the top member 104. The magnetic strips 54 magnetically secure the remaining periphery of graphic panel 56 to the metallic bottom member 106, left side member 108 and right side member 110. It has been found that the leading edge clips 64 of the left graphic panel 58 and the right graphic panel 60 are desirably first slipped over the respective leading edges 69, 71 of the merchandise bins 70, 74. Once the leading edge clips 64 are properly positioned, the magnetic strips 54 may be positioned and the open side top clips 47 may be pressed in a sideward manner to engage the left side of the top support member 76 and the right side of the top support member 78. During the removal and installation of the pliant graphic panels 56, 58 and 60, they may be rolled-up or folded as desired to maneuver around most display items, greatly reducing the necessity of having to remove virtually all of the display items as was often necessitated with the prior art configuration. It has been found by using the present invention it enables one person to change out the graphic panels 56, 58 and 60, as opposed to a two person operation with the prior art scheme as previously described. The present invention reduces the time required for the changing of graphic panels from approximately two hours with two people to less than one half hour with one person.
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