A cooking apparatus may include a cooking chamber, a heating mechanism, a microwave generator, and a waveguide. The cooking chamber may hold cooking media. The heating mechanism may be disposed at the cooking chamber and may heat the cooking media. The microwave generator may produce microwave energy. The waveguide may be disposed on the cooking chamber and may transmit the microwave energy from the microwave generator to the cooking chamber. The microwave generator may be mounted to the waveguide at one end portion of the waveguide. An opening may be formed in an opposite end portion of the waveguide through which the microwave energy may enter the cooking chamber. The opposite end portion of the waveguide may be opposite to the one end portion of the waveguide.

A cooking apparatus may include a cooking chamber, a heating mechanism, a microwave generator, and a waveguide. The cooking chamber may hold cooking media. The heating mechanism may be disposed at the cooking chamber and may heat the cooking media. The microwave generator may produce microwave energy. The waveguide may be disposed on the cooking chamber and may transmit the microwave energy from the microwave generator to the cooking chamber. The microwave generator may be mounted to the waveguide at one end portion of the waveguide. An opening may be formed in an opposite end portion of the waveguide through which the microwave energy may enter the cooking chamber. The opposite end portion of the waveguide may be opposite to the one end portion of the waveguide.

A pan holder for supporting batter-dipping pans from the front edge of a restaurant type fryer, especially a flat bottom type fryer with a raised front edge. The pan holder comprises a frame with an opening for receiving the batter-dipping pan and supporting the upper flange of the pan, a rear hook edge configured to mate with the front raised edge of the fryer, and side brace panels for engaging the front face of the fryer. The holder includes finger holes in both sides of the frame, extending beyond the pan flange so that the pan can be lifted evenly out of the frame; utensil holders formed in the side brace panels; and a perforated and/or discontinuous rear hook edge configured to reduce heat transfer and increase drainage of hot oil.

The present application firstly discloses a cooking system including a second cooking apparatus and a first cooking apparatus, which is used to deep fry or boil a food or food ingredients. A semi-cooked food is produced in the first cooking apparatus and is used as an ingredient in the second cooking apparatus. The cooking apparatuses work together to produce a cooked food.

A cooking apparatus for boiling or frying food. The cooking apparatus has an outer pot defining a cooking well containing the cooking liquid. A basket or inner pot is situated within the cooking well of the outer pot. The outer pot has two protrusions along its inner wall. The inner pot has two flanges along its outer wall. The inner pot may be rotated to align the flanges either with the protrusions of the outer pot or with the gaps between the protrusions. When aligned with the protrusions, the flanges rest on the protrusions, allowing the inner pot to drain.

Cookware with built-in drains allows liquid to drain out without tipping the pan. The drain is structured so as not to leak or interfere with the cookware's thermal properties. Each pan provides a close fitting strainer which fits snugly within the pan. The strainer provides a plurality of apertures in its bottom surface which may be opened and closed by the user. One or more clamps may be used to lift the strainer and food out of the pan, and drain excess fluid into the pan by opening the apertures.

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 invention provides a water tank type steamer. The water tank type steamer includes a base which defines a recess therein. A plurality of steam racks which are hollow are inserted into the recess by stacking one by one from top to down. The bottom of a side wall of each steam rack is bent inwards to form a stage. An outside wall of the stage is nested in the top of the side wall of the lower steam rack. A rack bottom for holding food is put on the inner side of the stage. The bottom of the recess arranges a water storage pool. A through slot and a jack are disposed on the base. The through slot communicates the water storage pool and the jack. The jack connects a water tank. The outlet of the water tank orientates downwards to communicate with the jack.

A cooking appliance for processing and preparing foods with an external user interface that includes a base structure (48) on which a support suitable for holding a container (2) containing foods to be processed is assembled, motorized driving device suitable for rotating detachable stirring or cutting means inside the container (2), an electronic circuit for powering and controlling the driving device and heat energy transferring means controlled by an appliance microcontroller, a user interface integrated in a user computing device (D) detached with respect to the appliance for inputting operating parameters of the appliance, and the user computing device (D) is communicated with the appliance microprocessor through a wireless communication interface for inputting operating instructions of the appliance or cooking programs.

Systems and methods for delivering a cooking medium in a cooking apparatus are disclosed. A delivery system includes a rotary valve having a rotary inlet and a plurality of rotary outlets. The rotary inlet is configured to be in fluid communication with a source of cooking medium and the plurality of rotary outlets are configured to be in fluid communication with a corresponding plurality of receptacles. A rotary position sensor generates a signal, having continuous angular position resolution, based on an angular position of the rotary valve. A controller receives the signal generated by the rotary position sensor and selectively places the rotary inlet in fluid communication with one of the plurality of rotary outlets based on the signal generated by the rotary position sensor. The rotary position sensor may include a Hall-effect sensor that functions at elevated operating temperatures associated with the cooking medium.