A cooking appliance includes a pressure vessel, a lid, a locking mechanism having a locking member, and a resiliently compressible seal member. The cooking appliance is adapted to affect the locking mechanism into an inoperable state at an inner vessel pressure greater than or equal to a predetermined pressure when in a locked position.

A method of preparing meals in a computerized kitchen workspace is set forth. The computerized kitchen workspace includes one or more robots for preparing and cooking food in the kitchen workspace. Kitchen appliances may be automatically controlled according to a recipe. The one or more robots may access kitchen items necessary for meal preparation by rotating automated shelves. The meal may then be automatically prepared by the one or more robots. Automated storage shelves may be provided with electrical power for powering kitchen appliances found on the shelves.

In one aspect, a cooking device includes independently controllable cooking zones. In one aspect, a cooking device includes a first cooking zone with heated air configured to move horizontally there through in a first direction and a second cooking zone with heated air configured to move horizontally there through in a second direction different than the first direction. In one aspect, the first and second directions are opposite directions. In one aspect, the heated air flows from one side of the cooking device.

The present application relates to a heater (6) for heating food received in a container (2) to prevent overheating and/or scorching of the food. The heater (6) has a heating element (9) and a control unit configured to initially operate the heating element (9) at a higher initial temperature setting so that, when a container (2) is disposed adjacent to the heating element (9), the temperature of the container is increased rapidly, and to reduce the temperature setting of the heating element (9) to the operating temperature setting when the higher initial temperature setting is reached. The present application also relates to an apparatus for heating food and a method of operating a heater (6) for heating food.

The present application relates to a heater (6) for heating food received in a container (2) to prevent overheating and/or scorching of the food. The heater (6) has a heating element (9) and a control unit configured to initially operate the heating element (9) at a higher initial temperature setting so that, when a container (2) is disposed adjacent to the heating element (9), the temperature of the container is increased rapidly, and to reduce the temperature setting of the heating element (9) to the operating temperature setting when the higher initial temperature setting is reached. The present application also relates to an apparatus for heating food and a method of operating a heater (6) for heating food.

A robotic heating and mixing system which automatically warms or cooks and mixes ingredients for a meal or entrée in a heating pot which warms or cooks the ingredients in a manner resembling a wok and is automatically gimbaled between a loading position for loading the ingredients, a cooking and mixing orientation, a serving orientation for delivering the warmed or cooked ingredients to a plate or to a bowl or other container, and a cleaning orientation.

A robotic kitchen assistant for frying includes a robotic arm, a fryer basket, and a robotic arm adapter assembly allowing the robotic arm to pick up and manipulate the fryer basket. The robotic arm adapter includes opposing gripping members to engage the fryer basket. A utensil adapter assembly is mounted to the handle of the fryer basket, and the opposing gripper members are actuated to capture a three-dimensional (3D) feature of the utensil adapter assembly. The robotic arm adapter assembly can include an agitator mechanism to shake the fryer basket or another utensil as desired. Related methods are also described.

A robotic kitchen assistant for frying includes a robotic arm, a fryer basket, and a robotic arm adapter assembly allowing the robotic arm to pick up and manipulate the fryer basket. The robotic arm adapter includes opposing gripping members to engage the fryer basket. A utensil adapter assembly is mounted to the handle of the fryer basket, and the opposing gripper members are actuated to capture a three-dimensional (3D) feature of the utensil adapter assembly. The robotic arm adapter assembly can include an agitator mechanism to shake the fryer basket or another utensil as desired. Related methods are also described.

The present application discloses an automated kitchen system comprising a first computer and a plurality of second computers which are connected so that the first computer may communicate with any of the second computers. The automated kitchen system also comprises: a plurality of ingredient containers each configured to contain or store food ingredients; caps configured to close on the ingredient containers; a storage apparatus comprising compartments each configured to store a plurality of ingredient containers and refrigeration mechanism configured to cool the food or food ingredients in the containers of the storage apparatus; transport boxes each configured to contain capped ingredient containers; a transportation apparatus configured to move the transport boxes wherein the transportation apparatus comprises motors and sensors; a cap opening apparatus configured to remove a cap from a capped container wherein the cap opening apparatus comprises motors and sensors; a first transfer apparatus configured to move a capped ingredient container from a transport box to the storage apparatus, and also configured to move a capped ingredient container to a location on the cap opening apparatus, wherein the first transfer apparatus comprises motors and sensors; a cyclic transport apparatus comprising a cycle of container holders each configured to hold an ingredient container; a transfer apparatus configured to move an ingredient container from the location of cap opening apparatus to a position on a container holder of the cyclic transport apparatus wherein the second transfer apparatus comprises motors and sensors; and a plurality of cooking systems. Each cooking system comprises a cooking container configured to hold food or food ingredients during a cooking process, a stirring motion mechanism configured to produce a motion in the cooking container as to stir, mix or distribute food or food ingredients held in the cooking container, wherein the stirring motion comprising motors, sensors, and a stove; a cyclic transport apparatus comprising a cycle of container holders each configured to hold an ingredient container; an unloading apparatus configured to unload food ingredients from an ingredient. The above mechanisms and apparatuses comprise electrical or electronic devices and sensors, which are configured to be connected to the second computers. The first computer is configured to store various sub-programs and other lists that are useful to control the electric or electronic devices in the mechanisms, apparatuses or systems in the kitchen system.

The present application discloses an automated kitchen system comprising a first computer and a plurality of second computers which are connected so that the first computer may communicate with any of the second computers. The automated kitchen system also comprises: a plurality of ingredient containers each configured to contain or store food ingredients; caps configured to close on the ingredient containers; a storage apparatus comprising compartments each configured to store a plurality of ingredient containers and refrigeration mechanism configured to cool the food or food ingredients in the containers of the storage apparatus; transport boxes each configured to contain capped ingredient containers; a transportation apparatus configured to move the transport boxes wherein the transportation apparatus comprises motors and sensors; a cap opening apparatus configured to remove a cap from a capped container wherein the cap opening apparatus comprises motors and sensors; a first transfer apparatus configured to move a capped ingredient container from a transport box to the storage apparatus, and also configured to move a capped ingredient container to a location on the cap opening apparatus, wherein the first transfer apparatus comprises motors and sensors; a cyclic transport apparatus comprising a cycle of container holders each configured to hold an ingredient container; a transfer apparatus configured to move an ingredient container from the location of cap opening apparatus to a position on a container holder of the cyclic transport apparatus wherein the second transfer apparatus comprises motors and sensors; and a plurality of cooking systems. Each cooking system comprises a cooking container configured to hold food or food ingredients during a cooking process, a stirring motion mechanism configured to produce a motion in the cooking container as to stir, mix or distribute food or food ingredients held in the cooking container, wherein the stirring motion comprising motors, sensors, and a stove; a cyclic transport apparatus comprising a cycle of container holders each configured to hold an ingredient container; an unloading apparatus configured to unload food ingredients from an ingredient. The above mechanisms and apparatuses comprise electrical or electronic devices and sensors, which are configured to be connected to the second computers. The first computer is configured to store various sub-programs and other lists that are useful to control the electric or electronic devices in the mechanisms, apparatuses or systems in the kitchen system.