DC pin scorotron charging apparatus, and printing machine...

Electrophotography – Image formation – Charging

Reexamination Certificate

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Reexamination Certificate

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06459873

ABSTRACT:

FIELD OF THE INVENTION
This application relates generally to xerography and more particularly to DC pin scorotron charging apparatus for charging a photoreceptor in a xerographic printing machine.
BACKGROUND OF THE INVENTION
It is known to use charging devices in xerographic printing. Such charging devices are typically of the following types: corotron, dicorotron, pin corotron, scorotron, discorotron, and pin scorotron. See, generally, R. M. Schaffert, “Electrophotography,” The Focal Press, New York, 1965.
As known, such charging devices include a chamber arranged with one or more charge-generating emitters such as, for example, a wire, a dielectric wire, or a pin array.
As is known, some charging devices include a control grid to regulate and control the charge provided to the photosensitive member, resulting in the photosensitive member receiving a uniform charge. Such charging devices with control grids are typically of the following types: scorotron, discorotron, and pin scorotron. Some benefits and problems associated with such control grids are discussed in Lewis E. Walkup, U.S. Pat. No. 2,777,957, especially
FIGS. 4-7
and the text corresponding thereto. See also Geoffrey M. T. Foley, U.S. Pat. No. 4,638,397, especially columns 1-2.
As is known, one key characteristic of a charging device is its charge-generating emitter's dl/dV ratio, commonly known as the emitter “slope”, which is generally expressed in units of Amperes per volt-meter.
One example of a low-cost charging device is a traditional direct-coupled (“DC”) pin scorotron. One example of such a DC pin scorotron is disclosed in the aforementioned U.S. Pat. No. 4,725,732 to Joseph H. Lang et al.
It is known that uniform photoreceptor charging is required to achieve high-quality xerographic results. Various ways to achieve desired levels of uniform charging are known.
For example, the aforementioned U.S. Pat. No. 5,537,198 to Mark. S. Jackson in
FIG. 1
discloses a first recharging station D comprising multiple consecutively-positioned corona recharging devices
36
,
37
and
38
arranged to uniformly recharge a photoreceptor belt
10
. As well, this same Mark S. Jackson in
FIG. 1
patent discloses a second recharging station F comprising multiple consecutively-positioned corona recharging devices
51
,
52
and
53
arranged to uniformly recharge the photoreceptor belt
10
. Finally, this same Mark S. Jackson in
FIG. 1
patent discloses a third recharging station H comprising multiple consecutively-positioned corona recharging devices
61
,
62
and
63
arranged to uniformly recharge the photoreceptor belt
10
.
DC pin scorotron-type charging devices offer several key advantages over other types of charging devices. One key advantage is their relative low cost. Other advantages of DC pin scorotrons include lower ozone emissions and lower noise.
As a result of the above advantages, it is presently desired to achieve uniform photoreceptor charging by means of using multiple DC pin scorotron-type charging devices.
However, it is commonly known that the charging uniformity of a DC pin scorotron is not as good as some other types of charging devices.
As a result, the problem is how to meet the charging uniformity required for the next generation of high-quality copy and printing machines by means of multiple DC pin scorotron charging devices.
While the aforementioned Mark S. Jackson patent discloses a method of achieving uniform photoreceptor charging by means of multiple corona-type charging devices, it is noted that this patent does NOT disclose any way of achieving uniform photoreceptor charging by means of multiple DC pin scorotron charging devices.
As a result, there is a need for charging apparatus for achieving uniform photoreceptor charging by means of multiple DC pin scorotron charging devices.


REFERENCES:
patent: 4725732 (1988-02-01), Lang et al.
patent: 5257073 (1993-10-01), Gross et al.
patent: 5537198 (1996-07-01), Jackson
patent: 6002899 (1999-12-01), Stover et al.
patent: 6097915 (2000-08-01), Fleck et al.

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