Patent ID: 9573172
Date: 2017-02-21
CPC Classifications: B08B,C23C

Claim:
1. A gas wiping method in which a wiping gas is ejected along a width direction of a coated steel sheet from a pair of wiping nozzles which are disposed so as to face each other and interpose the coated steel sheet therebetween in a thickness direction of the coated steel sheet that is pulled upward from a coating bath and thus, the amount of a coating deposit of the coated steel sheet is adjusted, the method comprising: disposing a first gas shield plate at a position which separates toward an outside from one end portion in the width direction of the coated steel sheet so that the first gas shield plate does not contact to one end portion of the coated steel sheet, and so that the first gas shield plate is interposed between the pair of wiping nozzles; disposing a second gas shield plate at a position which separates toward an outside from the other end portion in the width direction of the coated steel sheet so that the second gas shield plate does not contact to the other end portion of the coated steel sheet, and so that the second gas shield plate is interposed between the pair of wiping nozzles; disposing one of two first side nozzles, in a vicinity of an upper end of a front surface of the first gas shield plate, so as to contact with the front surface of the first gas shield plate and so as to be parallel to width direction of the coated steel sheet along the upper end of the front surface of the first gas shield plate; disposing the other of the first side nozzles, in a vicinity of an upper end of a rear surface of the first gas shield plate, so as to contact with the rear surface of the first gas shield plate and so as to be parallel to width direction of the coated steel sheet along the upper end of the rear surface of the first gas shield plate; disposing one of two second side nozzles, in a vicinity of an upper end of a front surface of the second gas shield plate, so as to contact with the front surface of the second gas shield plate and so as to be parallel to width direction of the coated steel sheet along the upper end of the front surface of the second gas shield plate; disposing the other of the second side nozzles, in a vicinity of an upper end of a rear surface of the second gas shield plate, so as to contact with the rear surface of the second gas shield plate and so as to be parallel to width direction of the coated steel sheet along the upper end of the rear surface of the second gas shield plate; ejecting a first side gas from each of the first side nozzles in a first direction reverse to a second direction in which the coated steel sheet is pulled upward and thus, forming a first gas flow along each of the front surface and the rear surface of the first gas shield plate in the first direction; forming a first associated gas flow which flows between the first gas shield plate and one end portion of the coated steel sheet due to the first gas flow along each of the front surface and the rear surface of the first gas shield plate, the first associated gas flow flowing in the first direction; ejecting a second side gas from each of the second side nozzles in the first direction and thus, forming a second gas flow along each of the front surface and the rear surface of the second gas shield plate in the first direction; and forming a second associated gas flow which flows between the second gas shield plate and the other end portion of the coated steel sheet due to the second gas flow along each of the front surface and the rear surface of the second gas shield plate, the second associated gas flow flowing in the first direction.