High-voltage DC current breaker and high-voltage DC current breaking method

The invention claimed is: 1. A DC current breaker for breaking a DC current at the time of occurrence of an accident, comprising: a main conduction unit including a commutate switch, a protection switch, and a close/open switch which are connected in series to each other in this order on a main conduction path where a current is flowed in a normal operation state, the protection switch protecting the commutate switch, and the close/open switch finally breaking a flow of a current of the main conduction unit; a power semiconductor switch connected in parallel to the commutate switch; a capacitor connected in parallel to the commutate switch and the protection switch; and a surge arrester connected in parallel to the capacitor, wherein the commutate switch is a mechanical switch having a rated voltage which is lower than rated voltages of the protection switch and the close/open switch, wherein an opening response characteristic of the commutate switch is faster than opening response characteristics of the protection switch and the close/open switch, so that an arc voltage is more speedily increased than those of the protection switch and the close/open switch, wherein the capacitor has electrostatic capacitance so that, when a transient voltage applied at the time point when a current of the main conduction path is broken by the power semiconductor switch is shared by the protection switch and the commutate switch, a magnitude of a transient voltage across the protection switch and the commutate switch does not exceed a limit value of a withstand voltage of the power semiconductor switch. 2. The DC current breaker according to claim 1 , wherein a forward voltage of the power semiconductor switch is lower than an arc voltage generated when the commutate switch is opened in a conduction state, and the power semiconductor switch is turned on by the arc voltage generated in the commutate switch, so that a current flowing through the main conduction unit is commutated to the power semiconductor switch. 3. The DC current breaker according to claim 1 , wherein the commutate switch is a monostable switch, the commutate switch receives a trip signal of the DC current breaker to start an opening operation, and after a time point when the current of the main conduction unit is completely commutated to the capacitor, the commutate switch automatically returns to a closed state. 4. The DC current breaker according to claim 1 , further comprising a discharge unit for discharging a voltage charged in the capacitor after a DC current breaking operation is finally finished by the close/open switch. 5. The DC current breaker according to claim 4 , wherein the discharge unit is configured to include a discharge switch and a discharge resistor which are connected in series to each other on a discharge path connected in parallel to the capacitor. 6. The DC current breaker according to claim 1 , wherein the power semiconductor switch is formed with a single one-directional conduction switch or is formed by connecting two one-directional conduction switches reversely in series to each other and connecting free wheeling diodes in parallel to the respective one-directional conduction switches.