Patent Grant
7168578
This invention relates generally to dishwashers, and more particularly, to dishware racks disposed within dishwashers.
At least some known dishwashers include a cabinet, a tub within the cabinet that defines an open sided wash chamber, and a door assembly that seals the open side of the wash chamber when the dishwasher is in use. Soiled dishes, glasses, utensils, food and beverage containers, etc. are loaded into the dishwasher tub through the open side of the wash chamber when the door is open, and after the door is closed, a dishwasher cycle may be executed to clean the items placed therein. The wash chamber includes a sump portion where washing fluid is pumped from a fluid circulation assembly through spray arm conduits to wash items loaded onto dishwasher racks in the wash chamber, and also where wash fluid is collected after being circulated throughout the wash chamber. The door assembly is attached to the dishwasher at a bottom end of the door and pivots about a hinge between fully open and fully closed positions.
Conventional dishwashing machines include upper and lower dishware racks mounted in the washing chamber. Each rack is typically supported on side walls of the dishwasher and includes rollers for sliding movement between an extended position wherein the rack is substantially outside of the washing chamber and a retracted position wherein the rack is substantially inside the washing chamber. As dishware items are loaded and unloaded, the racks are moved to their extended positions for substantially unobstructed loading of items. The racks are lattice structures adapted for holding dishes, plates, cups, pots, pans and other dishware, cookware, and food storage containers while permitting water spray action for cleaning items in the racks.
However, the washing chamber has limited available vertical space. Any space allocated to the upper rack is at the expense of clearance in the lower rack and vice versa. Typically, an appliance manufacturer decides how to allocate the available space to the lower rack and the upper rack.
In one aspect, an adjustable rack assembly configured to couple to a sidewall of a dishwasher rack is provided. The sidewall having at least one horizontal wire member and at least one vertical wire member. The adjustable rack assembly includes a bracket on one side of the sidewall, the bracket supporting the at least one horizontal wire member in a first rack position and a support plate on another side of the sidewall, the support plate coupled to the bracket, the support plate having at least one arm with a catch member on a distal end thereof for receiving the at least one horizontal wire member in a second rack position.
In another aspect, a dishwasher rack is provided. The dishwasher rack includes a plurality of horizontal and vertical wire members forming a bottom surface and lateral extending sidewalls, a bracket having an inner surface and an outer surface, the bracket positioned on one side of the sidewall, the inner surface having grooves, the bracket supporting at least one horizontal member in a first position. The dishwasher rack further includes a support plate having an inner and outer surface, the support plate positioned on an opposite side of the sidewall from the bracket, the inner surface having grooves, the support plate coupled to the bracket such that the grooves of the bracket and the support plate form channels for slidably receiving the vertical wire members, the support plate having at least one arm with a catch member on a distal end thereof for receiving and supporting the at least one horizontal wire member in a second rack position.
In a further aspect, a dishwasher is provided. The dishwasher includes a wash chamber defined by a bottom, oppositely disposed sidewalls, a back wall, and a front access opening, and a rack disposed within the wash chamber, the rack having a plurality of vertical and horizontal wire members forming a bottom surface and lateral extending sidewalls. The rack including a bracket on one side of the sidewall, the bracket supporting the at least one horizontal wire member in a first rack position and a support plate on another side of the sidewall, the support plate coupled to the bracket, the support plate having at least one arm with a catch member on a distal end thereof for receiving the at least one horizontal wire member in a second rack position.
A control panel (not shown) is integrated into an escutcheon 136 that is mounted to door assembly 120, or in further and/or alternative embodiments control selectors, (e.g., buttons, switches or knobs) or control displays, etc. may be mounted at a convenient location on an outer face 138 of door assembly 120. The control panel and associated selectors and displays are coupled to control circuitry (not shown) and control mechanisms (not shown) for operating a fluid circulation assembly (not shown) that circulates water and wash fluid in dishwasher tub 104. The fluid circulation assembly is located in a machinery compartment 140 located below a bottom sump portion 142 of tub 104.
A lower spray-arm-assembly 144 is rotatably mounted within a lower region 146 of wash chamber 106 and above tub sump portion 142 so as to rotate in relatively close proximity to lower rack 130. A mid-level spray-arm assembly 148 is located in an upper region of wash chamber 106 and is located in close proximity to upper rack 132 and at a sufficient height above lower rack 130 to accommodate a largest cookware item that is expected to be placed in lower rack 130 and washed in dishwasher 100.
Lower and mid-level spray-arm assemblies 144, 148 and the upper spray arm assembly are fed by the fluid circulation assembly, and each spray-arm assembly includes an arrangement of discharge ports or orifices for directing washing liquid onto dishes located in upper and lower racks 132, 130, respectively. The arrangement of the discharge ports in at least lower spray-arm assembly 144 provides a rotational force by virtue of washing fluid flowing through the discharge ports. The resultant rotation of lower spray-arm assembly 144 provides coverage of cookware with a washing spray. In various alternative embodiments, mid-level spray arm 148 and/or the upper spray arm are also rotatably mounted and configured to generate a swirling spray pattern above and below upper rack 132 when the fluid circulation assembly is activated and door assembly 120 is properly closed to seal wash chamber 106 for operation.
Bracket 305 is substantially elongate having a longitudinal axis 316. Bracket 305 includes an inner surface 320 and an outer surface 322. Bracket 305 includes rollers or wheels 324 on outer surface 322 at opposing ends of bracket 305. Wheels 324 are rotatably fixed to bracket 305 and receivable within tracks of washing chamber 106 for sliding upper rack 132 between an extended position and a retracted position.
Bracket 305 includes a plurality of grooves 328 on at least one of inner surface 320 and outer surface 322. In one embodiment, grooves 328 extend substantially along the surface of at least one of inner and outer surfaces 320 and 322. In another embodiment, grooves 328 extend substantially perpendicular to longitudinal axis 316 of bracket 305. In another embodiment, grooves 328 form substantially square shaped channels. In a further embodiment, grooves 328 form channels substantially similar to the circular shape of a vertical wire member 314.
Support plate 310 has an inner surface 330 and an outer surface 332. In one embodiment, inner surface 330 has a plurality of grooves 334 for receiving vertical wire members 314. In another embodiment, grooves 334 of support plate 310 are in a complimentary relationship with grooves 328 of bracket 305 forming channels for frictionally engaging vertical wire members 314.
Support plate 310 includes at least a first lever arm 340 and a second lever arm 342. First and second lever arms 340 and 342 includes an arm portion 344, a bend 346, and a handle portion 347 extending from bend 346. In one embodiment, handle portion 347 is substantially perpendicular to arm portion 344. In an exemplary embodiment, at least one of first and second lever arms 340 and 342 includes a catch member 348 on a distal end thereof. In one embodiment, catch member 348 is molded on support portion 346 of a least one of first and second lever arms 340 and 342.
Latch portion 352 of catch member 348 includes a finger portion 380 and a tab portion 382. Finger portion 380 includes a substantially flat surface 384 that is substantially parallel to vertical wire member 314. Tab portion 382 extends from one side of finger portion 380 and is substantially perpendicular to finger portion 380.
Adjustable rack assembly 300 adjusts upper rack 132 between a elevated and lowered position as shown in
In use and to adjust rack from the first position to the second position, a user manually lifts upper rack 132 in the direction of an arrow 386. As horizontal wire member 364 contacts ramp portion 350 of catch member 348, first lever arm 340 is deflected away from horizontal wire member 364, as shown by an arrow 388. Horizontal wire member 364 slides along sliding surface 358 and then along vertical sliding surface 360 until horizontal wire member 364 is seated within base support surface 362 and first arm 340 returns to its upright and undeflected position, as shown in
To adjust upper rack 132 from the second position to the first position, the user applies a force on finger portion 380 of catch member 348 in the direction of an arrow 390. First lever arm 340 has sufficient spring action to provide a minimal resistance force against the user's applied force. Once horizontal wire member 364 has been unseated from base support surface 362, upper rack 132 drops, as shown by an arrow 392, until horizontal wire member 364 is supported by bracket 305 in the first position.
While the invention has been described in terms of various specific embodiments, those skilled in the art will recognize that the invention can be practiced with modification within the spirit and scope of the claims.
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