A multi-zone, proximate-air oven using air delivered from the shelves provides a compact height through the use of low profile shelves. Intercavity heat leakage is managed by active insulation techniques making use of the oven feedback temperature control and controlled cavity loading.

A cooking appliance includes a housing and a plate-shaped cooking chamber divider which divides a cooking chamber into upper and lower cooking chamber regions. A cooking food support can be inserted into a cooking food support slide-in level in the upper cooking chamber region at a distance from an upper face of the cooking chamber divider, such that the distance between the upper face of the inserted cooking chamber divider and an upper face of the inserted cooking food support is between 10 mm and 30 mm, and/or the upper cooking chamber region has a fixedly arranged heating element, with a distance between the upper face of the inserted cooking food support and the heating element in the upper cooking chamber region and/or an upper rim of a boundary flange which defines a loading opening of the cooking chamber is between 160 mm and 210 mm.

A household cooking appliance includes a cooking compartment for receiving food to be cooked, a cooking compartment divider received in the cooking compartment for dividing the cooking compartment into different cooking compartment sections and designed for removal from the cooking compartment, and an identifying facility configured to identify the cooking compartment divider in the cooking compartment and to adapt an operating state of the household cooking appliance to the cooking compartment divider in response to an identification of the cooking compartment divider.

A cooking appliance includes a muffle to define a cooking chamber in which a hot air system is arranged to form a receiving space the hot air system between a muffle rear wall and a front wall of the hot air system. Hot air flows from the receiving space into the cooking chamber through air passage openings in the front wall. A cooking chamber divider separates the cooking chamber into first and second cooking chamber regions in an end position in which the cooking chamber divider overlaps with the front wall, when viewed in a depth direction of the cooking appliance and/or in a height direction of the cooking appliance. The cooking chamber divider has a front-wall-facing side with an edge region adjacent to the front wall and formed with an uneven flow conducting structure to deflect hot air through the air passage openings into the first cooking chamber region.

A cooking appliance includes a heating cavity with a heat source. A cavity connector is disposed within the heating cavity and a rack is slidably coupled with a sliding structure disposed within the heating cavity. A powered accessory has a connecting plug and is engageable with the rack. The connecting plug is configured to be in selective communication with the cavity connector. A first locating assembly is configured to locate and engage the powered accessory with the rack and is coupled to the powered accessory. A second locating assembly is disposed between the sliding structure and a pair of opposing sidewalls of the heating cavity.

A cooking oven has a cooking cavity and a steam generating system. The steam generation system includes a water reservoir received and support in a reservoir-receiving space of a reservoir rack inside the cooking cavity. Thermal energy is provided to the water reservoir by a heater inside the cooking cavity. The heater can include thermal block made of a thermally conductive material in thermal communication with a heating element. The heater can be positioned such that it intimately contacts the water reservoir to deliver thermal energy thereto to convert water contained therein to steam, which can be used to cook a food item inside the cooking cavity.

A cooking appliance includes sidewalls and a rear wall defining a heating cavity. At least one heat source is in thermal communication with the heating cavity. An oven cavity connector is disposed within an interior surface of the heating cavity. The oven cavity connector is in communication with the heating cavity. A first tray sliding structure is disposed proximate opposing vertical sidewalls of the heating cavity. A second tray sliding structure is disposed proximate the opposing vertical sidewalls and is vertically offset relative to the first tray sliding structure. A powered accessory tray has a connecting plug, the powered accessory tray being alternatively and selectively engaged with one of the first and second sliding tray structures, and the connecting plug is in selective communication with oven cavity connector when the powered accessory tray is engaged with any one of the first and second tray sliding structures.

A multi-zone, proximate-air oven using air delivered from the shelves provides a compact height through the use of low profile shelves. Intercavity heat leakage is managed by active insulation techniques making use of the oven feedback temperature control and controlled cavity loading.

A cooking appliance includes sidewalls and a rear wall defining a heating cavity. At least one heat source is in thermal communication with the heating cavity. An oven cavity connector is disposed within an interior surface of the heating cavity. The oven cavity connector is in communication with the heating cavity. A first tray sliding structure is disposed proximate opposing vertical sidewalls of the heating cavity. A second tray sliding structure is disposed proximate the opposing vertical sidewalls and is vertically offset relative to the first tray sliding structure. A powered accessory tray has a connecting plug, the powered accessory tray being alternatively and selectively engaged with one of the first and second sliding tray structures, and the connecting plug is in selective communication with oven cavity connector when the powered accessory tray is engaged with any one of the first and second tray sliding structures.

A combined apparatus for heating, cooking, grilling and defrosting of foods of various kinds, depending on the type of foods to be treated from time to time and the duration of the foods treatment foreseen by each user of the same apparatus, where each hot treatment of foods may be effected either by heating or by microwaves only, or by heating and microwaves combined to each other. There are described in detail all the technical characteristics of the apparatus and the relative control circuits either for heating or for generating the microwaves. Advantages include use of a sole and single apparatus for hot treating the foods for providing for the heating, the cooking, the grilling and the defrosting of the same foods, instead of employing as it happens hitherto of single separated apparatuses for performing the same functions.