System applied in switch tube for conducted EMI suppression and domestic appliance

What is claimed is: 1. A system applied in a switch component for suppressing conducted Electromagnetic Interference (EMI), comprising a conducted EMI suppression circuit, an inductive load and at least two switch tubes, wherein the conducted EMI suppression circuit comprises one inductor and a resistor-capacitor (RC) circuit; the inductor is connected in series with each of the at least two switch tubes; the inductive load is connected with each of the at least two switch tubes by parallel connecting lines which are connected with each other in parallel; the RC circuit comprises one resistor and at least two capacitors; each of the capacitors corresponds to a different one of the switch tubes, and the resistor is connected in series with each one of the capacitors; each series connection of the inductor with any one of the switch tubes is subsequently connected in parallel with a series connection of the resistor with a corresponding capacitor of the RC circuit; and the conducted EMI suppression circuit is configured to suppress the conducted EMI generated by each of the at least two switch tubes being turned off. 2. The system according to claim 1 , wherein a capacitance value of each of the capacitors in the RC circuit is equal. 3. The system according to claim 1 , wherein a first end of the inductor is connected to a positive voltage line, and a second end of the inductor is connected to an end of each of the at least two switch tubes. 4. The system according to claim 1 , wherein each of the at least two switch tubes is a bidirectional thyristor or an insulated gate bipolar transistor. 5. The system according to claim 1 , wherein the inductive load is a motor. 6. A appliance, comprising a system applied in a switch component for suppressing conducted Electromagnetic Interference (EMI), wherein the system comprises a conducted EMI suppression circuit, an inductive load and at least two switch tubes; the conducted EMI suppression circuit comprises one inductor and an RC circuit; the inductor is connected in series with each of the at least two switch tubes; the inductive load is connected with each of the at least two switch tubes by parallel connecting lines which are connected with each other in parallel; the RC circuit comprises one resistor and at least two capacitors; each of the capacitors corresponds to a different one of the switch tubes, and the resistor is connected in series with each one of the capacitors; each series connection of the inductor with any one of the switch tubes is subsequently connected in parallel with a series connection of the resistor with a corresponding capacitor of the RC circuit; and the conducted EMI suppression circuit is configured to suppress the conducted EMI generated by each of the at least two switch tubes being turned off. 7. The appliance according to claim 6 , wherein a capacitance value of each of the capacitors in the RC circuit is equal. 8. The appliance according to claim 6 , a first end of the inductor is connected to a positive voltage line, and a second end of the inductor is connected to an end of each of the at least two switch tubes. 9. The appliance according to claim 6 , wherein each of the at least one switch tube is a bidirectional thyristor or an insulated gate bipolar transistor. 10. The appliance according to claim 6 , wherein the inductive load is a motor.