[0001] This invention relates to shelving for refrigerators and the like.
[0002] A basic refrigerator cabinet is typically provided with two compartments, namely
a freezer compartment and a refrigerator compartment. These compartments are commonly
arranged as either a "top mount" or a "side-by-side" cabinet. In the top mount arrangement,
the two compartments are stacked vertically, one upon the other, and each compartment
extends fully across the width of the refrigerator cabinet. In the side-by-side arrangement,
each of the compartments commonly extends the full height and
only partially across the width of the refrigerator cabinet. The side-by-side arrangement
is a relatively more recent development to enhance storage and provide a user with
a choice for refrigerated storage.
[0003] The use of shelving for refrigerators has generally evolved from providing no shelving
in the freezer compartment and only fixed shelving in the refrigerated compartment
to the use of vertically adjustable, tempered glass shelves, and the like, which are
cantilevered from adjustable shelf tracks mounted on a back wall of each compartment.
Typically, these shelves extend across the full width of the respective compartment.
Particularly in top mount refrigerators, shelving and storage versatility has been
further enhanced with a variety of specialty shelves, configured for specific storage
tasks. The simplest and most common of these adaptations is the use of a center shelf
track for supporting half width shelves in either of a left or right half of the compartment.
[0004] While these prior advances in refrigerator shelving design may enhance refrigerated
storage versatility, there is still significant inefficiency when tall beverage containers
and the like are positioned on or under known refrigerator shelving. It is inherent
that the spacing between refrigerator shelves is dictated by the tallest object placed
on or under any given shelf. This often results in one or a few tall containers dictating
a large shelf spacing with the common result of inefficient use of refrigerated space
because the remainder of that shelf space is shared with shorter items. Alternatively,
shorter items may be stacked or balanced upon each other in the remainder of that
shelf space with the unavoidable result that these stacked items will be jostled and
fall during the course of retrieval and replacement of items from the refrigerator.
[0005] A need is, therefore, apparent for a refrigerator shelving system which may provide
desired adjustability with accompanying efficiency in utilization of refrigerator
or freezer compartment space for both large and small, short and tall items.
[0006] Thus according to a first aspect of the invention there is provided a shelf assembly
suitable for a refrigerator comprising a shelf rail comprising attachment means allowing
the rail to be mounted (e.g. releasably) in a substantially horizontal position in
a refrigerator, the rail adapted to receive and support one or more shelves; and
a shelf adapted to be mounted (e.g. releasably) onto the shelf rail at one of a
plurality of positions along the rail.
[0007] The shelf rail may allow the or each shelf to be slid along the shelf. The shelf
may therefore be attached to the rail at an infinite number of locations. The rail
may be provided with one or more stiffening and/or strengthening means.
[0008] A second aspect of the invention relates to a refrigerator (e.g. a chamber or compartment
adapted to cool, or keep coll, its contents), which includes freezers and fridge/freezers,
having one or more shelf assemblies of the first aspect.
[0009] The refrigerator preferably has a refrigerated compartment with at least a first
shelf track and a second shelf track mounted in the compartment, each of the first
shelf track and second shelf track being generally vertically oriented in horizontally
spaced relation to each other so defining a width therebetween. Each of the first
and second shelf tracks may be adapted for releasable (e.g. supporting) engagement
with a number of support brackets for cantilevered support of a number of shelves
at a plurality of vertically spaced locations.
[0010] Preferably the refrigerator has:
a full shelf supported by the first and second shelf tracks which extends at least
fully across the width;
a shelf rail mounted on the first and second shelf tracks and extending at least
fully across the width; and
a partial shelf mounted on the shelf rail, the partial shelf extending less than
fully across the width, the full shelf being in vertically spaced relation to the
partial shelf when mounted on the shelf rail.
[0011] The shelf rail may extend across the width and may include projecting members for
releasable engagement with the first and second shelf tracks at a plurality of vertically
spaced locations.
[0012] The shelf rail may have an elongate body. The projecting members may extend from
the elongate body and have a first hook for releasable engagement with the first shelf
track and a second hook for releasable engagement with the second shelf track Thus
the first hook and the second hook may be spaced along a length of the shelf rail.
[0013] The shelf rail may have a first tab located near the first hook for releasable engagement
with the first shelf track. The first tab can be adapted for locking the first hook
in engagement with the first shelf track when the first tab engages the first shelf
track.
[0014] Preferably the shelf rail is rotatable about an axis of rotation for releasable engagement
with each of the first and second shelf tracks, the axis of rotation extending generally
along the length of the shelf rail.
[0015] The first tab may include a first stop member (or hook) capable of releasably engaging
the first shelf track to limit rotation of the shelf rail to a position in which the
first tab is disengaged from and adjacent to the first shelf track.
[0016] The shelf rail may have a second tab located near the second hook for releasable
engagement with the second shelf track. This second tab may be adapted for locking
the second hook in engagement with the second shelf track when the second tab engages
the second shelf track. The second tab preferably includes a second stop member capable
of releasably engaging the second shelf track to limit rotation of the shelf rail
to a position in which the second tab is disengaged from, and adjacent to, the second
shelf track.
[0017] Suitably at least one of the first hook and the second hook has a leg defining a
space between the leg and body, and optionally also a locking tab extending in a direction
generally opposite to the leg.
[0018] The partial shelf (which may extend less than fully across the width), can thus be
cantilevered from the shelf rail and may include releasable engagement members for
releasably engaging the shelf rail. The shelf rail may therefore have means for cooperating
releasable engagement with the releasable engagement members of the partial shelf.
[0019] Advantageously the partial shelf can engage the shelf rail at a plurality of (substantially)
horizontal locations.
[0020] The partial shelf may have at least one locking hook adapted for releasable engagement
with the shelf rail. The or each locking hook may have an elongate leg portion defining
a space between the leg portion and the partial shelf for receiving a portion of the
shelf rail. The leg portion may extend along and adjacent to a side of the shelf rail
opposite the partial shelf. The leg portion may thus bear against the side and thereby
limit rotation of the partial shelf relative to shelf rail.
[0021] Suitably a wear member is interposed between the partial shelf and the shelf rail.
[0022] The shelf rail may have a top edge extending substantially along the length of the
shelf rail. The wear member can define an open-sided channel extending along the top
edge, so the shelf rail may extend through the open side with the top edge seated
within the channel.
[0023] Preferably the partial shelf has:
a shelf panel with a top surface for receiving and supporting an article set thereupon
and a perimeter edge thereabout;
a rim moulded from a resinous material about the perimeter edge which can provide
a liquid-tight seal between the shelf panel and the rim, the liquid-tight seal suitably
being formed during moulding; and
at least one support bracket for supporting the partial shelf.
[0024] The rim projects above the top surface to define a spill dam whereby a liquid disposed
upon the top surface may be contained by the rim (and may not flow around the edge
of the shelf panel). The rim can be moulded around at least a portion of the support
bracket so that the shelf member and the support bracket are secured together by the
rim.
[0025] In the second aspect the refrigerator may further comprise a third shelf track being
generally parallel to, and positioned in horizontally spaced relation to, the second
shelf track, suitably on the opposite side of the second shelf track from the first
shelf track. It may thus define a first width between the first shelf track and the
second shelf track and a second width between the second shelf track and the third
shelf track. The third shelf track may be adapted for releasable engagement with one
or more support brackets at a plurality of vertically spaced locations. The shelf
rail may extend across the first width and the second width and may have at least
a third hook (or portion) for releasable engagement with the third shelf track. This
third hook (or portion) may be spaced along the length of the shelf rail from the
first hook and second hook (or portions).
[0026] The second aspect extends to a refrigerator having a shelf rail comprising:
an elongate body extending across the width and being adapted for releasably receiving
and supporting a shelf;
a first portion adapted for releasable engagement with said first shelf track;
and
a second portion, spaced along a length of the shelf rail from the first portion,
adapted for releasable engagement with the second shelf track.
[0027] The first portion may have at least a first hook for releasable engagement with the
first shelf track, and the second portion can have at least a second hook for releasable
engagement with the second shelf track.
[0028] The second portion may be provided with the second tab located near the second hook
for releasable engagement with the second shelf track. This second tab may be adapted
for locking the second hook in engagement with the second shelf tract when the second
tab engages the second shelf track. The second tab may include a second stop hook
capable of releasably engaging the second shelf tract to limit rotation of the shelf
rail to a position in which the second tab is disengaged from, and adjacent to, the
second shelf track.
[0029] Suitably the shelf rail is adapted to receive the partial shelf at a plurality of
horizontal locations.
[0030] The second aspect also relates to a refrigerator having a refrigerated compartment
comprising:
a shelf rail mounted on the first and second shelf tracks and extending across
the width; and
a partial shelf mounted on the first and second shelf tracks and extending less
than fully across the width.
[0031] The shelf rail may have an elongate body and at least a first hook for releasable
engagement with the shelf track, and at least a second hook for releasable engagement
with the second shelf track, the first and second hook being spaced along a length
of the shelf rail.
[0032] Preferred features and characteristics of one aspect are as for another
mutatis mutandis.
[0033] Accordingly, the present invention seeks to provide an adjustable shelf rail to support
a partial shelf in a refrigerator or freezer compartment for tiered storage of short
items next to tall items in the refrigerator or freezer. The shelf rail is preferably
releasably mountable to the horizontally spaced shelf tracks typically provided in
a refrigerator, suitably at the plurality of vertically spaced positions allowed by
those shelf tracks. The partial shelf may extend less than fully across the width
of a refrigerator compartment.
[0034] In one embodiment the partial shelf may be positioned horizontally at any desired
location along a length of the shelf rail. In another embodiment, the shelf rail is
positively locked in place on the shelf tracks. Rotation of the shelf rail out of
engagement with the shelf tracks can be limited by a stop hook. The shelf rail may
also be provided with a wear member positioned between the partial shelf and the shelf
rail.
[0035] Preferably the partial shelf has a moulded, spill-resistant perimeter rim. The moulded
rim may both maximize the spill retention capability of the shelf and minimize potential
for inaccessible entrapment of a spilled material between the perimeter rim and a
shelf panel of the partial shelf. Suitably the perimeter rim is moulded around at
least a portion of a supporting shelf bracket to assure secure and durable attachment
with the shelf bracket. The shelf support bracket may be releasably connected with
the shelf rail by a locking hook which can limit rotation of the partial shelf relative
to the shelf rail.
[0036] Thus, the present invention seeks to provide enhanced refrigerator or freezer storage,
to overcome inherent limitations of prior shelving systems, and furnish a shelving
system which may flexibly and efficiently store both large and small, short and tall
items. The invention is easily implemented in both existing and new shelving systems.
[0037] The invention will now be described, by way of example only (and which is not to
be construed as being limiting) with reference to the accompanying drawings, in which:
Fig. 1 is a perspective view from above and to one side of a first embodiment of a
(refrigerator) shelf assembly according to the present invention;
Fig. 2 is a front elevation of the interior of a "side-by-side" refrigerator of the
present invention;
Fig. 3 is a perspective view of a shelf rail according to the present invention;
Fig. 4 is an end elevation of the shelf rail of Fig. 3 shown mounted on a typical
shelf track of the type used in refrigerator/freezer compartments;
Fig. 5 is an end elevation similar to Fig. 4 showing an alternative shelf rail end
mounted on a typical shelf track of the type used in refrigerator/freezer compartments;
Fig. 6 is a front elevation of a second embodiment of a shelf rail according to the
present invention;
Fig. 7 is a plan view of the shelf rail of Fig. 6;
Fig. 8 is an end elevation, shown partially in section, of the shelf rail of Fig.
6 engaged with a shelf track;
Fig. 8A is a view similar to Fig. 8 showing the shelf rail in a disengaged position;
Fig. 9 is a section taken along line IX-IX of Fig. 6;
Fig. 10 is a part section part side elevation along line X-X of Fig. 1;
Fig. 11 is a fragmentary section along line XI-XI of Fig. 1;
Fig. 12 is a fragmentary section along line XII-XII of Fig. 1;
Fig. 12A is a view of a shelf similar to that in Fig. 12, but showing a plastic shelf
support bracket;
Fig. 12B is a view of a shelf similar to that in Fig. 12, but showing a plastic shelf
support bracket and a perimeter rim moulded in one piece with a plastic shelf panel;
Fig. 12C is a view of a shelf similar to that in Fig. 12, but showing the perimeter
rim moulded in one piece with a plastic shelf support bracket;
Fig. 12D is a view of a shelf similar to that in Fig. 12, but showing a perimeter
rim, a plastic shelf support bracket, and a plastic shelf panel all moulded in one
piece;
Fig. 13 is a perspective view from above and to one side of a second refrigerator
shelf according to the present invention;
Fig. 14 is a perspective view from above and to one side of a third refrigerator shelf
similar to that in Fig. 13, but showing a further embodiment of a shelf rail;
Fig. 15 is a front elevational view of the interior of a top mount refrigerator showing
the present invention;
Fig. 16 is a perspective view of a third embodiment of a shelf rail according to the
present invention;
Fig. 17 is a front elevational view of the shelf rail of Fig. 16;
Fig. 18 is a plan view of the shelf rail of Fig. 16;
Fig. 19 is a section along line XV-XV of Fig. 17; and
Fig. 20 is a front elevational view of a fourth (extended length) embodiment of a
shelf rail according to the present invention.
[0038] Referring now to the drawings in greater detail, Fig. 1 shows a first embodiment
of a shelf assembly in a refrigerator according to the invention which has a shelf
rail 20, adjustable shelf tracks 22, a full shelf 24, and a partial shelf 26.
[0039] Adjustable shelf tracks 22 are common refrigerator or freezer hardware, vertically
oriented, horizontally spaced, and mounted on a back wall 28 of a refrigerator or
freezer compartment by bolts or screws as is commonly known (Figs. 2 and 15). Tracks
22 are typically U-shaped metal or plastic channels which include vertically spaced,
aligned slots or holes 46 in their outwardly facing surfaces. The slots or holes 46
allow releasable engagement with the hook-shaped ends or flanges of shelf support
brackets 30 and 32 for cantilever support of shelves 24 at various vertically spaced
locations.
[0040] Now referring to Figures 3 and 4, the shelf rail 20 is preferably formed from 14-gauge
steel and subsequently powder-coated as is commonly known in the trade for refrigerator
components. Shelf rail 20 has an elongated body 34 with rearwardly extending flanges
36 and 38 at each of two opposing ends. Each flange 36, 38 is provided with a pair
of vertically spaced mounting hooks 40 and 42 for engaging the slots 46 provided in
shelf tracks 22 (Fig. 4). A positive locking tab 44 is also provided on mounting hook
40 (Figs. 3 and 4). Locking tab 44 projects generally upward from mounting hook 40
to minimize accidental disengagement of shelf rail 20 from slots 46 in shelf tracks
22.
[0041] In an alternative configuration of the ends of shelf rail 20 (Fig. 5), each flange
36, 38 is provided with a mounting hook 48. An alternative locking tab 50 is also
provided on each flange 36, 38 spaced vertically below hook 48. Tab 50 engages and
substantially fills a track slot 46 or is at least positioned near a top edge 52 of
a track slot 46. Thus, tab 50 has a top surface 54 adjacent top edge 52 of slot 46
so that top surface 54 will abut top edge 52 if shelf rail 20 is lifted vertically
when tab 50 is engaged with shelf track 22 to preclude lifting shelf rail 20 and the
disengagement and removal of mounting hook 48 from shelf track 22.
[0042] Alternative locking tab 50 (Fig. 5) is also provided with a stop hook 56 having a
leg 58. Leg 58 extends away from tab top surface 54 for engaging a rung 60 of shelf
tracks 22 and limiting rotation of shelf rail 20 to a position in which alternative
locking tab 50 is disengaged from slot 46 and positioned adjacent to shelf track 22.
Furthermore, a stop 62 may be formed on and project upward from tab top surface 54
or may be omitted as shown in Figures 8 and 8A.
[0043] Stop 62 is positioned away from rail body 34 and sized for force fit engagement of
tab 50 with a slot 46 of shelf tracks 22. Thus, once shelf rail 20 is mounted on shelf
tracks 22, stop 62 will resist disengagement of tab 50 from its respective slot 46.
However, if shelf rail 20 is rotated to force stop 62 through slot 46 and disengage
tab 50, leg 58 of stop hook 56 will engage the next lower adjoining rung 60 of shelf
track 22 to positively limit further rotation of shelf rail 20 and position tab 50
adjacent to, but disengaged from, shelf track 22. Shelf rail 20 can then only be removed
by lifting the entire rail and further rotating the rail to disengage tab 50 from
slot 46 after which hook 48 may also be disengaged from the upper slot.
[0044] In a further embodiment of the mounting hooks on end flanges 36, 38 shown in Figures
8, 8A, the end flange configuration is basically similar to that shown in Figure 5
and again has a mounting hook 48 near top edge 66, a locking tab 50, and a stop hook
56 with a leg 58. However, stop 62 is omitted thereby making installation of shelf
rail 20 easier, and also facilitating rotation of shelf rail 20 from a fully engaged
position (Fig. 8) to a position where tab 50 is disengaged from shelf track 22 and
positioned adjacent to the shelf track (Fig. 8A).
[0045] In each embodiment, shelf rail 20 is also formed with a stiffening ridge 64 extending
between flanges 36 and 38 and projecting generally away from the mounting hooks 40,
42 (Fig. 4) or 48, 50 (Fig. 5). Alternatively, as will be further explained in connection
with rail embodiment 90, an indented stiffening dimple or channel may be used. Ridge
64 is most preferably positioned near, but spaced from, a top edge 66 of shelf rail
20. Top edge 66 may be formed by folding a portion of rail 20 forward over upon itself
(see Figs. 3, 4, 5, and 16). Shelf rail 20 is also stiffened by top edge 66 and by
forming a flange 68 along a bottom edge of shelf rail 20. Flange 68 projects in the
same general direction as flanges 36 and 38 and extends along the length of shelf
rail 20. Further, a recess 70 is defined between stiffening ridge 64 and top edge
66.
[0046] A rub strip or wear member 72 is preferably provided along the length of top edge
66 of shelf rail 20 (Figs. 3 and 4). Rub strip 72 may be a generally U-shaped or open-sided
channel member having a pair of legs 74 and 76 extending in the same general direction
from a bight or web portion 78. Rub strip 72 may be formed from a plastics material,
e.g. a high density polyethylene (HDPE) or other suitable material which is Food and
Drug Administration (FDA) approved for food contact. Rub strip 72 is preferably sized
for a snug slip fit over top edge 66 with top edge 66 seated against the inside surface
of bight portion 78 and shelf rail body 32 extending outwardly from between legs 74
and 76. A ridge 80 and 82 is preferably formed at the end of each leg 74 and 76, respectively,
and extends the length of rub strip 72. Each ridge 80 and 82 projects from its respective
leg 74 and 76 in a direction generally opposite to and toward the other ridge 82,
80. Further, leg 74 is sized so that ridge 80 aligns with a recess formed on a back
side of and corresponding to stiffening ridge 64 while leg 76 is sized to position
ridge 82 in recess 70 between stiffening ridge 64 and top edge 66. Rub strip 72 may
thus be snapped onto and is removably secured to rail 20.
[0047] In an alternative embodiment 90 of shelf rail 20, also preferably made from 14-gauge
steel as shown in Figures 6-9, a support 92 is bent out of and projects rearwardly
from an elongated body 94 of shelf rail 90. Support 92 is sized in length to have
a terminal end 96 closely adjacent or just in contact with refrigerator back wall
28 when shelf rail 90 is mounted on shelf tracks 22. Support 92 is located near an
inturned flange 68 on bottom edge 98 of shelf rail 90 for supporting rail 90 to resist
twisting or racking forces which may be exerted by a partial shelf 26 mounted on shelf
rail 90. Elongated stiffening dimples 100 are also preferably provided near a top
edge 102 of shelf rail 90. As with shelf rail 20, alternative shelf rail 90 also has
a pair of rearwardly extending flanges 104 and 106 located at opposing ends of rail
body 94. Each flange 104, 106 may also be configured as previously discussed in greater
detail for flanges 36 and 38 of shelf rail 20 and shown in Figures 4 and 5. As shown
in Figures 8 and 8A, flanges 104 and 106 may also be configured in a modification
of the alternative configuration shown in Figure 5 for shelf rail 20 by omitting stop
62.
[0048] Now turning to partial shelf 26 and generally to Figures 1, 10, 11, and 12-12D, partial
shelf 26 extends only partially between shelf tracks 22. Partial shelf 26 may have
a generally planar shelf panel 120, a pair of support brackets 122 and 124 and a moulded,
resinous perimeter rim 126. Partial shelf 26 is removably mounted on and cantilevered
forward from shelf rail 20 (Fig. 1).
[0049] As is best seen in Figures 11 and 12, shelf panel 120 may be a light-transmitting
material, preferably optically clear tempered glass, to enhance light distribution
through the refrigerator compartment. Shelf panel 120 has a perimeter edge 128 which
is supported above brackets 122 and 124 and positioned to overlap above inwardly projecting
flange portions 130 of the brackets (Fig. 12). Flange portions 130 project inwardly
toward each other from a top edge of generally vertical web portions 132 of each bracket
122 and 124. Thus, bracket 122, positioned along one side of partial shelf 26, is
a mirror image of shelf bracket 124 positioned along the opposing side of partial
shelf 26 (Fig. 1).
[0050] Partial shelf 26 releasably engages shelf rail 20. Thus, brackets 122 and 124 are
provided with a locking hook 134, having an elongated leg 136 which extends downwardly
in generally parallel and spaced relation to a back edge 138 of bracket 122 (Fig.
10). When partial shelf 26 is mounted to rail 20, leg 136 extends a sufficient distance
along a side 140 of shelf rail 20, located opposite bracket 122, so that leg 136 bears
against side 140. Rail 20 is thus captured between leg 136 and bracket 122 without
rail 20 slipping from between leg 136 and bracket 122 to preclude rotation of partial
shelf 26 relative to rail 20 when a front edge 142 of partial shelf 26 is slightly
lifted for sliding partial shelf 26 along rail 20 as described in greater detail below.
Finally, a lower portion 141 of bracket 122 is adapted for abutting engagement with
shelf rail 20, near flange 68, to provide cantilever support of partial shelf 26 from
shelf rail 20.
[0051] Rim 126 is moulded around the entire perimeter edge 128 of shelf panel 120 to form
a liquid-tight seal between rim 126 and shelf panel 120 and around flanges 130 of
brackets 122 and 124 for secure engagement and connection of shelf panel 120 with
brackets 122 and 124 (Figs. 10-12). Each of flanges 130 is most preferably provided
with a series of perforations 144 to ensure secure mechanical connection between moulded
rim 126 and each support bracket 122 and 124 (Fig. 12). During assembly, shelf panel
120 and support brackets 122 and 124 are held and positioned within a mould while
a mouldable material from which rim 126 is made is injected and flows into the mould,
around peripheral edge 128 of shelf panel 120, flanges 130, and through perforations
144, encapsulating perimeter edge 128 and flanges 130. The mouldable material of which
rim 126 is comprised may include FDA approved copolymer plastics such as a combination
of ethylene and polypropylene or other structural plastic such as ABS or polyvinylchloride,
for example. Further, an FDA approved colouration pigment may be added to the material
used for moulding rim 126 prior to moulding to provide desired colours for the rim.
Titanium dioxide may be added for a white coloration, for example.
[0052] As the mouldable material cures, i.e. cools, hardens, and sets up, it becomes a tough
and resilient mass extending continuously around perimeter edge 128 of shelf panel
120 for holding shelf panel 120 in position above flanges 130 of support brackets
122 and 124. The inward extension of flanges 130 provides secure, stable support for
shelf panel 120. Rim 126 is moulded to extend above the top surface 146 of shelf panel
120 and is specifically moulded to define a continuous vertical wall 148 (Figs. 11
and 12) near perimeter edge 128 of shelf panel 120 to form a spill dam for containing
spills which may occur upon shelf panel 120.
[0053] While the seal formed between rim 126 and shelf panel 120 by moulding rim 126 around
shelf panel 120 performs quite satisfactorily, depending upon the specific rim material
chosen, one may enhance the seal by coating perimeter edge 128 and adjoining top 146
and bottom 150 surfaces of shelf panel 120, adjacent perimeter edge 128, prior to
moulding rim 126 thereabout, with a primer layer or coating of a heat-activatable
material which promotes and facilitates adhesion and bonding of the rim material to
shelf panel 120.
[0054] While the shelf support brackets 122 and 124 discussed above may be metal brackets
as is shown in Figure 12 and formed from a steel, aluminium, or other metal as is
commonly known for adjustable shelf support brackets, shelf support brackets 122 and
124 may also be separate moulded plastic members 124' as shown in Figures 12A and
12B. Furthermore, shelf support brackets 124'' may also be integrally moulded with
perimeter rim 126 as shown in Figures 12C and 12D. Shelf panel 120' may also be a
separate moulded member or may be moulded in one piece with perimeter rim as shown
in Figures 12B and 12D. Figure 12D is noted as showing all of the shelf panel, perimeter
rim, and shelf support bracket moulded in one piece from the same moulded plastic
material as discussed above.
[0055] The full shelf 24 extends fully between and mounts directly on shelf tracks 22 (Fig.
1). Furthermore, full shelf 24 may have a construction substantially similar to partial
shelf 26 as discussed in detail above. However, instead of a hook 134 and leg 136
as on partial width shelf 26, full shelf 24 preferably includes one of the embodiments
of the hooks and flanges shown and described in Figures 4-8A and 16-19 above.
[0056] As shown in Figures 13 and 15, shelf rail 20 may also be used in a second shelving
arrangement wherein the full width of the refrigerated compartment is divided into
left and right portions by a "centre" shelf track 152. In these arrangements, centred
shelf track 152 may be actually centred between the outer shelf tracks 22 with shelves
154 and 156 extending between one of the outer shelf tracks 22 and the centre shelf
track 152. Alternatively, centre shelf track 152 may be positioned nearer to one of
shelf tracks 22 and further from the other of shelf tracks 22. Furthermore, centre
shelf track 152 may comprise one shelf track, similar or identical to each shelf track
22; a pair of shelf tracks, similar or identical to each shelf track 22, positioned
next to one another; a single, double wide shelf track 152 having aligned pairs of
slots or holes for receiving hooks on support brackets as described and shown; or
a single shelf track with wide slots adapted to receive two rails 20 or two brackets
30.
[0057] In the second shelving arrangement (Fig. 13), shelf rails 20 may be staggered vertically,
supporting partial shelves 26 according to a user's requirements (Fig. 15). Two shelf
rails 20 may also be positioned in line with one another as specifically shown in
Figure 13 so that a partial shelf 26 may be positioned to straddle centre shelf track
152.
[0058] Alternatively, as specifically shown in Figure 14, a single, extended length shelf
rail 160, also preferably formed from 14-gauge steel, may be used to span the full
width of the refrigerated compartment, overlaying centre shelf track 152 and mounting
at its ends to shelf tracks 22. Thus, shelf rail 160 is most preferably configured
virtually identically to shelf rail 20 with an elongated body 170 and rearwardly extending
flanges 162 and 164 at each of two opposing ends (Figs. 16-18). Likewise, each flange
162, 164 is most preferably provided with a pair of mounting hooks 166 and 168 for
engaging the slots 46 provided in shelf tracks 22 and a positive locking tab 169 as
previously discussed above regarding shelf rail 20 and Figure 4. Furthermore, each
of the alternative rail end configurations also discussed above regarding Figures
5 and 8 may also be incorporated into rail 160.
[0059] Shelf rail 160 also includes an elongated body 170 having a stiffening ridge 172
extending along the length of body 170 and located near a top edge 174 of shelf rail
160. Top edge 174 is preferably formed by bending or folding over a portion of body
170 upon itself, also as discussed above regarding top edge 66 of shelf rail 20. Top
edge 174 thus provides additional stiffness to shelf rail 160 as does a flange 176
formed along a bottom edge 178 of shelf rail 160. Further, a wear member or rub strip
180 as discussed in greater detail above is preferably provided on and extends along
the length of top edge 174 of shelf rail 160. Other than the extended length of shelf
rail 160, the only distinction between shelf rail 160 and shelf rail 20 is a provision
in elongated body 170 of shelf rail 160 for interconnection of shelf rail 160 with
centre shelf track 152 (Figs. 16 and 19). Specifically, a mounting hook 182 is bent
rearwardly from body 170 for engagement with centre shelf track 152. Mounting hook
182 is therefore positioned for alignment with a slot 46 in centre shelf track 152.
A support leg 184 is also provided and positioned in vertical alignment with mounting
hook 182 and spaced vertically below mounting hook 182. While support leg 184 may
be configured in a number of forms, including forms which engage a slot 46 in centre
shelf track 152, support leg 184 is most preferably configured for abutting engagement
with centre shelf track 152. Support leg 184 may thus be formed with a length sized
for a terminal end 186 to abut centre shelf track 152 and is most preferably formed
with a laterally extending, terminal end flange 188 positioned for abutting engagement
with centre shelf track 152. With the combination of mounting hook 182 and support
leg 184 engaging centre shelf track 152, shelf rail 160 is strengthened to resist
twisting or racking forces which may be exerted by a partial shelf 26 mounted on shelf
rail 160 and loaded.
[0060] In an alternative embodiment (Fig. 20) of a shelf rail 190, preferably formed from
14-gauge steel, a pair of spaced supports 192 are bent out of and project generally
rearwardly from the metal body portion 194 of the shelf rail 190. In a similar manner
as for support 92 having end 96 in shelf rail 90, each support 192 is sized in length
to have a terminal end closely adjacent or just in contact with refrigerator back
wall 28 when shelf rail 190 is mounted on shelf tracks 22. Supports 192 thus support
shelf rail 190 against twisting or racking forces as already discussed in greater
detail regarding shelf rail 90. As with the previous embodiments of the shelf rail,
any of the mounting hook embodiments 40 and 42, 48 and 50, or 166 and 168 can be used
on rail 190.
[0061] In use, a shelf rail 20 may be mounted to a pair of adjustable shelf tracks 22 (Figs.
1 and 2) or to an adjustable shelf track 22 and a centre shelf track 152 (Figs. 13
and 15) by inserting positive locking tabs 44 at each end of shelf rail 20 into a
cooperating slot 46 of the adjustable shelf tracks (Fig. 4). With tabs 44 so engaged,
shelf rail 20 may be rotated in a generally downward direction for insertion of mounting
hooks 42 through corresponding slots 46 spaced generally vertically downwardly from
the slots 46 which receive tabs 44. With tabs 44 and hooks 42 so engaged in corresponding
slots 46, shelf rail 20 may be slid generally downwardly for each of mounting hooks
40 and 42 to engage a cooperating rung 60.
[0062] With shelf rail 20 mounted on the respective shelf tracks 22 and 152, a partial shelf
26 may be hung or mounted on shelf rail 20 simply by positioning leg 136 of each bracket
122 and 124 to insert wear member 72 and top edge 66 of shelf rail 20 between leg
136 and bracket back edge 138. With locking hook 134 and shelf rail 20 so engaged,
lower bracket portion 141 will abut shelf rail 20 near flange 68 for cantilever support
of partial shelf 26 from shelf rail 20. A generally upward force applied at front
edge 142 (Fig. 10) of partial shelf 26 will release bracket lower portion 141 from
abutting shelf rail 20 and allow lateral sliding of locking hook 134 along wear member
72 for lateral positioning of partial shelf 26 along the length of shelf rail 20.
[0063] In a similar fashion, shelf rail 160 may be mounted to adjustable shelf tracks 22
with mounting hook 182 engaging centre shelf track 152 and support leg 184 abutting
centre shelf track 152 (Fig. 19). Further, partial shelf 26 may similarly be releasably
mounted on shelf rail 160.
[0064] The above description relates to preferred embodiments only. Modifications of the
invention, including, but not limited to, extending bracket lower portion 141 (Fig.
10) to extend around flange 68 for example, or full width shelves 24, 154, 156 having
a width greater than the spacing between shelf tracks 22, such as across the entire
refrigerator compartment, or shelf rails 20, 90, 160 or 190 extending beyond shelf
tracks 22 if those tracks are not mounted at the extreme edges of the refrigerator
compartment, will occur to those skilled in the art and are therefore encompassed
within the invention. Therefore, it is understood that the embodiments shown in the
drawings and described above are merely for illustrative purposes and are not intended
to limit the scope of the invention, which is defined by the following claims.
1. A shelf assembly comprising:
a shelf rail (20,90,160,190) comprising one or more attachment means (42,44,56,48,166,168,182)
allowing the rail to be mounted in a substantially horizontal position in a refrigerator,
the rail adapted to receive and support one or more shelves (26,124,126); and
a shelf (26,124,126) adapted to be mounted onto the shelf rail at one of a plurality
of positions along the rail.
2. A refrigerator having one or more shelf assemblies according to claim 1.
3. A refrigerator according to claim 2 additionally comprising a refrigerated compartment
with at least a first shelf track (22) and a second shelf track mounted (22) in the
compartment, each of the first and second shelf track being generally vertically oriented
in horizontally spaced relation to each other and defining a width therebetween, each
of the first and second shelf track also being adapted for releasable supporting engagement
with a number of support brackets (122,130) for cantilevered support of a number of
shelves (24,26) at a plurality of vertically spaced locations.
4. A refrigerator according to claim 3 additionally comprising:
a full shelf (24) supported by the first and second shelf tracks, the full shelf
extending at least fully across the width;
a shelf rail (20,90,160,190) mountable on the first and second shelf tracks so
that it extends at least fully across the width; and
a partial shelf (26) mountable on the shelf rail so that the partial shelf extends
less than fully across the width and being in vertically spaced relation to the partial
shelf when mounted on the shelf rail.
5. A refrigerator according to claim 3 or 4 wherein the shelf rail (20,90,160,190) extends
across the width and has projecting members (42,44,56,48,166,168,182) for releasable
engagement with the first and second shelf tracks at a plurality of vertically spaced
locations, and optionally the shelf rail has an elongate body from which the projecting
members extend having a first hook (40,48,166) for releasable engagement with the
first shelf track and a second hook (182) for releasable engagement with the second
shelf track, the first and second hook being spaced along a length of the shelf rail.
6. A refrigerator according to claim 3 wherein the shelf rail comprises:
an elongate body (34) extending across the width and being adapted for releasably
receiving and supporting a shelf;
a first portion adapted for releasable engagement with the first shelf track; and
a second portion, spaced along a length of the shelf rail (20,90,160,190) from
the first portion, adapted for releasable engagement with the second shelf track.
7. A refrigerator according to claim 6 wherein the first portion has at least a first
hook for releasable engagement with the first shelf track, and the second position
has at least a second hook for releasable engagement with the second shelf track,
and optionally:
the shelf rail is rotatable about an axis of rotation for releasable engagement
with the first and second shelf tracks (22), the axis of rotation extending generally
along the length of the shelf rail; and
the first tab includes a first stop hook, the first stop hook releasably engaging
the first shelf track to limit rotation of the shelf rail to a position in which the
first tab is disengaged from, and adjacent to, the first shelf track.
8. A refrigerator according to claim 6 or 7 wherein the second portion has a second tab
located near the second hook for releasable engagement with the second shelf track,
the second tab adapted to lock the second hook in engagement with the second shelf
track, the second tab including a second stop hook and adapted to releasably engage
the second shelf track to limit rotation of the shelf rail to a position in which
the second tab is disengaged from, and adjacent to, the second shelf track.
9. A refrigerator according to claim 3 comprising:
a shelf rail (20,90,160,190) mounted on the first and second shelf tracks (22)
and extending across the width; and
a partial shelf (26) mounted on the shelf rail, the partial shelf extending less
than fully across the width.
10. A refrigerator according to claim 9 wherein the partial shelf (26) has:
a shelf panel (120 with a top surface for receiving and supporting an article set
thereupon and a perimeter edge (128) thereabout;
a rim (126) moulded from a resinous material about the perimeter edge to provide
a liquid-tight seal between the shelf panel and the rim, the liquid-tight seal being
formed during moulding; and
at least one support bracket (122,124) for supporting the partial shelf.