A heater unit includes a first terminal; and a resistance heating type heater electrically connected to the first terminal.

A low-temperature vacuum cooking device and a cooking appliance including low-temperature vacuum cooking device are provided. The cooking appliance may include a housing including a container mount, a first container having a space to accommodate a liquid therein, the first container being configured to be coupled with the container mount, a heater that heats the liquid accommodated in the first container, a cover rotatably installed on the housing to cover or open the first container.

A low-temperature vacuum cooking device and a cooking appliance including low-temperature vacuum cooking device are provided. The cooking appliance may include a housing including a container mount, a first container having a space to accommodate a liquid therein, the first container being configured to be coupled with the container mount, a heater that heats the liquid accommodated in the first container, a cover rotatably installed on the housing to cover or open the first container.

A cooking appliance includes a cooktop having at least one heating element for heating a cookware member on or to be placed on the cooktop, the at least one heating element being adjustable between a working-power level wherein the at least one heating element is energized to generate heat and a zero-power level wherein the at least one heating element is not energized. The cooking appliance further includes a temperature sensor configured to detect a temperature or rate of temperature change of a cooking element. The cooking appliance further includes a control device configured to adjust the at least one heating element from the working-power level to the zero-power level based on the temperature or rate of temperature change of the cooking element. The at least one heating element will remain at the zero-power level until a user intervenes to re-energize the at least one heating element.

A heating device is provided. The heating device includes a conveyance member that conveys a substrate between a heating position and a non-heating position, a support member that is provided on the conveyance member and that supports the substrate, a heater provided at the heating position and operable to heat a first surface of the substrate, and a heat reflecting plate attached to the conveyance member in facing relation to a second surface of the substrate opposite to the first surface.

An apparatus is disclosed. The apparatus includes a heater comprising a heating element having a region that does not contain a surface heating portion. The apparatus further includes a thermostat positioned in the region. The thermostat includes a contact surface disposed to make contact with an object placed on the surface heating portion. The thermostat includes a switch configured to prevent a current from conducting through the heating element when the contact surface experiences a temperature equal to or greater than a temperature limit. The apparatus further includes a medallion coupled to the thermostat and positioned below a top surface of the heating element, the medallion comprising an aperture shaped to allow the contact surface to extend through the aperture to make contact with the object. The apparatus includes an urging element configured to provide vertical movement of the medallion in response to a downward force applied from the object.

A cooktop assembly includes a burner box and a controller disposed on the burner box. A mounting panel is coupled to the burner box over the controller. The mounting panel defines a plurality of embossed features. Each of the plurality of embossed features extends vertically upward from discrete portions of the mounting panel. A plurality of coil assemblies includes individual coil assemblies. Each of the individual coil assemblies includes a coil disposed on a coil plate that defines more than one aperture. Each of the individual embossed features extends through an aperture of the more than one aperture defined by one of the coil plates when the individual coil assemblies are disposed on the mounting panel. A cooktop is disposed over the plurality of coil assemblies and coupled to the burner box.

A cooktop assembly includes a burner box and a controller disposed on the burner box. A mounting panel is coupled to the burner box over the controller. The mounting panel defines a plurality of embossed features. Each of the plurality of embossed features extends vertically upward from discrete portions of the mounting panel. A plurality of coil assemblies includes individual coil assemblies. Each of the individual coil assemblies includes a coil disposed on a coil plate that defines more than one aperture. Each of the individual embossed features extends through an aperture of the more than one aperture defined by one of the coil plates when the individual coil assemblies are disposed on the mounting panel. A cooktop is disposed over the plurality of coil assemblies and coupled to the burner box.

A burner assembly for a cooktop includes a housing defining a first group of radially-spaced fuel outlets extending from an interior to an exterior of the housing, a first aperture extending through the housing and spaced outward of the first group of outlets, and a second group of radially-spaced fuel outlets extending from the interior to the exterior and spaced outward of the first aperture. A first switch assembly is mounted within the housing and includes a first pin extending upwardly through the first aperture to an end positioned above the housing. The end of the first pin is moveable in a first direction inward and outward with respect to the housing to control a direction of a first portion of a flow of fuel to the second group of outlets. A second portion of the flow of fuel is continuously directed to the first group of outlets.

A burner assembly for a cooktop includes a housing defining a first group of radially-spaced fuel outlets extending from an interior to an exterior of the housing, a first aperture extending through the housing and spaced outward of the first group of outlets, and a second group of radially-spaced fuel outlets extending from the interior to the exterior and spaced outward of the first aperture. A first switch assembly is mounted within the housing and includes a first pin extending upwardly through the first aperture to an end positioned above the housing. The end of the first pin is moveable in a first direction inward and outward with respect to the housing to control a direction of a first portion of a flow of fuel to the second group of outlets. A second portion of the flow of fuel is continuously directed to the first group of outlets.