A cooking apparatus includes a main body having a cooking chamber, a coupler having a pair of pressure surfaces and rotatably provided, and a tray provided-to-be withdrawn from the cooking chamber by sliding movement. The tray has a pair of seating projections each capable of being brought into contact with the pair of pressure surfaces and being rotatably pushed by the coupler. Therefore it is possible to easily switch between the rotatable state of the tray and the state of sliding movement of the tray.

A device includes an antenna configured to be disposed within a cavity of an appliance. The appliance includes an electrode and the antenna includes a sheet of conductive material having a surface area that is equal to or greater than a surface area of the electrode. The device includes a voltage sensor coupled to the antenna, an output device, and a controller coupled to the voltage sensor and the output device. The controller is configured to generate an output at the output device. The output is determined by a voltage of the antenna.

Embodiments disclosed herein include a housing for a source assembly. In an embodiment, the housing comprises a conductive body with a first surface and a second surface opposite from the first surface, and a plurality of openings through a thickness of the conductive body between the first surface and the second surface. In an embodiment, the housing further comprises a channel into the first surface of the conductive body, and a cover over the channel. In an embodiment, a first stem over the cover extends away from the first surface, and a second stem over the cover extends away from the first surface. In an embodiment, the first stem and the second stem open into the channel.

A cooking apparatus comprises a cooking chamber in which a food is cooked and opened in a first direction, a heater arranged at a side of the cooking chamber and configured to provide heat into the cooking chamber, a magnetron configured to generate a high frequency supplied into the cooking chamber, and a folding shelf detachably mounted in the cooking chamber and configured to be foldable. The folding shelf extends in a second direction to support the food at a first mounting position, and while the folding shelf is in a folded state, the folding shelf configured to divide the cooking chamber into a plurality of cooking spaces at a second mounting position.

A microwave heating appliance includes a housing having interior walls with interior surfaces defining a cooking chamber for heating food, a microwave heating source configured to generate microwave radiation for heating the food, and a rapid heating plate disposed in the cooking chamber. The rapid heating plate includes a substrate having a hybrid coating disposed on thereon, with the hybrid coating configured to generate heat upon application of a magnetic field and upon absorption of the microwave radiation from the microwave heating source. The hybrid coating includes ferromagnetic nanowires and ferritic carbon nanotubes dispersed in a polymer to generate heat for transferring to food placed on the rapid heating plate in the cooking chamber.

A packing member having a structure capable of reliably extinguishing a fire generated in a cooking apparatus and a cooking apparatus having the packing member are provided. The packing member for packing components of a cooking apparatus includes a flange formed by bending at least one side thereof. The flange is provided to cover at least a portion of an inlet formed at one side of the cooking apparatus to allow external air to be introduced into the cooking apparatus when the packing member is received in the cooking apparatus or at least a portion of an outlet formed to allow air in the cooking apparatus to be discharged.

A microwave heater comprises a cylindrical housing having an inner surface defining an internal cavity. A microwave generator is secured adjacent a first end of the housing and received inside the internal cavity is a sample holder that comprises an annular base member positioned adjacent the first end has a central axis coinciding with a longitudinal axis of the housing. A first opening is formed along the central axis, an outlet of the microwave generator extending through the first opening along the central axis for emitting into the internal cavity electromagnetic waves centered at a given microwave wavelength. A circular support plate substantially parallel to the base member and concentric therewith, a cavity portion defined therebetween, is separated from the base member by a distance less than the given microwave wavelength for establishing a Transverse Magnetic (TM) 01 mode as a predominant resonance mode inside the cavity portion.

A cooking appliance includes a cooking chamber with cooking chamber wall, a microwave heat source configured to heat food, and a support device configured to hold a food-supporting member. The cooking chamber wall includes an opening and a lead-through device, and the lead-through device includes a through-hole configured to receive a fastening element of the support device. A tubular guide portion is formed at the through-hole of the lead-through device, and the tubular guide portion includes a safety portion configured to shield against microwave radiation and such that no part of the fastening element is located within the safety portion when the fastening element is in an installed condition in the lead-through device.

A microwave wire mesh oven including: a microwave oven cavity; a wire mesh element positioned to radiate black body radiation into the microwave oven cavity; and a magnetron configured to generate microwaves, wherein some of the generated microwaves impinge on the wire mesh element.

A heating appliance includes a housing having interior walls with interior surfaces defining a cooking chamber for heating food, a microwave heating source configured to generate microwave radiation for heating the food, and a thermoresistive heating plate disposed in an opening defined in an interior wall. The thermoresistive heating plate has a substrate having an inner surface aligned with the interior surface of the interior wall, and a bottom surface opposite to the inner surface. The thermoresistive heating plate includes a thermoresistive coating disposed on the bottom surface configured to generate heat upon application of an electric current such that the heat is transmitted through the substrate to the cooking chamber from the thermoresistive coating, the microwave heating source, or both, and the substrate is transparent to microwave radiation to allow microwave emission through the substrate.