Claims
- 1. In a method of sheet stacking utilizing an orbital nip system in which opposing first and second sheet feeding rollers form a sheet transporting nip for engaging a sheet delivered to said nip and for feeding the sheet in the nip with a nip sheet feeding velocity into a stacking tray and against a registration stacking wall extending generally perpendicular to the stacking tray, and also providing relative orbital motion of said opposing rollers for pivoting the sheet feeding angle of said nip, at a selectable orbiting angular velocity; the improvement comprising the steps of:
- orbiting the nip with the sheet in the nip into an initial sheet input position for which the nip sheet feeding angle is aimed well up on the registration stacking wall above the stacking tray and adjacent the desired maximum stack height;
- feeding the sheet with the nip in said initial sheet input nip position out towards the registration stacking wall at a preset nip feeding velocity without substantially orbiting said nip;
- then, when the sheet is fed out closely adjacent to, but not yet touching the registration stacking wall,
- orbiting the nip with the sheet in the nip downwardly and away from the registration stacking wall at an orbiting velocity which is substantially slower than said preset nip feeding velocity, such that the movement of the sheet towards the registration stacking wall by said nip feeding is substantially faster than said orbital motion of the nip away from the registration stacking wall, so as to feed the sheet against the registration stacking wall and cause the portion of the sheet downstream of the nip to downwardly buckle and hold the sheet edge against the registration stacking wall as the remainder of the sheet is fed through the nip.
- 2. The method of sheet stacking of claim 1, wherein said nip orbiting away from the registration stacking wall is started when the edge of the sheet is within approximately 10 millimeters of the registration stacking wall.
- 3. The method of sheet stacking of claim 1, wherein said nip orbiting velocity away from the registration stacking wall is at approximately one-half of the continued nip sheet feeding velocity.
- 4. The method of sheet stacking of claim 1, wherein said nip orbiting velocity away from the registration stacking wall is between approximately 0.4 and 0.6 of the continued feeding velocity of the sheet in the nip towards the registration stacking wall.
- 5. The method of sheet stacking of claim 1, wherein said nip orbiting angular velocity away from the registration stacking wall is such that, irrespective of the stack height in the stacking tray, before the sheet edge reaches the registration stacking wall the nip is already at a sufficient angle to impart a downwardly buckle forming deflection of the extending portion of the sheet.
Parent Case Info
This application is a divisional of prior application Ser. No. 07/903,298, now U.S. Pat. No. 5,215,298. The method of this application was disclosed in said prior application by John F. Derrick and accordingly, this application claims priority therefrom.
US Referenced Citations (5)
Foreign Referenced Citations (1)
Number |
Date |
Country |
295964 |
Dec 1986 |
JPX |
Non-Patent Literature Citations (1)
Entry |
Xerox Disclosure Journal, "Orbiting Hip Sheet Control Device," by John F. Derrick, vol. 17, No. 2, Mar./Apr., 1992, pp. 69-70. |
Divisions (1)
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Number |
Date |
Country |
Parent |
903298 |
Jun 1992 |
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