摘要:
In the control of a cutting mechanism of a sheet processing apparatus, when rear end cut region (Sr) of a sheet is finely cut and divided into predetermined fine-cutting unit length (Lr0), if sheet conveying direction length (Lr1) of rearmost end divided region (Sr1) is equal to or more than minimum reference length (D1) corresponding to the distance between cutting position (P1) of the cutting mechanism (22) and nipping position (P2) of a pair of first conveying rollers (12) and is less than maximum reference length (D2) in which predetermined fine-cutting unit length (Lr0) is added to minimum reference length (D1), upper and lower blades (22A, 22B) of the cutting mechanism (22) are held opened immediately after the downstream edge of rearmost end divided region (Sr1) is cut and the pair of first conveying rollers (12) are driven at limited conveying speed (V2) lower than normal conveying speed (V1).
摘要:
A paper sheet conveying device is equipped with a conveying path (2) formed of a large number of conveying roller pairs and a controlling section for detecting the position of the paper sheet being conveyed and controlling the operation of the conveying rollers. The conveying path (2) is composed of a first-half conveying path (2A) and a last-half conveying path (2B). The first-half conveying path (2A) has a first-half driving mechanism for controlling the rotational speed of the lower conveying rollers and a first-half vertically moving mechanism for vertically moving the upper conveying rollers. The last-half conveying path (2B) has a last-half driving mechanism for controlling the rotational speed of the lower conveying rollers and a last-half vertically moving mechanism for vertically moving the upper conveying rollers. The controlling section is configured so as to control the first-half driving mechanism, the first-half vertically moving mechanism, the last-half driving mechanism and the last-half vertically moving mechanism depending on the position of the paper sheet being conveyed.
摘要:
A stacker device comprises a conveying belt (21), a longitudinal receiving guide (31), a paper sheet discharge detecting part (5), a first detecting part (6) having a rod body (61), a second detecting part (7), and a control part for controlling the guide drive mechanism and the belt drive mechanism. The control part is formed so as to control both the mechanisms so that after the predetermined time T, which is required for the paper sheet (100) to be stacked on the stacking surface (200) after the paper sheet discharge detecting part (5) detects the rear edge (103) of the paper sheet (100) having been conveyed to the discharging roller (1), passes and until the first detecting part (6) detects the paper sheet (100), the longitudinal receiving guide (31) and the conveying belt (21) move to the upstream side of the conveyance direction at the same time, and after that, until the first detecting part (6) does not detect the paper sheet (100), the longitudinal receiving guide (31) and the conveying belt (21) move to the downstream side of the conveyance direction at the same time. Additionally, the control part is formed so as to control the belt drive mechanism so that, when the second detecting part (7) detects the non-standing position of the paper sheet (100), only the conveying belt (21) moves to the downstream side of the conveyance direction by the predetermined distance.
摘要:
When the sheet (100) is mounted onto the conveyance surface (20), the alignment guide (3) is located at the retraction position by the alignment guide moving mechanism, and after the sheet (100) is mounted onto the conveyance surface (20), the alignment guide (3) is located at the guide position by the alignment guide moving mechanism.
摘要:
In the control of a cutting mechanism of a sheet processing apparatus, when rear end cut region (Sr) of a sheet is finely cut and divided into predetermined fine-cutting unit length (Lr0), the control section is configured to control the driving sources so that sheet conveying direction length (Lr1) of rearmost end divided region (Sr1) in rear end cut region (Sr) is the length substantially corresponding to distance (D1) between cutting position (P1) of the cutting mechanism and nipping position (P2) of a pair of first conveying rollers and that when rearmost end divided region (Sr1) passes through the nipping position of the pair of first conveying rollers, the pair of first conveying rollers are rotated 90° or more.
摘要:
A paper folding mechanism includes: first and second folding rollers (51, 52); first and second conveyance rollers (61, 62); a protrusion member (71); and a control part. Both the rollers (51, 52) are provided so that a paper is sandwiched therebetween with its fold line located in front, and is allowed to pass therethrough in a first direction. The first folding roller (51) and the first conveyance roller (61) are provided so that the paper is sandwiched therebetween and conveyed in a second direction orthogonal to the first direction. The second folding roller (52) and the second conveyance roller (62) are provided so that the paper is sandwiched therebetween and conveyed in any one of the second direction and the direction opposite thereto. The protrusion member (71) is provided so that the fold line of the paper conveyed by both the rollers (61, 62) is protruded in the first direction and fed between both the rollers (51, 52).
摘要:
A paper sheet conveying device is equipped with a conveying path (2) formed of a large number of conveying roller pairs and a controlling section for detecting the position of the paper sheet being conveyed and controlling the operation of the conveying rollers. The conveying path (2) is composed of a first-half conveying path (2A) and a last-half conveying path (2B). The first-half conveying path (2A) has a first-half driving mechanism for controlling the rotational speed of the lower conveying rollers and a first-half vertically moving mechanism for vertically moving the upper conveying rollers. The last-half conveying path (2B) has a last-half driving mechanism for controlling the rotational speed of the lower conveying rollers and a last-half vertically moving mechanism for vertically moving the upper conveying rollers. The controlling section is configured so as to control the first-half driving mechanism, the first-half vertically moving mechanism, the last-half driving mechanism and the last-half vertically moving mechanism depending on the position of the paper sheet being conveyed.