Image forming apparatus having function for automatically...

Electrophotography – Control of electrophotography process – Of plural processes

Reexamination Certificate

Rate now

  [ 0.00 ] – not rated yet Voters 0   Comments 0

Details

Reexamination Certificate

active

06285839

ABSTRACT:

This application is based on an application No. 10035729 filed in Japan, the content of which is hereby incorporated by reference.
BACKGROUND OF THE INVENTION
(1) Field of the Invention
The present invention relates to a so-called “tandem-type” image forming apparatus, and particularly relates to a technique for adjusting variations in sensitivity among sensors when the sensors respectively detect toner images formed by image forming units to control an image forming condition.
(2) Related Art
For conventional color copiers, a method using a transfer drum or intermediate transfer component has been commonly employed. A color copier using this method is provided with a single image forming unit, and a photosensitive drum in the image forming unit is rotated for each color. Toner images formed corresponding to colors cyan, magenta, yellow, and black are superimposed to form a color image. Hereinafter, these toner colors are referred to as “C”, “M”, “TY”, and “K”.
As stated above, this conventional color copier is provided with a single photosensitive drum. Thus, for the automatic image density control (referred to as the “AIDC” hereinafter) and the correction, the amount of toner attracted to the photosensitive drum is detected for each color using a single photoelectric sensor (referred to as the “AIDC sensor” hereinafter).
The following is a brief description of an example of the AIDC performed using the AIDC sensor.
For the AIDC, the AIDC sensor detects the density of a standard patch (referred to as the “AIDC pattern” hereinafter). In accordance with the detection value, a grid voltage VG of a sensitizing charger and a developing bias voltage VB of a developing unit are controlled by referring to a table that is stored in a memory beforehand. Consequently, the image density is appropriately maintained.
FIG. 1
is a schematic diagram showing an arrangement of a photosensitive drum
301
, a sensitizing charger
302
, and a developing unit
303
of the image forming unit provided in the conventional color copier. As shown in this diagram, the sensitizing charger
302
is set facing the photosensitive drum
301
, with the discharge voltage being referred to as VC. A grid
3021
of the sensitizing charger
302
is applied a negative grid voltage VG by a VG generating unit
304
. The grid voltage VG is considered to be almost equivalent to a surface potential VO of the photosensitive drum
1
C. This is to say, the surface potential VO of the photosensitive drum
301
can be controlled by adjusting the grid voltage VG.
A developing roller
3031
of the developing unit
303
is applied a negative developing bias voltage VB by a VB generating unit
305
, with the developing bias voltage VB satisfying an inequality |VB|<|VO|. Accordingly, the surface potential of the developing roller
3031
becomes VB.
When the laser exposure is performed on the photosensitive drum
301
in this state, the surface potential of the exposed part on the photosensitive drum
301
increases and becomes a voltage VI. When the voltage VI becomes higher than the developing bias voltage VB, negatively charged toner carried to the surface of the developing sleeve of the developing roller
3031
is attracted to the exposed part on the photosensitive drum
301
. The higher a developing voltage &Dgr;V is, the more amount of toner is attracted to the exposed part. Here, the developing voltage &Dgr;V is calculated according to the following equation.
&Dgr;V=|VB−VI|
As such, the developing voltage &Dgr;V changes as the surface potential VO and the bias voltage VB are changed.
Consequently, the amount of toner attracted to the photosensitive drum
301
can be controlled by changing the surface potential VO and the bias voltage VB.
With this being the situation, a AIDC sensor
306
detects the amount of toner in the AIDC pattern that is formed on the photosensitive drum
301
under a predetermined level of exposure. In accordance with the detection result, the VG and the VB are adjusted, so that the density of the AIDC pattern can be maintained constant.
More specifically, the values of the VG and VB are set from the detection value obtained by the AIDC sensor
306
in accordance with a table shown in
FIG. 2
which is experimentally obtained.
In recent years, tandem-type color copier have been increasingly used. In a tandem-type color copier, toner images respectively formed on photosensitive drums set along a transfer belt are transferred onto a recording sheet transported on the transfer belt or onto the transfer belt to form a color image.
In this tandem-type color copier, an image forming unit is provided for each color. Thus, it is preferable to provide an AIDC sensor for each image forming unit to detect the amount of attracted toner. By doing so, the AIDC can be separately performed for each color.
In this case, however, if the sensitivity of the AIDC sensors varies, a color balance of the formed image is inappropriate.
When the amount of attracted toner is detected by the single AIDC sensor as explained about the conventional color copier employing the method using the transfer drum, it is a minor problem if a detection value obtained by the AIDC sensor has an error. In this case, the detected density for each color is darker or lighter than an actual color at the same level based on the error. Therefore, each density of toner images is adjusted in the same direction in accordance with the error, so that the color balance can be maintained.
Meanwhile, when the AIDC sensor for detecting the amount of toner is provided for each of the photosensitive drums in the tandem-type color copier, the sensitivity of the AIDC sensors may vary. In this case, even when the AIDC sensors respectively detects AIDC patterns formed in the same density, the AIDC sensors may output different detection values.
As one example, when the sensitivity of the AIDC sensors for Y and K is low, each density of the yellow and black AIDC patterns is detected lower than the actual density. In this case, these density of yellow and black are corrected in a way that these colors become darker than they should.
FIG. 3
shows gradation characteristics of C, M, Y, and K obtained as a result of the incorrect density adjustment. As shown in
FIG. 3
, yellow and black colors are enhanced. The color of the formed image is out of balance due to the enhanced these colors.
In particular, when a color to be reproduced belongs to a gray area, it is important to reproduce the color in the correct color balance. Variations in the gradation characteristics of toner colors lead to deterioration in the color reproduction.
SUMMARY OF THE INVENTION
The object of the present invention is to provide a tandem-type image forming apparatus, in which toner images are formed by a plurality of image forming units and the amounts of toner in the toner images are detected by respective detecting units to control an image forming condition, that corrects a reproduced density for each color by adjusting variations in sensitivity of the detecting units so that an image with high color reproduction is obtained.
The object of the present invention can be achieved by an image forming apparatus forming an image by transferring images respectively formed by a plurality of image forming units onto one of a recording material transported by a transfer belt and the transfer belt, being made up of: a plurality of detecting units, each of which is provided in a different image forming unit and detects an amount of toner in a toner image formed by a corresponding image forming unit; a first value obtaining unit for obtaining a value outputted by each of the plurality of detecting units on detecting a same standard pattern as first values; a second value obtaining unit for obtaining a value outputted by each of the detecting units on detecting the toner image formed by the corresponding image forming unit as second values; an adjusting unit for adjusting each second value in accordance with the first value outputted by a same det

LandOfFree

Say what you really think

Search LandOfFree.com for the USA inventors and patents. Rate them and share your experience with other people.

Rating

Image forming apparatus having function for automatically... does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Image forming apparatus having function for automatically..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Image forming apparatus having function for automatically... will most certainly appreciate the feedback.

Rate now

     

Profile ID: LFUS-PAI-O-2546355

  Search
All data on this website is collected from public sources. Our data reflects the most accurate information available at the time of publication.