A cooking appliance including a temperature sensing system having an upper housing having a first heating surface and a lower housing having a second heating surface includes a temperature sensing probe, a control panel and a control unit in electrical communication with the temperature sensing probe and the control panel. The temperature sensing probe is removably received by the upper housing and extends through the first heating surface. The control panel has one or more input buttons for allowing a user to select at least one input parameter including a desired internal temperature of a food item.

A griddle apparatus, includes a lower cooking plate and an upper cooking plate, where the upper cooking plate is mounted for movement relative to the lower cooking plate between a lower cooking position and an upper access position by a biasing arrangement that provides an upward force sufficient to move the upper cooking plate up to the upper access position once the upper cooking plate has been manually moved to a set raised location between the lower cooking position and the upper access position.

Provided is a grill module for cooking an object to be cooked. The grill module includes a lower plate grill on which a flat object to be cooked is placed, an upper plate grill facing the lower plate grill to cook the object to be cooked, and a transfer unit to transfer a guide and a spatula for placing the object to be cooked onto the lower plate grill and taking out a completely cooked object.

A cooking apparatus includes a base, a first cooking assembly, a second cooking assembly pivotably coupled to the first cooking assembly, and a pair of removable cooking surfaces, the first cooking assembly and the second cooking assembly each being rotatably coupled to the base and configured to receive a respective removable cooking surface. The first cooking assembly and the second cooking assembly are moveable between an opened state and a closed state. The first cooking assembly and the second cooking assembly are configured to rotate about a first rotational axis while in the closed state and pivot relative to one another about a second rotational axis while in the opened state.

Various examples are related to making flatbreads such as, e.g., a compact machine for making flatbread in a residential kitchen-type environment or other countertop, tabletop, or space limited applications. In one example, a machine includes a hopper including a mixing chamber configured for bulk addition of raw materials for preparation of flatbread pieces; a mixing assembly configured to blend the raw materials into a flatbread dough mixture; a dough piecing assembly configured to generate a dough piece from an extruded portion of the flatbread dough mixture; a lower platen configured to transfer the pressed flatbread dough piece to a cooking zone on the dough contacting surface for cooking; and a flatbread ejection station configured to remove a cooked flatbread piece from the machine. A second cooking zone can be included to further cook the pressed flatbread dough piece prior to ejection from the machine.

A device (1) for heating filled brioches preferably filled with ice-cream, comprising an upper subassembly (3) and a lower subassembly (4) linked by one or more joints or hinges (10). Each one of the subassemblies (3, 4) includes a heating plate (14) with a cavity (14a) intended to receive the filled brioche, or other similar product, in order to heat it, arranged so that in an operative position they overlap one another. Each heating plate (14) is positioned on top of a heat transfer plate (16) enclosed in a thermo-insulating layer (13), except for an opening to allow contact between the heating plate (14) and the heat transfer plate (16). The heating plates (14) are releasable from the subassembly by means of one or more releasable fastening elements protruding from the heating plate (14) and inserted in one or more slots (3c, 4c) of either casing of the subassemblies.

A method for configuring a cooking appliance by a terminal capable of exchanging data according to a communication protocol with the cooking appliance, the configuration method including creating and/or selecting a cooking program, the cooking program (prog), creating and/or selecting a desired cooking state corresponding to a state of progress of the implementation of the cooking program, determining cooking configuration data from the cooking program and/or the desired cooking state, and sending the cooking configuration data to the cooking appliance.

A cooking appliance, such as a toaster or oven, has a lifting arm including ribs that form a support surface for a food product in a cooking cavity of the appliance. Each rib can include an opening configured to permit infrared radiation from a heating assembly to pass through the rib to the food product supported by the lifting arm and/or to reduce a thermal mass and capacitance of the lifting arm. The heating assembly can include a support and/or heating element with a curved shape having a concave side facing a cooking cavity. The support and/or heating element can have a planar shape when unstressed and a curved shape when stressed. The heating element may be coupled to the support so as to be slidably movable relative to the support, e.g., so the heating element can slide relative to the support.

Apparatus for making treats having wafer shell.

A method of controlling a cooking apparatus includes identifying an initial thickness of a food product on a lower heating plate of the cooking apparatus and calculating a difference between an initial gap value corresponding to the initial thickness of the food product and a predefined final gap value. The method includes controlling at least one of a pressure of at least one of an upper heating plate and a lower heating plate on the food product, a rate of descent of the upper heating plate toward the lower heating plate, and a rate of ascent of the lower heating plate toward the upper heating plate based on the calculated difference between the initial gap value and the predefined final gap value.