A control method of a cooking apparatus. The control method of the cooking apparatus includes controlling an operation of the water supply pump to supply water to the steam generator, controlling an operation of the water supply pump for a period of time to additionally supply water to the steam generator when a level of water supplied to the steam generator reaches a position. The method includes controlling an operation of a drain pump to discharge the water from the steam generator when the period of time expires, and respectively controlling an operation of a steam heater installed in the steam generator and a bottom heater installed on a bottom surface of the cooking apparatus, when the level of the water in the steam generator reaches the position at which the water is discharged from the steam generator.

The invention discloses a liquefaction device of hard bone, comprising: outer cavity having upper end detachably sealed with upper cover, and lower end openable/closable sealed with lower sealing cover, first liquefaction cavity coaxially slidably disposed in outer cavity, stainless steel cage disposed coaxially in first liquefaction cavity, second liquefaction cavity fixed to outer sidewall of outer cavity such that lower end portion of outer cavity is located in second liquefaction cavity. The invention also provides a method for co-production of bone collagen polypeptide and ultrafine bone powder based on liquefaction device, including: selecting hard bones, crushing; performing first-stage and second-stage liquefaction to obtain liquid phase and solid phase; centrifuging, concentrating, drying liquid phase to obtain bone collagen polypeptide; drying, coarsely and superfine pulverizing solid phase to obtain ultrafine bone powder. The invention has effects of simplifying process, improving production efficiency, and reducing production and equipment investments.

Food stuffs are cooked at precise temperatures, which are optionally below 100° C., in a vessel that is evacuated to exclude air, in which low pressure steam replaces the air. When a sufficient quantity of air is excluded and replaced with water vapor, the temperature of vapor is accurately measured inside the vessel below the lid to control the temperatures within about 1° C. Air is preferably excluded via a controlled heated process for a relatively short period of time at high temperature to generate steam, the temperature is lowered to condense water vapor upon which the lid will sealingly engage the rim of the vessel, forming a partial vacuum in the cooking vessel.

Air-based fryer including a food preparation chamber including an outer wall, an inner wall defining a food receiving space with an air inlet and an air discharge opening, and a circulation channel defined between the outer wall and the inner wall. The fryer includes an air heater for heating air in the food preparation chamber, a fan for moving a flow of hot air successively through the air inlet, the food receiving space, the discharge opening, and the channel. The fryer includes a steam generator including at least one nozzle extending into the food receiving space for spraying temperature-controlled steam onto the food; and a controller adapted to control the steam generator to spray steam to food placed in the food receiving space for a first predetermined period, and to control the air heater and the fan to circulate hot air to the food for a subsequent second predetermined period.

An oven comprises a cooking cavity, a stirring member extending, in use, into foodstuff contained in a vessel disposed in the cooking cavity as well as drive means to provide, in use, relative movement between the stirring member and the vessel. The drive means comprises means to rotate, in use, the vessel with respect to the stirring member about a rotating axis. The oven comprises a swivel means comprising a motor to swivel, in use, the stirring member by means of the motor about a swivel axis extending at an angle of between 60-120 degrees, preferably substantially perpendicular to the rotating axis.

The present invention relates to a method for manufacturing a porous red ginseng. The porous red ginseng according to the present invention forms a uniform porosity therein and thus obtains a crispy mouthfeel and an excellent flavor without an additional process such as an addition of fructose, etc., such that the resulting red ginseng may be not only directly eaten as an original form or slices of the red ginseng, but also have a very high content of ginsenoside and a low content of moisture therein, thus achieving a very excellent storage quality.

A turkey cooking apparatus provides a pot and a specially configured insert (e.g., basket) that rests upon the pot bottom. A lower funnel shaped section and upper tube shaped section are provided inside the pot. The insert (e.g., basket) sits upon funnel shaped portion. The insert has a central opening that is receptive of the tubed portion. Both the insert and the tube section can have openings that enable steam to travel upwardly to cook the turkey carcass.

An oven comprises a cooking cavity, a stirring member extending, in use, into foodstuff contained in a vessel disposed in the cooking cavity as well as drive means to provide, in use, relative movement between the stirring member and the vessel. The oven comprises a displacement device to move the stirring member from outside the cooking cavity through an opening in a wall bounding the cooking cavity into the cooking cavity as well as, in use, into the vessel disposed in the cooking cavity.

An automated, computer-controlled, cooking system for use with user selectable ones of a plurality of different pre-sealed computerized cooking containers containing dry contents (PSCCCCDC) useful in preparing corresponding different food products, the system including a microwave radiation generator, a PSCCCCDC support for supporting a user-selected one of the plurality of different PSCCCCDCs during cooking, a computer-controlled liquid supply subsystem for supplying liquid to the selected PSCCCCDC, a computer-controlled stirrer subsystem for producing stirring of the dry contents of the PSCCCCDC together with the liquid, a cooking instructions input interface for receiving PSCCCCDC specific cooking instructions and a computer controller operative to control operation of at least the computer-controlled liquid supply subsystem, the computer-controlled stirrer subsystem and the microwave radiation generator in a predetermined sequence corresponding to and specifically adapted for cooking the contents of the selected PSCCC-CDC in accordance with the PSCCCCDC specific cooking instructions.

Disclosed herein is a cooking system for cooking food, the system including a housing defining a hollow chamber configured to receive a food container. The housing has an upper portion defining an opening to the hollow chamber. A food container having a hollow container interior is positionable within the hollow chamber. An end of the food container extends above the upper portion of the housing when the container is installed within the hollow chamber. A lid is moveably attached to the housing and is moveable between a first position that covers the upper portion of the housing and the opening to the hollow chamber when the food container is installed within the hollow chamber and a second position where the lid does not cover the opening to the hollow chamber. At least one heating element is associated with at least one of said lid and said housing.