This application relates generally to a display assembly that can be configured to accommodate different sizes of individual product display bins.
As known, display assemblies are used to hold products in many different establishments. Retail establishments, for example, often utilize display assemblies to hold pulls, handles, and other types of hardware products. A single display assembly typically includes multiple individual display bins that each hold a particular type of product. As known, sales of products fluctuate over time. Accordingly, the retail establishment may desire to adjust the amount and types of products displayed within their single display assemblies.
In some prior art examples, the retail establishment devotes additional bins within a display assembly to displaying a particular product as demand for that product increases. However, placing the same product into multiple separate bins within the display assembly tends to confuse and frustrate the customer, which can reduce sales. In other examples, the display assembly is reconfigured to accommodate larger bins for the product as demand for the product increases. Existing approaches to reconfiguring the display assembly are time consuming and involve substantial modifications to the display assembly.
An example configurable display assembly includes a housing having a first wall, an opposing second wall, and at least one divider movable between an engaged position and a disengaged position. The divider spans from the first wall to the second wall when in the engaged position. At least one of the housing or the divider flexes to establish clearance for moving the divider to the engaged position. The housing and the divider establish at least one first bin receiving area when the divider is in the engaged position. The housing establishes a second bin receiving area when the divider is in the disengaged position. The second bin receiving area is larger than the first bin receiving area.
An example method of installing a display bin divider includes inserting a first end of a divider into an aperture established in a first wall of a display bin and then rotating the divider relative to the first wall about the first end. A second wall of the display bin is then flexed away from the first wall to provide clearance for moving at least one tab on an opposing second end of the divider into a position for insertion into a corresponding aperture in the second wall.
These and other features of the present invention can be best understood from the following specification and drawings, the following of which is a brief description.
Referring to
In this example, the housing 14 of the display bin assembly 10 establishes a first bin receiving area 30 having a width W1. The housing 14 and the divider 26 establish two second bin receiving areas 34 each having widths W2, which, in this example, is approximately half the width W1. The bin receiving area 30 is able to accommodate a wider display bin than each of the bin receiving areas 34. As can be appreciated, moving a second divider (not shown) to an engaged position within the first bin receiving area 30 would divide the first bin receiving area 30 into two smaller bin receiving areas having widths W2.
Referring now to
The divider 26 is in installing positions as the divider 26 moves between the engaged position and the disengaged position. The installing positions, in this example, include moving the divider 26 along path 1 to a position between the first wall 18 and the second wall 22. The divider 26 is inserted at an angle θ relative to the first wall 18 that is less than 90° in this example. Angling the example divider 26 relative to the first wall 18 prevents a leading edge of the second wall 22 from contacting the tabs 46 or a leading edge of the first wall 18 from contacting the curved extension 38 as the divider 26 moves in direction 1, which would block further movement of the divider 26. Moving the divider 26 along this path results in the apertures 42 receiving the corresponding curved extensions 38. Because the curved extensions 38 are curved, the apertures 42 able to receive the curved extensions 38 even though the remaining portions of the divider 26 are angled relative to the first wall 18.
In another installing position, the divider 26 is then rotated along path 2 about the curved extensions 38. The divider 26 is so long that the tabs 46 contact the second wall 22 after sufficient rotation. Continuing to rotate the divider 26 increases the distance between the first wall 18 and the second wall 22 by flexing the second wall 22 relatively away from the first wall 18 in direction 3. Flexing the second wall 22 establishes clearance enabling continued rotation of the divider 26 along path 2 until the tabs 46 are aligned for insertion into the apertures 50. Once aligned, the apertures 50 receive the tabs 46 as the second wall 22 slips back toward the first wall 18 in direction 4. The divider 26 is then in the engaged position with the housing 14 as shown in
In this example, the housing 14 includes a plurality of additional walls 54 that connect the first wall 18 to the second wall 22. The additional walls 54 strengthen the housing 14. The additional walls 54, the first wall 18, and the second wall 22 extend away from a base 58 or back wall. The base 58 also provides a mounting location for a cleat 62 that establishes a groove 66. When the divider 26 is in the engaged position, the groove 66 receives a portion of the divider 26. The cleat 62, a type of alignment feature, assists in holding the divider 26 in the engaged position.
In this example, a portion of the cleat 62 has a ramp profile 70. As the divider 26 moves along path 2 to the engaged position, a back edge portion 74 of the divider 26 moves against this ramp profile 70 and forces the base 58 to flex away from the divider 26 in direction 5. After sufficient movement along path 2, the back edge portion 74 aligns with the groove 66, which allows the divider 26 to slip into the groove 66 as the base 58 returns to an unflexed position.
In this example, the housing 14 comprises a plastic polystyrene material to accommodate flexing type movements of the second wall 22 and the base 58. In another example, the housing 14 comprises a more ridged material, and the divider 26, rather than the base 58, flexes as it moves to an engaged position. In such an example, the divider 26 comprises a plastic polystyrene material or another material suitable for enabling flexing.
The example tabs 46 each include a contact face 78 that contacts the second wall 22 as the divider 26 moves along path 2. In this example, the contact face 78 is not rounded, however other examples may include a rounding the contact face 78 to facilitate movement of the divider 26 along path 2.
In one example, removing the divider 26 enables a user to reconfigure the display bin assembly 10 of
Although an embodiment of this invention has been disclosed, a worker of ordinary skill in this art would recognize that certain modifications would come within the scope of this invention. For that reason, the following claims should be studied to determine the true scope and content of this invention.
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2633605 | Nov 2009 | CA |
Number | Date | Country | |
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20100231099 A1 | Sep 2010 | US |