An induction cooking system (1) with flexible configuration is described, comprising: a mobile cooker assembly (2) only comprising an induction cooking plane (3); a control station (5) comprising control means connected to the induction cooking plane (3) through respective connecting means (7) for transmitting operating electric energy to the induction cooking plane (3), the control means being equipped with processing means programmed to drive and manage the induction operation of the cooking plane (3) through the respective connecting means (7), which is a flexible electric transmission cable.

A modular, two-story electric platter where more pots can be heated over the same ground surface. The second story may be removable or permanently attached to the first electric platter. An optional guard rail can protect the pots from falling off the electric platter.

An induction heating type cooktop includes an upper plate coupled to a top side of a case and configured to place an object to be heated on a top of the upper plate, a working coil disposed inside the case to heat the object, a thin film disposed on at least one of a top surface or a bottom surface of the upper plate, an insulator disposed between the bottom surface of the upper plate and the working coil, and a temperature sensor configured to measure a temperature of at least one of the thin film or the upper plate by a plurality of thermocouples.

The present invention relates to a fastening system for a heating element (22) of a cooking hob, in particular for an induction coil (22) of an induction cooking hob. The fastening system comprises at least three fastening elements comprising a main body connectable or connected to a support structure, particularly to a bottom and/or side wall of the cooking hob. Further, the present invention relates to a heating element (22) for a cooking hob. Moreover, the present invention relates to a cooking hob.

A cooking apparatus and a controlling method, where the cooking apparatus includes a plurality of power input terminals, a plurality of heaters, a detection circuit connected to the power input terminals for detecting the phase of power input into the power input terminals, and a processor. The processor configured to identify a phase difference of input power based on an electronic signal of the power output from the detection circuit, and, based on the phase difference being within one of a plurality of threshold ranges, identify the voltage between live terminals among the plurality of power input terminals based on the phase difference of the power and control at least one heater among the plurality of heaters according to the identified voltage between the live terminals, and, based on the phase difference being outside the plurality of threshold ranges, stop the operation of the cooking apparatus.

A modular cooktop assembly includes a modular housing. The modular housing includes a cooktop unit, a track assembly, and a safety device. The cooktop unit includes a heating surface, and/or the track assembly is connected between the modular housing and the cooktop unit. The cooktop unit is configured to move between a first position and a second position via the track assembly. The safety device is configured to connect power to the cooktop unit as the cooktop unit moves between the first position and the second position.

The invention relates to a cooking oven comprising at least two entities made of sheet metal (2, 3), each sheet metal entity (2, 3) comprising at least one surface carrying an enamel layer, specifically a vitreous enamel layer, said enamelled sheet metal entities (2, 3) overlapping each other and a screw connection for grounding and coupling said enamelled sheet metal entities (2, 3), wherein a ground element is at least indirectly coupled with one of said enamelled sheet metal entities (2, 3) for grounding said stack of enamelled sheet metal entities (2, 3), wherein at least one screw (5) with a screw shaft (5.1) is provided through said enamelled sheet metal entities (2, 3), wherein the screw (5) is at least indirectly electrically coupled with the ground element and said screw shaft (5.1) comprises a thread for providing an electric coupling between the enamelled sheet metal entities (2, 3).

The invention relates to a cooking oven comprising at least two entities made of sheet metal (2, 3), each sheet metal entity (2, 3) comprising at least one surface carrying an enamel layer, specifically a vitreous enamel layer, said enamelled sheet metal entities (2, 3) overlapping each other and a screw connection for grounding and coupling said enamelled sheet metal entities (2, 3), wherein a ground element is at least indirectly coupled with one of said enamelled sheet metal entities (2, 3) for grounding said stack of enamelled sheet metal entities (2, 3), wherein at least one screw (5) with a screw shaft (5.1) is provided through said enamelled sheet metal entities (2, 3), wherein the screw (5) is at least indirectly electrically coupled with the ground element and said screw shaft (5.1) comprises a thread for providing an electric coupling between the enamelled sheet metal entities (2, 3).

A plug-in electric ceramic heating plate and an electric stove provided with the heating plate are disclosed. The plug-in electric ceramic heating plate comprises a plate body and a plate component, and the electric stove provided with the heating plate comprises an electric socket matched with an electric plug on the plug-in electric ceramic heating plate. The plate body includes a plate shell, a temperature controller, a microcrystal glass plate, the electric plug, an electric plug press plate, a plug adapter and a bottom cover plate. The electric plug is connected with the plate component through the plug adapter. The plate has notches formed on its circumference. A convex edge corresponding to the shape of the notch on the circumference of the plate is arranged in the plate shell.

A control device for gas appliances comprises a circuit arrangement that includes: a switching circuit, electrically connected between an electromagnet and a thermoelectric generator of a safety valve of a gas tap; a control circuit (71), designed at least for counting time and configured for controlling the switching circuit; a command circuit, connected in signal communication with the control circuit (71) at least for the purposes of setting the aforesaid time interval. The circuit arrangement comprises a power-supply module (50), for low-voltage d.c. supply, and the switching circuit belongs to a control module (40) which is designed to be operatively associated to a respective gas tap. The control circuit belongs to a second control module (60) that comprises a wireless-communication circuit, in particular a transceiver circuit, electrically connected to the control circuit (71) and configured for exchange of signals in wireless mode with a remote electronic programming device, which can be used at least for manual setting of the aforesaid time interval.