A shut-off mechanism for a toaster includes a damper arm pivotally mounted on a frame that includes a damper unit. The damper unit including (a) a cavity in which a viscous fluid is stored, (b) a rotor that resides partially in the cavity and partially outside of the cavity, the viscous fluid resisting rotation of the rotor relative to the cavity, and (c) an engagement member attached to the rotor that engages a track on the frame. The damper arm is movable between a deactivated position and an activated position. An electrical switch configured to engage an electrical contact when the damper arm is in the activated position and to disengage from the electrical contact when the damper arm is in the deactivated position.

A method of displaying parameters of a cooking process involves a step in which an information window is provided within an indicating window. Further, a cooking intelligence applied is temporarily displayed in the information window. A cooking appliance display device can be used for displaying various parameters and steps of a cooking process and for making these available to an operator for interaction, with an information window being provided in which a currently applied cooking intelligence is displayed.

A gas cooktop may include: a gas burner; a sensor configured to sense temperature of a cooking container heated by the gas burner; a valve configured to control flow rate of gas from a gas source to the gas burner; and a control system including circuitry. The control system may start operation of the gas burner; receive sensor signals from the sensor indicating the temperature of the cooking container; and based on received sensor signals representing the sensed temperature of the cooking container and a cooking profile indicating one or more durations and one or more temperatures, control the valve to change the gas flow rate to the gas burner.

A gas cooktop may include: a gas burner; a sensor configured to sense temperature of a cooking container heated by the gas burner; a valve configured to control flow rate of gas from a gas source to the gas burner; and a control system including circuitry. The control system may start operation of the gas burner; receive sensor signals from the sensor indicating the temperature of the cooking container; and based on received sensor signals representing the sensed temperature of the cooking container and a cooking profile indicating one or more durations and one or more temperatures, control the valve to change the gas flow rate to the gas burner.

A food heating device and a food heating method are provided. The food heating device includes a placement device and a heating device. The placement device includes a casing and a placement board. The placement board is disposed in the casing and is configured to place a food item. The heating device includes a steam portion, a hot water portion and an injection member. The steam portion and the hot water portion are in communication with the injection member, the injection member passes through the casing and is movably provided corresponding to the placement board, and the steam portion and the hot water portion are configured to inject steam and hot water into the food item on the placement board through the injection member so as to heat the food item.

A food heating device and a food heating method are provided. The food heating device includes a placement device and a heating device. The placement device includes a casing and a placement board. The placement board is disposed in the casing and is configured to place a food item. The heating device includes a steam portion, a hot water portion and an injection member. The steam portion and the hot water portion are in communication with the injection member, the injection member passes through the casing and is movably provided corresponding to the placement board, and the steam portion and the hot water portion are configured to inject steam and hot water into the food item on the placement board through the injection member so as to heat the food item.

An artificial intelligence cooking device can include an output interface; a heater configured to heat ingredients contained in a cooking vessel; a sensor comprising at least one of a weight sensor configured to detect a weight of the cooking vessel containing the ingredients or a vibration sensor configured to detect a vibration signal of the ingredients contained in the cooking vessel; and a processor configured to obtain cooking information including at least one of cooking behavior information or state information about the ingredients by using data obtained by the sensor; and output a guide based on the cooking information through the output interface.

Control equipment and method for pressure cooking appliance, and pressure cooking appliance. The equipment comprises: a temperature detecting device for detecting a temperature value within a pot of a pressure cooking appliance; a floater detecting device for detecting whether a floater of the pressure cooking appliance is in a floating state; and a control device used for: calculating a target temperature value according to a first temperature value detected by the temperature detecting device when the floater is in the floating state and a preset target pressure value, and controlling a heater of the pressure cooking appliance according to the target temperature value. The present disclosure can perform control by means of corresponding different target temperature values at different altitudes to achieve a target pressure, so that the quality of food cooked by the pressure cooking appliance would not be affected by the altitude.

Control equipment and method for pressure cooking appliance, and pressure cooking appliance. The equipment comprises: a temperature detecting device for detecting a temperature value within a pot of a pressure cooking appliance; a floater detecting device for detecting whether a floater of the pressure cooking appliance is in a floating state; and a control device used for: calculating a target temperature value according to a first temperature value detected by the temperature detecting device when the floater is in the floating state and a preset target pressure value, and controlling a heater of the pressure cooking appliance according to the target temperature value. The present disclosure can perform control by means of corresponding different target temperature values at different altitudes to achieve a target pressure, so that the quality of food cooked by the pressure cooking appliance would not be affected by the altitude.

A cooking assistance device is for weighing a kitchen appliance or food container and then calculating a weight of food contained by the kitchen appliance or container based on a known dry weight. The food weight is provided to cooking aid device (which may be an integral part of the assistance device or it may be a remote device) for providing cooking instructions to a user. The device is thus able to coordinate the use of multiple kitchen appliances or utensils for example when a recipe is being followed by a user, with user instructions, information or advice being provided.