A transfer mechanism for transferring food product from a compartment of a food processing system includes a conduit having a first end portion configured to be in communication with the compartment and a second end portion, a fluid discharge positioned substantially within the conduit between the first end portion and the second end portion, and a pressurized fluid source in communication with the fluid discharge. The pressurized fluid source is operable to propel a fluid through the fluid discharge to move the food product from the first end portion of the conduit toward the second end portion.

A transfer mechanism for transferring food product from a compartment of a food processing system includes a conduit having a first end portion configured to be in communication with the compartment and a second end portion, a fluid discharge positioned substantially within the conduit between the first end portion and the second end portion, and a pressurized fluid source in communication with the fluid discharge. The pressurized fluid source is operable to propel a fluid through the fluid discharge to move the food product from the first end portion of the conduit toward the second end portion.

Nutritional substance systems and methods are disclosed enabling the tracking and communication of changes in nutritional, organoleptic, and aesthetic values of nutritional substances, and further enabling the adaptive storage and adaptive conditioning of nutritional substances.

Nutritional substance systems and methods are disclosed enabling the tracking and communication of changes in nutritional, organoleptic, and aesthetic values of nutritional substances, and further enabling the adaptive storage and adaptive conditioning of nutritional substances.

An automatic cooking device standardization system is provided. The automatic cooking device standardization system includes a cold storage for storing food ingredients used for cooking, a cooking chamber capable of cooking dishes according to a cooking recipe, and a conveyor unit for conveying the food ingredients for each dish from the cold storage to cooking containers in the cooking chamber according to the cooking recipe. The automatic cooking device standardization system is capable of automatically cooking dishes without requiring user's manual work.

An automatic cooking device standardization system is provided. The automatic cooking device standardization system includes a cold storage for storing food ingredients used for cooking, a cooking chamber capable of cooking dishes according to a cooking recipe, and a conveyor unit for conveying the food ingredients for each dish from the cold storage to cooking containers in the cooking chamber according to the cooking recipe. The automatic cooking device standardization system is capable of automatically cooking dishes without requiring user's manual work.

Systems, methods, and articles to provide customized control of a cooking appliance. A user provides a selection of one or more ending characteristics for a food product. A processor-based device determines one or more output food preparation parameters based on the user's selection of the one or more ending characteristics. Measurements of temperature, power, or other characteristics may be obtained during cooking process. A cooking program controlling the cooking process may be revised or updated based at least in part on the obtained measurements or analysis of the measurements. Estimations or projections about the cooking process may be presented to a user via a user interface of the cooking appliance or a user interface of a computing device (e.g., smartphone) associated with the user. The processor-based device may autonomously detect a temperature scale of a temperature setting input by a user without requiring the user to specify the temperature scale.

Systems, methods, and articles to provide customized control of a cooking appliance. A user provides a selection of one or more ending characteristics for a food product. A processor-based device determines one or more output food preparation parameters based on the user's selection of the one or more ending characteristics. Measurements of temperature, power, or other characteristics may be obtained during cooking process. A cooking program controlling the cooking process may be revised or updated based at least in part on the obtained measurements or analysis of the measurements. Estimations or projections about the cooking process may be presented to a user via a user interface of the cooking appliance or a user interface of a computing device (e.g., smartphone) associated with the user. The processor-based device may autonomously detect a temperature scale of a temperature setting input by a user without requiring the user to specify the temperature scale.

The invention relates to an electrically operated food processor (1) for preparing a cooked product, which exhibits a basic unit (14), a vessel (2) with an agitator (18) that can be inserted into the basic unit (14), a heating device (9) allocated to the vessel (2), a temperature sensor (5), a transceiver device (12) for communicating with the temperature sensor (5), and an evaluator (13) for evaluating the measurement data received from the temperature sensor (5). In order to provide an electric food processor (1) with an alternative connection between the temperature sensor (5) and evaluator (13), it is proposed that the temperature sensor (5) be a surface acoustic wave sensor (SAW sensor).

The invention relates to an electrically operated food processor (1) for preparing a cooked product, which exhibits a basic unit (14), a vessel (2) with an agitator (18) that can be inserted into the basic unit (14), a heating device (9) allocated to the vessel (2), a temperature sensor (5), a transceiver device (12) for communicating with the temperature sensor (5), and an evaluator (13) for evaluating the measurement data received from the temperature sensor (5). In order to provide an electric food processor (1) with an alternative connection between the temperature sensor (5) and evaluator (13), it is proposed that the temperature sensor (5) be a surface acoustic wave sensor (SAW sensor).