This invention relates to a pull-out drawer assembly for a refrigerator compartment and, more particularly to a basket arrangement in a pull-out bottom freezer.
Bottom freezer pull-out drawers usually have two baskets with one basket mounted above the other. The bottom basket is attached to the drawer face so that the bottom basket is pulled out by the drawer face while the upper basket remains in the freezer compartment. It is more desirable to have both baskets pulled out when opening the drawer and, to that end, prior art arrangements provided a manual latch between the upper and lower baskets so that the upper basket would be pulled out of the compartment by the lower basket. Such latches are cumbersome however.
It is desirable, therefore, to provide an arrangement wherein both baskets would be pulled out of the compartment when the drawer is open and wherein the upper basket may be returned to the compartment for access to the lower basket without manually unlatching the baskets.
The present invention provides a drawer assembly for a cooled compartment comprising first and second containers movably mounted one above another, said second basket being connected to a drawer face and being movably mounted so that said second basket and said drawer face can be moved as a unit, said first basket being movably mounted so that said first basket can be moved relative to said second basket, a magnet mounted on at least one of said second basket, said drawer face or said first basket, and an engagement device attractable by said magnet mounted on at least another of said second basket, said drawer face or said first basket and facing said magnet so that, when said magnet and said engagement device are engaged, the drawer and the first and second baskets may be moved as a unit and the first basket may moved to separate the magnet from the engagement device and gain access to said second basket.
According to further aspects of the invention at least one of said containers can be a basket. At least one of said containers can be slidably mounted on side rails. Said engagement device can be a metal part of a container support structure. Said containers are movably withdrawn from the compartment and said first container can be pushed back toward the compartment to disengage the magnet from engagement device. The compartment can be refrigerated. Said refrigerator compartment can be a bottom freezer.
According to other aspects of the invention, said first container can be located above said second container and disengagement of the engagement device from the magnet occurs by manually applying a force to the upper container while applying an opposite force to the lower container, which then permits the upper container to be moved separately from the lower container and provide access to the lower container. In another aspect, disengagement of the engagement device from the magnet occurs by limiting travel of the upper container relative to the lower container. Said magnet can be mounted on said first container and said engagement device can be mounted on said second container. Outward travel of said second container can be greater than the outward travel of said first container, so that said magnet and said engagement device will be separated when the first container reaches the extent of its travel.
According to still further aspects of the invention, at least one of said containers can be slidably mounted on side rails and said side rails comprise an outer slide member fixed to a side of said compartment, an intermediate slide member slidable in the outer member and an inner slide member slidable in the intermediate member and fixed to a side of one of said containers.
In yet another aspect of the invention a drawer assembly for a refrigerator compartment includes a multiple basket arrangement comprising first and second baskets slidably mounted one above another, said second basket being connected to a drawer face and being slidably mounted on first side rails so that said second basket and said drawer face can be opened as a unit, said first basket being slidably mounted on second side rails so that the said first basket can be moved relative to said second basket, each of said side rails comprising an outer slide member fixed to a side of said compartment, and intermediate slide member slidable in the outer member and an inner slide member slidable in the intermediate member and fixed to the side of a basket, a magnet mounted on said first basket, and an engagement device attractable by said magnet mounted on said second basket. Outward travel of said second basket can be greater than the outward travel of said first basket, so that said magnet and said engagement device will be separated when the first basket reaches the extent of its travel.
When the baskets are in the compartment, the magnet can be engaged with the attractable device so that, when the drawer is pulled out, both baskets travel as a unit. The top basket may be manually pushed back into the compartment to gain access to the lower basket. The drawer assembly may be designed so that the total outward travel of the upper basket is slightly less than the total outward travel of the lower basket. This causes separation of the magnet and the engagement device.
Referring now to the drawings, a freezer-refrigerator 10 having a pull-out drawer 12 of a freezing compartment 14 is illustrated. The freezing compartment is cooled, for example, by a refrigeration circuit. The invention is also suitable for application to other cooled compartments such as a fresh food compartment. As illustrated, the freezing compartment is located below a refrigerated fresh food compartment in what is commonly known as a “bottom-mount” configuration, but other configurations, such as “side-by-side” are also suitable. The freezing compartment 14 has a multiple container arrangement which comprises a top basket 16 and a lower basket 18. Other suitable containers include, for example, bins, trays, or tubs. In addition the containers need not match, for example, one could be a bin and the other could be a basket. The lower basket 18 is connected to a drawer face 20 in any form suitable for providing an ability to move the lower basket.
The baskets 16 and 18 are movably mounted on side rails 22. As illustrated, the baskets are slidable. Other movable configurations are also suitable, for example, the baskets could be mounted on rollers or have rollers attached thereto or the baskets could be mounted to scissor arm supports. In addition, the baskets may be mounted and movable differently from each other, for example, the lower basket could be slidable on rails and the upper basket could have rollers riding on the lower basket or some portion of the lower basket support structure.
When using side rails, as illustrated, the side rails could comprise a typical three part drawer slide. Such a slide is disclosed in U.S. Pat. No. 5,209,572, the disclosure of which is incorporated herein by reference. The three part drawer slide includes an outer slide member 24 fixed to the side of the freezer compartment, an intermediate slide member 26, slidable in the outer member 24 and inner slide member 28 slidable in the intermediate slide member 26. An inner slide member 28 is fixed to the sides of the upper and lower baskets 16 and 18 so that the baskets may slide relative to each other. Ball bearings (not shown) enable the inner slide members 28 to telescope smoothly in and out of the intermediate members and allow the intermediate members 26 to telescope smoothly in and out of the outer members 24.
Referring to
The engagement device can be a separate component mounted to the bracket or could be an integral part of the bracket, such as a metal flange of the bracket. It should be appreciated that the positions of the magnet 30 and the engagement device 32 may be reversed so that the magnet is mounted on the bracket and the engagement device is mounted on the slide member carrying the upper basket, for example. Alternatively, the engagement device and magnet can be mounted to different corresponding parts of the drawer system structure, such as the drawer face, basket, slide rail or other basket support structure. Again, wherever the engagement device is located, the engagement device can be a separate, mounted component or an integral part.
The magnet can be mounted on one of the first container 16 and the second container 18 of the drawer 12 and the engagement device can be mounted to the other of the first container 16 and the second container 18 of the drawer 12. As illustrated in
When the drawer face 20 is closed and both baskets 16 and 18 are in the freezer compartment, the magnet 30 and the engagement device 32 are engaged. When the drawer face 20 is pulled outwardly to open the freezing compartment 14, both the top and bottom baskets are pulled out of the compartment 14 as a unit, because of the attraction between the magnet 30 and the device 32. This brings the top basket 16 at hand and since frequently used items are placed in this basket, they are readily accessible. If one desires to access the bottom basket 18, the top basket 16 is pushed into the freezer compartment 14.
The baskets 16 and 18 may be separated automatically after being pulled from the compartment 14. This is accomplished by designing the upper side rail 22 so that it does not extend as far as the lower side rail 22. In such an arrangement, the lower side rail 22 may travel a distance(for example, about 2 cm) farther than the upper side rail and the magnet 30 will automatically separate from the device 32.
When engaged, the magnet and engagement device allow movement of the two baskets as a unit with movement of the drawer face. Disengagement of the engagement device from the magnet occurs by manually applying a force to the upper basket (while applying an opposite force, for example, inertial, frictional, or manual, to the lower basket) or by limiting travel of the upper basket relative to the lower basket, which then permits the upper basket to be moved separately from the lower basket and provide access to the lower basket.
While the invention has been shown and described with respect to particular embodiments thereof, those embodiments are for the purpose of illustration rather than limitation, and other variations and modifications of the specific embodiments herein described will be apparent to those skilled in the art, all within the intended spirit and scope of the invention. Accordingly, the invention is not to be limited in scope and effect to the specific embodiments herein described, nor in any other way that is inconsistent with the extent to which the progress in the art has been advanced by the invention.
Number | Name | Date | Kind |
---|---|---|---|
2843441 | Jewell | Jul 1958 | A |
2893805 | Ferguson | Jul 1959 | A |
2955441 | Dahlgren et al. | Oct 1960 | A |
3195970 | Chuboff | Jul 1965 | A |
5209572 | Jordan | May 1993 | A |
5980009 | Atalla et al. | Nov 1999 | A |
6447083 | Chiapetta et al. | Sep 2002 | B1 |
6497113 | Yamada et al. | Dec 2002 | B1 |
6915657 | Wood | Jul 2005 | B1 |
6971730 | Koons | Dec 2005 | B2 |
7082783 | Uihlein et al. | Aug 2006 | B2 |
20050127804 | Kim et al. | Jun 2005 | A1 |
20050160854 | Rotter | Jul 2005 | A1 |
20060049731 | Choi et al. | Mar 2006 | A1 |
20070018548 | Ertz et al. | Jan 2007 | A1 |
Number | Date | Country |
---|---|---|
0718572 | Jun 1996 | EP |
1213388 | Nov 1970 | GB |
2417671 | May 1993 | GB |
04-045382 | Feb 1992 | JP |
05-113289 | May 1993 | JP |
2006141797 | Jun 2006 | JP |
2007006061 | Jan 2007 | WO |
Number | Date | Country | |
---|---|---|---|
20090189500 A1 | Jul 2009 | US |