An oven for producing baked products has baking irons (3) that are openable and closable and arranged in an elongated machine frame (1) along a continuous conveyor (2), and pass successively through a baking dough application region, a closing region, a baking area (4) for baking the baked products in which at least one heating arrangement (5) is provided for heating, an opening region, and a baked product removal region. The heating arrangement (5) has at least one heating element (6). At least one heating element receiving portion (7) is located at the top and at which said heating element (6) is detachably connected to the machine frame (1) by means of a connection device (8). The baking area (4) is enclosed by a housing (9), having an opening (11) which is closed by a removable cover (10) and which is at least partially covered by the heating element (6).

The present invention in various embodiments provides an oven system, having movable heating panels adapted to a partitioning mechanism, to change the heating chamber into one or more compartments in the housing, as per user requirements. The partitioning mechanism with the movable heating panels may be adapted to the extendable member or walls of the oven chamber including base, side walls or top wall of the oven chamber. The rotational holders may be adapted in the extendable member or the base of the oven chamber for adapting the skewers or food holders. Thus, the present invention creates an oven system which allows the user to maximize and optimize the use of the oven system in a more effective way.

The present invention in various embodiments provides an oven system, having movable heating panels adapted to a partitioning mechanism, to change the heating chamber into one or more compartments in the housing, as per user requirements. The partitioning mechanism with the movable heating panels may be adapted to the extendable member or walls of the oven chamber including base, side walls or top wall of the oven chamber. The rotational holders may be adapted in the extendable member or the base of the oven chamber for adapting the skewers or food holders. Thus, the present invention creates an oven system which allows the user to maximize and optimize the use of the oven system in a more effective way.

A continuous-belt baking system having a pair of upper rollers rotatably mounted in frame and spaced at a first distance, a pair of lower rollers rotatably mounted in frame and spaced at a second distance, a continuous thermally-conductive belt passing over the upper rollers, a continuous thermally conductive belt passing over the lower rollers, and two arrays of radiant heating elements. The radiant arrays include a first group of heating elements above a lower run of the upper belt between said upper rollers and a second opposing group of heating elements below an upper run of the bottom belt between the lower rollers. Each heating element may be separately controlled insofar as its ON/OFF state or in accordance with temperature, to provide more localized baking capabilities.

A continuous-belt baking system having a pair of upper rollers rotatably mounted in frame and spaced at a first distance, a pair of lower rollers rotatably mounted in frame and spaced at a second distance, a continuous thermally-conductive belt passing over the upper rollers, a continuous thermally conductive belt passing over the lower rollers, and two arrays of radiant heating elements. The radiant arrays include a first group of heating elements above a lower run of the upper belt between said upper rollers and a second opposing group of heating elements below an upper run of the bottom belt between the lower rollers. Each heating element may be separately controlled insofar as its ON/OFF state or in accordance with temperature, to provide more localized baking capabilities.

An oven appliance includes a housing defining a discharge vent, a cooking chamber positioned within the housing, an exhaust duct providing fluid communication between the cooking chamber and the discharge vent, an air handler operably coupled with the exhaust duct for urging a flow of heated air from the cooking chamber, through the exhaust duct, and out of the discharge vent, and a catalytic converter assembly. The catalytic converter assembly includes a catalytic element positioned within the exhaust duct for lowering volatile organic compounds from the flow of heated air and a catalyst heater positioned upstream of the catalytic element for selectively heating the flow of heated air.

An oven appliance includes a housing defining a discharge vent, a cooking chamber positioned within the housing, an exhaust duct providing fluid communication between the cooking chamber and the discharge vent, an air handler operably coupled with the exhaust duct for urging a flow of heated air from the cooking chamber, through the exhaust duct, and out of the discharge vent, and a catalytic converter assembly. The catalytic converter assembly includes a catalytic element positioned within the exhaust duct for lowering volatile organic compounds from the flow of heated air and a catalyst heater positioned upstream of the catalytic element for selectively heating the flow of heated air.

A method of cooking food, such as fish and vegetables, using steam during a cooking cycle comprises a preheating step where the cavity is heated toward a cooking temperature and a cooking step where the cavity is maintained at the cooking temperature. The preheating step comprises a dry preheating step where no steam is introduced into the cooking cavity and a steam preheating step where steam is introduced into the cavity.

A continuous heating furnace includes a furnace main body, a conveyance unit configured to convey a baking object W in the furnace main body, a plurality of heating sections heated by combustion, each having a first radiation surface configured to be heated by combustion and transfers heat to the baking object conveyed by the conveyance unit and arranged in the conveyance direction of the baking object in the furnace main body, and a cooling preheater having a second radiation surface configured to receive radiant heat from the baking object when being opposite to the baking object conveyed by the conveyance unit and a gas flow path configured to preheat a gas used for combustion in the heating section by the heat from the second radiation surface.

A continuous heating furnace includes a furnace main body, a conveyance unit configured to convey a baking object W in the furnace main body, a plurality of heating sections heated by combustion, each having a first radiation surface configured to be heated by combustion and transfers heat to the baking object conveyed by the conveyance unit and arranged in the conveyance direction of the baking object in the furnace main body, and a cooling preheater having a second radiation surface configured to receive radiant heat from the baking object when being opposite to the baking object conveyed by the conveyance unit and a gas flow path configured to preheat a gas used for combustion in the heating section by the heat from the second radiation surface.