Information
-
Patent Grant
-
6459865
-
Patent Number
6,459,865
-
Date Filed
Wednesday, February 7, 200123 years ago
-
Date Issued
Tuesday, October 1, 200221 years ago
-
Inventors
-
Original Assignees
-
Examiners
- Chen; Sophia S.
- Ngo; Hoang
Agents
- Dickstein, Shapiro, Morin & Oshinsky, LLP.
-
CPC
-
US Classifications
Field of Search
US
- 015 2565
- 015 25651
- 015 25652
- 399 101
- 399 249
- 399 327
- 399 344
- 399 346
- 399 347
- 399 348
- 399 350
- 399 351
- 399 352
- 399 353
- 399 354
- 399 355
- 399 357
- 399 358
- 399 359
- 399 360
-
International Classifications
-
Abstract
A transfer roller cleaning mechanism 12 is brought into contact with a transfer roller 11 so as to remove a harmful substance contained in a developer remaining on the transfer roller 11 after a transfer step. Upon completion of printing of a predetermined number of pages, a fixation roller 13 is moved apart from the transfer roller 11 and a developed image for cleaning is formed over the entire printing area on a photosensitive body 1. This developed image is made into a film shape, which is transferred onto the transfer roller 11. The film-shaped developed image for cleaning is cleaned by the transfer roller cleaning mechanism 12.
Description
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a liquid-developing electro-photographic printer photosensitive body cleaning method and in particular, to a liquid-developing electro-photographic printer photosensitive body cleaning method for removing harmful substance (viscous substance) from a photosensitive body using an existing transfer roller cleaning mechanism without providing a new mechanism for cleaning the photosensitive body.
2. Description of the Related Art
Conventionally, in this type of liquid-developing electro-photographic printer photosensitive body cleaning method, a harmful substance (viscous substance) contained in a liquid developer adheres to a photosensitive body during printing. That is, a portion of a film-shaped developed image formed on the photosensitive body from which solvent in the liquid developer is removed is transferred onto a transfer roller together with the harmful substance by the viscous force of the liquid developer and the photosensitive body is cleaned while a portion where no film-shaped developed image is formed leaves the harmful substance on the photosensitive body.
The harmful substance is accumulated in a great amount at the portion of the photosensitive body if no film-shaped developed image is formed for several hundred pages. After this, when a film-shaped developed image is formed at that portion having the harmful substance accumulated in a great amount, this film-shaped developed image cannot be transferred onto the transfer roller because the film-shaped developed image has a great viscous force with the harmful substance, resulting in a defective image.
Moreover, the photosensitive body is contaminated by the harmful substance accumulated in a great amount and its service life is reduced. Accordingly, it is necessary to remove this harmful substance from the photosensitive body.
SUMMARY OF THE INVENTION
It is therefore an object of the present invention to provide a liquid-developing electro-photographic printer photosensitive body cleaning method for removing harmful substance (viscous substance) from a photosensitive body using an existing transfer roller cleaning mechanism without providing a new mechanism for cleaning the photosensitive body.
The liquid-developing electro-photographic printer photosensitive body cleaning method according to the present invention is for use in a liquid-developing electro-photographic printer comprising: charging means for uniformly charging a photosensitive body surface; exposure means for optically forming a latent image on the photosensitive body surface charged; developing means for developing the latent image with a liquid developer to obtain a visible developed image; drying means for drying the developed image to obtain a film-shaped developed image; transfer/fixation means for transferring the film-shaped developed image from the photosensitive body onto a transfer roller opposed to the transfer roller and transferring/fixing the transferred image onto a paper inserted into a contact portion between the transfer roller and a fixation roller; these means being arranged around the photosensitive body,
wherein a transfer roller cleaning mechanism is provided arranged in contact with the transfer roller so as to remove a harmful substance contained in a developer remaining on the transfer roller after a transfer step and deteriorating a function of the transfer roller,
the method comprising a photosensitive body cleaning mode for removing a harmful substance contained in the enveloper remaining on a printing area of the photosensitive body and deteriorating the function of the photosensitive body, the mode including:
a step of moving the fixation roller apart from the transfer roller upon completion of printing of a predetermined number of pages;
a step of forming a developed image for cleaning over an entire printing area of the photosensitive body;
a step of making the developed image for cleaning into a film shape;
a step of transferring the film-shaped developed image for cleaning onto the transfer roller; and
a step of cleaning the film-shaped developed image for cleaning using the transfer roller cleaning mechanism.
According to another aspect of the present invention, the liquid-developing electro-photographic printer photosensitive body cleaning method is for use in a liquid-developing electro-photographic printer comprising: charging means for uniformly charging a photosensitive body surface; exposure means for optically forming a latent image on the photosensitive body surface charged; developing means for developing the latent image with a liquid developer to obtain a visible developed image; drying means for drying the developed image to obtain a film-shaped developed image; transfer/fixation means for transferring the film-shaped developed image from the photosensitive body onto a transfer roller opposed to the transfer roller and transferring/fixing the transferred image onto a paper inserted into a contact portion between the transfer roller and a fixation roller; these means being arranged around the photosensitive body,
wherein a transfer roller cleaning mechanism is provided arranged in contact with the transfer roller so as to remove a harmful substance contained in a developer remaining on the transfer roller after a transfer step and deteriorating a function of the transfer roller,
the method comprising a photosensitive body cleaning mode for removing a harmful substance contained in the developer remaining on a printing area of the photosensitive body and deteriorating the function of the photosensitive body, the mode including:
a step of moving the fixation roller apart from the transfer roller upon completion of printing of a predetermined number of pages;
a step of moving the transfer roller cleaning mechanism apart from the transfer roller;
a step of forming a developed image for cleaning having a width of the printing area and a length equal to a circumference of the transfer roller on the photosensitive body;
a step of making the developed image for cleaning into a film shape and transferring the film-shaped developed image for cleaning onto the transfer roller, so that the film-shaped developed image for cleaning is adhered onto the entire surface of the transfer roller;
a step of removing harmful substance adhered to the photosensitive body by the viscous force of the film-shaped developed image for cleaning, from the photosensitive body by the transfer onto the transfer roller; and
a step of pressing the transfer roller cleaning mechanism to the transfer roller so as to remove the film-shaped developed image for cleaning and the harmful substance from the transfer roller.
According to yet another aspect of the present invention, the liquid-developing electro-photographic printer photosensitive body cleaning method is for use in a liquid-developing electro-photographic printer comprising: charging means for uniformly charging a photosensitive body surface; exposure means for optically forming a latent image on the photosensitive body surface charged; developing means for developing the latent image with a liquid developer to obtain a visible developed image; drying means for drying the developed image to obtain a film-shaped developed image; transfer/fixation means for transferring the film-shaped developed image from the photosensitive body onto a transfer roller opposed to the transfer roller and transferring/fixing the transferred image onto a paper inserted into a contact portion between the transfer roller and a fixation roller; these means being arranged around the photosensitive body,
wherein a transfer roller cleaning mechanism is provided arranged in contact with the transfer roller so as to remove a harmful substance contained in a developer remaining on the transfer roller after a transfer step and deteriorating a function of the transfer roller,
the method comprising a photosensitive body cleaning mode for removing a harmful substance contained in the developer remaining on a printing area of the photosensitive body and deteriorating the function of the photosensitive body, the mode including:
a step of moving the fixation roller apart from the transfer roller upon completion of printing of a predetermined number of pages;
a step of spraying a liquid developer solvent onto the photosensitive body between the drying means and the transfer roller so as to weaken a bondage between a harmful substance and the photosensitive body;
a step of transferring the harmful substance onto the transfer roller; and
a step of cleaning the transfer roller by the transfer roller cleaning mechanism.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1
shows an electro-photographic printer according to the present invention in a printing state.
FIG. 2
shows a belt-shaped photosensitive body having a harmful substance adhered.
FIG. 3
shows the belt-shaped photosensitive body after a transfer operation.
FIG. 4
shows the electro-photographic printer in a belt-shaped photosensitive body cleaning mode.
FIG. 5
shows a detailed configuration of a transfer roller cleaning mechanism of the electro-photographic printer according to the present invention.
FIG. 6
shows the electro-photographic printer in a stop mode.
FIG. 7
shows an operation sequence according to a first embodiment.
FIG. 8
explains a third embodiment.
FIG. 9
shows an operation sequence of the third embodiment.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
Description will now be directed to embodiments of the present invention with reference to the attached drawings.
FIG. 1
shows a configuration example of a liquid-developing color electro-photographic printer used in the present invention. The liquid-developing color electro-photographic printer includes a belt-shaped photosensitive body
1
surrounded by a main charger
2
and chargers
33
a
,
33
b
,
33
c
, and
33
d
as charging means, laser units
40
a
,
40
b
,
40
c
, and
40
d
as exposure means, developing units
30
a
,
30
b
,
30
c
, and
30
d
as developing means, a drying unit
50
as drying means, and a transfer unit
10
as transfer/fixation means for the four colors of yellow, cyan, magenta, and black. Using these mechanisms, an image is printed on a paper P fed by a paper feed roller
5
through a series of electro-photographic process.
The developing units
30
a
to
30
d
includes developing rollers
31
a
,
31
b
,
31
c
, and
31
d
as cylindrical metal members, each of which is rotatably supported at both ends by roller support bodies (not depicted). During printing operation, developing voltage is supplied from the shaft end portion to the developing rollers
31
a
to
31
d
which are arranged at a position to keep a small gap of 150 [micrometers] against the belt-shaped photosensitive body
1
. Moreover, the developing rollers
31
a
to
31
d
are driven to rotate in the direction indicated by arrow “b” and a liquid developer supplied is fed to this small gap so as to develop an electrostatic latent image formed on the belt-shaped photosensitive body
1
. The developing rollers
31
a
to
31
d
are moved apart from the belt-shaped photosensitive body
1
immediately before the printer enters a stop mode upon completion of the printing operation.
Squeeze rollers
32
a
,
32
b
,
32
c
, and
32
d
are cylindrical members having a width (length) greater than the developing rollers
32
a
to
32
d
and each including a roller portion made from a semiconductor urethane rubber (resistance 1×105 to 1×109 [.cm]) and a shaft portion as a metal member. Each of the squeeze rollers
32
a
to
32
d
is rotatably supported at both ends by roller support bodies (not depicted). During a printing operation, a squeeze voltage is applied from the shaft end of the squeeze rollers
32
a
to
32
d
and a compression coil spring contained in the roller support bodies (not depicted) presses the squeeze rollers
32
a
to
32
d
against the belt-shaped photosensitive body
1
with a predetermined force so that the squeeze rollers
32
a
to
32
d
are rotated in the direction indicated by c by the friction with the belt-shaped photosensitive body
1
while removing an excessive liquid developer remaining after development on the belt-shaped photosensitive body
1
. The squeeze rollers
32
a
to
32
d
are moved apart from the belt-shaped photosensitive body
1
immediately before the printer enters the stop mode upon completion of the printing operation.
The drying belt is a PET (polyethylene terephthalate) substrate coated by a substance absorbing a solvent of the liquid developer. During a printing operation, this drying belt
51
is pressed by a drying belt roller
52
with a predetermined force against the belt-shaped photosensitive body
1
and rotated in the direction indicated by the arrow “d” by the friction force with the belt-shaped photosensitive body
1
while absorbing an excessive liquid developer. When the portion of the drying belt
51
which has absorbed the liquid developer comes to a heat roller
53
, the absorbed liquid developer evaporates. A drying belt cleaning roller
54
cleans the contamination adhered to the drying belt
51
. When the printing operation is complete, the drying belt
51
is moved apart from the belt-shaped photosensitive body
51
.
The transfer roller
11
is a metal pipe coated by a silicone rubber. During a printing operation, the transfer roller
11
is pressed by the transfer backup roller
4
with a predetermined force against the belt-shaped photosensitive body
1
so as to fetch an image from the belt-shaped photosensitive body
1
and the image is transferred onto the paper P. When the printing operation is complete, the transfer roller
11
is moved apart from the belt-shaped photosensitive body
1
.
FIG. 5
shows a configuration of the transfer roller cleaning mechanism
12
for cleaning the transfer roller
11
. Referring to
FIG. 5
, the transfer roller cleaning mechanism
12
includes: a backup roller
101
arranged in a pressed manner against the transfer roller
11
; a sheet member
102
inserted between the backup roller
101
and the transfer roller
11
for cleaning the transfer roller
11
; a feed-out roller for feeding out this sheet member
102
; a roll-up roller
103
for rolling up this sheet member
102
; a housing
100
for holding the feed-out roller
104
, the roll-up roller
103
, and the sheet member
102
; an actuator
105
connected to the housing
100
for connecting and disconnecting the housing
100
in the direction indicated by the arrow “h”, i.e., toward/from the transfer roller
11
; and a cover
106
for receiving scraped dust as result of cleaning of the transfer roller
11
.
The sheet member
102
is a lapping film 661X (trade name) produced by 3M Co., Ltd. which includes a PET substrate on which particles of silicon carbide having a particle diameter of
15
[micrometers] are arranged. When the cleaning mode is set in, the sheet member
102
is pressed with a predetermined force against the transfer roller
11
so as to clean the transfer roller
11
. When the belt-shaped photosensitive body cleaning mode is complete, the sheet member
102
and the backup roller
101
are moved apart from the transfer roller
11
.
Description will now be directed to an operation of the aforementioned liquid-developing color electro-photographic printer with reference to
FIG. 1
to FIG.
7
.
When a printing data is entered, the drying belt
51
is pressed with a force of 12 [kgf] against the belt-shaped photosensitive body
1
and the transfer roller
11
is pressed with a force of 60 [kgf] against the belt-shaped photosensitive body
1
. The belt-shaped photosensitive body
1
is moved in the direction indicated by the arrow “a” and charged by the main charger
2
with +750 [V] (FIG.
1
). Here, the drying belt
51
is rotated in the direction indicated by the arrow “d” while the transfer roller
11
is rotated in the direction indicated by the arrow “e” following the movement of the belt-shaped photosensitive body
1
.
After this, a liquid developer circulation pump (not depicted) starts operation to supply a plus-charged liquid developer to the developing rollers
32
a
to
32
d
which are driven to rotate in the direction indicated by the arrow “b”. A voltage of +450 [V] is applied to the developing rollers
32
a
to
32
d
and a voltage of +450 [V] is successively applied to the squeeze rollers
32
a
to
32
d
(in the order to the yellow developer
30
a
, the cyan developer
30
b
, the magenta developer
30
c
, and the black developer
30
d
). Simultaneously with this, the chargers
33
a
to
33
d
are turned on (the belt-shaped photosensitive body
1
is charged to +750 [V]).
Next, a cam (not depicted) rotates to move the developers
30
a
to
30
d
vertically so as to successively raise the yellow developer
30
a
, the cyan developer
30
b
, the magenta developer
30
c
, and the black developer
30
d
from the stop position to the printing position. When these developers
30
a
to
30
d
are raised to the printing position, the developing rollers
32
a
to
32
d
are positioned against the belt-shaped photosensitive body
1
with the gap of 150 [micrometers].
The squeeze rollers
32
a
to
32
d
are pressed with a force of 30 [kgf] by the pressing spring against the belt-shaped photosensitive body
1
. Here, the squeeze rollers
32
a
to
32
d
are rotated in the direction indicated by the arrow “c” following the belt-shaped photosensitive body
1
.
Next, the laser units
40
a
to
40
d
perform an exposure process (the exposure block potential becomes +150 [V]) and an electrostatic latent image is formed on the belt-shaped photosensitive body
1
.
The liquid developer supplied to the developing rollers
32
a
to
32
d
is carried to the 150 [micrometers] gap (a developing nip block) between the belt-shaped photosensitive body
1
and the developing rollers
32
a
to
31
d
while the developing rollers
32
a
to
32
d
are rotated in the direction indicated by the arrow “b”. When the electrostatic latent image on the belt-shaped photosensitive body
1
reaches this gap, the electrostatic latent image is developed by an electric field between the belt-shaped photosensitive body
1
and the developing rollers
32
a
to
32
d
(potential difference between the exposure portion potential +150 [V] of the belt-shaped photosensitive body
1
and the developing roller potential +450 [V]). An excessive liquid developer remaining on the belt-shaped photosensitive body
1
immediately after the development is removed by the squeeze rollers
32
a
to
32
d
pressed with a force of 30 [kgf] against the belt-shaped photosensitive body
1
and supplied with a voltage of +450 [V]. An image on the belt-shaped photosensitive body
1
becomes a film-shaped image. The belt-shaped photosensitive body
1
is again charged by the chargers
33
a
to
33
d
to +750 [V] for the exposure process and the development process of the next color (the exposure/development process is performed for yellow, cyan, magenta, and black in this order).
The film-shaped image on the belt-shaped photosensitive body
1
which has passed through the black developer
30
d
advances to the drying unit
50
so that the drying belt
51
absorbs an excessive liquid developer and the image is dried. The liquid developer absorbed by the drying belt
51
is evaporated by the heat roller
53
, and the evaporated portion is collected into a solvent tank (not depicted).
After this, the image on the belt-shaped photosensitive body
1
advances toward the transfer unit
10
and is pressed with a force of 60 [kgf] against the belt-shaped photosensitive body
1
so as to be transferred onto the transfer roller
11
rotating in the direction indicated by the arrow “e”. Here, the fixation roller
13
is in contact with the transfer roller
11
and is rotated in the direction indicated by the arrow “f”. The paper P is fed to the contact portion between the fixation roller
13
and the transfer roller
11
and the image is transferred from the transfer roller
11
onto the paper P and fixed there.
After the belt is transferred, an eraser
3
removes electric charge from the belt-shaped photosensitive body
1
and the belt-shaped photosensitive body
1
becomes potentially uniform (about +30 [V]). The belt-shaped photosensitive body
1
again charged by the main charger
2
up to +750 [V] and the same process is repeated.
As shown in
FIG. 2
, during a printing operation, when the belt-shaped photosensitive body is brought into contact with the liquid developer, a harmful substance adheres to the belt-shaped photosensitive body
1
. When the portion of the belt-shaped photosensitive body having the liquid developer passes through the drying unit
50
to reach the transfer unit
10
, an image portion, i.e., a film-shaped developed image formed on the surface of the belt-shaped photosensitive body
1
after the solvent is removed from the liquid developer, is transferred to the transfer roller
11
together with the harmful substance due to the viscous force of the liquid developer and that portion of the belt-shaped photosensitive body
1
is cleaned. However, the harmful substance remains on the other portion, i.e., non-image portion (FIG.
3
). If no film-shaped developed image is formed in that portion after this, the harmful substance is accumulated. When the amount of the harmful substance reaches a certain amount, a film-shaped developed image formed in that portion cannot be transferred from the belt-shaped photosensitive body
1
to the transfer roller
11
.
To solve this problem, when printing of a predetermined number of sheets of paper is complete, an image pattern capable of forming a film-shaped developed image over the entire area where printing can be performed is developed to form a film-shaped developed image and all the harmful substances adhered to the printing area of the belt-shaped photosensitive body
1
are transferred together with the film-shaped developed image to the transfer roller
11
. This is the belt-shaped photosensitive body cleaning mode by which the present invention is characterized. In this case, a film-shaped developed image (containing harmful substance) is transferred and the aforementioned transfer roller cleaning mechanism
12
is used.
Next, explanation will be given on a first embodiment of the present invention with reference to
FIG. 1
,
FIG. 4
,
FIG. 5
,
FIG. 6
, and FIG.
7
. The first embodiment is characterized in the photosensitive cleaning mode, during which a developed image for cleaning is formed over the entire printing area of the photosensitive body
1
and the developed film for cleaning is film-shaped, which is transferred to the transfer roller
11
and the film-shaped developed image for cleaning is cleaned by the transfer roller cleaning mechanism
12
.
After completion of a series of electronic photo process to print 200 pages, the belt-shaped photosensitive cleaning mode is set in (FIG.
4
). Firstly, the fixation roller
13
is moved apart from the transfer roller
11
, the sheet member
102
is pressed with a force of 10 [kgf] by the actuator
105
. A black solid pattern is developed over the entire printing area and the developer is formed into a film shape, which is transferred to the transfer roller
11
. Here, the harmful substance adhered to the printing area is also transferred by the viscous force of the film-shaped developed image. The film-shaped developed image transferred onto the transfer roller
11
is removed by a sliding portion of the sheet member
102
. The film-shaped developed image transferred onto the transfer roller
11
advances to the sliding portion of the sheet member
102
and is removed. The surface of the transfer roller
11
which has passed this sliding portion is clean. After the film-shaped developed image and the harmful substance are transferred from the belt-shaped photosensitive body
1
to the transfer roller
11
and the film-shaped developed image and the harmful substance are removed from the transfer roller
11
, the sheet member
102
is removed from the transfer roller
11
by the actuator
105
and the roll up roller
103
is rotated by a predetermined angle to roll up the sheet member
102
in the direction indicated by the arrow “g”, after which a printing operation is started.
After the belt-shaped photosensitive body cleaning mode, 200 pages are printed and again the belt-shaped photosensitive body cleaning mode is set in.
Upon completion of the printing, as shown in FIG.
6
and
FIG. 7
, the liquid developer circulation pump (not depicted) supplying the liquid developer stops and the cam (not depicted) vertically moving the developing units
30
a
to
30
d
rotates so that the developing units
30
a
to
30
d
are lowered to the printer stop position and the developing rollers
32
a
to
32
d
successively stop their rotations (in the order of the yellow developing unit
30
a
, the cyan developing unit
30
b
, the magenta developing unit
30
c
, and the black developing unit
30
d
). After this, the fixation roller
13
moves apart from the transfer roller
11
and then the transfer roller
11
and the drying belt
51
move apart from the belt-shaped photosensitive body
1
. All the voltages applied and the chargers are turned off. Lastly, the belt-shaped photosensitive body
1
stops.
The aforementioned pattern to be developed in the entire printing area during the belt-shaped photosensitive cleaning mode may be any pattern that can be developed over the entire printing area. For example, a yellow solid patter, a cyan solid pattern, or a magenta solid pattern may be used. It is also possible to use liquid developers of two colors to develop 50% of the printing area by each of the color or to use liquid developers of four colors to develop 25% of the printing area by each of the colors.
Referring to FIG.
4
and
FIG. 5
, explanation will be given on a liquid-developing electro-photographic printer photosensitive body cleaning method according to a second embodiment of the present invention. The transfer roller cleaning mechanism
12
is moved apart from the transfer roller
11
and an image for cleaning having a width of the printing area and a length equal to a circumference of the transfer roller
11
is developed on the photosensitive body
1
and the developed image for cleaning is made into a film shape, which is transferred to the transfer roller
11
, so that the film-shaped developed image for cleaning adheres to the entire circumference of the transfer roller
11
. The harmful substance adhered to the photosensitive body
1
is transferred onto the transfer roller
11
by the viscous force of the film-shaped developed image for cleaning which has been transferred onto the transfer roller
11
. After the harmful substance is completely removed from the photosensitive body
1
, the transfer roller cleaning mechanism
12
is pressed against the transfer roller
11
so as to remove the film-shaped developed image for cleaning and the harmful substance from the transfer roller
11
. This is the photosensitive body cleaning mode of the second embodiment.
When the belt-shaped photosensitive body cleaning mode is set in, the fixation roller
13
is moved apart from the transfer roller
11
and without pressing the sheet member
102
for cleaning the transfer roller
11
against the transfer roller
11
, a solid pattern having the width of the entire printing area and the length equal to a circumference of the transfer roller
11
is developed on the belt-shaped photosensitive body
1
. The developed pattern is made into a film shape and transferred to the transfer roller
11
(so that the film-shaped developed image is adhered to the entire circumference of the transfer roller
11
). By the viscous force of the film-shaped developed image transferred to the transfer roller
11
, the harmful substance is removed from the belt-shaped photosensitive body. After this, when the harmful substance on the belt-shaped photosensitive body
1
is completely removed, the sheet member
102
is pressed against the transfer roller
11
so as to remove the film-shaped developed image and the harmful substance from the transfer roller
11
. In this case, the film-shaped developed image formed has a length equal to only a circumference of the transfer roller
11
and accordingly, the amount of the liquid developer consumed in the belt-shaped photosensitive body cleaning mode can be reduced as compared to the first embodiment. (In the first embodiment, four pages of A4 size paper are printed with one turn of the belt, consuming a fairly large amount of the liquid developer).
Referring to FIG.
8
and
FIG. 9
, explanation will be given on a third embodiment of the liquid-developing electro-photographic printer photosensitive body cleaning method. The photosensitive body cleaning mode according to the third embodiment is realized as follows. A liquid developer solvent is applied in spray to the photosensitive body
1
between the drying unit
50
and the transfer roller
11
, so as to weaken the bondage between the harmful substance and the photosensitive body
1
and transfer the harmful substance onto the transfer roller
11
, after which the transfer roller
11
is cleaned by the transfer roller cleaning mechanism
12
.
A film-shaped developed image on the belt-shaped photosensitive body which has passed through the drying unit
50
still contains some liquid developer solvent and is not completely dried. The bondage between the belt-shaped photosensitive body
1
and the film-shaped developed image is small and the bondage between the belt-shaped photosensitive body
1
and harmful substance present in the film-shaped developed image portion is also small. Accordingly, the film-shaped developed image and the harmful substance are transferred to the transfer roller
11
. However, the other portion where no film-shaped developed image is present contains almost no liquid developer solvent and is completely dried. In this portion, the bondage between the harmful substance and the belt-shaped photosensitive body is strong. For this, the harmful substance in the portion having no film-shaped developed image remains and is accumulated on the belt-shaped photosensitive body
1
, causing a defective image. To solve this problem, when printing of a predetermined pages is complete, the liquid developer solvent recovered by the drying unit
50
is applied in spray by a solvent spray nozzle
60
onto the belt-shaped photosensitive body
1
so as to weaken the bondage between the harmful substance and the belt-shaped photosensitive body
1
and to transfer the harmful substance onto the transfer roller
11
. Then, the transfer roller
11
is cleaned by the transfer roller cleaning mechanism
12
. In this case, a pure solvent is sprayed instead of a liquid developer. In the case of a liquid developer, it also contains a harmful substance, has insufficient capability to weaken the bondage, and cannot clean the belt-shaped photosensitive body
1
.
This third embodiment will be detailed with reference to FIG.
8
and FIG.
9
. Upon completion of printing of a predetermined number of pages, the fixation roller
13
is moved apart from the transfer roller
11
and the squeeze rollers
32
a
to
32
d
and the drying belt
51
are moved apart from the belt-shaped photosensitive body
1
. Moreover, the sheet member
102
is pressed against the transfer roller
11
and the liquid developer circulation pump (not depicted) is stopped. The solvent of the liquid developer recovered by the drying unit
50
into a solvent tank (not depicted) during a printing is sprayed from the solvent spray nozzle
60
onto the belt-shaped photosensitive body
1
. This weakens the bondage between the belt-shaped photosensitive body
1
and the harmful substance and the harmful substance is transferred onto the transfer roller
11
. The harmful substance adhered to the transfer roller
11
is removed from the transfer roller
11
by the transfer roller cleaning mechanism
12
.
While the first, the second, and the third embodiment have been explained using the photosensitive body as a belt-shaped photosensitive body, these embodiments can also be realized when a drum-shaped photosensitive body is used.
As has been described above, according to the present invention, upon completion of printing of a predetermined number of pages, the photosensitive body cleaning mode is set in, thereby preventing an image defect caused by harmful substance adhered and accumulated on the photosensitive body. Moreover, this prevents deterioration of the photosensitive body due to the contamination by the harmful substance adhered to the photosensitive body, thereby increasing the service life of the photosensitive body.
The invention may be embodied in other specific forms without departing from the spirit or essential characteristic thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.
The entire disclosure of Japanese Patent Application No. 2000-037909 (Filed on Feb. 16
th
, 2000) including specification, claims, drawings and summary are incorporated herein by reference in its entirety.
Claims
- 1. A liquid-developing electro-photographic printer photosensitive body cleaning method for use in a liquid-developing electro-photographic printer comprising:charging means for uniformly charging a photosensitive body surface; exposure means for optically forming a latent image on the photosensitive body surface charged; developing means for developing the latent image with a liquid developer to obtain a visible developed image; drying means for drying the developed image to obtain a film-shaped developed image; transfer/fixation means for transferring the film-shaped developed image from the photosensitive body onto a transfer roller and transferring/fixing the transferred image onto a paper inserted into a contact portion between the transfer roller and a fixation roller opposed to the transfer roller; these means being arranged around the photosensitive body, wherein a transfer roller cleaning mechanism is provided arranged in contact with the transfer roller so as to remove a harmful substance contained in a developer remaining on the transfer roller after a transfer step and deteriorating a function of the transfer roller, the method comprising a photosensitive body cleaning mode for removing a harmful substance contained in the developer remaining on a printing area of the photosensitive body and deteriorating the function of the photosensitive body, the mode including: a step of moving the fixation roller apart from the transfer roller upon completion of printing of a predetermined number of pages; a step of forming a developed image for cleaning over an entire printing area of the photosensitive body; a step of making the developed image for cleaning into a film shape; a step of transferring the film-shaped developed image for cleaning onto the transfer roller; and a step of cleaning the film-shaped developed image for cleaning using the transfer roller cleaning mechanism.
- 2. A liquid-developing electro-photographic printer photosensitive body cleaning method for use in a liquid-developing electro-photographic printer comprising:charging means for uniformly charging a photosensitive body surface; exposure means for optically forming a latent image on the photosensitive body surface charged; developing means for developing the latent image with a liquid developer to obtain a visible developed image; drying means for drying the developed image to obtain a film-shaped developed image; transfer/fixation means for transferring the film-shaped developed image from the photosensitive body onto a transfer roller and transferring/fixing the transferred image onto a paper inserted into a contact portion between the transfer roller and a fixation roller opposed to the transfer roller; these means being arranged around the photosensitive body, wherein a transfer roller cleaning mechanism is provided arranged in contact with the transfer roller so as to remove a harmful substance contained in a developer remaining on the transfer roller after a transfer step and deteriorating a function of the transfer roller, the method comprising a photosensitive body cleaning mode for removing a harmful substance contained in the developer remaining on a printing area of the photosensitive body and deteriorating the function of the photosensitive body, the mode including: a step of moving the fixation roller apart from the transfer roller upon completion of printing of a predetermined number of pages; a step of moving the transfer roller cleaning mechanism apart from the transfer roller; a step of forming a developed image for cleaning having a width of the printing area and a length equal to a circumference of the transfer roller on the photosensitive body; a step of making the developed image for cleaning into a film shape and transferring the film-shaped developed image for cleaning onto the transfer roller, so that the film-shaped developed image for cleaning is adhered onto the entire surface of the transfer roller; a step of removing harmful substance adhered to the photosensitive body by the viscous force of the film-shaped developed image for cleaning, from the photosensitive body by the transfer onto the transfer roller; and a step of pressing the transfer roller cleaning mechanism to the transfer roller so as to remove the film-shaped developed image for cleaning and the harmful substance from the transfer roller.
- 3. A liquid-developing electro-photographic printer photosensitive body cleaning method for use in a liquid-developing electro-photographic printer comprising:charging means for uniformly charging a photosensitive body surface; exposure means for optically forming a latent image on the photosensitive body surface charged; developing means for developing the latent image with a liquid developer to obtain a visible developed image; drying means for drying the developed image to obtain a film-shaped developed image; transfer/fixation means for transferring the film-shaped developed image from the photosensitive body onto a transfer roller and transferring/fixing the transferred image onto a paper inserted into a contact portion between the transfer roller and a fixation roller opposed to the transfer roller; these means being arranged around the photosensitive body, wherein a transfer roller cleaning mechanism is provided arranged in contact with the transfer roller so as to remove a harmful substance contained in a developer remaining on the transfer roller after a transfer step and deteriorating a function of the transfer roller, the method comprising a photosensitive body cleaning mode for removing a harmful substance contained in the developer remaining on a printing area of the photosensitive body and deteriorating the function of the photosensitive body, the mode including: a step of moving the fixation roller apart from the transfer roller upon completion of printing of a predetermined number of pages; a step of spraying a liquid developer solvent onto the photosensitive body between the drying means and the transfer roller so as to weaken a bondage between a harmful substance and the photosensitive body; a step of transferring the harmful substance onto the transfer roller; and a step of cleaning the transfer roller by the transfer roller cleaning mechanism.
- 4. The liquid-developing electro-photographic printer photosensitive body cleaning method as claimed in claim 1, wherein the transfer roller cleaning mechanism comprises:a backup roller to be pressed against the transfer roller when cleaning the transfer roller; a sheet material inserted between the backup roller and the transfer roller so as to clean the transfer roller; a send-out roller for sending out the sheet material; a roll-up roller for rolling up the sheet material; a housing for holding the send-out roller, the roll-up roller, and the sheet material; an actuator connected to the housing for pressing and disconnecting the housing to/from the transfer roller; and a cover for receiving scraped dust as a result of cleaning of the transfer roller.
- 5. The liquid-developing electro-photographic printer photosensitive body cleaning method as claimed in claim 2, wherein the transfer roller cleaning mechanism comprises:a backup roller to be pressed against the transfer roller when cleaning the transfer roller; a sheet material inserted between the backup roller and the transfer roller so as to clean the transfer roller; a send-out roller for sending out the sheet material; a roll-up roller for rolling up the sheet material; a housing for holding the send-out roller, the roll-up roller, and the sheet material; an actuator connected to the housing for pressing and disconnecting the housing to/from the transfer roller; and a cover for receiving scraped dust as a result of cleaning of the transfer roller.
- 6. The liquid-developing electro-photographic printer photosensitive body cleaning method as claimed in claim 3, wherein the transfer roller cleaning mechanism comprises:a backup roller to be pressed against the transfer roller when cleaning the transfer roller; a sheet material inserted between the backup roller and the transfer roller so as to clean the transfer roller; a send-out roller for sending out the sheet material; a roll-up roller for rolling up the sheet material; a housing for holding the send-out roller, the roll-up roller, and the sheet material; an actuator connected to the housing for pressing and disconnecting the housing to/from the transfer roller; and a cover for receiving scraped dust as a result of cleaning of the transfer roller.
- 7. The liquid-developing electro-photographic printer photosensitive body cleaning method as claimed in claim 1, wherein the photosensitive body is a belt-shaped photosensitive body.
- 8. The liquid-developing electro-photographic printer photosensitive body cleaning method as claimed in claim 2, wherein the photosensitive body is a belt-shaped photosensitive body.
- 9. The liquid-developing electro-photographic printer photosensitive body cleaning method as claimed in claim 3, wherein the photosensitive body is a belt-shaped photosensitive body.
- 10. The liquid-developing electro-photographic printer photosensitive body cleaning method as claimed in claim 1, wherein the photosensitive body is a drum-shaped photosensitive body.
- 11. The liquid-developing electro-photographic printer photosensitive body cleaning method as claimed in claim 2, wherein the photosensitive body is a drum-shaped photosensitive body.
- 12. The liquid-developing electro-photographic printer photosensitive body cleaning method as claimed in claim 3, wherein the photosensitive body is a drum-shaped photosensitive body.
- 13. The liquid-developing electro-photographic printer photosensitive body cleaning method as claimed in claim 1, wherein the developed image for cleaning is an entire-area solid pattern of a single color or a plurality of colors to be developed over the entire printing area.
- 14. The liquid-developing electro-photographic printer photosensitive body cleaning method as claimed in claim 2, wherein the developed image for cleaning is an entire-area solid pattern of a single color or a plurality of colors to be developed over the entire printing area.
Priority Claims (1)
Number |
Date |
Country |
Kind |
2000-037909 |
Feb 2000 |
JP |
|
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5768672 |
Van Herpen et al. |
Jun 1998 |
A |
5970281 |
Park |
Oct 1999 |
A |
6347212 |
Kosugi et al. |
Feb 2002 |
B1 |