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 display apparatus for a cooking appliance includes a first substrate. The first substrate forms an interface surface of the interface console and is designed to be exposed to a heat source of a cooking appliance. A display device is configured to transmit light through the first substrate and is aligned with the first substrate in a spaced-apart configuration. The spaced-apart configuration forms an insulated passage with an interior cavity between the display device and an interior surface of the first substrate. An air intake is in connection with the insulated passage. The interior cavity provides an air flow path extending from an inlet positioned away from the heat source and draws environmental air from the inlet and through the insulated passage.

Hot surface igniter assemblies used in cooktops are shown and described. The hot surface igniters include a silicon nitride ceramic body with an embedded, resistive, heat-generating circuit. The igniters are less than 0.04 inches thick, and when energized, they reach surface temperatures in excess of 2000° F. in under 4 seconds to ignite combustible gas such as propane, butane, or natural gas. Examples of cook top burner systems are also provided which allow the igniter to remain on after ignition at a power level that is lower than during ignition but high enough to ignite the cooking gas should a flame out occur. Examples are also provided of burners that ignite on a low flow setting (e.g., simmer) as opposed the high flow settings that are common in cook top industry.

A system for delivering a fire suppression agent to an obstructed cooking appliance is disclosed, which includes a fuel delivery path extending from a source of cooking fuel to a burner of the cooking appliance, a source of fire suppression agent selectively in fluid communication with the fuel delivery path, and a valve assembly associated with the fuel delivery path and the source of fire suppression agent, wherein the valve assembly is configured to control the delivery of fire suppression agent to the burner of the cooking appliance and shut off the burner from the source of cooking fuel.

Hot surface igniter assemblies used in cooktops are shown and described. The hot surface igniters include a silicon nitride ceramic body with an embedded, resistive, heat-generating circuit. The igniters are less than 0.04 inches thick, and when energized, they reach surface temperatures in excess of 2000° F. in under 4 seconds to ignite cooking gas such as propane, butane, or natural gas. Examples of cook top burner systems are also provided which allow the igniter to remain on after ignition at a power level that is lower than during ignition but high enough to ignite the cooking gas should a flame out occur. Examples are also provided of burners that ignite on a low flow setting (e.g., simmer) as opposed the high flow settings that are common in cook top industry.

The invention refers to a method for detecting anomalies associated with a gas appliance (1), the gas appliance (1) comprising at least a gas inlet (2), at least one gas burner (3) and gas distribution means (4) coupling the gas inlet (2) with said at least one gas burner (3), the method comprising the steps of: —gathering information regarding the gas flow or the operational state based on detection means (5.1, 5.2) (S20); —evaluating said gathered information in order to detect gas flow anomalies or operational anomalies, thereby obtaining evaluation information (S21); —providing alert information from a communication interface of the gas appliance (1) to a user device (6) depending on said evaluation information (S22).

A fire extinguishing range assembly includes a range has an oven is integrated therein and a plurality of burners. An oven temperature sensor is integrated into the range and a burner temperature sensor is integrated into the range. A fire extinguisher is integrated into the range and the fire extinguisher contains a fire retardant. The fire extinguisher is actuated when either of the burner temperature sensor or the oven temperature sensor senses a temperature that exceeds a pre-determined temperature. A plurality of nozzles is strategically distributed around the range. Each of nozzles is in fluid communication with the fire extinguisher thereby facilitating each of the nozzles to spray the fire retardant when the fire extinguisher is actuated to extinguish a fire that is burning in or on the range.

A cooking appliance that includes: a gas cooking element; an igniter located next to the gas cooking element to ignite the gas cooking element; a gas valve for regulating gas flow to the gas cooking element; a burner control coupled to the gas valve to vary the gas flow to the gas cooking element; and a control circuit coupled to the burner control and for activating the igniter when the burner control is positioned within a predetermined range of positions, where the control circuit detects when the burner control has been moved through the predetermined range of positions in less than a predetermined time, and in response to determining that the burner control has been moved through the predetermined range of positions in less than the predetermined time, generate an alert to a user.

An operator control device for a household appliance includes an operator control element defining a longitudinal axis. The operator control element includes a cylindrical main part and an adjusting ring separate from the main part and arranged so as to engage around the main part. The adjusting ring is displaceable relative to the main part in a direction of the longitudinal axis of the operator control element for adjusting an operating condition of the household appliance. A display unit displays information on a display region on a lateral wall of the main part of the operator control element.

The present invention relates to a cooking hob for a domestic or an industrial appliance. The cooking hob comprises at least one heating area (10). The heating area (10) is subdivided or divisible into at least two adjacent heating zones (12, 14, 16). Each heating zone (12, 14, 16) includes at least one heating element (20, 22, 24, 26). The temperature of each heating zone (12, 14, 16) is separately adjusted or adjustable by the user or predefined by the producer. A cookware item (18) is placeable on one heating zone (12, 14, 16) or on more adjacent heating zones (12, 14, 16).