Method for continuously annealing steel strip and method for manufacturing galvanized steel strip

The invention claimed is: 1. A method for continuously annealing a steel strip, the method comprising: annealing the steel strip in a vertical annealing furnace including a heating zone and a soaking zone arranged in this order from an entry side of the furnace through which the steel strip is conveyed in a vertical direction, an atmosphere gas being supplied from an outside of the furnace into the furnace to form a furnace gas that is discharged from a steel strip entrance at the entry side of the furnace, a part of the furnace gas being sucked and discharged Into a refiner that is disposed outside of the furnace and includes a deoxygenator and a dehumidifier such that oxygen and moisture in the part of the furnace gas are removed to form a refiner gas having a lowered dew point, and the refiner gas with the lowered dew point being returned into the furnace; disposing a gas injector for discharging gas over an entire width of the furnace, the gas injector having a plurality of gas outlets oriented to discharge gas into the furnace in a direction parallel to a width of the steel strip, the plurality of gas outlets arranged at an interval of 4 m or less in the vertical direction within the heating zone such that a mixing of the furnace gas upstream of the gas injector nearer to the steel strip entrance and the furnace gas downstream of the gas injector farther from the steel strip entrance is suppressed; and controlling a temperature of the steel strip passing through the gas injector between 600° C. and 700° C. 2. A method for continuously annealing a steel strip, the method comprising: annealing the steel strip in a vertical annealing furnace including a heating zone and a soaking zone arranged in this order from an entry side of the furnace through which the steel strip is conveyed in a vertical direction, an atmosphere gas being supplied from an outside of the furnace into the furnace to form a furnace gas that is discharged from a steel strip entrance at the entry side of the furnace, a part of the furnace gas being sucked and discharged into a refiner that is disposed outside of the furnace and Includes a deoxygenator and a dehumidifier such that oxygen and moisture in the part of the furnace gas are removed to form a refiner gas having a lowered dew point, and the refiner gas having the lowered dew point being returned into the furnace; disposing a gas injector for discharging gas over an entire width of the furnace, the gas injector having a plurality of gas outlets oriented to discharge gas into the furnace in a direction parallel to a width of the steel strip, the plurality of as outlets arranged at an interval of 4 m or less in the vertical direction within the heating zone such that a mixing of the furnace gas upstream of the gas injector nearer to the steel strip entrance and the furnace gas downstream of the gas injector farther from the steel strip entrance is suppressed; controlling a temperature of the steel strip passing through the gas injector between 550° C. to 700° C.; and adjusting, within the part of the furnace gas discharged into the refiner, an amount of the furnace gas downstream of the gas injector larger than an amount of the furnace gas upstream of the gas injector. 3. The method according to claim 1 , further comprising galvanizing the annealed steel strip. 4. The method according to claim 2 , further comprising galvanizing the annealed steel strip. 5. The method according to claim 1 , wherein the gas outlets of the gas injector inject the refiner gas with the lowered dew point. 6. The method according to claim 1 , wherein the steel strip includes at least one of Si or Mn and the steel strip is heated in the downstream of the gas injector in a temperature range of 700° C. or higher. 7. The method according to claim 5 , wherein the steel strip includes at least one of Si or Mn and the steel strip is heated in the downstream of the gas injector in a temperature range of 700° C. or higher. 8. The method according to claim 2 , wherein the gas outlets of the gas injector inject the refiner gas with the lowered dew point. 9. The method according to claim 2 , wherein the steel strip includes at least one of Si or Mn and the steel strip is heated in the downstream of the gas injector in a temperature range of 700° C. or higher. 10. The method according to claim 8 , wherein the steel strip includes at least one of Si or Mn and the steel strip is heated in the downstream of the gas Injector in a temperature range of 700° C. or higher. 11. The method according to claim 1 , wherein a flow rate at each of the plurality of gas outlets is 25 Nm 3 /hr or more. 12. The method according to claim 2 , wherein a flow rate at each of the plurality of gas outlets is 25 Nm 3 /hr or more. 13. A method for continuously annealing a steel strip, the method comprising: annealing the steel strip in a vertical annealing furnace including a heating zone and a soaking zone arranged in this order from an entry side of the furnace through which the steel strip is conveyed in a vertical direction, an atmosphere gas being supplied from an outside of the furnace into the furnace to form a furnace gas that is discharged from a steel strip entrance at the entry side of the furnace; disposing a gas injector for discharging gas over an entire width of the furnace, the gas injector having a plurality of gas outlets oriented to discharge gas into the furnace in a direction parallel to a width of the steel strip, the plurality of gas outlets arranged at an interval of 4 m or less in the vertical direction within the heating zone such that a mixing of the furnace gas upstream of the gas injector nearer to the steel strip entrance and the furnace gas downstream of the gas injector farther from the steel strip entrance is suppressed; and controlling a temperature of the steel strip passing through the gas injector between 600° C. and 700° C. 14. The method according to claim 13 , wherein the steel strip includes at least one of Si or Mn and the steel strip is heated in the downstream side of the gas injector in a temperature range of 700° C. or higher. 15. The method according to claim 13 , further comprising galvanizing the annealed steel strip. 16. The method according to claim 13 , wherein a flow rate at each of the plurality of gas outlets is 25 Nm 3 /hr or more.