Method for setting rolling mill, and rolling mill

The invention claimed is: 1. A method for setting a rolling mill, the rolling mill being a rolling mill of four-high or more that includes a plurality of rolls including at least a pair of work rolls and a pair of backup rolls supporting the work rolls, with a plurality of rolls provided on an upper side in a vertical direction with respect to a workpiece taken as an upper roll assembly, a plurality of rolls provided on a lower side in the vertical direction with respect to the workpiece taken as a lower roll assembly, and any one roll among respective rolls arranged in the vertical direction adopted as a reference roll, wherein the rolling mill comprises: torque measurement load cells which measure a torque acting on the work rolls that is generated by driving of a motor that drives the work rolls, respectively; vertical roll load measurement load cells which are provided on a work side and a drive side on at least a lower side or an upper side of the rolling mill and which measure a vertical roll load in the vertical direction, respectively; a first hydraulic cylinder which, with respect to at least roll chocks of the rolls other than the reference roll, is provided on either one of an entrance side and an exit side in a rolling direction, and which presses the roll chocks in a rolling direction of a workpiece; and a second hydraulic cylinder which, with respect to at least roll chocks of the rolls other than the reference roll, is provided so as to face the first hydraulic cylinder in the rolling direction, and which moves the roll chocks in a rolling direction of a workpiece; the method for setting a rolling mill being executed before reduction position zero point adjustment or before starting rolling, and including: a first process of: setting a roll gap between the work rolls in an open state, and with respect to each of the upper roll assembly and the lower roll assembly, in a roll assembly on a side on which the vertical roll load measurement load cells are installed, measuring a torque acting on the work roll by means of the torque measurement load cells, or measuring a vertical roll load in two different rotational states of the pair of work rolls on the work side and the drive side, respectively, by means of the vertical roll load measurement load cells, in a roll assembly on a side on which the vertical roll load measurement load cells are not installed, measuring a torque acting on the work roll by means of the torque measurement load cells, and fixing a rolling direction position of roll chocks of the reference roll as a reference position, and moving roll chocks of the rolls other than the reference roll by means of the second hydraulic cylinder based on the torque or a vertical roll load difference that is a difference between a vertical roll load on the work side and a vertical roll load on the drive side, to thereby adjust positions of the roll chocks; and a second process of: after performing the first process, setting the work rolls in a kiss roll state, measuring a vertical roll load in two different rotational states of the pair of work rolls on the work side and the drive side, respectively, by means of the vertical roll load measurement load cells, and fixing a rolling direction position of roll chocks of the reference roll as a reference position, and moving the roll chocks of each roll of a roll assembly on an opposite side to the reference roll by means of the second hydraulic cylinder simultaneously and in a same direction while maintaining relative positions between the roll chocks so that the vertical roll load difference is within a predetermined allowable range, to thereby adjust positions of the roll chocks. 2. The method for setting a rolling mill according to claim 1 , wherein a roll located at a lowermost part or an uppermost part in the vertical direction among the plurality of rolls is adopted as the reference roll. 3. The method for setting a rolling mill according to claim 2 , wherein: in the rolling mill of four-high, when the work rolls are independently driven by different motors, respectively: in the first process, positions of roll chocks of the upper roll assembly and positions of roll chocks of the lower roll assembly are simultaneously adjusted or are each independently adjusted; in a roll assembly on a side on which the vertical roll load measurement load cells are installed, positions of the roll chocks of the rolls other than the reference roll are adjusted so that the vertical roll load difference is within a predetermined allowable range or so that a value of the torque is minimal; and in a roll assembly on a side on which the vertical roll load measurement load cells are not installed, positions of the roll chocks of the rolls other than the reference roll are adjusted so that a value of the torque is minimal. 4. The method for setting a rolling mill according to claim 2 , wherein: in the rolling mill of four-high, when the pair of work rolls are simultaneously driven by one motor: in the first process, positions of roll chocks of the upper roll assembly and positions of roll chocks of the lower roll assembly are each independently adjusted; in a roll assembly on a side on which the vertical roll load measurement load cells are installed, positions of the roll chocks of the rolls other than the reference roll are adjusted so that the vertical roll load difference is within a predetermined allowable range or so that a value of the torque is minimal; and in a roll assembly on a side on which the vertical roll load measurement load cells are not installed, positions of the roll chocks of the rolls other than the reference roll are adjusted so that a value of the torque is minimal. 5. The method for setting a rolling mill according to claim 2 , wherein: when the rolling mill is a six-high rolling mill that includes an intermediate roll between the work roll and the backup roll in the upper roll assembly and the lower roll assembly, respectively, and the work rolls are independently driven by different motors, respectively, in the first process: with respect to each of the upper roll assembly and the lower roll assembly, there are performed: a first adjustment that adjusts positions of the roll chocks of the intermediate roll and the roll chocks of the backup roll, and a second adjustment that, after the first adjustment is performed, adjusts positions of the roll chocks of the intermediate roll and the roll chocks of the work roll; wherein, in the first adjustment: with respect to a roll assembly on a side on which the vertical roll load measurement load cells are installed, positions of roll chocks of the work roll and roll chocks of the intermediate roll are adjusted simultaneously and in a same direction while maintaining relative positions between the roll chocks so that a value of the torque becomes minimal or so that the vertical roll load difference is within a predetermined allowable range, or a position of roll chocks of the backup roll that is not the reference roll is adjusted, and with respect to a roll assembly on a side on which the vertical roll load measurement load cells are not installed, positions of roll chocks of the work roll and roll chocks of the intermediate roll are adjusted simultaneously and in a same direction while maintaining relative positions between the roll chocks so that a value of the torque becomes minimal, or a position of roll chocks of the backup roll that is not the reference roll is adjusted; and in the second adjustment: with respect to a roll assembly on a side on which the vertical roll load measurement load cells are installed, a position of roll chocks of the work roll is adjusted so that a value of the torque becomes minimal or so that the vertical roll load difference