A glass coating composition may include a glass composition and a nanopowder. The nanopowder may include Zinc Oxide (ZnO) and may be added to a glass composition in 1 to 10 weight (wt %). The glass composition may include 20 to 40 wt % of phosphorus pentoxide (P.sub.2O.sub.5), a total of 15 to 30 wt % of aluminum oxide (Al.sub.2O.sub.3) and zirconium dioxide (ZrO.sub.2), a total of 10 to 30 wt % of sodium oxide (Na.sub.2O) and potassium oxide (K.sub.2O), 10 to 25 wt % of boron trioxide (B.sub.2O.sub.3), and 10 to 15 wt % of zinc oxide (ZnO).

A door assembly for providing selective access to a chamber of an appliance includes adjustable balancing masses mounted to the door assembly to enable adjustment of the door assembly's center of gravity. Specifically, the door assembly includes one or more spring hinges attaching the door assembly to the appliance cabinet. Balancing mass are positioned on a mounting apparatus attached to the frame of the door assembly. To achieve an appropriate balance between the gravitational moment of the door assembly and the torsional stiffness of the spring hinges, the balancing masses may be adjusted on the mounting apparatus, thereby altering the center of gravity and gravitational moment generated by the door assembly to a predetermined amount appropriate for a given torsional stiffness of the spring hinge.

A door assembly for providing selective access to a chamber of an appliance includes adjustable balancing masses mounted to the door assembly to enable adjustment of the door assembly's center of gravity. Specifically, the door assembly includes one or more spring hinges attaching the door assembly to the appliance cabinet. Balancing mass are positioned on a mounting apparatus attached to the frame of the door assembly. To achieve an appropriate balance between the gravitational moment of the door assembly and the torsional stiffness of the spring hinges, the balancing masses may be adjusted on the mounting apparatus, thereby altering the center of gravity and gravitational moment generated by the door assembly to a predetermined amount appropriate for a given torsional stiffness of the spring hinge.

An appliance includes a cabinet and an inner door. The inner door is configured such that an outer door panel is mountable on the inner door. An adjustable hinge rotatably couples the inner door to the cabinet. The adjustable hinge includes a movable door balance adjuster. A visual scale graphic is positioned proximate the adjustable hinge. The visual scale graphic includes a plurality of outer door panel weight indicia and a plurality of door balance adjuster position indicia. Each of the plurality of door balance adjuster position indicia corresponds to a respective one of the plurality of outer door panel weight indicia.

An appliance includes a cabinet and an inner door. The inner door is configured such that an outer door panel is mountable on the inner door. An adjustable hinge rotatably couples the inner door to the cabinet. The adjustable hinge includes a movable door balance adjuster. A visual scale graphic is positioned proximate the adjustable hinge. The visual scale graphic includes a plurality of outer door panel weight indicia and a plurality of door balance adjuster position indicia. Each of the plurality of door balance adjuster position indicia corresponds to a respective one of the plurality of outer door panel weight indicia.

An automatic oven having a controller and a sensor assembly for automatically determining a food type for a food item placed in a cooking chamber of the automatic oven, and cooks the automatically determined food item according to a cooking profile selected based on the determined food type, while optionally accommodating a user input on the determining of the food type, and the cooking profile, including an optional degree of doneness.

An appliance includes a hinge assembly for coupling a door to a housing or body of the appliance. The hinge assembly can include a body-mounted component, such as a body-mounted hinge or a body-mounted receiver. The body-mounted component is secured to a vertical support of the appliance. A mating component of the body-mounted hinge or body-mounted receiver is attached to the door.

A cooking apparatus having a cooking chamber, a cooking drawer, a solid fuel support drawer, gas burners, and an ash drawer. One of the cassettes positionable in the cooking drawer can be a belt conveyor which can transport food between end doors of the cooking chamber. A front door of the chamber, when open, allows for the cooking drawer with a partially-cooked food item to be removed and moved to another location for inspection/manipulation of the food item, and then returned to the cooking chamber. Infrared burners on the ceiling of the cooking chamber are directed down to the cooking drawer. Hot exhaust gases in the cooking chamber pass through the housing to a top area for food cooking/warming. A flickering flame assembly creates flickering flames in the back of the chamber which are visible from both the front and the back of the cooking apparatus.

A cooking apparatus having a cooking chamber, a cooking drawer, a solid fuel support drawer, gas burners, and an ash drawer. One of the cassettes positionable in the cooking drawer can be a belt conveyor which can transport food between end doors of the cooking chamber. A front door of the chamber, when open, allows for the cooking drawer with a partially-cooked food item to be removed and moved to another location for inspection/manipulation of the food item, and then returned to the cooking chamber. Infrared burners on the ceiling of the cooking chamber are directed down to the cooking drawer. Hot exhaust gases in the cooking chamber pass through the housing to a top area for food cooking/warming. A flickering flame assembly creates flickering flames in the back of the chamber which are visible from both the front and the back of the cooking apparatus.

A fluid directing structure for a direct fired appliance having a heating space, a burner for providing heat to the heating space, and an exhaust includes a duct. The duct includes a first passage extending from a first end adjacent the burner to a second end fluidly connected to the exhaust. A second passage extends from a first end fluidly connected to the first passage to a second end fluidly connected to the heating space. A damper is connected to the duct and has a first condition directing fluid flow from the first end of the first passage to the second end of the first passage while preventing fluid flow to the second passage. The damper has a second condition directing fluid flow from the first end of the first passage to the second passage while preventing fluid flow to the second end of the first passage.