BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a partially exploded, perspective view of a bottom mount refrigerator incorporating an elevating freezer basket constructed in accordance with a first embodiment of the present invention;
FIG. 2 is a cut-away side view of the refrigerator of FIG. 1 illustrating the elevating freezer basket in a first or lowered position;
FIG. 3 is a cut-away side view of the refrigerator of FIG. 1 illustrating the elevating freezer basket in a second or raised position;
FIG. 4 is a cut-away side view of a refrigerator incorporating an elevating freezer basket constructed in accordance with a second embodiment of the present invention, with the freezer basket in a first or lowered position;
FIG. 5 is a cut-away side view of the refrigerator of FIG. 4 illustrating the freezer basket in a second or raised position;
FIG. 6 is a cut-away side view of a refrigerator incorporating an elevating freezer basket constructed in accordance with a third embodiment of the present invention, with the freezer basket shown in a first or lowered position; and
FIG. 7 is a cut-away side view of the refrigerator of FIG. 6 illustrating the freezer basket in a second or raised position.
DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS
With initial reference to FIGS. 1-3, a refrigerator constructed in accordance with the present invention is generally indicated at 2. Refrigerator 2 includes a cabinet shell 6 within which is defined a fresh food compartment 8. A fresh food compartment door 10 is pivotally mounted relative to cabinet shell 6 so as to selectively provide access to fresh food compartment 8. In accordance with the invention, a freezer compartment 13 is arranged below fresh food compartment 8. With this arrangement, refrigerator 2 actually constitutes a bottom mount model. In a manner known in the art, freezer compartment 13 includes a liner 15 and a freezer compartment door 18. In accordance with the invention, freezer compartment door 18 is shiftably mounted relative to cabinet shell 6 and is shown to include a main or outer body portion 19 to which is attached a handle 20. Handle 20, in a manner known in the art, enables a consumer to grasp and shift freezer compartment door 18 outwardly, thereby exposing and providing access to freezer compartment 13.
In the embodiment shown, freezer compartment door 18 is suspended by a drawer support system 30 that includes a pair of extensible drawer support glides 36 and 37 which are mounted to a corresponding pair of glide receivers 40 and 41 formed on opposing side walls (not separately labeled) of liner 15. In order to provide flexible storage options for a consumer, freezer compartment 13 includes a first or upper basket 46 which is slidably supported on opposing side walls of liner 15 in a manner similar to that described for freezer compartment door 18, and a second or lower basket 48 that is, in a manner that will discussed more fully below, shiftably supported upon freezer compartment door 18. More specifically, lower basket 48 is shiftably supported by a lower or basket support wall 52 that extends from main portion 19 of freezer door 18. Actually, as best shown in FIG. 2, basket support wall 52 extends substantially perpendicularly from a lower region (not separately labeled) of main portion 19. In order to allow a consumer to easily retrieve articles from lower basket 48, i.e., retrieve articles without having to significantly bend or reach into lower portions of freezer compartment 13, lower basket 48 is mounted to a lifting mechanism 60 that is selectively operated to raise lower basket 48 to a level that is substantially co-planar with upper basket 46.
In accordance with a first embodiment of the present invention, lifting mechanism 60 includes a plurality of lifting members 70-73 that are pivotally attached to a pair of base members, one of which is indicated at 80. That is, lifting members 72 and 73 are pivotally secured to base member 80, while lifting members 70 and 71 are secured to a corresponding opposing base member (not shown). Base member 80 and the opposing base member (not shown) are arranged on side portions 54 and 55 of basket support wall 52 with lower basket 48 being arranged therebetween. In any event, as each lifting member 70-73 is constructed similarly, a detailed description will be made with respect to lifting member 73 with an understanding that lifting members 70-72 are substantially identical.
As best shown in FIGS. 2 and 3, lifting member 73 includes a first end portion 84 that is pivotally connected to basket 48 and that extends to a second end portion 85 through an intermediate portion 87. Second end portion 85 is, in accordance with the invention, pivotally connected to base member 80. Lifting member 73 is designed to provide, in accordance with the most preferred form of the invention, approximately 12-inches (30.5 cm) of lift to lower basket 48. More specifically, when operated, lifting mechanism 60 raises lower basket 48, approximately 12-inches (30.5 cm), so as to be substantially co-planar with upper basket 46 in a manner that will become more fully evident below.
When initially opening freezer door 18, lower basket 48 shifts outward and is in a first or lowered position so as to be orientated below upper basket 46 as represented in FIG. 2. In the lowered position, freezer door 18 can be readily shifted out from freezer compartment 13 without lower freezer basket 48 interfering with upper freezer basket 46. Unfortunately, retrieving objects from lower basket 48 when in the lowered position can be difficult for some consumers. In order to make the retrieval of objects easier, a consumer need simply grasp a front edge portion (not separately labeled) of lower basket 48 and pull upward towards freezer compartment door 8 thereby shifting lower basket 48 to a second or raised position as represented in FIG. 3. More specifically, as the consumer pulls on lower basket 48, lifting members 70-73 pivot about base member 80 to guide lower basket 48 along an arcuate path until reaching a fully raised position wherein lifting members 70-73 are in an over-center position which retains lower basket 48 in the raised position. Once in the fully raised position, a consumer can easily remove the desired items from lower basket 48. After removing the desired items, the consumer need simply guide lower basket 48 back along the arcuate path to return lower basket 48 to the lowered position and thereafter close freezer door 18.
Reference will now be made to FIGS. 4 and 5 in describing a lifting mechanism 120 constructed in accordance with a second embodiment of the present invention. As shown, lifting mechanism 120 includes a plurality of lifting members, two of which are indicated at 130 and 131 shown arranged along side portion 54 of basket support wall 52. In accordance with the embodiment shown, lifting member 130 includes a first end portion 132 which is mounted to basket support wall 52 and extends upward to a second end portion 133 through an intermediate portion 134. Likewise, lifting member 131 includes a first end portion 135 mounted to basket support wall 52 and extends upward to a second end portion 136 through an intermediate portion 137.
In accordance with the invention, intermediate portions 134 and 137 are threaded so that lifting members 130 and 131 actually constitute part of a worm screw mechanism that will be detailed more fully below. At this point, it should be understood that a second pair of lifting members (not shown) are arranged on opposing side portion 55. In any event, lower basket 48 is operatively connected to lifting members 130 and 131 through a pair of carrier members 149 and 150. As shown, carrier members 149 and 150 are secured to lower edge portions (not separately labeled) of lower basket 48. Each carrier member 149, 150 engages with a corresponding intermediate portion 134 and 137 of a respective lifting member 130, 131. That is to say, carrier members 149 and 150 include internally threaded portions (not shown) that cooperate with threads on intermediate portions 134 and 137.
In accordance with the embodiment shown, lifting mechanism 120 is operated through a control 160 that is operatively connected to a motor 163 and a switch 166. As shown, motor 163 is located in basket support wall 52. Alternatively, motor 163 could be provided at second end portions 133 and 136 of lifting members 130 and 131 respectively. In any case, switch 166 is preferably a non-latching electrical user input switch located on a top inner lip portion (not separately labeled) of freezer compartment door 18. Switch 166, when activated, signals a motor control 169 to operate motor 163 in a manner so as to raise or lower basket 48. Preferably, when activated, switch 166 will cause motor 163 to raise basket 48 to a height corresponding to that of upper basket 46 as represented in FIG. 5. In a preferred form of the invention, motor 163 will actually cause lower basket 48 to transition between raised and lowered positions in approximately 3 seconds. In any case, motor control 169 can signal motor 163 to operate in either a forward or reverse direction depending on a particular position of switch 166. That is, depending upon the position of switch 166, motor 163 rotates lifting members 130 and 131 to cause carrier members 149 and 150 to travel along intermediate portions 134 and 137 thereby shifting lower basket 48 between raised and lowered positions.
In accordance with one aspect of the present embodiment, lifting mechanism 120 is provided with an obstacle detection sensor 180 that determines whether a travel path is clear, thereby allowing lower basket 48 to be raised. More specifically, obstacle detection sensor 180, which takes the form of an IR sensor, current sensor, microswitch or the like, ensures that upper basket 46 is located within freezer compartment 13 so as to not interfere with the operation of lower basket 48 and/or that lower basket 48 is not overfilled with items that could limit the vertical displacement.
Reference will now be made to FIGS. 6 and 7 in describing a lifting mechanism 195 constructed in accordance with a third embodiment of the present invention. As shown, a pneumatic lifting mechanism 195 includes a lifting member 200 that includes a cylinder portion 210 having a terminal end portion 213. Terminal end portion 213 is pivotally connected to a bracket 214 provided on basket support wall 52. Lifting member 200 also includes a piston or plunger 217 that retractably extends from within cylinder portion 210. Plunger 217 is provided with an end portion 220 that is pivotally connected to a mounting element 225 provided on lower basket 48. Mounting element 225 preferably extends substantially perpendicularly downward from a bottom wall (not separately labeled) of lower basket 48. A second bracket 228 projects from a front wall portion (not separately labeled) of lower basket 48 and includes a guide member 230 in the form of a pin or roller. Guide member 230 transitions within a guide element 234 when lower basket 48 transitions between a lowered position, as represented in FIG. 6, and a raised position, as represented in FIG. 7. More specifically, guide element 234 includes a longitudinally extending slot 238 that receives guide member 230 and terminates at an upper portion (not separately labeled) in a notch 241.
With this arrangement, a consumer need simply grasp lower basket 48 and pull upward, causing guide member 230 to travel upward along slot 238. At the same time, lifting mechanism 195 provides an assist to the consumer in raising lower basket 48. That is, as lower basket 48 is raised, compressed gas contained within cylinder portion 216 expands, forcing plunger 217 outward. As plunger 217 moves outward, a force is applied to lower basket 48 assisting the consumer. Once lower basket 48 is in the raised position, guide member 230 nests within notch 241 preventing lower basket 48 from inadvertently shifting.
When the consumer moves lower basket 48 to the lowered position, plunger 217 shifting in cylinder portion 216 acts as a damper, preventing lower basket 48 from slamming against basket support wall 52. More specifically, as lower basket 48 shifts downward, the compressed gas prevents plunger 217 from quickly retracting into cylinder portion 210. At this point, it should be understood that various other mechanisms, such as springs or cam operated linkages, could also be employed to soften or otherwise slow the transition from the raised position to the lowered position. For that matter, any form of damper can be incorporated into the first embodiment of the present invention to prevent lower basket 48 from rapidly shifting from the raised position to the lower position, thereby slamming into basket support wall 52.
With any of the above arrangements, a consumer is provided with enhanced access to a lower freezer basket. That is, it should be understood that the present invention provides for a convenient means of accessing a lower basket in a bottom mount freezer compartment so as to alleviate the need for a consumer to bend over when accessing items stored in the lower freezer basket. Although described with reference to preferred embodiments of the present invention, it should be understood that the lifting mechanisms described are but three examples of mechanisms that can be employed to raise the freezer basket from its lowered position to its raised position and numerous other mechanisms can also be employed. Also, it should be understood that the present invention could operate to automatically raise lower basket 48 upon opening freezer door 18. That is, when a consumer opens freezer door 18, basket 48 would automatically raise to a position corresponding to that of upper basket 46. Of course, with this arrangement, an obstacle detection sensor must be employed to ensure that the lifting mechanism does not operate in the event that there is something blocking the travel path of basket 48. In any case, the invention is only to be limited to be limited by the scope of the following claims.