Power switching control apparatus for switching timings of breaker to suppress transit voltage and current upon turning on the breaker

The invention claimed is: 1. A power switching control apparatus comprising: a first voltage measuring unit configured to measure a first voltage that is a power source side voltage of a first contact of a breaker connected between an alternating current power source of at least two phases and a load, and a second voltage that is a power source side voltage of a second contact of the breaker; a second voltage measuring unit configured to measure a third voltage that is a load side voltage of the first contact, and a fourth voltage that is a load side voltage of the second contact; a target pole-close timing determining unit configured to determine a first target pole-close timing of the first contact, and a second target pole-close timing of the second contact by using the first to fourth voltages; and a pole-close control unit configured to control the first and second contacts to be closed, respectively, at first and second target pole-close timings, wherein the target pole-close timing determining unit estimates an absolute value of an interpolar voltage of the first contact at and after a current time by using the first and third voltages, and estimates an absolute value of an interpolar voltage of the second contact at and after the current time by using the second and fourth voltages, the target pole-close timing determining unit sets the first target pole-close timing to a timing when the absolute value of the interpolar voltage of the first contact is equal to or smaller than a predetermined first threshold value, and the target pole-close timing determining unit corrects an absolute value of the interpolar voltage of the second contact based on at least one of the absolute value of the interpolar voltage of the first contact at the first target pole-close timing and an elapsed time from the first target pole-close timing, and sets the second target pole-close timing to a timing when an absolute value of a corrected interpolar voltage of the second contact is equal to or smaller than the first threshold value. 2. The power switching control apparatus as claimed in claim 1 , wherein the target pole-close timing determining unit sets a first correction amount based on the absolute value of the interpolar voltage of the first contact at the first target pole-close timing, and corrects the absolute value of the interpolar voltage of the second contact based on the absolute value of the interpolar voltage of the first contact at the first target pole-close timing by adding the first correction amount to the absolute value of the interpolar voltage of the second contact. 3. The power switching control apparatus as claimed in claim 2 , wherein the first correction amount is set so as to increase in accordance with an increase in the absolute value of the interpolar voltage of the first contact at the first target pole-close timing. 4. The power switching control apparatus as claimed in claim 1 , wherein the target pole-close timing determining unit sets a second correction amount based on the elapsed time from the first target pole-close timing, and corrects the absolute value of the interpolar voltage of the second contact based on the elapsed time from the first target pole-close timing by adding the second correction amount to the absolute value of the interpolar voltage of the second contact. 5. The power switching control apparatus as claimed in claim 4 , wherein the second correction amount is set so as to increase in accordance with an increase in the elapsed time from the first target pole-close timing. 6. The power switching control apparatus as claimed in claim 1 , wherein the target pole-close timing determining unit sets a first increasing rate based on the absolute value of the interpolar voltage of the first contact at the first target pole-close timing, and corrects the absolute value of the interpolar voltage of the second contact based on the absolute value of the interpolar voltage of the first contact at the first target pole-close timing by multiplying the absolute value of the interpolar voltage of the second contact by the first increasing rate. 7. The power switching control apparatus as claimed in claim 6 , wherein the first increasing rate is set so as to increase in accordance with an increase in the absolute value of the interpolar voltage of the first contact at the first target pole-close timing. 8. The power switching control apparatus as claimed in claim 1 , wherein the target pole-close timing determining unit sets a second increasing rate based on the elapsed time from the first target pole-close timing, and corrects the absolute value of the interpolar voltage of the second contact based on the elapsed time from the first target pole-close timing by multiplying the absolute value of the interpolar voltage of the second contact by the second increasing rate. 9. The power switching control apparatus as claimed in claim 8 , wherein the second increasing rate is set so as to increase in accordance with an increase in the elapsed time from the first target pole-close timing. 10. The power switching control apparatus as claimed in claim 1 , wherein the target pole-close timing determining unit calculates an overvoltage suppression effect estimated value based on the absolute value of the interpolar voltage of the first contact at the first target pole-close timing and the absolute value of the corrected interpolar voltage of the second contact at timings when the absolute value of the corrected interpolar voltage of the second contact is equal to or smaller than the first threshold value, and determines the second target pole-close timing to be a timing when an overvoltage suppression effect estimated value satisfies a predetermined threshold value condition among the timings. 11. The power switching control apparatus as claimed in claim 10 , wherein the overvoltage suppression effect estimated value at each of the timings is a sum of the absolute value of the interpolar voltage of the first contact at the first target pole-close timing and the absolute value of the corrected interpolar voltage of the second contact, and wherein the threshold value condition is defined by that the overvoltage suppression effect estimated value is equal to or smaller than a predetermined second threshold value. 12. The power switching control apparatus as claimed in claim 10 , wherein the target pole-close timing determining unit determines the second target pole-close timing to be a timing when the overvoltage suppression effect estimated value is maximum among the timings. 13. The power switching control apparatus as claimed in claim 12 , wherein the overvoltage suppression effect estimated value at each of the timings is a reciprocal of a sum of the absolute value of the interpolar voltage of the first contact at the first target pole-close timing, and the absolute value of the corrected interpolar voltage of the second contact. 14. The power switching control apparatus as claimed in claim 1 , wherein the pole-close control unit outputs a first pole-close control signal for closing the first contact to the first contact at a timing preceding from the first target pole-close timing by a predetermined estimated pole-close time interval, and outputs a second pole-close control signal for closing the second contact to the second contact at a timing preceding from the second target pole-close timing by the estimated pole-close time interval. 15. The power switching control apparatus as claimed in claim 1 , wherein the target pole-close timing determining unit corrects the absolute