A circuit structure of a gas valve controls a first driver and a second driver, which respectively drive a main valve and a safety valve. The circuit structure includes a power switching circuit, a control circuit, a protection circuit, an abnormal voltage detection circuit, a first valve switching
A circuit structure of a gas valve controls a first driver and a second driver, which respectively drive a main valve and a safety valve. The circuit structure includes a power switching circuit, a control circuit, a protection circuit, an abnormal voltage detection circuit, a first valve switching circuit, a second valve switching circuit, and a processor which is electrically connected to the aforementioned circuits. The processor receives abnormal signals outputted by the abnormal voltage detection circuit, and outputs signals to control the power switching circuit, the control circuit, the protection circuit, the first valve switching circuit, and the second valve switching circuit to control the first driver and the second driver. The main valve and the safety valve can be opened or closed in this way.
대표청구항▼
1. A circuit structure of a gas valve, wherein the circuit structure is connected to a power source, and controls a first driver and a second driver which respectively drive a main valve and a safety valve; comprising: a power switching circuit connected to the power source, wherein the power switch
1. A circuit structure of a gas valve, wherein the circuit structure is connected to a power source, and controls a first driver and a second driver which respectively drive a main valve and a safety valve; comprising: a power switching circuit connected to the power source, wherein the power switching circuit transmits or cuts off power provided by the power source to flow therethrough;a control circuit electrically connected to the power switching circuit, the first driver, and the second driver, wherein the control circuit receives the power provided by the power source, and outputs power having either a first voltage or a second voltage to control the first driver and the second driver, wherein the first voltage is not equal to the second voltage;a protection circuit electrically connected to the control circuit to transmit or cut off the power outputted from the control circuit;an abnormal voltage detection circuit electrically connected to the control circuit, the first driver, and the second driver to detect if the voltage provided to the first driver from the control circuit is higher than a first abnormal voltage, and to detect if the voltage provided to the second driver is higher than a second abnormal voltage, wherein when the voltage provided to the first driver is higher than the first abnormal voltage, the abnormal voltage detection circuit outputs a first abnormal signal; when the voltage provided to the second driver is higher than the second abnormal voltage, the abnormal voltage detection circuit outputs a second abnormal signal;a first valve switching circuit connected to the first driver to turn on or off the first driver;a second valve switching circuit connected to the second driver to turn on or off the second driver; anda processor electrically connected to the power switching circuit, the control circuit, the protection circuit, the abnormal voltage detection circuit, the first valve switching circuit, and the second valve switching circuit, wherein the processor receives the first and the second abnormal signals outputted by the abnormal voltage detection circuit, and correspondingly outputs signals to control the power switching circuit, the control circuit, the protection circuit, the first valve switching circuit, and the second valve switching circuit. 2. The circuit structure of claim 1, wherein the power switching circuit has a BJT and a MOSFET, wherein the base of the BJT is electrically connected to the processor; the gate of the MOSFET is electrically connected to the collector of the BJT, the drain thereof is electrically connected to the power source, and the source thereof is electrically connected to the control circuit; when the processor outputs a signal having low level voltage to the BJT, the MOSFET transmits the power provided by the power source; when the processor outputs a signal having high level voltage to the BJT, the MOSFET cuts off the power provided by the power source. 3. The circuit structure of claim 1, wherein the first voltage is higher than the second voltage, and when the control circuit outputs the power having the first voltage to the first driver and the second driver, the first driver and the second driver are in a magnetic excitation status; when the control circuit outputs the power having the second voltage to the first driver and the second driver, the first driver and the second driver are in a magnetic coercive status. 4. The circuit structure of claim 1, wherein the control circuit has a BJT, a MOSFET, and a Zener diode, wherein the base of the BJT is electrically connected to the processor; the gate of the MOSFET is electrically connected to the collector of the BJT, the drain thereof is electrically connected to the power switching circuit, and the source thereof is electrically connected to the drivers; the anode and the cathode of the Zener diode are respectively electrically connected to the emitter of the BJT and the gate of the MOSFET; when the processor outputs a signal having high level voltage to the BJT, the MOSFET transmits the power provided by the power source to make the control circuit output the power having the first voltage to the first driver and the second driver, wherein the first voltage approaches the voltage of the power provided by the power source; when the processor outputs a signal having low level voltage to the BJT, the MOSFET cuts off the power provided by the power source to make the control circuit output the power having the second voltage to the first driver and the second driver, wherein the second voltage approaches the reverse breakdown voltage of the Zener diode. 5. The circuit structure of claim 4, wherein the protection circuit comprises a BJT and a diode, wherein the base of the BJT of the protection circuit is electrically connected to the processor; the anode of the diode of the protection circuit is electrically connected to the gate of the MOSFET, and the cathode thereof is electrically connected to the collector of the BJT of the protection circuit; when the processor outputs a signal having high level voltage to the BJT of the protection circuit, the BJT of the protection circuit is switched on to switch on the diode, and to cut off the MOSFET, and therefore the power outputted from the control circuit is cut off. 6. The circuit structure of claim 1, the abnormal voltage detection circuit comprises two Zener diodes, wherein the anode of one of the Zener diodes is electrically connected to the processor, and the cathode of the same Zener diode is electrically connected to the control circuit and the first driver; the anode of the other Zener diode is electrically connected to the processor, and the cathode of the other Zener diode is electrically connected to the control circuit and the second driver; when the voltage of the power outputted from the control circuit is higher than the reverse breakdown voltage of the Zener diode, the Zener diode is switched on to make the abnormal voltage detection circuit correspondingly generate the first abnormal signal or the second abnormal signal to the processor. 7. The circuit structure of claim 1, wherein the first valve switching circuit comprises a MOSFET, of which the gate is connected to the processor, and the drain thereof is connected to the first driver; when the processor outputs a signal having high level voltage to the MOSFET, the MOSFET is switched on to allow the first driver to work; when the processor outputs a signal having low level voltage to the MOSFET, the MOSFET is cut off to turn off the first driver. 8. The circuit structure of claim 1, wherein the second valve switching circuit comprise a MOSFET, of which the gate is connected to the processor, and the drain thereof is connected to the second driver; when the processor outputs a signal having high level voltage to the MOSFET, the MOSFET is switched on to allow the second driver to work; the processor when the processor outputs a signal having low level voltage to the MOSFET, the MOSFET is cut off to turn off the second driver. 9. The circuit structure of claim 1, wherein the first driver and the second driver are both solenoid valves. 10. The circuit structure of claim 1, wherein the first driver and the second driver are both stepping motors.
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이 특허에 인용된 특허 (5)
Donnelly,Donald E., Apparatus and method for shutting down fuel fired appliance.
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