Circuit breaker and circuit breaker operating method

The invention claimed is: 1. A circuit breaker comprising: a sealed tank in which insulating gas is sealed; a fixed contact disposed in the sealed tank and a movable contact that comes in contact with and goes out of contact with the fixed contact; a main circuit conductor that is electrically connected to the fixed contact and the movable contact; an operating mechanism including a mover configured by concatenating permanent magnets or magnetic materials alternately having opposite N and S magnetic polarities along a direction of motion axis of the movable contact and magnetic poles disposed to face the N and S magnetic polarities of the mover and wound with windings; a current detector that detects a current flowing through the main circuit conductor; and a control device that varies the amount of a current to be supplied to the windings of the magnetic poles, depending on a current value detected by the current detector. 2. The circuit breaker according to claim 1 , wherein, the operating mechanism includes a plurality of operating mechanisms arranged side by side in a direction in which the movable contact moves and currents of different magnitudes and/or phases from one another are fed from the control device to the windings of the respective operating mechanisms, depending on the detected current value. 3. The circuit breaker according to claim 2 , wherein, a number N of the operating mechanisms, where N is a multiple of 3, are arranged side by side in the direction in which the movable contact moves and a current of any phase of U, V, and W phases is fed to the windings of each operating mechanism. 4. The circuit breaker according to claim 3 , wherein, a number N of sealed terminals, where N is a multiple of 3, with insulating gas sealed therein are provided at the surface of the sealed tank; and the respective windings of the number N of operating mechanisms, where N is a multiple of 3, are respectively connected to different ones of the sealed terminals and the respective sealed terminals are connected to the control device. 5. The circuit breaker according to claim 1 , wherein, the control device includes a control unit to which a current value is input from the current detector and a power supply unit that feeds a current to the windings; and the control unit outputs a current pattern signal of a current to be fed to the windings to the power supply unit. 6. The circuit breaker according to claim 5 , wherein, the power supply unit is further connected to a power storage unit. 7. The circuit breaker according to claim 1 , wherein, the control device further has a function of detecting a phase of a current flowing through the main circuit conductor. 8. A circuit breaker operating method for operating a circuit breaker comprising: a sealed tank in which insulating gas is sealed; a fixed contact disposed in the sealed tank and a movable contact that comes in contact with and goes out of contact with the fixed contact; a main circuit conductor that is electrically connected to the fixed contact and the movable contact; an operating mechanism that comprises windings through which a current flows, generates operating power by magnetic force produced by the windings, and gives the operating power to the movable contact; and a current detector that detects a current flowing through the main circuit conductor, the circuit breaker operating method characterized by boosting the operating power in a middle stage and later during an interruption action, if a current value detected by the current detector is larger than a threshold value. 9. A circuit breaker operating method for operating a circuit breaker comprising: a sealed tank in which insulating gas is sealed; a fixed contact disposed in the sealed tank and a movable contact that comes in contact with and goes out of contact with the fixed contact; a main circuit conductor that is electrically connected to the fixed contact and the movable contact; an operating mechanism that comprises windings through which a current flows, generates operating power by magnetic force produced by the windings, and gives the operating power to the movable contact; and a current detector that detects a current flowing through the main circuit conductor, the circuit breaker operating method characterized by boosting the operating power before a middle stage during an interruption action, if a current value detected by the current detector is smaller than a threshold value. 10. A circuit breaker operating method for operating a circuit breaker comprising: a sealed tank in which insulating gas is sealed; a fixed contact disposed in the sealed tank and a movable contact that comes in contact with and goes out of contact with the fixed contact; a main circuit conductor that is electrically connected to the fixed contact and the movable contact; an operating mechanism that comprises windings through which a current flows, generates operating power by magnetic force produced by the windings, and gives the operating power to the movable contact; and a current detector that detects a current flowing through the main circuit conductor, the circuit breaker operating method characterized by setting a time to open the movable contact later than a zero-point time that can be a first zero-cross point during an interruption action, if a current value detected by the current detector is smaller than a threshold value. 11. The circuit breaker operating method according to claim 8 , further comprising: boosting the operating power before a middle stage during an interruption action, if a current value detected by the current detector is smaller than a threshold value.