Incremental printing of symbolic information – Electric marking apparatus or processes – Electrostatic
Reexamination Certificate
2002-07-09
2003-12-30
Lee, Susan S. Y. (Department: 2852)
Incremental printing of symbolic information
Electric marking apparatus or processes
Electrostatic
Reexamination Certificate
active
06670975
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to a laser control device used with an electrophotographic apparatus such as a copier or a laser beam printer.
2. Description of the Related Art
The relationship between the light intensity of a laser and the surface potential of a photoconductor and the image density will be discussed with reference to
FIGS. 3
to
6
. Usually, a light exposure optical section applies a laser to the photoconductor surface uniformly charged by a charger, whereby the charges of the laser-applied portion are removed for attenuating the surface potential and an electrostatic latent image is formed. A developing section electrostatically deposits toner of charged fine particles on the electrostatic latent image.
The laser output from the light exposure optical section normally forms a Gaussian distribution as shown in FIG.
3
and has the largest light intensity at the center and lessened moderately as away from the center.
FIG. 4
shows the relationship between the surface potential of the photoconductor and the laser light intensity (light exposure amount); the larger the light exposure amount, the more attenuated the surface potential of the photoconductor. Thus, the laser output is a Gaussian distribution and therefore the surface potential of the photoconductor exposed to light by the laser becomes the lowest at the center and becomes higher as away from the center, as shown in FIG.
5
. Since toner of charged fine particles is easily deposited on a place where the potential difference is the largest, namely, a place where the surface potential of the photoconductor is low, the image density is the highest at the center and is lower as away from the center, as shown in FIG.
6
. From
FIGS. 3
to
6
, if the light exposure amount of the laser is small, the attenuated surface potential is also small and thus the toner deposition amount also lessens and the image density is low and the dot diameter also lessens. If the light exposure amount of the laser is large, the image density is high and the dot diameter also increases.
From the relationship between the laser light exposure amount and the surface potential of the photoconductor, hitherto, to hold uniform image quality, a laser of a constant light exposure amount has been applied for uniformly attenuating the surface potential of the photoconductor to form an electrostatic latent image, and toner has been electrostatically deposited on the electrostatic latent image to provide the uniform density. On the other hand, however, if high-density print is executed, there has been tendency to crush small letters and thin lines. If the print condition is changed for printing so as to prevent characters from being crushed, a problem of lowering the density of a solid black part has occurred and it has been difficult to provide image quality compatibility between small characters and solid black.
In recent years, with development of different high resolutions, from the fact that the attenuation amount of the surface potential of the photoconductor varies depending on the applied light exposure amount, a system wherein light amount varying means for varying the light exposure amount of a laser at a plurality of levels is provided for varying the light exposure amount of the applied laser in response to an image for adjusting the attenuation amount of the surface potential of the photoconductor has been known. In this system, small dots are formed in a thin line part in a low light exposure amount and large dots are formed in a solid black part in a large light exposure amount for adjusting the deposited toner amount. The dot diameter is thus varied in the light exposure amount responsive to the print image for depositing the optimum toner amount for controlling the print density, whereby compatibility between clear print of small characters and thin lines and high-density print of a solid black part is provided for executing high-resolution print.
FIG. 7A
is a schematic drawing to show a laser control device in a related art having light amount varying means for varying the light exposure amount of a laser at a plurality of levels. In
FIGS. 7A and 7B
, a print signal for weak light exposure and a print signal for strong light exposure are converted into drive signals of a laser
3
by a laser control circuit
2
for controlling the light exposure amount of the laser for each print signal, thereby driving the laser
3
. A and C in
FIG. 7B
indicate dots printed by laser outputs &agr; and &ggr;.
FIG. 8
is an image drawing of a print image when an image “A” is printed as an example using two types of light amounts of weak light exposure and strong light exposure according to the laser control configuration shown in
FIGS. 7A and 7B
;
FIG. 8B
is a whole drawing and
FIG. 8A
is an enlarged view of a part.
Since the light exposure amounts at a plurality of levels are used for control to provide the compatibility between clear print and high-density print, the time to reaching a preset light amount (peak) in one light exposure amount differs from that in another light exposure amount and the light exposure amounts differ and thus dot diameters of various sizes are formed. If the longitudinal write positions of the print signal for weak light exposure a and the print signal for strong light exposure c and the signal ON times (light exposure times of laser) are the same as shown in
FIGS. 7A and 7B
in the laser control device using the light exposure amounts at a plurality of levels, the time to the peak of the laser output &agr; of strong light exposure differs from the time to the peak of the laser output &ggr; of weak light exposure by one time t, and the printed dots differ by distance d corresponding to the time t. Thus, the laser control device in the related art produces the relative difference between the peak positions of the light exposure amounts. Thus, for the image comprising weak and strong light exposure parts mixed as shown in
FIGS. 8A and 8B
, the weak and strong light exposure parts differ in print position by one distance d in the scanning direction. Because of such a phenomenon, the definition (resolution) of the print image is impaired in such a manner that a longitudinal white stripe is entered in a perpendicular direction to the scanning direction in solid black, etc., which is a problem.
SUMMARY OF THE INVENTION
The present invention has been made in view of the above, and therefore an object of the invention is to correct the turning on time of a print signal, thereby matching the times to the peaks of laser outputs with each other for removing the difference between print positions to accomplish high-resolution print.
To achieve the above object, according to the invention, a laser control device comprising light amount varying means for varying the light exposure amount at a plurality of levels is provided with correction means for correcting the turning on time of a print signal. Particularly, means for delaying the turning on time of the print signal in response to the light exposure amount is provided. According to the configuration, the peak positions of laser outputs of the print signals relative to the light exposure amounts at a plurality of levels can be matched with each other, so that the difference between image print positions can be removed to accomplish high-resolution print.
REFERENCES:
patent: 4763241 (1988-08-01), Egawa et al.
patent: 4937591 (1990-06-01), Miyake et al.
patent: 4967284 (1990-10-01), Yoshida et al.
patent: 5550573 (1996-08-01), Serizawa et al.
patent: 6476955 (2002-11-01), Yoshida
Ito Ken-ichi
Obara Kazutoshi
Ueda Satoshi
Hitachi Printing Solutions, Ltd.
Lee Susan S. Y.
McGinn & Gibb PLLC
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