A dishwashing appliance having a static jet assembly is provided herein. The dishwashing appliance may include a tub defining a wash chamber, a pump, and a spray assembly. The pump may be configured to deliver a wash fluid into the wash chamber. The spray assembly may be housed within the wash chamber of the tub in fluid communication with the pump to receive wash fluid therefrom. The static jet assembly may be disposed within the wash chamber and include a static body. The static body may extend about an exterior hole. The static body may define an interior passage and a jet aperture in fluid communication with the pump. The jet aperture may be defined in fluid communication between the interior passage and the wash chamber.

Experimental color data obtained from a plurality of cleaning process verification coupons is used to determine optimized cleaning process parameters in an automated cleaning machine. Color data may also be obtained from cleaning process verification coupon(s) to verify the efficacy of a real-world cleaning processes in an automated cleaning machine and/or to obtain one or more suggested corrective action(s) in the event the cleaning process yields an unsatisfactory cleaning result. Based on the optimized cleaning process parameters, an automated cleaning machine may automatically adjust one or more cleaning process parameters to correct for non-optimized parameters sensed during execution of a cleaning process to help prevent an unsatisfactory cleaning result.

A rack assembly for a dishwasher appliance is provided. The rack assembly includes one or more modular baskets placed in a primary rack. These baskets are easily removable and portable for loading and prewashing if desired. In addition, each of the modular baskets may have at least one sidewall that is collapsible. The collapsible sidewalls may be collapsed and adjacent baskets may be linked together using clips as needed based on the size of the dishware to be washed. In this manner, the rack assembly and modular baskets provide a convenient, configurable rack system that enables simple and effective loading, unloading, and prewashing of dishware.

Provided are kitchen sink systems comprising one or more additional features for rinsing, cleaning, and/or drying. The one or more additional features can include a microbubble feature for rinsing produce, a rinsing feature for quickly and efficiently rinsing an item (e.g., dish or user's hands), a steam cleaning feature for cleaning an item (e.g., knife), and/or a retractable nozzle feature for efficiently drying and/or rinsing an item (e.g., drinking glass).

A ware rack system for holding lightweight wares during cleaning in a warewash machine includes a lower ware rack including a bottom wall, upright side walls and a plurality of pegs extending upward from the bottom wall, wherein a multiplicity of the pegs are tall pegs that have upper ends that are located higher than upper edges of the upright side walls. An upper ware rack may be placed inverted atop the lower ware rack to capture lightweight wares between the upper ends of the tall pegs and the bottom wall of the upper ware rack.

A ware rack system for holding lightweight wares during cleaning in a warewash machine includes a lower ware rack including a bottom wall, upright side walls and a plurality of pegs extending upward from the bottom wall, wherein a multiplicity of the pegs are tall pegs that have upper ends that are located higher than upper edges of the upright side walls. An upper ware rack may be placed inverted atop the lower ware rack to capture lightweight wares between the upper ends of the tall pegs and the bottom wall of the upper ware rack. A method of modifying a ware rack is also provided.

A substantially rectangular dish rack having a substantially single side walled body portion that slidably engages two identical base portions, which interchangeably function as either the top or bottom of the dish rack. The top and bottom portions are preferably both inserted into the body portion from the same side of the body portion. Any of the four sides of the top and bottom portions may be inserted first into the body portion, and when inserted into the body portion, the base portions are held in place by friction catches or latches. The friction latches preferably include a boss portion and a notch portion to receive the boss portion. Alternative embodiments include designated top and bottom portion and are color coded to signal the identity of each. The body portion is preferably constructed to allow for extension of the body portion to allow for different heights of dishwares, by collars which are attachable and detachable to and from the body portion by prongs and sockets, which mutually engage on another.

Disclosed herein is including a basket including an improved dish support structure. The dishwasher includes a basket provided to accommodate dishes. The basket includes a basket body, an upper holder frame including one end supporting a portion of the dish and the other end rotatably coupled to the basket body, and a lower holder frame including one end supporting the other portion of the dish supported by the upper holder frame, and the other end rotatably coupled to the basket body. A distance between one end of the upper holder frame and one end of the lower holder frame is adjusted as one of the upper holder frame and the lower holder frame is rotated.

A rack for dishwashers, in particular for commercial dishwashers, is provided. With the aim of making optimum use of space in the rack, and of discharging residual water as best as possible, it is proposed, that the rack has a rack framework (20) with two directly adjacent set-down surfaces (SI, S2) which are intended for washware (10) and run parallel to one another in the longitudinal direction of the rack, wherein the set-down surfaces (S) are inclined in relation to the horizontal such that the surface normals (F1, F2) of the set-down surfaces (S 1, S2) diverge.

The invention is a dish rack for accommodating oversized containers in an automated dish machine. The rack includes a generally porous base surrounded by upstanding sidewalls and at least a pair of notches in one sidewall or opposing sidewalls configured for receiving an edge of the an oversized container. One form of the invention includes a wire framework having a base and one or more stanchions that extend generally upwardly from the base. The notches and wire framework are configured for supporting an oversized container at an angled position within an automated dish machine to inhibit spray from being directed out of the dish machine.