Split-type multifunctional underwater arc welding power supply and operating method thereof

What is claimed is: 1. A split-type multifunctional underwater arc welding power supply, comprising a shore power supply module and an underwater power supply module, wherein the shore power supply module includes a shore power supply main circuit unit and a shore power supply control unit; the shore power supply main circuit unit includes an input filter circuit, an IGBT full-bridge inverter circuit, an intermediate frequency transformer, and an output rectification filter circuit; the shore power supply control unit includes a shore power supply digital signal controller, an inverter driving circuit, an output voltage sampling circuit; the underwater power supply module includes an underwater power supply main circuit unit and an underwater power supply control unit; the underwater power supply main circuit unit includes a chopping circuit, an output filtering circuit; the underwater supply control unit includes an underwater power supply digital signal controller, a booster circuit, a chopping driving circuit, a welding voltage sampling circuit, a welding current sampling circuit, a given voltage setting circuit and a given current setting circuit; the shore power supply module is arranged on a shore, and the underwater power supply module is carried underwater; and an input power supply, the input filter circuit, the IGBT full-bridge inverter circuit, the intermediate frequency transformer and the output rectification filter circuit are sequentially connected in series; the output rectification filter circuit is connected to an input terminal of the output voltage sampling circuit, and an output terminal of the output voltage sampling circuit is connected to the shore power supply digital signal controller; an output terminal for control signals of the shore power supply digital signal controller is connected to an input terminal of the inverter driving circuit, an output terminal of the inverter driving circuit is connected to a controlled terminal of the IGBT full-bridge inverter circuit; an output terminal of the output rectification filter circuit is respectively connected to an input terminal of the chopping circuit and an input terminal of the booster circuit; an output terminal of the chopping circuit is connected to an input terminal of the output filter circuit, and an output terminal of the output filter circuit is connected to a torch and a workpiece; an output terminal of the booster circuit is connected to the torch and the workpiece; the torch and the workpiece are respectively connected to an input terminal of the welding voltage sampling circuit and an input terminal of the welding current sampling circuit; an output terminal of the welding voltage sampling circuit, an output terminal of the welding current sampling circuit, an output terminal of the given voltage setting circuit and an output terminal of the given current setting circuit are all connected to the underwater power supply digital signal controller; the output terminal for control signals of the underwater power supply digital signal controller is connected to an input terminal of the chopping driving circuit; an output terminal of the chopping driving circuit is respectively connected to a controlled terminal of the chopping circuit and a controlled terminal of the booster circuit; and the shore power supply digital signal controller is communicatively connected to the underwater power supply digital signal controller. 2. The split-type multifunctional underwater arc welding power supply according to claim 1 , wherein the shore power supply control unit further includes an input voltage anomaly detection circuit, an IGBT transistor anomaly detection circuit, an output voltage anomaly detection circuit; an input terminal of the input voltage anomaly detection circuit is connected to the input filter circuit; an input terminal of the IGBT transistor anomaly detection circuit is connected to the IGBT full-bridge inverter circuit; an input terminal of the output voltage anomaly detection circuit is connected to the output voltage sampling circuit; and the shore power supply digital signal controller is respectively connected to an output terminal of the input voltage anomaly detection circuit, an output terminal of the IGBT transistor anomaly detection circuit and an output terminal of the output voltage anomaly detection circuit. 3. The split-type multifunctional underwater arc welding power supply according to claim 1 , wherein the underwater power supply control unit further includes a chopping circuit anomaly detection circuit; an input terminal of the chopping circuit anomaly detection circuit is connected to the chopping circuit, and an output terminal of the chopping circuit anomaly detection circuit is connected to the underwater power supply digital signal controller. 4. The split-type multifunctional underwater arc welding power supply according to claim 1 , wherein the shore power supply module outputs a high current direct current with a 36V low-voltage constant voltage. 5. The split-type multifunctional underwater arc welding power supply according to claim 1 , wherein the underwater power supply main circuit unit includes a first resistor, a first capacitor, a second capacitor, a third capacitor, a first diode, a second diode, a first inductor, a hall sensor and a first IGBT transistor; and a positive electrode of an output power supply is respectively connected to one terminal of the first resistor and a collector of the first IGBT transistor; another terminal of the first resistor is connected to one terminal of the first capacitor; another terminal of the first capacitor is respectively connected to an emitter of the first IGBT transistor, a negative electrode of the first diode, one terminal of the second capacitor and a positive electrode of the second diode; a negative electrode of the second diode is connected to the torch; a negative electrode of the input power supply is respectively connected to a positive electrode of the first diode and one terminal of the first inductor after through a collected terminal of the hall sensor; another terminal of the first inductor is respectively connected to one terminal of the third capacitor and the workpiece to be welded; another terminal of the second capacitor and another terminal of the third capacitor are grounded; and a gate of the first IGBT transistor is connected to the chopping driving circuit. 6. The split-type multifunctional underwater arc welding power supply according to claim 1 , wherein the booster circuit includes a second resistor, a second inductor, a relay, a third diode, a fourth diode, a fourth capacitor, an electrolytic capacitor, and a second IGBT transistor; and a positive electrode of the power supply is connected to one terminal of the second resistor; another terminal of the second resistor is connected to one terminal of contacts of the relay; another terminal of the contacts of the relay is connected to one terminal of the second inductor; another terminal of the second inductor is respectively connected to a positive electrode of the third diode and a collector of the second IGBT transistor; a negative electrode of the third diode is respectively connected to a positive electrode of the electrolytic capacitor, one terminal of the fourth capacitor and a positive electrode of the fourth diode; a negative electrode of the fourth diode is connected to the torch; a negative electrode of the input power supply is respectively connected to an emitter of the second IGBT transistor, a negative electrode of the electrolytic capacitor, another terminal of the fourth capacitor and the workpiece to be welded; and both a gate of the second IGBT transistor and two terminals of coils of the relay are connected to the chopping driving circuit.