This application relates generally to an internal storage shelf for a refrigeration appliance, and more particularly, to a refrigeration appliance including an internal shelf being cantilevered relative to support elements of a body of the appliance and having a rail system mounted flush with a false rear wall of the body.
Conventional refrigeration appliances, such as domestic refrigerators, typically have both a fresh food compartment and a freezer compartment or section. The fresh food compartment is where food items such as fruits, vegetables, and beverages are stored and the freezer compartment is where food items that are to be kept in a frozen condition are stored. The refrigerators are provided with a refrigeration system that maintains the fresh food compartment at temperatures above 0° C., such as between 0.25° C. and 4.5° C. and the freezer compartments at temperatures below 0° C., such as between 0° C. and −20° C.
The arrangements of the fresh food and freezer compartments with respect to one another in such refrigerators vary. For example, in some cases, the freezer compartment is located above the fresh food compartment and in other cases the freezer compartment is located below the fresh food compartment. Additionally, many modern refrigerators have their freezer compartments and fresh food compartments arranged in a side-by-side relationship. Whatever arrangement of the freezer compartment and the fresh food compartment is employed, typically, separate access doors are provided for the compartments so that either compartment may be accessed without exposing the other compartment to the ambient air.
Many modern refrigerators use a pair of French-type doors wherein two opposing doors allow access to the fresh food compartment. Some refrigerators are designed such that said refrigerator doors present a symmetrical configuration (i.e., the two opposing doors having the same width), while other are designed such that said refrigerator doors present an asymmetrical configuration (i.e., the two opposing doors have different widths).
In either configuration, such refrigerators are known to include a plurality of various types of storage support, which support may include any of shelves, drawers, bins, racks, hangers, etc. Typical shelving includes support arms that removably engage with a support element, such as a ladder track or support rail, attached to the rear wall, at least of the fresh food compartment. The support arms typically include a latching element that is received into one of various slots disposed at a respective support element, the support element extending inward into the respective cabinet from a rear wall of the respective compartment. The latching elements can be shifted vertically, to provide for different internal arrangements of shelves and spacing of shelves from one another. This customization allows the user to adjust the shelves as needed to meet particular storage needs with respect to products of various heights that may be stored in the respective compartment. Likewise, one or more shelves may be removed to make room for especially large or tall items.
The following presents a simplified summary of the disclosure in order to provide a basic understanding of some example aspects described in the detailed description. This summary is not an extensive overview. Moreover, this summary is not intended to identify critical elements of the disclosure nor delineate the scope of the disclosure. The sole purpose of the summary is to present some concepts in simplified form as a prelude to the more detailed description that is presented later.
Generally, a shelf support system for supporting a shelf within a cabinet of a refrigeration appliance is provided for engaging with at least a pair of adjacent and comparatively-transversely-arranged walls of a liner within the cabinet, to thereby support the shelf in a generally horizontal state, while also providing mounting support to a false wall extending along and disposed inward of one of the pair of walls of the liner.
In accordance with one aspect, there is provided refrigeration appliance including a cabinet defining a storage compartment therein for storing food items in a cooled environment, a door coupled relative to the cabinet for selectively closing an opening of the compartment, and a liner defining at least one liner wall of the compartment. Also included is a vertical support rail coupled to the at least one liner wall, a shelf support selectively removably mounted to the vertical support rail, a shelf panel supported generally horizontally on the shelf support, and a false wall extending along the at least one liner wall and disposed inward of the at least one liner wall within the compartment. The vertical support rail is disposed majoratively outward of an inward-most face of the false wall.
In accordance with another aspect, there is provided a refrigeration appliance including a cabinet defining a storage compartment therein for storing food items in a cooled environment, a liner defining at least one liner wall and an adjacent liner wall of the compartment disposed adjacent the at least one liner wall, and a vertical support rail coupled to the at least one liner wall. Also included is a shelf support selectively removably mounted to the vertical support rail and extending inward of the at least one liner wall into the compartment, and a shelf panel supported generally horizontally on the shelf support. The vertical support rail is supported in vertical alignment via engagement with both the at least one liner wall and with the adjacent liner wall, where the vertical support rail and the adjacent liner wall each have mating features corresponding to and mating with one another.
In accordance with yet another aspect, there is provided refrigeration appliance including a cabinet defining a storage compartment therein with one or more shelves supported in the compartment, and a false wall provided adjacent an internal wall of the compartment to conceal aspects of a support system that supports both the false wall and the one or more shelves within the compartment, via inter-engagement of the support system with the internal wall and with another internal wall disposed adjacent the internal wall.
The foregoing and other features are hereinafter described in greater detail with reference to the accompanying drawings.
These accompanying drawings, which are not necessarily to scale, show various aspects of the disclosure.
Generally disclosed is a refrigeration appliance that includes a compartment for storing food items in a refrigerated environment, the compartment being selectively closed by a door. One or more shelves are provided in the compartment and are supported in a generally horizontal state by a shelf support system according to the present application. The shelf support system is configured to reduce space in the compartment taken up by the shelf support system and to provide extra stability to the one or more shelves beyond that of conventional shelf support systems. The shelf support system and a false rear wall of the refrigeration appliance according to the present application are jointly configured to conceal aspects of the shelf support system and to provide a flush and planar rear of the compartment to accomplish an overall clean and fluid presentation to the user.
Embodiments of a refrigerator or a component thereof will now be described with reference to the accompanying drawings. Whenever possible, the same reference numerals are used throughout the drawings to refer to the same or like parts. However, this apparatus may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.
Referring now to the drawings,
One or more doors 16 shown in
A dispenser 18 (
Referring to
In alternative embodiments, the ice maker is located within the freezer compartment. In this configuration, although still disposed within the freezer compartment, at least the ice maker (and possible an ice bin) is mounted to an interior surface of the freezer door. It is contemplated that the ice mold and ice bin can be separate elements, in which one remains within the freezer compartment and the other is on the freezer door.
The freezer compartment 12 is used to freeze and/or maintain articles of food stored in the freezer compartment 12 in a frozen condition. For this purpose, the freezer compartment 12 is in thermal communication with a freezer evaporator (not shown) that removes thermal energy from the freezer compartment 12 to maintain the temperature therein at a temperature of 0° C. or less during operation of the refrigerator 10, preferably between 0° C. and −50° C., more preferably between 0° C. and −30° C. and even more preferably between 0° C. and −20° C.
The refrigerator 10 includes an interior liner 24 (
Turning next to
The shelving 30 includes a conventional shelf assembly 36 that can be removed from the fresh food compartment 14 of the refrigerator 10 while leaving a support frame 40 in place. The removable portion of the shelf assembly 36 includes a shelf panel 42 comprised of materials that are dishwasher safe. Also, since the shelf panel 42 is not permanently attached to the support frame 40, the shelf panel 42 can be taken out of the refrigerator 10 for use as a serving platter, for cleaning, or other uses.
It is contemplated that the frame 40 can be formed of a generally rigid material, such as metal, plastic or the like. In one example, the frame 40 can be formed of an injection molded plastic, and may be formed as a monolithic unit. That is, front, side and rear portions can be integrally formed as a monolithic body to define the frame 40. In other embodiments, some or all of these portions can be removably or non-removably attached to one another. The frame 40 may include additional features, such as raised or angled edges extending along the outer perimeter to retain spills.
Generally the shelf panel 42 is supported by the frame 40 and includes a planar support surface. Alternatively, one or more portions of the frame may be omitted such that at least one edge of the planar support surface of the shelf panel 42 is exposed.
It is contemplated that the shelf panel 42 can have various shapes and dimensions with the planar support surface configured to support various objects for storage. For example, the shelf panel 42 can be formed of various generally rigid materials, such as glass, plastic, metal, wire, or other suitable materials. Preferably, the shelf panel 42 comprises a generally translucent or transparent material, such as a tempered or toughened glass or polymer panel suitable for use in a refrigerated environment. The shelf panel 42 may include additional features, such as raised or angled edges extending along the outer perimeter (e.g., front, rear, and/or side edges) to provide a “spill proof” panel and/or one or more support legs to support the shelf panel 42 inside and/or outside of the appliance. Additionally or alternatively, a handle (not shown) can be removably or non-removably fixed along at least a portion of the front edge to facilitate user manipulation of the shelf panel 42.
The shelf assembly 36 is supported by a shelf support system 38 including at least one shelf support arm 44 and at least one support rail 46. The shelf support arm 44 is configured to be attached with respect to the interior liner 24 of the fresh food compartment 14 to support the shelf panel 42 therein. As shown, a pair of shelf support arms 44 can be used, with one support arm 44 located at and supporting each lateral end of the shelf panel 42. In one example, one or more of the shelf support arms 44 can include an interlocking device configured to be removably attached with respect to the interior liner 24 at a selected elevation with the shelf support arms 44 acting as a cantilever support for the shelf panel 42. In the illustrated embodiment, a plurality of ladder tracks or vertical support rails 46 are provided with an array of vertically disposed apertures 48 to allow interaction with the interlocking device to maintain the shelf assembly 36 at the desired user-selected elevation within the fresh food compartment 14 of the refrigerator 10. Preferably, the shelf support arms 44 have corresponding attachment structure to be received and retained within the apertures 48, such as hook-shaped members or the like.
Turning next to
The refrigeration appliance 100 includes an interior liner 124 that at least partially defines an upper zone 114 and a lower zone 112. The liner 124 defines a plurality of internal walls of the upper and lower zones 114 and 112, which may jointly be referred to as the compartment. In one example, the inner liner can be a single unitary liner that defines the entire refrigerated interior compartment of the refrigeration appliance 100, which may have a single zone or multiple zones, as described. Although described as “zones”, it is to be appreciated that there may or may not be any hard barriers or mullions that separate or define such zones. In the below-described example, the shelf assembly is typically installed onto a shelf support system in the upper zone 114, while drawers or other storage systems are utilized in the lower zone 112. However, it is to be appreciated that the shelf assembly and corresponding shelf support system can be used in either or both of the described zones. The internal walls of the liner 124 include a rear wall 125a and opposed side walls 125b, in addition to defining upper and lower walls of the upper and lower zones 114 and 112. It will be appreciated that the term upper and other directional or alignment designations such as lower, below, above, vertical, horizontal, etc. are provided with respect to typical alignment of the refrigeration appliance 100 while in operation.
The liner 124 may be formed by any suitable process, such as preferably by vacuum form molding, or by thermoforming or rotomolding. The liner 124 has an inner side disposed opposite an outer side and is configured, such as being shaped, to be inserted into a casing 130 and coupled to the casing 130 by any suitable method. It is understood that insulation subsequently will be installed into an insulation space formed between the liner 124 and the casing 130 to form a cabinet 119 of the refrigerator 100. The insulation typically is fluidly injected, such as foamed, into the insulation space, which is disposed about the outer side of the liner 124.
As illustrated best at
It also is contemplated that other elements can be similarly supported by the shelf support system 138. For example, the shelf support system 138 disclosed herein also is suitable for use with a hanging bin or drawer assembly, such as a crisper bin, meat drawer, beverage rack, etc. that may or may not include a traditional “shelf.”
The shelf assembly 136 includes a shelf panel 142 supported by a support frame 140, and each having a conventional configuration. Thus, for brevity, only minimal additional description of the shelf assembly 136 will be provided as otherwise corresponds to the shelf support system 138.
The shelf support system 138 includes a vertical support rail 146 coupled to the rear liner wall 125a and having a plurality of vertically-spaced apertures 148, and a shelf support 144, such as a shelf support arm 144, that is selectively removably mounted to the vertical support rail 146 via interlocking within the apertures 148 (
Each depicted shelf assembly 136 is supported by a pair of vertical support rails 146 and a pair of shelf support arms 144 spaced-apart from one another in a generally horizontal direction, and particularly along a lateral direction extending between the opposed side walls 125b of the liner 124. Each shelf support arm 144 is engaged with a respective one of the vertical support rails 146. It is noted that each of the shelf support arms 144 that are arranged to support a single shelf assembly 136 either are identical to or are generally an inverse of the other, although it is contemplated that they could be different.
Looking specifically to
Specifically, the interlocking portion 152 includes at least one hangar element 154 configured to engage within a vertically disposed aperture 148 of the vertical support rail 146 to thereby maintain the respective shelf assembly 136 at a particular elevation within the cabinet 119. For example, the hangar element 154 may be a hook or other curved projection. The hangar element 154 is configured to curve downwardly when arranged at the vertical support rail 146. The hangar element 154 also is configured with a length that protrudes through an aperture 148, with an edge of a window 149 defining said aperture 148 being received into a depression 155 defined by the hangar element 154.
To further aid in stability of the support arm 144, and of a shelf assembly 136 supported by the support arm 144, the interlocking portion 152 also includes a secondary tab 156 that likewise is configured to be received into an aperture 148 of the vertical support rail 146. The secondary tab 156 is spaced from but aligned with the hangar element 154 such that the hangar element 154 and secondary tab 156 are configured to be inserted into vertically-separated apertures 148 of a vertical support rail 146. The secondary tab 156 does not include a hangar element, such as a hook. Rather, the secondary tab 156 at most minimally protrudes into a respective aperture 148 when aligned therewith. The secondary tab 156 provides lateral or side-to-side support of the support arm 144, aiding in limiting or altogether preventing rotation of the support arm 144 about axes extending generally along the cantilever portion 150.
The interlocking portion 152 is configured to be removed and to be inserted into varying ones of the apertures 148 of the vertical support rail 146 to thereby provide the respective shelf assembly 136 at an adjustable and desired elevation chosen by the user. Accordingly, to remove the shelf support arm 144 from the cabinet 119 or to adjust a vertical position of the shelf support arm 144, the user raises vertically upward a distal end 160 of the shelf support arm 144 disposed opposite the interlocking portion 152. This enables the hangar element 154 to be pulled from the respective aperture 148 to thereby disengage the vertical support rail 146.
It will be appreciated that the term upper and other directional and alignment designations such as lower, below, above, vertical, horizontal, etc. are provided with respect to typical alignment of the shelf support system 138 and shelf assembly 136 within a zone 112/114 of the refrigeration appliance 100.
Turning now to additional aspects of the shelf support arm 144, to aid in mounting of the shelf assembly 136 to the support arm 144, the cantilever portion 150 can include one or more engagement features, such as one or more protrusions 162 spaced along an upper edge of the cantilever portion 150.
Disposed between the cantilever portion 150 and the interlocking portion 152, the support arm 144 can include an intermediate bent portion 164 that is bent out of plane of either of the interlocking portion 152 or the cantilever portion 150. The bent portion 164 is shaped such that the generally planar shapes of the interlocking portion 152 and the cantilever portion 150 each extend generally parallel to but horizontally offset from one another. The bent portion 164 is provided to add additional support and stability against moments of force about the interlocking portion 152.
As depicted at least at
Turning now to
As depicted, these aspects are integrally formed as a monolithic unit made of metal, such as formed steel. In one embodiment, illustrated in
Turning specifically to the bottom perspective view of
The bent configuration of the vertical support rail 146 next proceeds to the U-shaped shelf support 172. This aspect forms the inward-most extent of the vertical support rail 146 along a direction proceeding from the liner into the zones 112/114 defined by the liner 124, with the rear liner wall 125a being relatively more outward (in a direction towards the casing 130). In the particular arrangement depicted, the U-shaped shelf support 172 defines the most frontward extent of the vertical support rail 146.
This frontward extent is defined by a pair of opposed, rounded vertical-extending edges 182 at the distal ends 184 of the U-shape. The base of the U-shape is an apertured mounting wall 186 having the plurality of vertically-separated apertures 148 for receiving the hangar element 154 and secondary tab 156.
As shown in
These features are provided for mating with corresponding mating features, such as inverse mating features, of a liner wall adjacent the rear mounting liner wall 125a, and specifically with mating features of a respective side liner wall 125b. The mating features of the side liner wall 125b include at least a vertically-extending ridge 196 for mating within the groove 192 of the vertical support rail 146. That is, the vertical support rail 146 is supported by at least a pair of transversely-opposed, adjacent liner walls 125a, 125b. The rail 146 is fixed to the rear liner wall 125a (via flange 170) and is also in non-fixed engagement with the side liner wall 125b. This dual support provides additional stability over conventional rail attachment only to a rear liner wall.
Turning to
A vertically-extending pocket 202 is formed at least partially by the L-shaped stability flange 174, between the flange 174 and the apertured mounting wall 186. This pocket 202 is disposed at least partially rearward (or outward) of the L-shaped mounting flange 170 and provides space for receipt of the hangar element 154. A distal tip of the hangar element 154 may extend rearward beyond a major visible surface of the rear liner wall 125a and into the pocket 202 at the recess 198. This configuration of the vertical support rail 146 and recess 198 allows for the mounting wall 186 to be disposed out of view of the user and also to increase usable space within the zones 112/114.
In addition to the foregoing, other configurations of the vertical support rail 146 may be suitable. For example, in some embodiments, the L-shaped stability flange may be received at least partially into a respective side liner wall 125b. In some embodiments, the secondary L-shaped stability flange 174 may be omitted, and in others may be otherwise shaped or provide a rearward extent that does not extend beyond the L-shaped mounting flange 170. In some embodiments the L-shaped mounting flange 170 may be attached to a side liner wall 125b of the liner 124, and the rear liner wall 125a may mate with the mating features of the lateral side 190 of the vertical support rail 146.
Looking still to
To provide this support, the false wall 210 includes a protrusion received in a depression of the vertical support rail 146. As illustrated at
The false wall 210 defines a cavity 220 disposed between the false wall 210 and the liner 124, which cavity 220 may contain any of a cooling tower, wiring, tubing, an evaporator, venting, etc. The false wall 210 also conceals at least a portion of the shelf support system 138 by which it is supported. At least a portion of the L-shaped mounting flange 170 is concealed rearward (or outward) of the false wall 210. The vertical support rail 146 also includes the wall of the rounded edge 182 being the forward-most (or inward-most) extent of the vertical support rail 146, which extent is disposed generally flush with or rearward of an inward-most face of the front panel portion 212a. Further, as depicted, the mounting wall 186 is disposed rearward, though laterally, of the false wall 210, and particularly rearward of a front-most face of the front panel portion 212a of the false wall 210.
In view of the foregoing arrangement of the vertical support rail 146, false wall 210, and liner 124, visibility of the apertures 148 to the user at the opening of the refrigeration appliance 100 is at least partially reduced. Moreover, the concealing of portions of the shelf support system 138 provides a recessed and fluid appearance of the rear of the cabinet to the user, while also maximizing storage space within the zones 112/114.
In some embodiments, an additional or alternative false wall may extend along a different internal wall of the zones 112/114, while still concealing at least a portion of the shelf support system 138.
Turning now to
The vertical support rail 246 includes an L-shaped mounting flange 270, U-shaped shelf support 272, and a secondary support flange 274. Preferably, these elements are comprised of metal, such as formed steel. However, different from the vertical support rail 246, the U-shaped shelf support 272 is separately formed from a remainder of the vertical support rail. Thus, the L-shaped mounting flange 270 and secondary support flange 274 can be one unitary element, while the U-shaped shelf support 272 is a second unitary element. In this way, the shelf support 272 can be composed of an alternate material, such as injection-molded plastic, and can, for example, be molded or extruded, among other suitable manufacturing methods. Due to the plastic construction, one or more internal support braces 249 can extend across the interior walls of the U-shaped shelf support 272 to limit movement or outward deflection thereof, and such braces 249 can define one or more apertures 248 along the length of the U-shaped shelf support 272.
The depicted vertical support rail 246 includes the shelf support 272 being coupled to an intermediate portion 273, disposed between the flanges 270 and 274, such as by heat-staking, sonic welding, or mechanical fasteners, where the shelf support 272 is composed of plastic. Preferably the coupling will fixedly secure the vertical support rail 246 and shelf support 272 together, and more preferably in a non-removable manner. That is, the intermediate portion 273 includes through-holes 275, and protrusions 277 of the shelf support 272 are received therethrough and deformed into attachment, such as by partial melting of the protrusions 277 so that they are securely attached similar to a rivet. Optionally, the flange 274 may also have corresponding and aligned holes 278 (
Additionally, as shown in
In summary, provided is a refrigeration appliance 100 having a cabinet 119 defining a storage zones 112/114 therein with one or more shelves 140/142 supported in the zones 112/114. A false wall 210 is provided adjacent an internal wall 125a of the zones 112/114 to conceal aspects of a support system 138 that supports both the false wall 210 and the one or more shelves 140/142 within the zones 112/114, via inter-engagement of the support system 138 with the internal wall 125a and with another internal wall 125b disposed adjacent the internal wall 125a. A wall 186 of the support system 138 including a plurality of mounting holes comprising the vertically spaced apertures 148 is retained outward of a major inward face of the false wall 210 to provide a recessed and fluid appearance of the side of the interior of the zones 112/114 having the internal wall 125a.
The invention has been described with reference to the example embodiments described above. Modifications and alterations will occur to others upon a reading and understanding of this specification. Example embodiments incorporating one or more aspects of the invention are intended to include all such modifications and alterations insofar as they come within the scope of the appended claims and their equivalents.
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