According to one embodiment a valve arrangement for a gas burner is provided that includes a manual gas valve with a manual actuator for opening or closing the gas flow, and an electromagnetic valve having a movable closure member which allows opening or closing a gas passage to the burner. The electromagnetic valve is arranged in the gas valve, with the manual actuator being coupled to a rotary flow regulating element, the manual actuator being configured in order to move the closure member of the electromagnetic valve, opening the gas passage, the manual gas valve including a reduced gas flow channel which puts the inlet conduit in fluid communication with the regulating element regardless of the position of the closure member.

A gas meter according to the present invention includes flow rate measuring part that measures a flow rate of gas flowing through flow passage, shutoff valve that shuts off flow passage, wireless communicator that periodically performs wireless communication externally, and communication interval setting part that sets a communication interval in wireless communication. Communication interval setting part sets the communication interval according to the flow rate of gas measured by flow rate measuring part. By changing a setting of the communication interval according to the flow rate measured by flow rate measuring part, it is possible to enhance a responsiveness required according to the flow rate of gas measured by flow rate measuring part while a minimum necessary communication frequency is maintained. Accordingly, the power saving can be achieved and also convenience can be maintained.

The invention relates to an improved driving device of stove safety protective equipment that is a driving device of driving a knob of a safety protective equipment to rotate and comprising a driving body, a first driving member, a clutch body, a second driving member and a driving tooth disc. When the knob is at an original position that does not ignite, the driving tooth disc integrally combined with the knob pushes the clutch body to allow the second driving member to mesh the driving tooth disc at idle state. The knob is smoothly rotated to implement ignition and regulation motions. At the same time, the driving body can also be rotated to enable the first driving member to move away from the clutch body so that the clutch body exactly and stably comes off the second driving member. The driving body rotates to allow the first driving member moving away from the clutch body, and the clutch body is driven to rotate to engage the second driving member. The second driving member rotates together and drives the driving tooth disc and the knob to restore and rotate so as to turn off stove fire, thereby achieving effect of enhancing stove usage safety.

A cooking appliance and method utilize a rotary burner control with a rotary control actuator, a position sensor, and an electronic burner control user interface to control an electromechanical valve unit that regulates gas flow to a gas burner.

A system for controlling digital gas valves of an appliance utilizing a configurable duty cycle responsive to time, temperature and burner power level variables.

Control system for controlling the pilot flame of a combustible gas device, which includes a pilot burner, a main burner, and a valve assembly, which includes a pilot valve that allows/intercepts a flow of gas directed towards the pilot burner, and a main valve that allows/intercepts a gas flow to the main burner, the valve assembly moveable between a closed OFF state, a PILOT state, and an ON state, where gas flows to the main burner. The control system includes a detection device that generates a state signal, and a control unit including a timer, the control unit is operatively connected to the detection device to receive a state signal and to an actuator to close the valve. The control unit starts the timer when the state signal represents the PILOT state, and actuates the actuator for the pilot valve to close it when the timer reaches a preset limit.

The invention relates to an improved driving device of stove safety protective equipment that is a driving device of driving a knob of a safety protective equipment to rotate and comprising a driving body, a first driving member, a clutch body, a second driving member and a driving tooth disc. When the knob is at an original position that does not ignite, the driving tooth disc integrally combined with the knob pushes the clutch body to allow the second driving member to mesh the driving tooth disc at idle state. The knob is smoothly rotated to implement ignition and regulation motions. At the same time, the driving body can also be rotated to enable the first driving member to move away from the clutch body so that the clutch body exactly and stably comes off the second driving member. The driving body rotates to allow the first driving member moving away from the clutch body, and the clutch body is driven to rotate to engage the second driving member. The second driving member rotates together and drives the driving tooth disc and the knob to restore and rotate so as to turn off stove fire, thereby achieving effect of enhancing stove usage safety.

A gas safety system. The gas safety system includes an actuatable electric solenoid valve connected inline with a gas line, and operably connected to a control unit, such as a timer or a smart home system. The timer may be used to set a user-defined length of time for the solenoid valve to be in an open position, thereby allowing gas to flow through the gas line for no longer than the user-defined length of time. The smart home system may be used to remotely control an actuation of the solenoid valve, thereby enabling a user to remotely actuate the solenoid valve between the open position and the closed position. The stove safety system is useful for preventing a fire, an explosion, or another emergency caused by leaving the gas line open during use of a variety of gas appliances, such as gas stoves and the like.

The present invention relates to an electromechanical system for automating the turning off of the knobs of a stove. The system can quickly identify the occurrence of a gas leak and turn off the knob corresponding to the burner that is leaking. The system is also connected to a user interface, providing real-time information about the status of the burners and allowing the user to turn off the knobs remotely. The system has an improved service life, does not considerably change the aesthetics of the stove and can be designed to fulfil different torque requirements. The invention also relates to cooktops comprising said system.

Control system for controlling the pilot flame of a combustible gas device, which includes a pilot burner, a main burner, and a valve assembly, which includes a pilot valve that allows/intercepts a flow of gas directed towards the pilot burner, and a main valve that allows/intercepts a gas flow to the main burner, the valve assembly moveable between a closed OFF state, a PILOT state, and an ON state, where gas flows to the main burner. The control system includes a detection device that generates a state signal, and a control unit including a timer, the control unit is operatively connected to the detection device to receive a state signal and to an actuator to close the valve. The control unit starts the timer when the state signal represents the PILOT state, and actuates the actuator for the pilot valve to close it when the timer reaches a preset limit.