A heating element for a cooking appliance includes terminals that act as electrically conductive contact points. One or more buses are arranged between the terminals, and connect one or more heating element segments in a zig-zag configuration. The heating element segments are connected in series and are arranged parallel with one another. Each heating element segment includes a plurality of cutouts linked together and having an elliptical shape. The terminals, heating element segments, and buses are a continuous single sheet of conductive material. A method of making the heating element includes forming a pattern into the sheet of conductive material by etching the pattern into the conductive sheet using photolithography.

There is disclosed herein a toaster (10) including: a housing (12); a pair of opposing food guards (24a, 24b) located within the housing (12) and defining a toasting cavity (25a, 25b) for receiving foodstuff to be toasted; a pair of heating elements (28) located within the housing (12), each heating element (28) being located on a respective side of the pair of food guards (24a, 24b), wherein each food guard (24a, 24b) is spaced from the corresponding heating element (28) by a clearance (81); and wherein each food guard (24a, 24b) has an upwardly-extending portion (75c, 75d) that extends upwardly to a portion (75a, 75b) that extends transversely from the upwardly-extending portion so as to extend above the corresponding heating element (28), the transversely-extending portion (75a, 75b) of each food guard (24a, 24b) projecting away from the opposing food guard (24a, 24b).

An appliance includes a microwave oven and a toaster oven apparatus in combination, the toaster oven being contained entirely within the interior of the microwave oven.

A cooking system positionable on a support surface includes a housing having an internal cooking compartment and an opening formed in said housing for accessing said internal cooking compartment. The housing is positionable about the support surface in both a first orientation and a second, distinct orientation. At least one heating element is associated with said internal cooking compartment. The at least one heating element is operable to heat said internal cooking compartment in both said first orientation and said second orientation.

A cooking system positionable on a support surface includes a housing having an internal cooking compartment and an opening formed in the housing for accessing said internal cooking compartment. At least one heating element is provided for heating said internal cooking compartment. The heating element is operable to heat the internal cooking compartment while the opening is at least partially exposed to an ambient environment to allow fluid transfer between the ambient environment and the internal cooking compartment. An output from said at least one heating element is variable across said internal cooking compartment during operation of the system.

A heating element for a cooking appliance includes terminals that act as electrically conductive contact points. One or more buses are arranged between the terminals, and connect one or more heating element segments in a zig-zag configuration. The heating element segments are connected in series and are arranged parallel with one another. Each heating element segment includes a plurality of cutouts linked together and having an elliptical shape. The terminals, heating element segments, and buses are a continuous single sheet of conductive material. A method of making the heating element includes forming a pattern into the sheet of conductive material by etching the pattern into the conductive sheet using photolithography.

A contact baking mechanism of a toaster, comprising a baking tray, a fixed bracket and a mobile mechanism, the baking tray is provided in the fixed bracket, the baking tray comprising a left baking tray and a right baking tray, the mobile mechanism comprising a bread tray and a mobile bracket, the bread tray is provided between the left baking tray and the right baking tray, the end of the bread tray is clamped in the fixed bracket through a T-shaped groove, the mobile bracket is provided outside the fixed bracket and fixedly connected with the bread tray, the left baking tray and the right baking tray are moved back and forth by the elastic mechanism when the bread tray moves up and down along the T-shaped groove. The movable baking tray for direct contact baking in the present invention, which has high heating efficiency and energy saving; the structure is simple to using the spring to drive the baking tray to clamp the bread slice; compared with the fixed indirect non-contact baking, the time required for baking the bread slice is greatly shortened, the energy is saved, the evaporation of water in the bread slice is reduced, and the taste of the edible bread slice is improved.

A heating element for a cooking appliance includes terminals that act as electrically conductive contact points. One or more buses are arranged between the terminals, and connect one or more heating element segments in a zig-zag configuration. The heating element segments are connected in series and are arranged parallel with one another. Each heating element segment includes a plurality of cutouts linked together and having an elliptical shape. The terminals, heating element segments, and buses are a continuous single sheet of conductive material. A method of making the heating element includes forming a pattern into the sheet of conductive material by etching the pattern into the conductive sheet using photolithography.

Damper mechanisms are provided in conjunction with housings of various different appliances and are disposed at first positions at which the dampers effectively close off or seal the interior regions of the appliances within which various heated, refrigerated, or frozen environments have been established. Such damper mechanisms can be moved to second positions so as to permit food items to be inserted into, or extracted from, the various housings of the appliances, but will automatically return to their first positions so as to again close off or seal the interior regions of the appliances. In this manner, thermal energy is preserved whereby the appliances are enabled to operate at peak energy efficiency.

A toaster, comprising a body comprising a first toasting chamber and a second toasting chamber, wherein the first toasting chamber extends in a vertical direction for vertically toasting bread slices, and the second toasting chamber extends in a horizontal direction for horizontally toasting bread slices, and wherein the first toasting chamber and the second toasting chamber are arranged crosswise.