An induction heating device includes: a working coil including a conducting wire that is wound in an annular shape and that is connected to a plurality of electric terminals; a ferrite core disposed vertically below the working coil and configured to direct upward an alternating magnetic field generated by the working coil, the ferrite core defining a stepped portion at each corner of the ferrite core; a base plate that supports the ferrite core on an upper surface of the base plate and that defines a connection hole having a shape corresponding to the corner of the ferrite core; and an indicator substrate disposed vertically below the base plate. The indicator substrate includes a connector that is disposed on an upper surface of the indicator substrate, that is coupled to one or more of the plurality of electric terminals, and that protrudes upward through the connection hole.

An induction cooker includes a top plate on which a cooking container is placed; a heating coil placed below the top plate and configured to heat the cooking container; an infrared sensor placed below the heating coil and configured to detect infrared radiation emitted from the cooking container; a sensor casing configured to house the infrared sensor; and a magnetic path forming member placed on a top face of the sensor casing, wherein the magnetic path forming member guides magnetic flux passing above the infrared sensor by being generated from the heating coil.

An induction heating type cooktop include a case, a cover plate connected to an upper end of the case, the cover plate having an upper surface configured to support thereon an object to be heated, a thin layer disposed at the cover plate, a heat insulator disposed vertically below the thin layer, a working coil disposed inside the case, a cooling fan configured to blow air toward the working coil, and a bracket that defines a cooling passage. The cooling passage is configured to guide the air to pass through the working coil and to discharge the air to an outside of the bracket.

An induction heating type cooktop includes a case, a cover plate that is coupled to an upper end of the case and that includes an upper plate configured to seat an object on an upper surface of the upper plate, a working coil disposed in the case and configured to heat the object, a thin film attached on the upper plate, and a thermal insulating member disposed vertically between a lower surface of the upper plate and the working coil.

An induction cooker has a temperature sensor mount that includes a reciprocating sensor holder and a flexible diaphragm.

An induction heat cooking apparatus is provided that may include heating coils, a plurality of heating elements that operates the heating coils, a housing that accommodates the plurality of heating elements, a cooling fan that blows air that cools the plurality of heating elements accommodated in the housing, a first cooling flow channel in which a first group of heating elements of the plurality of heating elements is positioned, a second cooling flow channel in which a second group of heating elements of the plurality of heating elements having exothermic values lower than exothermic values of the first group of heating elements is positioned, and a flow guide that divides the first cooling flow channel from the second cooling flow channel and guides a flow of the air blown by the cooling fan to allow the air to flow to the first cooling flow channel first and then flow to the second cooling flow channel.

A cooking appliance includes an insulated cooking chamber positioned within a cabinet and an air plenum defined between the cabinet and the insulated cooking chamber. A fan assembly includes a first fan and a second fan positioned adjacent each other and having a void region immediately downstream of their outlets. The fan housings may be positioned in direct contact with each other such that the flows of cooling air exiting each fan interact with each other to reduce or eliminate expansion losses. Alternatively, the fan housings may be separated by a small airgap to reduce expansion losses while entraining additional cooling air.

An induction hob including at least one switching element and at least one induction coil is provided. The switching element provides an alternating current flow through the induction coil. Cooling means provide airflow through the induction hob for cooling the switching element and the induction coil. The induction coil is arranged at a first side of a first plate-shaped support element and the switching element is arranged at a first side of a second plate-shaped support element. The first support element and the second support element are connected to one another and are arranged at a distance in order to form an air channel therebetween. The cooling means are arranged such that airflow is provided through the air channel.

In a hob system having at least one induction hob and an extractor apparatus, a control device for the control of the extractor apparatus is arranged in an induction generator housing.

A cooker includes a heating coil, a housing accommodating the heating coil, a top plate provided on the housing, a partition defining a storage in the housing and below the heating coil and including a first partition extending parallel to the top plate and a second partition extending perpendicularly to the first partition, a first facing wall facing the first partition with a gap defined between the first facing wall and the first partition, a second facing wall facing the second partition with a gap defined between the second facing wall and the second partition, a heat-insulating layer provided between the first partition and the first facing wall, and a heat-insulating layer provided between the second partition and the second facing wall, the heat-insulating layers being each made of a substance having a lower thermal conductivity than one of the first facing wall and the second facing wall.