Rolling mills and rolling methods

The invention claimed is: 1. A rolling mill comprising: a pair of upper and lower work rolls; roll chocks that rotatably support the work rolls; a plurality of pressing devices provided on an entry side and an exit side of the roll chocks in a rolling direction, and the plurality of pressing devices being provided on a work side and a drive side, wherein the plurality of pressing devices are configured to be capable of changing positions of the roll chocks in the rolling direction, and measuring first pressing forces on the roll chocks; and a control device that drives the pressing devices, and controls the positions of the roll chocks, the control device being configured to: obtain second pressing forces acting on the roll chocks on the work side and the drive side on a basis of the first pressing forces on the entry side and the exit side, and drive-control at least one of the plurality of pressing devices changing a position of a roll chock of at least one of the pair of upper and lower work rolls in such a manner that a difference between the second pressing force on the work side and the second pressing force on the drive side is equal to or smaller than a predetermined value; and a tension information acquiring device that acquires information about a tension applied to a rolled material on the exit side of the work rolls, wherein the control device is configured to: obtain a tension distribution in a widthwise direction of the rolled material on a basis of the information, and control the pressing device on a basis of the tension distribution while the difference is greater than a predetermined value. 2. The rolling mill according to claim 1 , wherein the control device is configured to obtain the tension distribution on a basis of the information, and an amount of deviation between a center of the rolling mill in a widthwise direction and a center of the rolled material in the widthwise direction. 3. The rolling mill according to claim 2 , wherein the tension information acquiring device includes a camera that captures an image of the rolled material on at least one of the entry side and the exit side of the rolling mill, wherein the information includes the image, and wherein the control device is configured to: obtain the amount of deviation on a basis of the image, and obtain the tension distribution on a basis of the first pressing forces on the entry side and the exit side, the image, and the amount of deviation. 4. The rolling mill according to claim 2 , wherein the tension information acquiring device includes cameras that capture images of the rolled material on the entry side and the exit side of the rolling mill, wherein the information includes the images of the entry side and the exit side, and wherein the control device is configured to: obtain the amount of deviation on a basis of the images of the entry side and the exit side, and obtain the tension distribution on a basis of the first pressing forces on the entry side and the exit side, the images, and the amount of deviation. 5. The rolling mill according to claim 2 , wherein the tension information acquiring device includes a shape meter that acquires data of a distribution, in the widthwise direction of the rolled material, of torque acting from the rolled material on at least one of the entry side and the exit side of the rolling mill, wherein the information includes the data of the torque distribution acquired by the shape meter, and wherein the control device is configured to obtain the amount of deviation on a basis of the data of the distribution of torque. 6. The rolling mill according to claim 1 , wherein the control device is configured to obtain the tension distribution as a linearly approximated linear equation, and drive the pressing devices in such a manner that a first-order component of the linear equation is reduced. 7. A method of controlling a rolling mill; the rolling mill including a pair of upper and lower work rolls; roll chocks that rotatably support the work rolls; a plurality of pressing devices provided on an entry side and an exit side of the roll chocks in a rolling direction, and the plurality of pressing devices being provided on a work side and a drive side, wherein the plurality of pressing devices are configured to be capable of changing positions of the roll chocks in the rolling direction, and measuring first pressing forces on the roll chocks; and a control device that drives the pressing devices, and controls the positions of the roll chocks, the method comprising: a pressing force measurement step of measuring the first pressing forces on the roll chocks; a pressing force calculation step of obtaining second pressing forces acting on the roll chocks on the work side and the drive side on a basis of the first pressing forces on the entry side and the exit side; a difference calculation step of obtaining a difference between the second pressing force on the work side and the second pressing force on the drive side; a press control step of drive-controlling at least one of the plurality of pressing devices changing a position of a roll chock of at least one of the pair of upper and lower work rolls in such a manner that the difference is equal to or smaller than a predetermined value; a tension information acquisition step of acquiring information about a tension applied to a rolled material on the exit side of the work rolls; and a tension distribution calculation step of obtaining a tension distribution in a widthwise direction of the rolled material on a basis of the information, wherein at the press control step, the pressing device is controlled on a basis of the tension distribution while the difference is greater than a predetermined value. 8. The method of controlling the rolling mill according to claim 7 , further comprising: a deviation-amount calculation step of obtaining an amount of deviation between a center of the rolling mill in a widthwise direction and a center of the rolled material in the widthwise direction, wherein at the tension distribution calculation step, the tension distribution is obtained on a basis of the information and the amount of deviation. 9. The method of controlling the rolling mill according to claim 8 , wherein the information includes an image of the rolled material on at least one of the entry side and the exit side of the work rolls that is captured by a camera, wherein at the deviation-amount calculation step, the amount of deviation is obtained on a basis of the image, and wherein at the tension distribution calculation step, the tension distribution is obtained on a basis of the first pressing forces on the entry side and the exit side, the image and the amount of deviation. 10. The method of controlling the rolling mill according to claim 8 , wherein the information includes images of the rolled material on the entry side and the exit side of the work rolls that are captured by cameras, wherein at the deviation-amount calculation step, the amount of deviation is obtained on a basis of the images of the entry side and the exit side, and wherein at the tension distribution calculation step, the tension distribution is obtained on a basis of the first pressing forces on the entry side and the exit side, the images and the amount of deviation. 11. The method of controlling the rolling mill according to claim 8 , wherein the information includes data of a distribution, in the widthwise direction of the rolled material, of torque acting from the rolled material on at least one of the entry side and the exit side of the rolling mill, the data being acquired by a shape meter, and