Vacuum interrupter and driving method therefor

The invention claimed is: 1. A vacuum interrupter, comprising: a housing with a vacuum state therein; a first and a second movable electrodes partially accommodated within the housing and having a first and a second movable contacts disposed at a respective first end thereof, the first and second movable electrodes being capable of moving in forward/backward directions so that the first and second movable contacts contact each other or are separate from each other by movements in the forward/backward directions of the first and second electrodes; a first and a second driving parts respectively connected to a second end of each of the first and second movable electrodes and moving the first and second movable electrodes in the forward/backward directions; and a controller controlling movements of the first and second driving parts, wherein the controller adjusts moving times and moving speeds of the first and second movable electrodes by adjusting times of applying current to the first and the second driving parts. 2. The vacuum interrupter of claim 1 , wherein the controller controls the first and second driving parts to move the first and second movable electrodes so that the first and second movable contacts contact each other, and the first and second movable electrodes simultaneously moves, or moves with a predetermined time interval. 3. The vacuum interrupter of claim 1 , wherein each of the first and second driving parts includes: a contact coil generating magnetic force by using current applied from the controller and moving each of the first and second movable electrodes so that the first and second movable contacts contact each other; and a separation coil generating magnetic force by using current applied from the controller and moving each of the first and second movable electrodes so that the first and second movable contacts are separated from each other. 4. The vacuum interrupter of claim 3 , wherein the controller applies current to the contact coils such that the first and second movable contacts contact each other, and applies current to the separation coils just before the first and second movable contacts contact each other such that moving speeds of the first and second movable contacts decrease. 5. The vacuum interrupter of claim 4 , wherein the controller simultaneously applies current to the contact coils of the first and second driving parts, and simultaneously applies current to the separation coils of the first and second driving parts when a predetermined time has passed after applying current to the contact coils of the first and second driving units. 6. The vacuum interrupter of claim 4 , wherein the controller simultaneously applies current to the contact coils of the first and second driving parts, and applies current to any one of the separation coils of the first and second driving units when a predetermined time has passed after applying current to the contact coils of the first and second driving parts. 7. A method of driving a vacuum interrupter, the method comprising: respectively operating, by a controller, a first driving part and a second driving part, respectively connected to a first and a second movable electrodes, to move the first and second movable electrodes in forward/backward directions; respectively moving the first and second movable electrodes within a vacuum interrupter by the first and second driving parts; and contacting a first and a second movable contacts each other according to movements of the first and second movable electrodes, the first and second movable contacts being respectively attached to first ends of the first and second movable electrodes, wherein the controller adjusts moving times and moving speeds of the first and second movable electrodes by adjusting times of applying current to the first and the second driving parts. 8. The method of claim 7 , wherein the first and second movable electrodes simultaneously move, or move with a predetermined time interval. 9. The method of claim 7 , wherein in the moving of the first and second movable electrodes, a moving speed of at least one of the first and second movable electrodes decreases to a predetermined level just before the first and second movable contacts contact each other. 10. The method of claim 7 , further comprising: after contacting the first and second movable contacts each other, moving the first and second movable electrodes away from each other so that the first and second movable contacts are separated from each other. 11. A method of driving a vacuum interrupter, the method comprising: respectively applying current to contact coils of a first and a second driving parts to respectively move a first and a second movable electrodes within a vacuum interrupter by a controller; respectively moving the first and second movable electrodes by using magnetic force of the contact coils generated by the applied current so that a first and a second movable contacts respectively attached to first ends of the first and second movable electrodes contact each other; and respectively applying current to separation coils of the first and second driving parts just before the first and second movable contacts contact each other so that moving speeds of the first and second movable electrodes decreases, wherein the controller adjusts moving times and moving speeds of the first and second movable electrodes by adjusting times of applying current to the first and the second driving part. 12. The method of claim 11 , further comprising: after the first and second movable contacts contact each other, respectively applying current to the separation coils of the first and second driving parts so that the first and second movable contacts are separated from each other; and moving the first and second movable electrodes away from each other by using magnetic force of the separation coils generated by the applied current so that the first and second movable contacts move away from each other.