A plurality of heat sources are arranged about at least one conveyor. The plurality of heat sources are configured to output heat towards the at least one conveyor. At least one temperature sensor is arranged at a food product inlet relative to the at least one conveyor. A controller is configured to receive temperature measurements from the at least one temperature sensor and to operate at least one heat source of the plurality of heat sources between a high fire condition and a low fire condition in an idle mode operation and a cooking mode operation.

This disclosure relates to the field of cooking ovens for the preparation of foodstuffs in an enclosed environment including a visual flame along with a cooking plate upon which foodstuffs are placed and are transported through various cooking regions before being removed from the cooking oven for consumption.

This disclosure relates to the field of cooking ovens for the preparation of foodstuffs in an enclosed environment including a visual flame along with a cooking plate upon which foodstuffs are placed and are transported through various cooking regions before being removed from the cooking oven for consumption.

A temperature-regulating unit includes a base, a thermal element, a contactless sensing assembly, and a controller. The base is configured to support at least one of a pan or a food product. The thermal element is positioned to thermally regulate the at least one of the pan or the food product. The contactless sensing assembly is positioned to acquire sensor data regarding the at least one of the pan or the food product. The controller is configured to receive the sensor data from the contactless sensing assembly and adaptively control the thermal element based on the sensor data.

A temperature-regulating unit includes a base, a thermal element, a contactless sensing assembly, and a controller. The base is configured to support at least one of a pan or a food product. The thermal element is positioned to thermally regulate the at least one of the pan or the food product. The contactless sensing assembly is positioned to acquire sensor data regarding the at least one of the pan or the food product. The controller is configured to receive the sensor data from the contactless sensing assembly and adaptively control the thermal element based on the sensor data.

Food preparation apparatus and associated methods. In one method, dough is proofed in an oven compartment and then baked in the same oven compartment. Temperature and/or humidity can be controlled during proofing and/or baking cycles. A blower may be used, for example, to exhaust gas to ambient to reduce heat and/or moisture in the compartment. For example, the blower may be used between proofing and baking cycles to prepare an environment in the oven compartment for the baking cycle.

Food preparation apparatus and associated methods. In one method, dough is proofed in an oven compartment and then baked in the same oven compartment. Temperature and/or humidity can be controlled during proofing and/or baking cycles. A blower may be used, for example, to exhaust gas to ambient to reduce heat and/or moisture in the compartment. For example, the blower may be used between proofing and baking cycles to prepare an environment in the oven compartment for the baking cycle.

An oven appliance includes a cooking chamber positioned within a cabinet and a heating assembly for selectively heating the cooking chamber. The cooking chamber has two or more separate regions, and a temperature sensing assembly includes a temperature sensor positioned within each region of the cooking chamber. A switching assembly is coupled to the first temperature sensor and the second temperature sensor and is adjustable between a first position that connects the first temperature sensor to a controller and a second position that connects the second temperature sensor to the controller.

An oven appliance includes a cooking chamber positioned within a cabinet and a heating assembly for selectively heating the cooking chamber. The cooking chamber has two or more separate regions, and a temperature sensing assembly includes a temperature sensor positioned within each region of the cooking chamber. A switching assembly is coupled to the first temperature sensor and the second temperature sensor and is adjustable between a first position that connects the first temperature sensor to a controller and a second position that connects the second temperature sensor to the controller.

An oven may include a cooking chamber, a user interface, a first energy source, a second energy source and a cooking controller. The cooking chamber may be configured to receive a food product. The user interface may be configured to display information associated with processes employed for cooking the food product. The first energy source may provide primary heating of the food product placed in the cooking chamber. The second energy source may provide browning for the food product. The cooking controller may be operably coupled to the first and second energy sources. The cooking controller may include processing circuitry configured to enable an operator to make a browning control selection via the user interface by providing operator instructions to a selected control console rendered at the user interface. The selected control console may be selected based on a cooking mode of the oven. The browning control selection may provide control parameters to direct application of heat to the food product via the second energy source.