US20160242573A1

US20160242573A1 - Shelf management device

Info

Publication number: US20160242573A1
Application number: US15/048,722
Authority: US
Inventors: Sean Christopher Colelman
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-02-19
Filing date: 2016-02-19
Publication date: 2016-08-25

Abstract

The present invention comprises a shelf management device that may be used to organize and secure merchandise on a retail shelf. The device can function as either a shelf divider or a fence and is reusable. The device may have a unitary structure preferably fabricated from plastic and requires no hardware or adhesive for installation. It has a unique arrangement of clips or anchors that engage the perforations formed in a shelf. The anchors may include rounded catches that fit into the perforations and engage the underside of the shelf to keep the device in place. The device can engage various shapes of perforations, including round, square, rectangular or diamond.

Description

CROSS REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of U.S. provisional patent application Ser. No. 62/118,319, filed Feb. 19, 2015, and U.S. provisional patent application Ser. No. 62/151,496, filed Apr. 23, 2015, in accordance with 35 U.S.C. §119(e).

FIELD

The present invention relates to a device for managing products on retail shelving. More specifically, it relates to a reusable shelf management device having a unitary construction and including anchors to mount the device into perforations in the shelving.

BACKGROUND

Various types of shelf management systems exist for organizing and managing merchandise on retail shelving. Such systems include wire or plastic dividers and fences that attach to shelving in various ways. Shelf dividers are barriers installed transversely (i.e., front to back) across a shelf. Dividers may be used to separate merchandise on a shelf or keep products from falling off the end of the shelf. Shelf fences are usually longer than dividers and may be installed along the front edge of the shelf to keep merchandise from falling off the shelf.
Some dividers and fences are reusable and others are for single-use applications. Reusable dividers and fences generally connect to shelves using fasteners such as bolts or push rivets. The fasteners engage small holes or perforations in the shelf. Single-use dividers and fences may be attached to the shelf using an adhesive or double-sided tape. One type of single-use divider uses thin push tabs to engage the shelf perforations. All of these dividers and attachment methods have significant drawbacks. Most require keeping and transporting multiple tools and fasteners to attach a single divider or fence to a shelf. The push tab method uses tabs that are flimsy and unable to securely maintain the divider in place on the shelf. What are needed in the industry are durable and reusable shelf dividers and fences that are capable of being fastened securely to retail shelving without the need for additional fasteners or adhesives. The present invention addresses this need.

SUMMARY

The present invention comprises a shelf management device for organizing products on a retail shelf. The shelf has a display surface and perforations formed therein that are designed to accept anchoring members from various types of shelf dividers and fences. The present shelf management device may include a vertical partition and a base panel extending perpendicular to the vertical partition. The base panel may be secured to the shelf using a plurality of anchors located proximate the longitudinal centerline of the base panel, each anchor having a trunk integrally formed with the base panel to create a unitary or monolithic structure and a catch or protuberance extending away from said trunk. The trunk may have a rectangular transverse cross section and the catch may be attached to a planar first side of the trunk. The planar first side could be angled between zero and ninety degrees with respect to the longitudinal centerline of the base panel or its bottom surface. The trunk and its associated catch are receivable into the perforations formed in the display surface. When the base panel is secured to the shelf, the catch or protuberance will be below the display surface and the catch will extend outwardly beyond the periphery of the perforation in which it is installed. The shelf management device may be constructed of plastic.
The shelf management device could utilize an anchor having a planar first side and a planar second side opposite and generally parallel to said first side. When the shelf management device is secured in a shelf perforation, the planar first side is proximate a first side of the perforation and the planar second side is proximate a second side of the perforation that is opposite the first side of the perforation. The distance between the planar first side and planar second side is less than the shortest distance between the first and second sides of the perforation. The anchor may have a protuberance extending away from the planar first side of the anchor, wherein the distance between an outer surface of the protuberance and the planar second side of the anchor is greater than the previously referenced shortest distance between the first and second sides of the perforation. The protuberance may be spaced below the bottom surface by a distance that is greater than the depth of the perforation in which the anchor is installed. An anchor for the shelf management device may be located proximate the longitudinal centerline of the bottom surface and, as previously noted, the anchor may be integrally formed with the base panel as a unitary structure. The anchor may be proximate a first end of the base panel and a second anchor may be proximate a second end of the base panel. The base panel on the shelf management device may include an upper surface that slopes downwardly away from the vertical partition.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of three shelf management devices arranged as dividers and a fence on a shelf; one of the dividers is shown in an exploded view above the shelf.

FIG. 2 is a front elevation view of a shelf management device.

FIG. 3 is a side elevation view of a shelf management device.

FIG. 4 is a bottom plan view of a shelf management device.

FIG. 5 is a bottom plan view of an alternate embodiment of the shelf management device in FIG. 4.

FIG. 6 is an angled elevation view of a shelf management device taken along line 6-6 of FIG. 1.

FIG. 7 is angled elevation view of an alternate embodiment of the shelf management device in FIG. 6.

FIG. 8 is a bottom plan view of a shelf management device installed in a shelf perforation.

FIG. 9 is a bottom plan view of an alternate embodiment of the shelf management device in FIG. 8.

DETAILED DESCRIPTION

As required, detailed embodiments of the present invention are disclosed herein; however, it is to be understood that the disclosed embodiments are merely exemplary of the invention, which may be embodied in various forms. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present invention in virtually any appropriately detailed structure. The drawings constitute a part of this specification and include exemplary embodiments of the present invention and illustrate various objects and features thereof.
Certain terminology will be used in the following description for convenience in reference only and will not be limiting. For example, the words “upwardly,” “downwardly,” “rightwardly,” “leftwardly,” “upper,” and “lower” will refer to the installed position of the item to which the reference is made. The words “inwardly” and “outwardly” will refer to directions toward and away from, respectively, the geometric center of the item being described and designated parts thereof. Said terminology will include the words specifically mentioned, derivatives thereof and words of a similar import.
Referring to the figures, the present invention comprises a shelf management device 5 that may be used to organize and secure merchandise on a retail shelf 8. The shelf management device 5 comprises a unitary structure having a horizontal base panel 9 attached to a vertical partition 11. Attached to the underside of base panel 9 is a unique arrangement of clips or anchors 12 that fit into perforations 15 formed in shelf 8 to secure the device 5 to the shelf. As shown in FIG. 1, the shelf management device 5 may be used as a shelf divider 16 when installed transversely across the shelf 8 or as a fence 17 when installed at the front or ends of shelf 8. The shelf management device 5 preferably comprises a unitary or monolithic structure constructed of plastic formed from either injection molding, or a vacuum or thermal forming process. It is foreseen that shelf management device 5 may also be formed as separate parts and assembled. It is possible that durable and lightweight materials other than plastic may also be used, such as rubber or aluminum. One reason plastic is preferable is because it can be made translucent or colored depending on the needs of the end user.
As shown in FIGS. 1-5, the shelf management device 5 includes a generally rectangular horizontal base panel 9 that rests on shelf 8 when the device 5 is installed. Base panel 9 has a flat bottom surface 22 and a sloped upper surface 25. The upper surface 25 slopes slightly down from a longitudinal interior corner 27 of base panel 9 to a longitudinal distal edge 30 of base panel 9 such that base panel 9 is thicker near corner 27 than it is near edge 30. The corner 27 is located at the point of attachment between vertical partition 11 and base panel 9. Corner 27 may take and inverted curve or radiused form. If corner 27 is curved, it preferably has a radius of less than one-eighth of an inch. The angle of upper surface 25 is usually approximately three degrees from horizontal but other angles may also be used. Base panel 9 is relatively thin at edge 30 so that when the shelf management device 5 is installed on shelf 8, merchandise adjacent device 5 can slide over edge 30 and onto panel 9 without catching on edge 30. Base panel 9 also has a posterior edge 32 disposed opposite distal edge 30.
Attached to and extending perpendicularly upward from base panel 9 is a generally rectangular vertical partition 11. Partition 11 is integrally attached to base panel 9 at interior corner 27. It is foreseen that partition 11 may also be formed apart from base panel 9 and adhered or bonded to the panel. The partition 11 extends upwardly from corner 27 and is a uniform height for the length of the partition 25. It is foreseen that partition 11 may also vary in height along its length. Partition 11 has two upper corners 45 that may be rounded if desired to prevent objects or clothing from snagging on the corners 45 and reduce the chance that a sharp corner 45 could cause injury. In the preferred embodiment, base panel 9 and partition 11 form an L-shaped structure but it is foreseen that partition 11 could be attached to other locations on base panel 9. For example, partition 11 could attach to the middle of panel 9 to form an inverted T-shape. Furthermore, base panel 9 could be narrow and only slightly wider than the thickness of partition 11, in which case base panel 9 would extend away from partition 11 only slightly.
As shown in FIGS. 2-5, attached to and extending downwardly from the bottom surface 22 of base panel 9 is a plurality of anchors 12. Each anchor 12 comprises a trunk 55 and a protuberance or catch 60 attached to and extending away from a side of trunk 55. As best seen in FIGS. 3 and 6, protuberance 60 is typically rounded or curved to allow anchor 12 to slide in and out of a perforation 15. However, it is foreseen that the protuberance or catch 60 may also be squared or barbed to better grip the shelf 8. Trunk 55 preferably has a rectangular transverse cross section, but other trunk shapes may be used such as cylindrical or triangular.
If a rectangular trunk 55 is used, it has a generally planar first side or face 61 and a parallel generally planar second side or face 62 opposite the first side 61. The first side 61 and second side 62 are arranged generally perpendicular to bottom surface 22. The protuberance 60 is located on the first side 61 between an upper end 63 of trunk 55 and a distal end 64 of trunk 55. It is foreseen that the protuberance 60 could be placed on any other side of trunk 55 that would engage an edge of a perforation 15. Trunk 55 is taller than the depth of perforations 15 on shelf 8. As shown in FIG. 7, all or a substantial portion (i.e., a majority or more than half) of protuberance 60 is spaced below upper end 63 and bottom surface 22 by a distance that is equal to or greater than the depth of a perforation 15. Anchor 12, and specifically trunk 55, is integrally attached to base panel 9 at upper end 63.
As shown in FIG. 8, the distance between the first side 61 and the second side 62 of trunk 55 is less than the shortest distance between opposite edges 80 of a perforation 15 in shelf 8, which is considered the width of perforation 15. The distance between the outer surface 66 of protuberance 60 and the second side of 62 of trunk 55 is greater than the shortest distance between opposite edges 80 of the perforation 15. It is foreseen that in some situations the distance between the outer surface 66 and the second side of 62 may be equal to or slightly greater than the width of perforation 15 if anchor 12 is desired to be secured in the perforation 15 by friction fit only. Anchor 12 may be formed integral to base panel 9 as a unitary structure or it may be formed apart from base panel 9 and adhered or bonded to the panel. In either case, the anchor 12 (i.e., trunk 55 and protuberance 60) is preferably constructed to have a solid rather than hollow structure.
The anchors 12 are typically arranged such that there is at least one anchor 12 proximate each end of base panel 9 (FIG. 2). There may also be an anchor located near the middle of base panel 9 (FIG. 1). The exact number and position of the anchors 12 will depend on the configuration of the perforations 15 on shelf 8 and how securely the shelf management device 5 needs to be secured to the shelf. As explained below, the protuberance 60 helps secure the shelf management device 5 on shelf 8 because the protuberance extends beyond the edge of the perforation 15 after being inserted through the perforation 15. Each anchor 12 is attached to the bottom surface 22 of base panel 9 proximate the longitudinal centerline 65 of surface 22.
Typically, each anchor 12 is angled or rotated about its longitudinal axis which extends perpendicular to the panel 9 and passes through the center of the anchor 12. The anchor 12 is rotated with respect to distal edge 30 of base panel 9 such that first side 61 of trunk 55 is not parallel to edge 30. The angle of rotation may vary to match the shape and orientation of the perforations 15 on shelf 8, however a 45 degree rotation is appropriate for most applications. This results in more than half of the first side 61 and protuberance 60 being located on one side of the longitudinal centerline 65 and more than half of the second side 62 being located on the other side of the centerline 65. Each anchor 12 on the shelf management device 5 need not be rotated at the same angle. For example, the anchors 12 located proximate each end of base panel 9 may be mirrored about the transverse centerline of surface 22 (FIG. 4).
An alternate embodiment of the invention is shown in FIGS. 5, 7 and 9. The alternate embodiment comprises a shelf management device with similar features to those described above except that the alternate embodiment includes anchors 112 instead of anchors 12. The anchors 112 are attached to the bottom surface 22 of base panel 9 like anchors 12, but unlike anchors 12 they are arranged in pairs. Typically, a pair of anchors 112 will be located where each single anchor 12 would be as described above.
Each anchor 112 includes a trunk 120 and a protuberance or catch 125. The trunk 120 preferably comprises a rectangular transverse cross section, but other shapes may also be used such as cylindrical or triangular. If a rectangular trunk 120 is used, the protuberance 125 is located on an outer side or face 130 of the trunk 120 similar to anchor 12. As shown in FIG. 7, protuberance 125 is typically rounded to allow anchor 112 to slide in and out of a perforation 15. Like anchor 12, it is foreseen that the protuberance or catch 125 may also be squared or barbed to better grip the shelf 8.
Each pair of anchors comprises two anchors 112 arranged in an opposing configuration such that the protuberances 125 on each anchor 112 face away from the other anchor 112. The opposing anchors 112 are spaced apart such that the distance between the outer sides 130 of the trunks 120 equals the width of a perforation 15. This is typically one-quarter of an inch. The distance between the surfaces 135 of the protuberances 125 on opposing anchors 112 will therefore be further apart than the width of the perforation 15. As explained below, this spacing helps secure shelf management device 5 on shelf 8 because the protuberances 125 extend beyond the edge of the perforation 15 after being installed in the perforation 15. Like anchors 12, each pair of anchors 12 is integrally attached to the bottom surface 22 of base panel 9 proximate the longitudinal centerline 65 of the surface 22. Anchors 112 may also be rotated similar to anchors 12 as described above.
The shelf management device 5 is secured to shelf 8 by engaging the perforations 15 in shelf 8. Shelf 8 typically comprises a display surface 75 supported by brackets (not shown). The display surface 75 is typically a sheet of metal only a couple of millimeters thick. Perforations 15 are formed in the display surface 75 and are usually clustered in groups or bands near the front, middle and rear of shelf 8. Perforations 15 come in many different shapes and sizes, but they are most commonly circular or square (or diamond when angled).
To install shelf management device 5 on shelf 8, the device 5 is positioned at the desired location on the shelf and each anchor 12 is positioned above a perforation 15 as shown in FIG. 1. The anchors 12 are then pushed into the perforations 15. When an anchor 12 is inserted into a perforation 15, it displaces or compresses as the protuberances 60 on the anchor 12 is forced inward toward the center of the perforation 15 due to the protuberance 60 moving over the edge 80 of the perforation 15. The protuberance 60 is curved to help it slide over edge 80 while the protuberance 60 is being forced inward. The edge 80 of perforation 15 also deforms slightly when protuberance 60 is sliding over the edge. The slight displacement of anchor 12 combined with the slight deformation of edge 80 allows protuberance 60 to fit through perforation 15. It is foreseen that, instead of a round shape, a tapered or angled protuberance 60 could also be utilized to help it slide over edge 80. As the anchor 12 is pushed further into the perforation 15, the anchor will decompress as the protuberance 60 finishes moving over the edge 80 of the perforation 15.
When an anchor 12 is completely installed in a perforation 15, its protuberance 60 will be below the display surface 75 of shelf 8 and the anchor 12 will not be displaced or will be only slightly displaced to frictionally engage the edge 80 of the perforation 15. Because the protuberance 60 extends past the edge 80 of the perforations 15, the anchor 12 is retained in its respective perforation 15 resulting in anchor 12 securing the shelf management device 5 to shelf 8. Anchors 12 may be located on shelf management device 5 such that when the device 5 is installed on shelf 8, the device 5 may be under tension. The tension would be longitudinal in nature and run the length of the device 5 between anchors. The tension would be the result of anchors 12 being located slightly closer together than the perforations 15 in which they are inserted. If the distance between the anchors 12 is slightly less than the distance between their respective perforations 15, the anchors 12 will grip the edges 80 of the perforations 15 is a way that places shelf management device 5 under tension. The difference in distances between anchors and perforations may be caused intentionally (e.g., if tension is desired for the shelf management device 5) or unintentionally (e.g., if the shelf 8 lacks uniformity in the spacing of its perforations 15).
The alternate embodiment of the shelf management device is installed and used in the same fashion as the primary embodiment described above. To install the alternate embodiment, the anchors 112 are pushed into the perforations 15. As the anchors 112 are inserted into perforations 15, they displace or flex toward their respective paired anchor 112. This flexing is due to the protuberance 125 on each anchor 112 being forced inward toward the center of the perforation 15 as the protuberance 125 moves over the edge 80 of the perforation 15. The displacement of the anchor 112 may be due to the trunk 120 flexing or base panel 9 near the anchor flexing or a combination of both. As the anchors 112 are pushed further into the perforation 15, they will begin to straighten as their respective protuberances 125 finish moving over the edge 80 of the perforation 15.
When a pair of anchors 112 is completely installed in a perforation 15, their protuberances 125 will be below the display surface 75 of shelf 8 and the anchors 112 will not be flexed or will be only slightly flexed to frictionally engage the edge 80 of the perforation 15. For square perforations 15, each pair of anchors 112 can be arranged on panel 9 to either engage opposing sides of the square (FIG. 9) or opposing corners of the square.
The anchors 12 and 112 can be pulled out of the perforations 15 so that the shelf management device 5 can be removed and reused. The protuberances 60 and 125 are preferably shaped such that the anchors can slide out of the perforation 15 similar to the way in which they are inserted. The size and shape of the protuberances 60 and 125 and the stiffness of trunks 55 and 120 will dictate how much force is required to install and remove the shelf management device 5. If protuberances 60 with squared or barbed edges are used, a user may need to reach below the shelf 8 and manipulate the anchors 12 or 112 to unlatch the protuberances 60 and release the shelf management device 5.
It is to be understood that while certain forms of the present invention have been illustrated and described herein, it is not to be limited to the specific forms or arrangement of parts described and shown.

Claims

Having thus described the invention, what is claimed as new and desired to be secured by Letters Patent is as follows:

1. A shelf management device for organizing products on a retail shelf having a display surface and perforations formed therein comprising:

a vertical partition; and

a base panel extending perpendicular to said vertical partition, said base panel securable to the shelf using a plurality of anchors, each of said anchors having a trunk fixedly attached to said base panel and a catch extending away from said trunk, said trunk having a rectangular transverse cross section and said catch attached to a planar first side of said trunk, said planar first side of said trunk angled between zero and ninety degrees with respect to a longitudinal centerline of said base panel, said trunk and said catch receivable in a perforation formed in the display surface, said catch being located below the display surface when said base panel is secured to the shelf.

2. The shelf management device as in claim 1 wherein said catch extends beyond a periphery of said perforation when said base panel is secured to the shelf.

3. The shelf management device as in claim 2 wherein said trunk is integrally formed with said base panel as a unitary structure.

4. The shelf management device as in claim 3 wherein said catch is rounded.

5. The shelf management device as in claim 4 wherein said plurality of anchors is located proximate said longitudinal centerline of said base panel.

6. The shelf management device as in claim 5 wherein said shelf management device is constructed of plastic.

7. The shelf management device as in claim 6 wherein said vertical partition is attached to an edge of said base panel to form an L-shaped structure.

8. A shelf management device for use on a retail shelf having perforations formed therein comprising:

a base panel having a bottom surface;

a vertical partition extending upwardly from said base panel; and

an anchor fixedly attached to said bottom surface of said base panel, said anchor adapted to secure said shelf management device in a perforation formed in the shelf, said anchor having a planar first side and a planar second side opposite and generally parallel to said first side, wherein said planar first side is proximate a first side of said perforation and said planar second side is proximate a second side of said perforation that is opposite said first side of said perforation when said shelf management device is secured in said perforation, wherein the distance between said planar first side and said planar second side is less than the shortest distance between said first and second sides of said perforation, said anchor having a protuberance extending away from said planar first side, wherein the distance between an outer surface of said protuberance and said planar second side is greater than said shortest distance between said first and second sides of said perforation.

9. The shelf management device as in claim 8 wherein said protuberance is spaced below said bottom surface by a distance that is greater than the depth of said perforation.

10. The shelf management device as in claim 9 wherein said anchor is located proximate a longitudinal centerline of said bottom surface.

11. The shelf management device as in claim 10 wherein said anchor is integrally formed with said base panel as a unitary structure.

12. The shelf management device as in claim 11 wherein said anchor is proximate a first end of said base panel.

13. The shelf management device as in claim 12 further comprising a second anchor attached to said bottom surface of said base panel proximate a second end of said base panel.

14. The shelf management device as in claim 13 wherein said shelf management device is constructed of plastic.

15. The shelf management device as in claim 14 wherein said vertical partition is attached to an edge of said base panel to form an L-shaped structure.

16. A shelf management device for use on a retail shelf having generally square or generally circular perforations formed therein comprising:

a vertical partition;

a horizontal base panel having a bottom surface and an upper surface, said upper surface sloping downwardly away from said vertical partition; and

an anchor integrally formed with said base panel as a unitary structure, said anchor adapted to secure said shelf management device to the shelf, said anchor comprising a trunk and a protuberance extending away from said trunk, said trunk having a rectangular transverse cross section and said protuberance attached to a planar first side of said trunk, said planar first side of said trunk angled between zero and ninety degrees with respect to a longitudinal centerline of said bottom surface, said trunk and said protuberance receivable in a perforation formed in said shelf, said protuberance being located below said perforation and extending beyond a periphery of said perforation when said shelf management device is secured to the shelf.

17. The shelf management device as in claim 16 wherein said anchor is proximate a first end of said base panel.

18. The shelf management device as in claim 17 further comprising a second anchor attached to said bottom surface of said base panel proximate a second end of said base panel.

19. The shelf management device as in claim 18 wherein said shelf management device is constructed of plastic.

20. The shelf management device as in claim 19 wherein said vertical partition is attached to an edge of said base panel to form an L-shaped structure.