Sheet processing device

What is claimed is: 1. A sheet processing device, comprising: a conveyance path for conveying sheets in a conveying direction and stacking the sheets; a stacker configured to restrict a leading end of the conveyed sheets and movable in the conveying direction; a post processing section configured to process the sheets further on an upstream side in the conveying direction relative to a position where the sheets are supported by the stacker; and vertical alignment members configured to feed the sheets in the conveying direction toward the stacker, enabled to come into contact with a bundle of the sheets supported by the stacker, and movable in the conveying direction integrally with the stacker, wherein the vertical alignment members come into contact with the bundle of the sheets from both a front side and a rear side. 2. The sheet processing device according to claim 1 , wherein the vertical alignment members include a first member and a second member facing each other across the bundle of the sheets. 3. The sheet processing device according to claim 1 , wherein the vertical alignment members move to an upstream side in the conveying direction together with the stacker in a state in which the vertical alignment members sandwich the bundle of the sheets from both the front and rear sides. 4. The sheet processing device according to claim 1 , further comprising a bed including a paper stacking surface that faces further upward than a horizontal direction and supports the sheets supported by the stacker, wherein the vertical alignment members include a first member configured to contact the bundle of the sheets from the paper stacking surface side and a second member configured to contact the bundle of the sheets from an opposite side of the first member, and a first force of the first member coming into contact with the sheets is smaller than a second force of the second member coming into contact with the sheets. 5. The sheet processing device according to claim 1 , further comprising a bed including a paper stacking surface that faces further upward than a horizontal direction and supports the sheets supported by the stacker, slits opened in the paper stacking surface and extending in the conveying direction being formed in the bed, wherein the stacker moves in the slits if moving in the conveying direction, and the vertical alignment members come into contact with the sheets through the slits. 6. The sheet processing device according to claim 1 , further comprising: a bed including a paper stacking surface that faces further upward than a horizontal direction and supports the sheets supported by the stacker; a counting component configured to count a number of the sheets supported by the stacker; and a driving controller configured to control driving of the vertical alignment members, wherein the vertical alignment members include a first member configured to contact the bundle of the sheets from the paper stacking surface side and a second member configured to contact the bundle of the sheets from an opposite side of the first member, and the driving controller drives both of the first member and the second member and feeds the sheets toward the stacker if the number of the sheets counted by the counting component is zero, and drives the second member and feeds the sheets toward the stacker if the number of the sheets counted by the counting component is one or more. 7. The sheet processing device according to claim 1 , wherein a width direction is orthogonal to the conveying direction, the stacker includes a restricting component configured to come into contact with the sheets from a downstream side in the conveying direction, and the vertical alignment members come into contact with the sheets only further on an inner side than both ends of the restricting component in the width direction. 8. The sheet processing device according to claim 1 , wherein the vertical alignment members are plate-like paddles having flexibility. 9. The sheet processing device according to claim 1 , wherein the vertical alignment members are rollers including D-cut surfaces. 10. A sheet processing method, comprising: conveying sheets along a conveyance path in a conveying direction and stacking the sheets; restricting a leading end of the conveyed sheets by a stacker movable in the conveying direction; processing the sheets on an upstream side in the conveying direction relative to a position where the sheets are supported by the stacker; feeding the sheets with vertical alignment members in the conveying direction toward the stacker, enabling the vertical alignment members to come into contact with a bundle of the sheets supported by the stacker and moving the vertical alignment members in the conveying direction integrally with the stacker; and contacting the vertical alignment members with the bundle of the sheets from both a front side and a rear side. 11. An image forming apparatus, comprising: an image forming component; and sheet processing device, comprising: a conveyance path for conveying sheets in a conveying direction and stacking the sheets; a stacker configured to restrict a leading end of the conveyed sheets and movable in the conveying direction; a post processing section configured to process the sheets further on an upstream side in the conveying direction relative to a position where the sheets are supported by the stacker; and vertical alignment members configured to feed the sheets in the conveying direction toward the stacker, enabled to come into contact with a bundle of the sheets supported by the stacker, and movable in the conveying direction integrally with the stacker, wherein the vertical alignment members come into contact with the bundle of the sheets from both a front side and a rear side. 12. The image forming apparatus according to claim 11 , wherein the vertical alignment members include a first member and a second member facing each other across the bundle of the sheets. 13. The image forming apparatus according to claim 11 , wherein the vertical alignment members move to an upstream side in the conveying direction together with the stacker in a state in which the vertical alignment members sandwich the bundle of the sheets from both the front and rear sides. 14. The image forming apparatus according to claim 11 , further comprising a bed including a paper stacking surface that faces further upward than a horizontal direction and supports the sheets supported by the stacker, wherein the vertical alignment members include a first member configured to contact the bundle of the sheets from the paper stacking surface side and a second member configured to contact the bundle of the sheets from an opposite side of the first member, and a first force of the first member coming into contact with the sheets is smaller than a second force of the second member coming into contact with the sheets. 15. The image forming apparatus according to claim 11 , further comprising a bed including a paper stacking surface that faces further upward than a horizontal direction and supports the sheets supported by the stacker, slits opened in the paper stacking surface and extending in the conveying direction being formed in the bed, wherein the stacker moves in the slits if moving in the conveying direction, and the vertical alignment members come into contact with the sheets through the slits. 16. The image forming apparatus according to claim 11 , further comprising: a bed including a paper stacking surface that faces further upward than a horizontal directi