Patent ID: 8318080
Filing Date: 2012-11-27
Classification: B21B

Abstract:
1. A device for cooling a hot steel strip conveyed on a run-out table after a last finishing stand, comprising: a plurality of tubular cooling nozzles that eject rod-like flows of cooling water at a speed of 7 m/s or more to an upper surface of a steel strip such that an ejecting angle is inclined toward a traveling direction of the steel strip, wherein an angle formed between the steel strip and the rod-like flows of cooling water ejected from the tubular cooling nozzles is from 30-60°, wherein the rod-like flows of cooling water have a thickness of at least 3 mm, wherein a velocity component of the rod-like flows of cooling water in the traveling direction of the steel strip corresponds to a traveling speed of the steel strip and wherein outlets of the tubular cooling nozzles are separated from an upper surface of the steel strip by a predetermined distance, such that the steel strip does not come into contact with the tubular cooling nozzles, even when the steel strip moves vertically; a draining device which is disposed downstream of the tubular cooling nozzles, the draining device serves to drain cooling water ejected from the tubular cooling nozzles and remaining on the upper surface of the steel strip, wherein the draining device is a rotatable and liftable pinch roller and comes into contact with the steel strip while being rotated, and the pinch roller is operable to be lifted when a leading end of the steel strip is coiled and the steel strip is held under tension, such that a gap between the steel strip and said pinch roller becomes larger than or equal to the thickness of the steel strip while being rotated, and control units to independently on-off control the ejection of the cooling water from the tubular cooling nozzles, wherein the plurality of the tubular cooling nozzles are disposed in lines extending in a width direction of the steel strip, and the lines are disposed in the traveling direction of the steel strip, and the positions of the tubular cooling nozzles disposed in downstream lines are shifted from positions of the tubular cooling nozzles disposed in corresponding upstream lines in the width direction, wherein the number of lines of the tabular cooling nozzles is determined on the basis of the traveling speed of the steel strip, the temperature of the steel strip and a range of temperature when cooling starts to a target temperature when cooling stops, wherein the tubular cooling nozzles of the determined number of lines adjacent to the pinch roller are set so as preferentially eject the cooling water from the last line, and wherein the tubular cooling nozzles and the pinch roller are placed such that the cooling water ejected from the tubular nozzles in the last line reaches the steel strip at a position upstream of the position where the pinch roller comes into contact with the steel strip while being rotated.