A gas manifold for a convection conveyor oven includes an elongated housing having a wall that at least partially encloses an interior volume; a gas inlet in fluid communication with the interior volume and extending through the wall; a plurality of gas outlets in fluid communication with the interior volume and extending through the wall; a plurality of seat inserts removably coupled with a plurality of gas outlets; a plurality of valve openings formed in the wall and aligned opposite the plurality of gas outlets; and at least one valve removably coupled to the wall and aligned with a first valve opening, wherein the valve is aligned with a first gas outlet and has a first position in which a first seat insert is not in fluid communication with the gas inlet.

A gas manifold for a convection conveyor oven includes an elongated housing having a wall that at least partially encloses an interior volume; a gas inlet in fluid communication with the interior volume and extending through the wall; a plurality of gas outlets in fluid communication with the interior volume and extending through the wall; a plurality of seat inserts removably coupled with a plurality of gas outlets; a plurality of valve openings formed in the wall and aligned opposite the plurality of gas outlets; and at least one valve removably coupled to the wall and aligned with a first valve opening, wherein the valve is aligned with a first gas outlet and has a first position in which a first seat insert is not in fluid communication with the gas inlet.

A cooking appliance having a cabinet including an insert within the cabinet to define cooking chamber with an access opening and a door selectively closing/opening the access opening, the cooking appliance comprising at least one of a first cooling flow path through a back wall of the cabinet, over a top wall of the insert, and out a side wall of the cabinet, a second cooling flow path through a bottom wall of the cabinet, along the bottom wall of the cabinet, and out a side wall of the cabinet, and a third cooling flow path through a bottom wall of the cabinet, out a front wall of the cabinet, into the door, out of the door, into a front wall of the cabinet, and out of a side wall of the cabinet.

A cooking appliance having a cabinet including an insert within the cabinet to define cooking chamber with an access opening and a door selectively closing/opening the access opening, the cooking appliance comprising at least one of a first cooling flow path through a back wall of the cabinet, over a top wall of the insert, and out a side wall of the cabinet, a second cooling flow path through a bottom wall of the cabinet, along the bottom wall of the cabinet, and out a side wall of the cabinet, and a third cooling flow path through a bottom wall of the cabinet, out a front wall of the cabinet, into the door, out of the door, into a front wall of the cabinet, and out of a side wall of the cabinet.

The cooking module for bakery products includes a cooking enclosure having an arched roof and a sole on which the products rest. The module is equipped at least with a heating mechanism in the roof. The heating mechanism includes a plenum in which a heat-transfer fluid circulates from an inlet and at least one outlet. The plenum includes a plurality of blowing orifices for blowing fluid into the enclosure. The module includes a device for blanking off the orifices, being movable between a position of blanking of the orifices and a position of opening same. There is a means for extracting the heat-transfer fluid passing through the plenum and/or blown into the enclosure.

The cooking module for bakery products includes a cooking enclosure having an arched roof and a sole on which the products rest. The module is equipped at least with a heating mechanism in the roof. The heating mechanism includes a plenum in which a heat-transfer fluid circulates from an inlet and at least one outlet. The plenum includes a plurality of blowing orifices for blowing fluid into the enclosure. The module includes a device for blanking off the orifices, being movable between a position of blanking of the orifices and a position of opening same. There is a means for extracting the heat-transfer fluid passing through the plenum and/or blown into the enclosure.

A method for cooking is disclosed. In response to an oven being selected to cook a food item, a determination is made whether or not any oven is being engaged in cooking. If no oven is being engaged in cooking, then temperature-control mode is utilized to control oven temperature of the selected oven. If one oven is currently being engaged in cooking, then another determination is made whether or not the total current demand by the two ovens to cook respective food items exceeds a predetermined current limitation under temperature-control mode. If the total current demand does not exceed the predetermined current limitation, then temperature-control mode is utilized to control oven temperature of the two ovens. If the total current demand exceeds the predetermined current limitation, then time-control mode is utilized to control oven temperature of the two ovens.

A method for cooking is disclosed. In response to an oven being selected to cook a food item, a determination is made whether or not any oven is being engaged in cooking. If no oven is being engaged in cooking, then temperature-control mode is utilized to control oven temperature of the selected oven. If one oven is currently being engaged in cooking, then another determination is made whether or not the total current demand by the two ovens to cook respective food items exceeds a predetermined current limitation under temperature-control mode. If the total current demand does not exceed the predetermined current limitation, then temperature-control mode is utilized to control oven temperature of the two ovens. If the total current demand exceeds the predetermined current limitation, then time-control mode is utilized to control oven temperature of the two ovens.

A heat treatment monitoring system comprises a sensor unit having at least one sensor to determine current sensor data of food being heated; a processing unit to determine current feature data from the current sensor data; and a monitoring unit adapted to determine a current heating process state in a current heating process of the monitored food by comparing the current feature data with reference feature data of a reference heating process.

A heat treatment monitoring system comprises a sensor unit having at least one sensor to determine current sensor data of food being heated; a processing unit to determine current feature data from the current sensor data; and a monitoring unit adapted to determine a current heating process state in a current heating process of the monitored food by comparing the current feature data with reference feature data of a reference heating process.