The invention relates to a device for producing a baked good. The device comprises an accommodating unit, which is designed to accommodate a capsule, wherein the capsule comprises ingredients for producing a baked good. Furthermore, the device comprises a baking unit, which is designed to bake a dough, and an output unit for outputting a baked good baked in the baking unit. In addition, the device comprises a control unit, which is designed to cause dough, which comprises the ingredients from a capsule inserted into the accommodating unit, to be baked in the baking unit. The control unit is also designed to cause the baked good baked from the dough to be output by means of the output unit.

Disclosed is a waffle tong device and a method of using the waffle tong device. The waffle tong device being arranged so that a first and second side of the waffle tong device can be brought together by compressing a spring biased connector and once compressed, the waffle tong device can be placed on a waffle maker, filled with waffle batter and the waffle batter cooked to form a stuffed waffle. The spring biased connector configured such that once the waffle batter is cooked, the waffle tong device can be removed from the waffle maker and allowed to open whereupon the resultant stuffed waffle can be removed from the waffle tong device. Handle portions can be applied to the connector to allow for manipulation of the waffle tong device without risk of burns.

An automated system and method for manufacturing a cone-shaped food product holder requires the coordinated use of a forming unit, a conveyor unit and a control unit. In their combination, the forming unit rotates a conically-shaped bake form at a constant angular velocity . Simultaneously, the conveyor unit advances a bread dough strip on a conveyor belt at a constant linear velocity v, for deposit of the bread dough strip onto the bake form. In order to account for the conical configuration of the bake form, the actions of the forming unit and the conveyor unit are coordinated by the control unit. Specifically, the control unit moves the conveyor unit with a predetermined rotation relative to the forming unit to form the food product holder on the forming unit for subsequent baking.

A method of producing an edible food product includes the step of forming a vessel core with a first material having a first level of susceptibility to heating by induction. The method also includes the step of casting an apron of a second material with a second level of susceptibility to heating by induction lower than said first level around at least a first portion the vessel core in an in situ casting process to form a clad cooking vessel having a cooking surface. An uncooked food product is then disposed on the cooking surface of the clad cooking vessel and heated to produce the edible food product by subjecting the vessel core to a magnetic field.

In a method of baking both sides of ingredients between upper and lower dies with the upper and lower electric heaters respectively, a temperature of one of the lower and upper dies is detected. Based on temperature information detected thereby, consumed power of the other of the lower and upper dies is controlled, thereby making a temperature of the lower die closer to that of the upper die, thereby baking both sides of the ingredients.

A capsule for receiving a portion of dough for producing a single piece of flat bread includes a first part and a second part sealingly closable for gastight encapsulation of a dough portion in a hollow portion for making a single piece of flat bread. A preferred execution of this capsule comprises a dome-like part with a radially extending circular edge section, which forms a groove along the circumference of an edge. The groove extends with its depth into the direction of the side of the dome-like part. The sealing foil spans over the opening of the dome-like part (80) and the edge section and groove and it is sealingly weldable or gluable onto the edge section for encapsulating a dough portion.

A capsule for receiving a portion of dough for producing a single piece of flat bread includes a first part and a second part sealingly closable for gastight encapsulation of a dough portion in a hollow portion for making a single piece of flat bread. A preferred execution of this capsule comprises a dome-like part with a radially extending circular edge section, which forms a groove along the circumference of an edge. The groove extends with its depth into the direction of the side of the dome-like part. The sealing foil spans over the opening of the dome-like part (80) and the edge section and groove and it is sealingly weldable or gluable onto the edge section for encapsulating a dough portion.

A food baking apparatus includes a compressible die and a mechanical stop for controlling a die spacing of the compressible die. The mechanical stop includes a supporting system and a mounting element mounted onto the supporting system. The mounting element includes at least one protrusion having a particular amount of protrusion from the mounting element, which amount of protrusion may be adjustable for any single protrusion. By translation or rotation of the supporting system and/or the mounting element during operation of the apparatus, a protrusion is selected. The protrusions mechanically stop further compression of the dies during an operation of the food baking apparatus. Thus, the selection determines the die spacing applicable for the baking process, based on the amount of protrusion of the selected protrusion.

A food baking apparatus includes a compressible die and a mechanical stop for controlling a die spacing of the compressible die. The mechanical stop includes a supporting system and a mounting element mounted onto the supporting system. The mounting element includes at least one protrusion having a particular amount of protrusion from the mounting element, which amount of protrusion may be adjustable for any single protrusion. By translation or rotation of the supporting system and/or the mounting element during operation of the apparatus, a protrusion is selected. The protrusions mechanically stop further compression of the dies during an operation of the food baking apparatus. Thus, the selection determines the die spacing applicable for the baking process, based on the amount of protrusion of the selected protrusion.

An oven contains a continuous chain of baking tongs that can be opened and closed, and locked in the closed state. The chain circulates in the oven and moves through the baking chamber in two transport planes, one above the other. A device for opening the baking tongs, a delivery station, a loading station, a device for closing the baking tongs, and a device for locking the tongs are successively arranged in the running direction of the baking tongs, in the front part of the oven, along the upper transport plane. A product removal device contains a flatly arranged rotating support and is arranged in the delivery station. The rotating support carries removal elements embodied as suction elements along the outer periphery thereof, which it uses to remove the baked products from the open baking tongs.