The present disclosure generally relates to adjustable merchandising systems. More particularly, it is pertinent to an adjustable merchandising apparatus for storing and displaying merchandise having a variety of shapes and sizes, and urging such merchandise towards the front of a shelf. The merchandising apparatus is configured to organize merchandise on the shelf into rows.
Shelving is used extensively for stocking and storing products or merchandise in numerous types of retail establishments, such as grocery stores and drug stores. Many stores simply employ shelves on which merchandise is stocked. In such stores, for the shelves which are not at eye level, it is difficult for the customer to see the items being displayed, if they are not located adjacent the front edge of the shelf. Therefore, it is desirable for merchandise to be displayed at the front of the shelf so that the customer can see the merchandise and be induced to purchase such merchandise. Also, such shelves make it difficult to rotate product, i.e., move the older stock to the front of the shelf and position newer stock behind the older stock. Rotating products is an important consideration if the goods are perishable or are subject to becoming stale.
Numerous forward feed devices have been proposed to automatically move an item forward on a shelf, as the item before it is removed. These devices generally fall into one of three categories. The first category includes inclined tracks, which rely on gravity to feed, slide or roll products forward. A second category employs conveyor belts, which still use gravity to effect forward movement. A third category, that has become popular in recent years, uses spring biased paddles in a pusher system to feed the product forward on a horizontally oriented shelf. Such pusher systems have been found useful in a variety of merchandising applications.
Forward feed devices are usually associated with divider walls. Normally, a divider wall is located on either side of a pusher mounted on a track (i.e., pusher system) so as to maintain the merchandise in rows. In certain designs, both the pusher system and the divider wall are mounted to at least a front rail, or front mounting member of the merchandising system, in order to allow a proper spacing of the pusher tracks and the divider walls on a shelf. In some known systems, the divider walls are separate from the pusher tracks. In others, the divider walls and pusher tracks are integrated into a one piece design. In either case, the divider walls and pusher tracks are, in some designs, slidably mounted on the front rail or mounting member. In other designs, one or both are fixedly mounted in relation to the front rail. In still other designs, both a front rail and a rear rail are employed and one or both of the pusher tracks and the divider walls are either fixedly secured to one or both of the front rail and the rear rail or slidably mounted thereon.
The purpose for employing a track with a pusher system is in order to the center the pusher behind the merchandise and to guide the pusher forward. However, such tracks are prone to be clogged with debris and then stick or malfunction. Perhaps more importantly, both the divider and the track are normally of a given size or length. Therefore, for shelves of varying depths, numerous different length dividers and tracks have to be provided.
Therefore, there exists a need in the art for a merchandising system which is able to readily accommodate shelves of varying depths.
According to one aspect of the present disclosure, an adjustable length divider system is provided for use in merchandising. The divider system comprises a first divider portion including a longitudinal axis and a first base section, on which is defined a first connecting element. The system also comprises a second divider portion including a longitudinal axis and a second base section, on which is defined a second connecting element. The first and second connecting elements selectively engage each other such that the second divider portion is selectively detachable from the first divider portion and is movable along the longitudinal axis of the first divider portion to allow a length of the divider system to be changed. In this way, the divider system is able to be employed on associated shelves of varying depths.
According to another aspect of the present disclosure, a pusher system is provided for biasing retail merchandise forward. The pusher system comprises a mounting clip which selectively cooperates with an elongated mounting member and a pusher body. A spring extends between and connects the mounting clip to the pusher body. The spring acts on the pusher body to bias it towards the mounting clip. The pusher body is physically separate from the mounting clip and is connected thereto only by the spring, such that the pusher system has a length which can be adjusted, thereby enabling the pusher system to be placed on associated shelves of varying depths.
According to a further aspect of the present disclosure, there is provided an adjustable depth merchandising apparatus. The adjustable length merchandising apparatus comprises an elongated mounting member operationally securable to an associated shelf and extending parallel to a longitudinal axis thereof. An adjustable divider system is selectively connected to the mounting member, wherein the divider system extends rearwardly over the associated shelf. A trackless pusher system is selectively connected to the mounting member and extends rearwardly over the associated shelf. Each of the divider system and the pusher system is selectively extendable so that an operative length of the respective system can be adjusted, thereby enabling the merchandising apparatus to be employed on associated shelves of varying depths.
The present disclosure may take form in certain parts and arrangements of parts, an embodiment of which will be described in detail in this specification and illustrated in the accompanying drawings which form a part hereof and wherein:
Referring now to the drawings, wherein the showings are for purposes of illustrating a preferred embodiment of the disclosure only and not for purposes of limiting same,
As shown in
A cooperating member, such as a divider system 50, is selectively mounted to the front rail 10. The divider system includes a first section 52 and a second section 54. The second section can be selectively mounted to the first section in a plurality of settings or detached therefrom. In this way, the length of the divider system can be changed so as to accommodate varying depths of shelving 26. It should be apparent that a variable size set of predetermined overall lengths of the shelving system 50 can be provided, depending upon the spacing of the cooperating connecting elements on the divider system first and second portions 52 and 54.
With reference now also to
As best seen from
The divider system second portion 54 comprises a base or horizontal section 80 extending from which is an upright wall, divider or barrier 82. An overhang 84 protrudes from the upper end of the upright wall 82. Such overhang is beneficial in helping to keep the second portion 54 in place on the first portion 52. A rail 86 is defined in the base 80. With reference again to
With reference now also to
With reference again to
A coil spring 120 is mounted on the pusher 101. More particularly, and as best shown in
With reference again to
The second end 128 of the coil spring is mounted to a mounting clip 140. With reference now also to
Also connected to the mounting clip is a locking member or locking element 160. The locking member includes a first end 162 extending from which are spaced first and second protrusions 164 and 166. Such protrusions are accommodated in suitable slots 168 and 170 defined in the mounting clip 140. The locking member 160 also includes a central section 176 and a second end 180. With reference again to
It should be appreciated that the base wall first and second sections 110 and 112, the guide wall 116 and the bottom edge 118 of the front wall cooperate to form an alignment structure for the coil spring 120. The coil spring 120 is biased against the pusher body 101 on which it is mounted. The spiral spring unwinds and biases the pusher body towards the front rail 10 when the pusher body is drawn rearwardly away from the rail. As is well known, retail merchandise is positioned between the pusher front face or front wall 102 and the vertical wall 12 of the rail 10, or a barrier (not shown) mounted in the groove 16 (
It should be apparent that the pusher system 100 is infinitely variable in length so as to accommodate any desired depth of the shelving on which it is supported. The infinite variability of the pusher system is brought about by the lack of a physical connection between the front clip 140 and the pusher body 101. In other words, in this design, no track is provided on which the pusher body 101 can ride. Rather, the pusher body rides simply on the subjacent shelf on which the pusher system 100 is supported.
Thus, the disclosed merchandising apparatus A includes both a variable length divider system 50 and a variable length pusher system 100. In this way, shelving of almost all conventional types can be accommodated by the merchandising apparatus disclosed herein. In other words, a single merchandising apparatus according to the present disclosure can be configured to fit a large number of conventional shelving installations having varying depths. This will reduce the inventory of merchandising apparatus that needs to be stocked by a merchant in order to accommodate various shelving systems the merchant may have in a particular retail installation.
It should also be appreciated that the divider system 50 and pusher system 100 can be selectively connected to or disconnected from the front rail 10.
If desired, the merchandise can be supported on the flat linear or straight portion 126 of the coil spring and disposed between a pair of spaced divider systems, so as to maintain the merchandise in a tight linear arrangement on the shelf. This configuration keeps retail merchandise centered while it is being moved toward the front rail. Alternatively, the side edges of a piece of merchandise (not illustrated) can be supported by respective rails of two spaced divider systems 50 such that the merchandise is not contacting the straight portion 126 of the spring but, rather, is spaced above it. Such an arrangement may be preferable as it might be easier for the pusher body 101 to slide in relation to the shelf 26 if merchandise is not contacting the flat portion 126 of the coil spring.
The pusher system disclosed herein also takes up less space on a retail shelf and is less expensive than known systems since it is trackless and the need for a track, and the necessary material used for same, is avoided. The several components of the merchandising apparatus disclosed therein, namely, the front rail 10, the divider system 50 and the pusher system 100 can be predominantly made of a suitable conventional thermoplastic material. However, the coil spring 120 is most often made of a resilient metallic material if so desired. Also, the locking member 160 can be made of a resilient metallic material. Of course, any suitable materials can be used to construct the various components of the disclosed merchandising apparatus.
The disclosure has been described with reference to a preferred embodiment. Obviously, modifications and alterations will occur to others upon a reading and understanding of this specification. It is intended to include all such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.
This application claims priority from Provisional Application Ser. No. 61/104,140 which was filed on Oct. 9, 2008. The entire content of that application is incorporated hereinto by reference.
Number | Date | Country | |
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61104140 | Oct 2008 | US |