Continuous annealing furnace and continuous annealing method for steel strips

The invention claimed is: 1. A continuous annealing furnace for a steel strip comprising a heating zone, a soaking zone and a cooling zone disposed in this order and configured to transport the steel strip in upward and/or downward directions, a joint connecting the soaking zone and the cooling zone being disposed at an upper portion of the furnace, the heating zone and the soaking zone having no partition wall therebetween, the furnace being a vertical annealing furnace and being configured such that an atmosphere gas is supplied from outside the furnace into the furnace, the gas in the furnace is discharged through a steel strip inlet at a lower portion of the heating zone while part of the gas in the furnace is suctioned and introduced into a refiner equipped with an oxygen removal device and a dehumidifier to lower the dew point by the removal of oxygen and water in the gas, the refiner being disposed outside the furnace, and the gas with the lowered dew point is returned into the furnace, the furnace having gas suction openings disposed in a lower portion of the joint between the soaking zone and the cooling zone and at least one of in the heating zone and the soaking zone, the heating zone being free from any gas suction openings in a region extending 6 m in a vertical direction and 3 m in a furnace length direction both from the steel strip inlet at a lower portion of the heating zone, the furnace having gas ejection openings disposed in a region in the joint between the soaking zone and the cooling zone, the region being located above a pass line in the joint, and in a region in the heating zone, the region being located above a position 2 m below the center of upper hearth rolls in the vertical direction. 2. The continuous annealing furnace for a steel strip according to claim 1 , wherein the gas ejection openings in the heating zone have an ejection width W 0 satisfying W 0 /W >¼ wherein W is the furnace width of the heating zone plus the soaking zone, the ejection width W 0 of the gas ejection openings being defined as the distance in the furnace length direction between the most upstream gas ejection opening and the most downstream gas ejection opening in the heating zone. 3. The continuous annealing furnace for a steel strip according to claim 1 , wherein the gas suction opening disposed in the lower portion of the joint between the soaking zone and the cooling zone is disposed in a choked gas flow channel in the lower portion of the joint between the soaking zone and the cooling zone. 4. The continuous annealing furnace for a steel strip according to claim 1 , wherein the gas suction openings are disposed in a plurality of positions in the heating zone and/or the soaking zone, and the furnace has dew point detection units of dew point meters disposed in the vicinity of the gas suction openings in the plurality of positions, the dew point detection units being configured to detect the dew points of the gas in the furnace. 5. The continuous annealing furnace for a steel strip according to claim 1 , wherein the cooling zone is configured to transport the steel strip therethrough in a single pass. 6. The continuous annealing furnace for a steel strip according to claim 1 , wherein the furnace includes a hot dip galvanization facility downstream from the annealing furnace. 7. The continuous annealing furnace for a steel strip according to claim 6 , wherein the hot dip galvanization facility includes a galvannealing apparatus. 8. A continuous annealing method for a steel strip, characterized by continuously annealing a steel strip with the continuous annealing furnace for a steel strip described in claim 4 in such a manner that the dew point of a gas in the furnace is measured with the dew point meters disposed at the heating zone and/or the soaking zone, and the gas in the furnace is suctioned preferentially through the gas suction opening disposed in a position where a higher value of dew point has been measured. 9. The continuous annealing furnace for a steel strip according to claim 2 , wherein the gas suction opening disposed in the lower portion of the joint between the soaking zone and the cooling zone is disposed in a choked gas flow channel in the lower portion of the joint between the soaking zone and the cooling zone. 10. The continuous annealing furnace for a steel strip according to claim 2 , wherein the gas suction openings are disposed in a plurality of positions in the heating zone and/or the soaking zone, and the furnace has dew point detection units of dew point meters disposed in the vicinity of the gas suction openings in the plurality of positions, the dew point detection units being configured to detect the dew points of the gas in the furnace. 11. The continuous annealing furnace for a steel strip according to claim 3 , wherein the gas suction openings are disposed in a plurality of positions in the heating zone and/or the soaking zone, and the furnace has dew point detection units of dew point meters disposed in the vicinity of the gas suction openings in the plurality of positions, the dew point detection units being configured to detect the dew points of the gas in the furnace. 12. The continuous annealing furnace for a steel strip according to claim 9 , wherein the gas suction openings are disposed in a plurality of positions in the heating zone and/or the soaking zone, and the furnace has dew point detection units of dew point meters disposed in the vicinity of the gas suction openings in the plurality of positions, the dew point detection units being configured to detect the dew points of the gas in the furnace. 13. The continuous annealing furnace for a steel strip according to claim 2 , wherein the cooling zone is configured to transport the steel strip therethrough in a single pass. 14. The continuous annealing furnace for a steel strip according to claim 3 , wherein the cooling zone is configured to transport the steel strip therethrough in a single pass. 15. The continuous annealing furnace for a steel strip according to claim 4 , wherein the cooling zone is configured to transport the steel strip therethrough in a single pass. 16. The continuous annealing furnace for a steel strip according to claim 9 , wherein the cooling zone is configured to transport the steel strip therethrough in a single pass. 17. The continuous annealing furnace for a steel strip according to claim 10 , wherein the cooling zone is configured to transport the steel strip therethrough in a single pass. 18. The continuous annealing furnace for a steel strip according to claim 11 , wherein the cooling zone is configured to transport the steel strip therethrough in a single pass. 19. The continuous annealing furnace for a steel strip according to claim 12 , wherein the cooling zone is configured to transport the steel strip therethrough in a single pass. 20. The continuous annealing furnace for a steel strip according to claim 2 , wherein the furnace includes a hot dip galvanization facility downstream from the annealing furnace. 21. The continuous annealing furnace for a steel strip according to claim 3 , wherein the furnace includes a hot dip galvanization facility downstream from the annealing furnace. 22. The continuous annealing furnace for a steel strip according to claim 4 , wherein the furnace includes a hot dip galvanization facility downstream from the annealing furnace. 23. The continuous annealing furnace for a steel strip according to claim 5 , w