Extendable shelf for a display rack

An extendable shelf for a display rack permits the shelf to be pulled out to permit stocking and product rotation and permits it to be used in different sizes. A wire shelf is formed of inhingedly connected sections with their outermost and innermost ends connected to sheet metal side supports. The side supports are also constructed in sections which are telescopically mounted so that the side supports may be pulled out or pushed in causing the sections of the wire shelving to lie flat or hinge up to provide different depths of shelf. An upstanding member contacts product on the shelf to pull the product forward when the shelf is pulled out, thus allowing restocking of fresh product at the rear of the shelf.

BACKGROUND OF THE INVENTION 
1. Field of the Invention 
This invention relates to improvements in display rack shelving and 
particularly to an extendable wire shelf which may be extended from one 
depth to another to permit restocking or to provide different depths for 
the shelf. 
2. Prior Art 
Display racks are commonly used in supermarkets and the like to display 
snack items such as potato chips, corn chips and the like which must be 
constantly restocked for freshness. A typical display rack of the prior 
art is shown for example in U.S. Pat. No. 3,993,002 wherein there are wire 
shelves attached to sheet metal side brackets which are attached to 
vertical upright members to provide wire shelving. 
The restocking of snack items is important to the display and merchandising 
of such goods. Not only must the snack items be restocked for freshness 
but snack availability and visibility stimulates usage as most snacks are 
purchased on impulse. The restocking of snack shelves on display racks is 
therefore quite important, but is also labor intensive and time consuming 
as the oldest snack items should be positioned in the front and the 
freshest snack items in the rear for product rotation. At present this is 
done manually by the restocking salesman pulling the snack items on the 
shelf forward by hand and restocking the new items behind them. This can 
be time consuming, especially for wide shelves with a large number of 
snack items. 
There is a need in the display rack field of shelving of different depth 
for several purposes. For example in some seasons snack items might sell 
or move from the shelves faster than in other seasons, e.g. in resort 
areas. Additionally, it is desirable to have different depths shelves for 
different space requirements of permanent displays but this creates a 
problem of carrying a large inventory of different depth shelves. 
Telescopic wire shelving as a general concept is known e.g. in the 
refrigerator art, see U.S. Pat. No. 2,103,885. Extendable depth or 
adjustable store display shelves are also broadly known, see for example 
U.S. Pat. Nos. 2,685,372 and 2,769,551. Telescoping trays for retractable 
display racks are broadly known, as in U.S. Pat. No. 3,403,789. However, 
there is a need in the art for a simple, inexpensive, adjustable depth 
wire shelf for display rack which can be adjusted to different depths of 
use and can be readily adapted to permit quick and efficent restocking and 
product rotation. 
SUMMARY OF THE INVENTION 
This invention provides an extendable wire shelf which can be pulled out in 
the manner of a drawer to permit stocking and product rotation and 
alternatively can be used for at least two different depths by telescoping 
the shelf supports and folding up a portion of the wire shelf bottom. The 
wire shelf bottom also carries a member to pull product forward for 
restocking and product rotation. The shelf construction includes side 
support members in multiple sections which are telescopally mounted and 
provide the bracket connection to a display upright. The side supports 
sandwich between them a wire shelf bottom which is made of hinged sections 
so it may fold up or fold out depending on whether the shelf is pushed in 
or pulled out. The sections of the shelf bottom are hingedly connected to 
one another at the inner and outer ends of the shelf bottom are connected 
to the inner and outer ends of the side support brackets. The shelf bottom 
includes three sections with two hinge connections to provide the folding 
effect while each side support bracket includes two sections which are 
telescopically mounted.

DESCRIPTION OF THE PREFERRED EMBODIMENT 
With reference to the drawings, the extendable shelf of this invention 
includes a shelf bottom 10 generally extending between a pair of side 
support brackets 12 and 14. Each side support bracket has hooks 16 of 
conventional size and shape for attaching to the usual holes in uprights 
18 as are commonly used in support of shelving in display racks and other 
areas. 
Each of the side support brackets 12 and 14 are identical so only one be 
described. Each is formed of a pair of telescoping sections, namely 
outermost section 20 and innermost section 22. These sections may be 
conveniently formed of sheet metal as is common in the metal shelving art. 
Each section has a slot for allowing the sliding telescoping movement. 
This includes slot 24 in section 20 and slot 26 in section 22. A screw 28 
mounts a post with an inner flange 30 on the front end of the rear most 
bracket 12 for sliding in slot 24. Slot 24 conveniently has widened 
portions such as portion 32 at its forward end for holding the telescoping 
shelves in one or the other adjusted positions. There is a similar 
widening slot 34 at the other end of slot 24. 
Similarly, the rear end of the front bracket 20 carries a screw slide post 
36 which has a enlarged end 38 to guide it in slot 26. The outermost 
bracket portion 20 has a flange 40 extending horizontally for supporting 
the wire shelf 10. The innermost bracket portion 22 has a pivot hole 42 
for pivotally supporting the innermost section of the wire shelf 10. 
The shelf 10 is formed of wires as shown including a plurality of wires 44 
which extend crosswise between the brackets and a plurality of wires 46 
which extend parallel to the brackets. These wires are secured to one 
another by welding or brazing to form a rigid structure as is known in the 
art. As shown in FIG. 1 the wires may be formed to provide a shelf front 
48 to prevent product on the shelf to prevent from falling forward. If 
desired there could also be shelf sides and a shelf rear wall. 
The shelf 10 is divided into three sections in the embodiment shown. There 
is a forward or outermost section 50, an innermost section 52, and an 
intermediate section 54. The wires of these sections are not welded to one 
another and the sections are hingedly connected to each other by suitable 
hinge means, in the case shown as loose collars 56 at spaced portions. 
These loose collars allow the sections 50, 52 and 54 to move relative to 
one another and particularly allow sections 52 and 54 to fold together as 
shown in FIG. 2 or to fold out flat as shown in FIG. 3. Sections 52 and 54 
are also hingedly connected together by loose collars 58. The innermost 
end of section 52 has secured to it a bent wire 60 which is journalled in 
hole 42 of the bracket to pivot the innermost edge of section 52 from the 
inner bracket section 22. Attached to flange 40 by any convenient means 
such as clamps 70 are the sides of portion 50 of the wire shelf. 
The wire sections 46 of sections 52 and 54 may have bent ends 62 in order 
to provide a stop for the pivotal movement at a point where the sections 
are almost, but not quite, in a plane with section 50. By having a very 
slight hump even when the shelf is pulled out as shown in FIG. 3 the 
innermost sections, 52 and 54, will be much easier to pivot. 
There is also provided a stock contacting wire member 64 which has a 
section 66 extending across the shelf 10 from side to side. Member 64 may 
be movably attached to the rearward portion of the outermost bracket 20 by 
a hole in the flange 40. 
The stock contacting member 64 is such that it can be pushed down through 
its mounting hole to lie flat if not used, or it can be removed entirely. 
FIGS. 2 and 3 best illustrate the operation of the extendable shelf of this 
invention. 
FIG. 3 shows the shelf in extended position with the bottom sections 50, 52 
and 54 substantially flat. That is, in FIG. 3 sections 50, 52 and 54 are 
folded out flat rather than being folded up accordian style as in FIG. 2. 
The stock contacting member 64 is in its uppermost position. For use of 
the invention to provide a shelf with a smaller depth the outermost 
section 50 is merely pushed inwardly from the phantom line position shown 
in FIG. 2 to the full line position shown in FIG. 2. At this time the 
innermost section 52 pivots at both ends. Similarly, the intermediate 
section 54 pivots about collars 56 and 58 to assume the folded up position 
and also to provide a back for the smaller size shelf. A smaller size 
shelf might be used for example when the needs of store are such that a 
larger size shelf is not required. This eliminates inventory of two 
different size shelves. Another use would be a store which would need a 
larger shelf in one season and a smaller shelf in another season depending 
on the volume of traffic sold in the different seasons. This can be 
accomplished with a single shelf rather than changing inventory of the 
shelving of the display. 
For restocking of the shelf, the shelf can be first moved to its smaller 
depth position as shown in FIG. 2, the stock contacting member can be 
pulled up behind all of the items on the shelf and then the shelf moved 
back out to the FIG. 3 position. This will cause all of the items to be 
brought forward by the stock contacting member 64 so that restocking can 
then take place behind member 64. As noted above member 64 can be dropped 
down out of the way. 
The side brackets are narrow enough (being made of sheet metal) to enable 
extendable shelves of this invention to be assembled side by side on 
upright having two pairs of vertical holds as is common in the art. Also 
as will be understood by those with ordinary skill in the art the shelf 
can assume numerous sizes and shapes and need not be made exactly as 
disclosed herein while keeping with the spirit of the invention. 
This invention has been executed in wire shelving which can be used as a 12 
inch deep unit or a 19 inch deep unit and in various conventional widths 
such as 18 inches, 24 inches, 30 inches, 36 inches and 48 inches. Although 
not shown, a back rail may be provided for package support especially in 
the loading position and a side rail may be provided to prevent product 
from tipping over the side. 
Conventional wire shelves 12 inches deep mounted on brackets can be 
converted to the present unit by the addition of the two rearmost 
telescoping sections and replacing the conventional brackets with the 
telescoping brackets of this invention. The unit is such that it can be 
set up with no tools, no shelf dividers are needed and no front edge 
molding is needed.