An oil-less frying stand device includes a main body having plurality of elongated legs, an upper shelf, a lower shelf, and a plurality of wheels. The lower shelf includes an enlarged opening for receiving and engaging a 20 lb propane tank. A hollow pipe extends upward from the top surface of the upper shelf. The pipe includes an open top end for receiving an elongated rotisserie spit, and a rotisserie motor is positioned along the bottom end of the hollow pipe. The pipe includes a circular shape and size that is suitable for insertion within the drain opening of a commercially available oil-less fat frying device. A drain opening is positioned along the top shelf at a location adjacent to the hollow pipe, and a circular-shaped lip encircles both the drain opening and the pipe. A drain tube is in communication with the bottom end of the drain opening to remove liquids from the area within the circular lip.

The present invention relates to a sensor means (11, 35, 49, 71) or module for determining a particularly elastic displacement or deflection or bending of a panel (3), in particular a glass panel, or of a section of a panel or of an insert in relation to the panel (3). The sensor means (11, 35, 49, 71) or module and the panel (3) or said section thereof forming a weighing means, in particular a scale. The sensor means (11, 35, 49, 71) or module is adapted to be integrated in or allocated to a household appliance (1), in particular a cooking hob, more in particular an induction cooking hob, and comprises or is connected to at least one processing and/or interpretation and/or compilation means, preferably for providing a particular high sensor sensitivity and/or evaluation unit accuracy. Further, a household appliance (1) is disclosed which comprises an at least approximately horizontal panel (3), in particular a glass panel. The panel (3) is part of or is in functional connection with a scale for weighing an item (15) placed on the panel (3). Finally, the invention relates to a method for determining the weight of an item (15) on an at least approximately horizontal panel (3) of a household appliance (1), in particular on a top panel (3) of a cooking hob. An acceleration of a panel (3) section or of a panel reference point or reference area, in particular a reference point or a reference area on a panel surface (7), is estimated or determined during a displacement or deflection or bending of the panel section or the panel reference point or reference area due to a placing of the item (15) on the panel.

The invention provides a food preparation vessel (100) comprising a main inlet (10) for introduction of a food material into the food preparation vessel (100), wherein the food preparation vessel (100) comprises a gas flow generator outlet (21) and a gas flow receiver inlet (22), wherein the gas flow generator outlet (21) is configured to provide a gas flow (25) in the direction of the gas flow receiver inlet (22) and having a component parallel to the main inlet (10) when the gas flow generator outlet (21) is functionally coupled with a gas flow generator in operation.

A method includes inserting a food item into an inner volume of a thermal container. A liquid circulating through a liquid jacket at least partially surrounding and fluidically isolated from the inner volume of the thermal container is cooled such that thermal energy from the food item is transferred to the cooled liquid. After the cooling, thermal energy from a first heating element is transferred to the liquid circulating through the liquid jacket such that thermal energy from the heated liquid is transferred to the food item. Thermal energy from a second heating element is transferred to the food item in response to a criterion being satisfied. The second heating element is different from the first heating element and is disposed in the inner volume of the thermal container.

A cooking system that utilizes vibration to improve the convenience of preparing food and the quality of the finished product. The system uses a vibrating device coupled to a cooking vessel with a pad and/or isolation blocks disposed between the vibrator and the vessel. The cooking system can be adapted to prepare specific foods in specific quantities, such as popcorn in pre-packaged containers.

A temperature-regulating unit includes a base, a resonant tank, and a controller. The base is configured to support a pan. The resonant tank includes a coil and a capacitor. The resonant tank has a resonant frequency that is affected by a material of the pan and a temperature of the pan. The controller is configured to receive a temperature setting, monitor the resonant frequency, determine the material of the pan based on the resonant frequency, determine the temperature of the pan based on the resonant frequency, and adaptively control a thermal element based on the temperature of the pan, the material of the pan, and the temperature setting.

Disclosed is an automatic stir-fryer comprising: a machine stand; a base pivotably provided on the machine stand; a rotary shaft providing rotary power and connected to a stir-frying rotary tank containing foodstuffs; a high-frequency induction heating unit coaxially covering the stir-frying rotary tank; a tilting unit pivotably disposed on the base; a receiving tank provided on the machine stand for receiving the cooked foodstuffs and controlled by an automatic push rod to move forward and backward; a cleaning unit assembled on the machine stand and corresponding to the stir-frying rotary tank after tilting by the tilting unit for water cleaning the stir-frying rotary tank; a control unit vertically disposed on the machine stand and provided with an control panel for controlling the operating time of the automatic stir-fryer and the temperature of the high-frequency induction heating unit.

A packing member having a structure capable of reliably extinguishing a fire generated in a cooking apparatus and a cooking apparatus having the packing member are provided. The packing member for packing components of a cooking apparatus includes a flange formed by bending at least one side thereof. The flange is provided to cover at least a portion of an inlet formed at one side of the cooking apparatus to allow external air to be introduced into the cooking apparatus when the packing member is received in the cooking apparatus or at least a portion of an outlet formed to allow air in the cooking apparatus to be discharged.

A compact cooking implement includes a pan, a top flange, a handle, and a stand flange. The pan has a rectangular bottom and four perpendicular walls. One of the four walls extends from each of four edges of the bottom. The top flange is disposed on a top edge of the walls of the pan. The top flange extends perpendicularly outward from a top edge of each of the four walls. The handle extends outwardly from the top flange. The stand flange extends from the top flange outwardly at an angle from a plane including the top flange.

In an exemplary embodiment, an induction cooking pan can include: a pan; a handle coupled to the pan; wherein the pan can include: a ceramic inner coated portion; a first metallic outer portion; and a second metallic outer portion; wherein the second metallic outer portion is at least one of extruded or impact bonded to the first metallic outer portion; wherein the second metallic outer portion can include: a generally circular shape and can include a plurality of punched openings therethrough; and wherein the plurality of punched openings have been at least one of: impact bonded into a lower surface of the first metallic portion; or extruded into a lower surface of the first metallic portion; and wherein the first and second metallic outer portions have been machined substantially smooth.