Embodiments disclosed herein relate to appliances having integrated door shelving such as a refrigerator, freezer, etc. and to providing such door shelving with individual shelves whose vertical (height) spacing is readily adjustable.
The present invention generally relates to refrigerators and, more specifically to vertically adjustable storage shelving positioned within the interior of the refrigerator's doors.
A typical refrigeration appliance, such as a refrigerator/freezer, includes doors having a plastic or metal liner or insert to which one or more storage shelves may be secured thereto. Often the liner will include opposing support grooves or notches that can receive and support shelves at various set positions along the height of the door. The relative height of the shelves may be adjusted by removing a shelf from one set of support grooves and replacing it into the support grooves corresponding to the new position.
Most refrigerators provide only a few support grooves along the height of the door, which limits the relative position of multiple shelves from one another. Once installed and in use, adjusting the spacing/relative height of the shelves is burdensome to the user, as the fully loaded shelf will likely need to be emptied, then removed from the door, repositioned, and then reloaded. During such a prolonged process the door to the refrigerator must be left open, which is inherently inefficient to the operation of the refrigerator and detrimental to its contents.
Accordingly, there is a need in the art for an adjustable shelving system that provides shelves that are quick and easy to adjust even when the shelf being adjusted is fully loaded, and provides a greater degree of adjustability within the confines of the door's height.
Embodiments of the adjustable refrigerator shelving described herein utilize a unique refrigerator door interior that includes opposing sides that define a row of ditch steps along all or some portion of their height. One or more shelves have opposed switches that are received into the ditch steps. Each switch is biased in an outward direction from the shelf so as to engage the ditch steps and thereby secure the shelf in place. A secured shelf may be adjusted vertically upward by applying an upward force to the shelf. This force will overcome the outward bias of the switches, causing them to pivot toward the shelf, temporarily disengaging the switches from the current opposing ditch steps. As the shelf is moved upward, the switches will automatically snap back outward to engage the next higher placed ditch steps. Each switch has a grasping surface or edge which a user may press to disengage the switch from its current the ditch step to allow for vertical downward adjustability of the shelf.
By providing the door with opposed rows of ditch steps and each shelf with a pair to switches to engage ditch steps the adjustable refrigerator shelving described herein provides a refrigeration appliance with shelves whose vertical position along the door is easily and quickly adjusted, even when fully loaded and in use.
Exemplary embodiments of the adjustable refrigerator shelving is shown in the following drawings and described in detail below.
In
As shown in
As best shown in
In at least one embodiment, each row 26 or region 32 terminates at the vertically highest point of the row 26 or regions 32 at a terminal riser 40 that extends from the back 30 of a top most ditch step 42 to the adjacent interior surface 44 of the side wall 18 or 20.
The rows 26 of ditch steps 28 defined by the opposing side walls 18 and 20 are spaced apart to receive and retain one or more shelves therebetween, such as the shelf 24 shown in
Turning to
The switch handle 66 is characterized by two major components: a long component 72 and a short component 74. The long component 72 is longer than the short component 74. At the intersection of the long component 72 and the short component 74 the switch handle 66 defines a mounting rod passage 76 that the mounting rod 68 may be passed therethrough. The long component 72 and the short component 74 define an obtuse angle 78. On the underside 80 of the switch handle 66, the long component 72 and the short component 74 define a biasing member notch 82 in communication with the mounting rod passage 76. The biasing member 70 is disposed about the mounting rod 68 and includes a first post 84 that extends out of the notch 82 to contact the underside 80 of the long component 72. A second post 86 of the biasing member 70 extends out of the notch 82 to contact the gap wall 50 when the switch 64 is properly engaged to the shelf 24, such as in the manner shown in
Returning to
Once each end 46 and 48 of the shelf 24 are equipped with an adjustment switch 64, the shelf 24 is ready for insertion into the door insert 16, such as in the manner shown in
Operation of the system 14, is best illustrated in
The short component 74 of each switch handle 66 is a user interface which may be manipulated to pivot the long component 74 of the switch handle 66 toward the gap wall 50. When manipulated in this manner, the user applies a force sufficient to overcome the biasing force supplied by biasing member 70 that holds the engagement end 90 against the ditch step 28. By actuating both switches 64 of a shelf 24, such as in the manner shown in
The many features and advantages of the invention are apparent from the above description. Numerous modifications and variations will readily occur to those skilled in the art. Since such modifications are possible, the invention is not to be limited to the exact construction and operation illustrated and described. Rather, the present invention should be limited only by the following claims.
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