Facility having a continuous annealing furnace and a galvanization bath and method for continuously manufacturing hot-dip galvanized steel sheet

The invention claimed is: 1. A facility for continuously manufacturing a galvanized steel sheet, comprising: a furnace, said furnace is a continuous annealing furnace divided into three zones including a heating zone that heats a steel strip in form of a strip-shaped steel sheet to be passed through the furnace, a soaking zone that soaks the steel strip which has been heated in the heating zone, and a cooling zone that cools the steel strip which has been soaked in the soaking zone, which are arranged in this order heating zone, soaking zone, cooling zone from an upstream side of a transport path; a galvanization bath; a snout that directly connects the furnace to the galvanization bath therethrough, the snout being a closed space through which the steel strip is directly fed into the galvanization bath from the furnace; a first dewpoint meter, a suction port, and a spray port for a gas within the furnace are provided in each of the heating zone and the soaking zone of the furnace; a refiner, which is a moisture removing device provided outside the furnace, a plurality of gas cyclic paths, including a gas cyclic path that connects the suction port and the spray port of the heating zone to the refiner and a gas cyclic path that connects the suction port and the spray port of the soaking zone to the refiner, the plurality of gas cyclic paths being separate from one another along their entire respective lengths and a second dewpoint meter and a humidification device, which are provided in the snout, the humidification device which humidifies an inside of the snout, wherein: the refiner functions so that, for each of the gas cyclic paths, a first measured value of the first dewpoint meter in the heating zone is equal to a first target dewpoint in the heating zone and a first measured value of the first dewpoint meter in the soaking zone is equal to a first target dewpoint in the soaking zone; and the humidification device functions so that a second measured value of the second dewpoint meter in the snout is equal to a second target dewpoint for the snout. 2. The facility for continuously manufacturing a galvanized steel sheet according to claim 1 , further comprising a snout suction port and a snout spray port for a gas within the snout that are provided in the snout, and a snout gas cyclic path formed between the refiner and the snout by connecting the ports thereof to the refiner, wherein the refiner functions along with the humidification device so that the second measured value of the further dewpoint meter in the snout is equal to the second target dewpoint for the snout. 3. The facility for continuously manufacturing a galvanized steel sheet according to claim 1 , wherein the second target dewpoint for the snout is −35° C. or higher. 4. A facility for continuously manufacturing a galvanized steel sheet, comprising: a furnace, said furnace is a continuous annealing furnace divided into three zones including a heating zone that heats a steel strip in form of a strip-shaped steel sheet to be passed through the furnace, a soaking zone that soaks the steel strip which has been heated in the heating zone, and a cooling zone that cools the steel strip which has been soaked in the soaking zone, which are arranged in this order heating zone, soaking zone, cooling zone from an upstream side of a transport path; a galvanization bath; a snout that directly connects the furnace to the galvanization bath therethrough, the snout being a closed space through which the steel strip is directly fed into the galvanization bath from the furnace; a first dewpoint meter, a suction port, and a spray port for a gas within the furnace are provided in each of the heating zone and the soaking zone of the furnace; a refiner, which is a moisture removing device provided outside the furnace, a plurality of gas cyclic paths, including a gas cyclic path that connects the suction port and the spray port of the heating zone to the refiner, a gas cyclic path that connects the suction port and the spray port of the soaking zone to the refiner, and a gas cyclic path that connects the suction port and the spray port of the cooling zone to the refiner, the plurality of gas cyclic paths being separate from one another along their entire respective lengths; and a second dewpoint meter and a humidification device, which are provided in the snout, the humidification device which humidifies an inside of the snout, wherein: the refiner functions so that, for each of the plurality of gas cyclic paths, a first measured value of the first dewpoint meter in the heating zone, is equal to a first target dewpoint in the heating zone, a first measured value of the first dewpoint meter in the soaking zone is equal to a first target dewpoint in the soaking zone, and a first measured value of the first dewpoint meter in the cooling zone is equal to a first target dewpoint in the cooling zone; and the humidification device functions so that a second measured value of the second dewpoint meter in the snout is equal to a second target dewpoint for the snout. 5. The facility for continuously manufacturing a galvanized steel sheet according to claim 4 , further comprising a snout suction port and a snout spray port for a gas within the snout that are provided in the snout, and a snout gas cyclic path formed between the refiner and the snout by connecting the ports thereof to the refiner, wherein the refiner functions along with the humidification device so that the second measured value of the further dewpoint meter in the snout is equal to the second target dewpoint for the snout. 6. The facility for continuously manufacturing a galvanized steel sheet according to claim 4 , wherein the second target dewpoint for the snout is −35° C. or higher.