Printer sheet lateral registration and deskewing system

Sheet feeding or delivering – Feeding – With means to align sheet

Reexamination Certificate

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Reexamination Certificate

active

06533268

ABSTRACT:

Cross-reference is made to a copending commonly assigned related subject matter application, U.S. application Ser. No. 09/916,994, filed on even date, by Lloyd A. Williams, Joannes N. M. deJong, Michael J. Savino and Matthew Dondiego, entitled “Printer Sheet Deskewing System.”
Disclosed in the embodiments herein is an improved system for sheet lateral registration and sheet deskewing in the same combination apparatus. Various prior combined automatic sheet lateral registration and deskewing systems are known in the art. The below-cited patent disclosures are noted by way of some examples. They demonstrate the long-standing efforts in this technology for more effective yet lower cost sheet lateral registration and deskewing, particularly for printers (including, but not limited to, xerographic copiers and printers). They demonstrate that it has been known for some time to be desirable to have a sheet deskewing system that can be combined with a lateral sheet registration system, in a sheet driving system also maintaining the sheet forward speed and registration (for full three axis sheet position control) in the same apparatus. That is, it is desirable for both the sheet deskewing and lateral registration to be done while the sheets are kept moving along a paper path at a defined substantially constant speed. Otherwise known as sheet registration “on the fly” without sheet stoppages. Yet these prior systems have had some difficulties, which the novel systems disclosed herein address, further discussed below. In particular, high cost, especially for faster sheet feeding rates. However, it will be noted that the combined sheet handling systems disclosed herein are not limited to only high speed printing applications.
For faster printing rates, requiring faster sheet feeding rates along paper paths, which can reach more than, for example, 100-200 pages per minute, the above combined systems and functions become much more difficult and expensive. Especially, to accomplish the desired sheet skew rotation, sheet lateral movement, and forward sheet speed during the brief time period in which each sheet is in the sheet driving nips of the combined system. As further discussed below, such high speed sheet feeding for printing or other position-critical applications heretofore has commonly required, for the lateral sheet registration, variable rapid acceleration lateral (sideways to the sheet path) movements of relatively high mass system components, and substantial power for that rapid acceleration and rapid movement. Or, rapid “wiggling” of the sheet by deskewing, deliberately skewing, and again deskewing the sheet for side registration, all during that same brief time period the sheet is held in the sheet feeding nips of the system. Furthermore, in either such prior system, two high power servo-motors and their controls have typically been required for independently driving a laterally spaced pair of separate sheet driving nips, adding both expense and mass to the system.
Disclosed in the embodiments herein is an improved system for controlling, correcting or changing the orientation and position of sheets traveling in a sheet transport path. In particular, but not limited thereto, sheets being printed in a reproduction apparatus, which may include sheets being fed to be printed, sheets being recirculated for second side (duplex) printing, and/or sheets being outputted to a stacker, finisher or other output or module.
Disclosed in the embodiments herein is an improved system for deskewing and also transversely repositioning sheets with a lower cost, lower mass mechanism, and which for sheet feeding and deskewing needs only one single main drive motor for the two sheet feed roll drives, together with a much lower power, and lower cost, deskewing differential drive. This is in contrast to various of the below-cited and other systems which require three separate, large, high power, and separately controlled, servo or stepper motor drives. Yet the disclosed embodiments can provide in the same unit active automatic variable sheet deskewing and active variable side shifting for lateral registration, both while the sheet is moving uninterruptedly at process speed. It is applicable to various reproduction systems herein generally referred to as printers, including high-speed printers, and other sheet feeding applications. In particular the system of the disclosed embodiments can provide greatly reduced total moving mass, and therefor provide improvements in integral lateral registration systems involving rapid lateral movement thereof, such as the TELER type of lateral registration system described below.
Various types of lateral registration and deskew systems are known in the art. A recent example is Xerox Corp. U.S. Pat. No. 6,173,952 B1, issued Jan. 16, 2001 to Paul N. Richards, et al (and art cited therein) (D/99110). That patent's disclosed additional feature of variable lateral sheet feeding nip spacing, for better control over variable size sheets, may be readily combined with or into various applications of the present invention, if desired.
As noted, it is particularly desirable to be able to do lateral registration and deskew “on the fly,” while the sheet is moving through or out of the reproduction system at normal process (sheet transport) speed. Also, to be able to do so with a system that does not substantially increase the overall sheet path length, or increase paper jam tendencies. The following additional patent disclosures, and other patents cited therein, are noted by way of some examples of sheet lateral registration systems with various means for side-shifting or laterally repositioning the sheet: Xerox Corporation U.S. Pat. Nos. 5,794,176, issued Aug. 11, 1998 to W. Milillo; 5,678,159, issued Oct. 14, 1997 to Lloyd A. Williams, et al; 4,971,304, issued Nov. 20, 1990 to Lofthus; 5,156,391, issued Oct. 20, 1992 to G. Roller; 5,078,384, issued Jan. 7, 1992 to S. Moore; 5,094,442, issued Mar. 10, 1992 to D. Kamprath, et al; 5,219,159, issued Jun. 15, 1993 to M. Malachowski, et al; 5,169,140, issued Dec. 8, 1992 to S. Wenthe; and 5,697,608, issued Dec. 16, 1997 to V. Castelli, et al. Also, IBM U.S. Pat. No. 4,511,242, issued Apr. 16, 1985 to Ashbee, et al.
Various optical sheet lead edge and sheet side edge position detector sensors are known which may be utilized in such automatic sheet deskew and lateral registration systems. Various of these are disclosed the above-cited references and other references cited therein, or otherwise, such as the above-cited U.S. Pat. Nos. 5,678,159, issued Oct. 14, 1997 to Lloyd A. Williams, et al; and 5,697,608 to V. Castelli, et al.
Various of the above-cited and other patents show that it is well known to provide integral sheet deskewing and lateral registration systems in which a sheet is deskewed while moving through two laterally spaced apart sheet feed roller-idler nips, where the two separate sheet feed rollers are independently driven by two different respective drive motors. Temporarily driving the two motors at slightly different rotational speeds provides a slight difference in the total rotation or relative pitch position of each feed roller while the sheet is held in the two nips. That moves one side of the sheet ahead of the other to induce a skew (small partial rotation) in the sheet opposite from an initially detected sheet skew in the sheet as the sheet enters the deskewing system. Thereby deskewing the sheet so that the sheet is now oriented with (in line with) the paper path.
However, especially for high speed printing, sufficiently accurate continued process (downstream) sheet feeding requirements typically requires these two separate drive motors to be two relatively powerful and expensive servo-motors. Furthermore, although the two drive rollers are desirably axially aligned with one another to rotate in parallel planes and not induce sheet buckling or tearing by driving forward at different angles, the two drive rollers cannot both be fixed on the same common transverse drive shaft, since they must be independen

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