A modular cooking apparatus is disclosed. The modular cooking apparatus includes a housing having a first interchangeable cooking module, a second interchangeable cooking module, and a single power connection for receiving electrical power from a wall outlet. The first interchangeable cooking module contains a first oven, and the second interchangeable cooking module contains a second oven. The second oven is a different oven type from the first oven. The modular cooking apparatus also includes a controller within the housing for controlling the first and second ovens. The controller includes a memory for storing a list of food items to be cooked within the modular cooking apparatus and a corresponding oven type for each of the food items. The modular cooking apparatus further includes a control panel on the housing for displaying only the food items for which the first oven or the second oven is a corresponding oven type.

A modular cooking apparatus is disclosed. The modular cooking apparatus includes a housing for containing a first and second interchangeable cooking modules. The first interchangeable cooking module contains a first oven, and the second interchangeable cooking module contains a second oven. The second oven is a different oven type from the first oven. The first oven includes a cooking cavity and is configured to provide a plurality of non-laminar streams of heated air to the cooking cavity. The modular cooking apparatus also includes a single power plug for receiving electrical power from a wall outlet.

A modular cooking apparatus is disclosed. The modular cooking apparatus includes a housing for containing a first and second interchangeable cooking modules. The first interchangeable cooking module contains a first oven, and the second interchangeable cooking module contains a second oven. The second oven is different from the first oven. The modular cooking apparatus also includes a control panel for receiving cooking inputs, a controller for controlling the first and second interchangeable cooking modules, and a single power plug for receiving electrical power from a wall outlet.

A modular cooking apparatus includes a housing having a first interchangeable cooking module, a second interchangeable cooking module, and a single power connection for receiving electrical power from a wall outlet. The first interchangeable cooking module contains a first oven, and the second interchangeable cooking module contains a second oven. The second oven is a different oven type from the first oven. The modular cooking apparatus also includes a controller within the housing for controlling the first and second ovens. The controller includes a memory for storing a list of food items to be cooked within the modular cooking apparatus and a corresponding oven type for each of the food items. The modular cooking apparatus further includes a control panel on the housing which displays a user interface that directs an operator of the modular cooking apparatus to the oven that should be used to cook a particular food item.

A modular cooking apparatus includes a first interchangeable cooking module containing an impingement oven, a second interchangeable cooking module containing a hot air oven with built-in magnetron, and a single power connection for receiving three-phase electrical power. Each oven has a base load and a boost load. A first multiplexor is configured to direct electrical power from a first phase pair of the three-phase electrical power to either the base load or the boost load of the first oven. A second multiplexor is configured to direct electrical power from the first phase pair to the boost load of the first oven or to the boost load of the second oven. The modular cooking apparatus is configured such that either the first multiplexor or the second multiplexor can direct electrical power from the first phase pair to the boost load of the first oven.

A pizza oven including a baking chamber is disclosed. The baking chamber includes a top panel, bottom panel, two side panels, and entry and exit openings. A conveyor belt is disposed to convey food products through the chamber where the food products are heated by a heating arrangement including a burner, blower motor, and a fan.

An impingement oven (40) includes an upper housing structure (46) forming the exterior of the upper half of the impingement oven and a lower housing structure (48) to mate with the upper housing structure. An interior impingement housing (62) is positioned interior to the upper and lower housing structures (46) and (48). A conveyor (60) extends through the interior impingement housing (62). The inside surfaces of the upper and lower housing structures (46) and (48) cooperate with the interior impingement housing (62) to define upright supply chambers (80a) and (80b) on opposite sides of the impingement oven to direct cooking medium downwardly upon the work products being carried by the conveyor and also upwardly through the porous belt of the conveyor, thereby to thermally process the work products being carried on the conveyor.

A method is disclosed for cooking food in an oven cavity, where air is the cooking medium. Using a predetermined cooking algorithm, a temperature of the oven cavity is adjusted in a plurality of temperature and/or time regulated cooking stages. An initial pre-heat stage targets a first target temperature including a user-selected oven cavity temperature plus a first offset. A subsequent post-heat stage targets a second target temperature including the user-selected temperature plus a second offset different from the first offset. Two or more heating elements and a fan are operated during the post-heat stage according to a duty cycle controlled via a hysteresis temperature control algorithm or a PID temperature control algorithm.

A continuous mode conveyor cooking appliance utilizing hot air jet impingement and microwave energy for cooking prepared foods. The approach envisions a central microwave unit with a hot air jet impingement oven unit on each side of the microwave section and a conveyor system to carry the food items completely through the appliance from one end to the other and with the two hot air jet impingement ovens equipped with a designed combination of hot air jet impingement jets and solid pins to act as a microwave attenuation system to reduce microwave exposure to cooking personnel to completely safe levels.

A multi cavity oven provides improved cavity and jet plate cleaning by directing pressurized cleaning spray into the jet plates while installed within the oven through cleaning spray inlet ports in the walls of the removable jet plates. By directing cleaning spray directly into the interior of the jet plates, cooking juices that fall through the slots and openings and into the air passageway of the jet plates can be pressure cleaned and drained from the interior of the jet plates without removing the jet plates from the oven cavity.