There is provided an apparatus for heating a pot of food or beverage, the apparatus comprising at least one receptacle (20), each receptacle for temporarily receiving a pot of food or beverage to be heated. Each receptacle comprises a base (22), sidewalls (24), and an opening opposite from the base (22) for receiving the pot; a heater element (43) mounted to the sidewalls; a temperature sensor (45) mounted to the base; a pot sensor (40, 41) for detecting whether or not a pot is present in the receptacle; and a controller connected to the heater element, temperature sensor, and pot sensor. The controller is configured to control the heater element in response to the pot sensor and temperature sensor.

A terminal includes a storage in which control method information is stored, the control method information indicating a relationship between each of a plurality of heating methods of an ingredient and each of a plurality of corresponding control methods for reducing heating power of a cooking appliance; and a controller that, in a case where the absence of a user of the cooking appliance from a kitchen is detected for a predetermined period of time during execution of one of the plurality of heating methods, determines a first control method corresponding to the one of the plurality of heating methods based on the control method information stored in the storage and then causes the cooking appliance to execute the first control method. The first control method is a method for reducing the heating power used in the one of the plurality of heating methods.

A kitchen appliance is disclosed for cooking a meat product. The kitchen appliance includes a heating element adapted to heat a medium for transferring heat to the meat product, a sensor for detecting loss of water from a contact surface of the meat product with the medium, and a controller conductively coupled to the sensor. The controller processes a sensor signal produced by the sensor, and generates a control signal indicative of the meat product reaching a defined cooking state in response to the processed sensor signal being indicative of a loss of water associated with the desired cooking state from the contact surface of the meat product.

A cooking appliance includes a plurality of electrically controlled heating elements operable to elevate a temperature of food items. A user interface includes a touch-sensitive circuit that is operatively-connected to an external surface of the cooking appliance for altering operational settings of the electrically controlled heating elements. An electrovibration feedback circuit is coupled to the external surface that generates a vibratory feedback that is sensible by the user's finger at the external surface in response to adjustments of the operational settings. The electrovibration feedback circuit creates an electrostatic force on the user's finger that simulates friction between the user's finger and the external surface.

A cooking vessel according to one example embodiment includes a food receptacle for holding food during cooking. The cooking vessel includes an inner shell and an outer shell. An outside surface of the inner shell forms the food receptacle. A portion of an inside surface of the inner shell is spaced from a portion of an inside surface of the outer shell forming a sealed volume between the inner shell and the outer shell. A heat pipe is positioned within the sealed volume between the inner shell and the outer shell for distributing heat through the sealed volume between the inner shell and the outer shell. Embodiments include those wherein each of the inner shell and the outer shell includes a respective bottom wall and a respective side wall.

Embodiments include systems and methods for heating materials, including heating materials for cooking and soldering. A representative system and method for cooking food includes passing electric current through the food, sensing a characteristic of the food, and modulating the electric current in response to the characteristic of the food to achieve a selected internal temperature of the food. The system and method can include searing the food with hot oil or photons directed at the surface of the food. A representative system and method for heating a material includes modulating a plurality of semiconductor light sources to emit photons toward the material, measuring a temperature of the material, and modulating the plurality of semiconductor light sources in response to the temperature of the material. The material can include solder and the method can include heating solder in a reflow soldering process.

A toaster includes a housing having a slot for receiving a food item, a heating element associated with the slot for toasting the food item, a carriage assembly having a supporting rack movably mounted in the slot for supporting the food item within the slot, a first slider member connected to the supporting rack, and a second slider member operatively connected to the first slider member, a motor, and a driving member having a first end operatively connected to the motor and a second end received in a slot in the second slider member such that when the motor is driven to rotate the driving member, the driving member drives the supporting rack, via the first slider member and the second slider member, to slidably move within the slot.

Disclosed herein is a monitoring system including a detecting device configured to detect at least one of smoke and heat, an alarm in operable communication with the detecting device, wherein the alarm is configured to notify a user after the detecting device detects at least one of smoke and heat, a sensing structure configured to determine whether a heating apparatus has a temperature that is above a threshold, and a processor in operable communication with the sensing structure and at least one of the detecting device and the alarm, the processor configured to at least one of turn off at least one of the alarm and the detecting device; and reduce the sensitivity of the detecting device, when the sensing structure determines that the heating apparatus has a temperature that is above a threshold.

A management system includes: a management device; and a terminal device. The management device includes: an acquisition unit that acquires device identification information and usage information, the device identification information identifying a heat cooking appliance, the usage information being obtained according to usage of the heat cooking appliance; and a tabulation unit that tabulates, for each store in which the heat cooking appliance corresponding to the device identification information that has been acquired by the acquisition unit is installed, the usage information having been acquired by the acquisition unit. The terminal device acquires tabulated result tabulated by the tabulation unit, and outputs, to an output, the acquired tabulated result.

Embodiments include systems and methods for heating materials, including heating materials for cooking and soldering. A representative system and method for cooking food includes passing electric current through the food, sensing a characteristic of the food, and modulating the electric current in response to the characteristic of the food to achieve a selected internal temperature of the food. The system and method can include searing the food with hot oil or photons directed at the surface of the food. A representative system and method for heating a material includes modulating a plurality of semiconductor light sources to emit photons toward the material, measuring a temperature of the material, and modulating the plurality of semiconductor light sources in response to the temperature of the material. The material can include solder and the method can include heating solder in a reflow soldering process.