The present invention relates to an image forming apparatus comprising: an image carrier on which an electrostatic latent image is formed; means for forming a latent image on the image carrier; means for developing the latent image by abutting a developing roller on the image carrier; means for transferring a toner image developed on the image carrier onto an intermediate transfer medium; and a cleaner, abutting on the image carrier, for removing post-transfer residual toner, wherein the developing roller spaced apart from the image carrier during a development color switching operation.
An image forming apparatus includes, around the periphery of a photosensitive body serving as a rotary image carrier, a charging device to charge the photosensitive body uniformly along the rotational direction thereof, an exposing device to form an electrostatic latent image on the photosensitive body, a developing device to develop an electrostatic latent image, a transferring device to transfer a toner image on the photosensitive body onto a transferring member, a cleaner to clean the surface of the post-transfer photosensitive body, etc. An electrostatic latent image formed on the photosensitive body by the exposing device is developed by the developing device to form a toner image. The toner image thus formed is transferred onto a transferring member and residual toner on the post-transfer photosensitive body is removed from the photosensitive body by the cleaner.
In a case of a rotary-type full-color image forming apparatus that forms a full-color image, color toner images, formed on the photosensitive body by the respective developing devices for yellow Y, magenta M, cyan C, and black K, are sequentially transferred onto an intermediate transferring member to superpose colors. For this reason, the developing cartridges of respective colors of toner are detachably mounted to a rotary development unit, and each time an electrostatic latent image of one color is formed on the photosensitive body, the rotary development unit is driven by a development color switching operation to move the developing cartridge of the corresponding toner by rotation to a developing position for a developing operation to be performed. Such a configuration is disclosed in Japanese Patent Publication Nos., 2002-82532A, and 2003-66801A, for example.
In an image forming apparatus, an outer circumferential surface of the photosensitive body is repetitively scanned in the axial direction thereof (primary scanning direction) to form an electrostatic latent image thereon while the photosensitive body is uniformly rotated. An exposing beam from the exposing device is modulated by an image forming signal. Therefore, when the rotations of the photosensitive body are unstable to cause vibrations and irregularities, there occurs a problem that the image quality is deteriorated due to banding, which appears, for example, in the form of a streak in the secondary scanning direction.
One of the factors that make rotations of the photosensitive body unstable to cause vibrations and irregularities is, besides the configuration of a gear train in the driving mechanism, the presence of the cleaner that abut on the photosensitive body along the periphery thereof.
The cleaner is to clean residual toner on the post-transfer photosensitive body after a toner image formed on the photosensitive body is transferred onto a transferring member. In order to enhance the cleaning effect, tho cleaner is abutted on the outer circumferential surface of the photosensitive body at a constant pressure by a spring or the like. A lower abutting pressure naturally reduces the cleaning effect; however, a higher abutting pressure becomes a factor that generates irregular vibrations associated with frictional sliding between the outer circumferential surface of the photosensitive body and the cleaner. In addition, the angle at which the blade abuts on the outer circumferential surface of the photosensitive body, the position of the supporting point, at which the cleaner is supported, with respect to the tangential line to the abutting surface, etc. have an influence on the cleaning effect.
Further, in contrast to an image forming apparatus in which the developing roller constantly abuts on the photosensitive body, in an image forming apparatus in which the developing roller is retracted from the developing position on the photosensitive body during the development color switching, it is observed that irregularities in rate of the photosensitive body readily occur. For example, in a rotary-type color image forming apparatus provided with the rotary development unit, the rotary development unit is rotated when the development color switching operation is performed while each of the developing rollers is sequentially brought into contact with the photosensitive body and spaced apart therefrom. Due to the repetition of the abutment and retraction, the outer circumferential surface of the photosensitive body cannot be maintained in the uniform state, and the cleaner is no longer able to undergo frictional sliding smoothly, which in turn makes a rate of the photosensitive body unstable.
It is therefore an object of the invention to provide an image forming apparatus which is capable of eliminating irregularities in an image induced by irregularities in the image carrier caused by frictional sliding with the cleaning member, and in particular, eliminating irregularities in an image induced by irregularities in the rotation velocity of the image carrier during the development color switching operation.
In order to achieve the above object, according to the invention, there is provided an image forming apparatus, comprising:
an image carrier, on which an electrostatic latent image is formed;
a developing roller, separatably abutted on the image carrier at a developing position to supply toner onto the image carrier to make the latent image visible as a toner image;
a transfer member, on which the toner image is transferred;
a cleaner, abutted on the image carrier to remove toner remained thereon; and
a toner supplier, which supplies toner onto the image carrier while the developing roller is separated from the image carrier.
Preferably, the toner supplier is a circulator such as a rotary brush which returns the toner removed by the cleaner onto the image carrier.
Preferably, the toner supplier reversely transfers toner, which has been once transferred from the image carrier to the transfer member, from the transfer member to the image carrier. Here, the toner is reversely transferred onto a portion of the image carrier that passes the developing position while the developing roller is separated from the image carrier.
Preferably, the developing roller is mounted on a rotary unit operable to move the developing roller in a circumferential direction thereof, thereby separating the developing roller from the image carrier. Here, the rotary unit comprises a plurality of cartridges each of which contains one color of toner different from another and is provided with the developing roller.
Preferably, the cleaner comprises a blade member which is pivotable about a point situated further from the image carrier relative to a tangential line defined at an abutting point between the blade member and to the image carrier.
According to the invention, there is also provided an image forming apparatus, comprising:
an image carrier, on which an electrostatic latent image is formed;
a developing roller, separatably abutted on the image carrier at a developing position to supply toner onto the image carrier to make the latent image visible as a toner image;
a transfer member, on which the toner image is transferred;
a cleaner, abutted on the image carrier to remove toner remained thereon; and
a lubricant supplier, which supplies lubricant onto the image carrier while the developing roller is separated from the image carrier.
Preferably, the lubricant supplier is a circulator such as a rotary brush which returns the toner removed by the cleaner onto the image carrier as the lubricant.
Preferably, the lubricant supplier is a boater which directly coats the lubricant including zinc stearate onto the image carrier.
Preferably, the lubricant supplier reversely transfers toner, which has been once transferred from the image carrier to the transfer member, from the transfer member to the image carrier as the lubricant. Here, the toner is reversely transferred onto a portion of the image carrier that passes the developing position while the developing roller is separated from the image carrier.
Preferably, the developing roller is mounted on a rotary unit operable to move the developing roller in a circumferential direction thereof, thereby separating the developing roller from the image carrier. Here, the rotary unit comprises a plurality of cartridges each of which contains one color of toner different from another and is provided with the developing roller.
Preferably, the cleaner comprises a blade member which is pivotable about a point situated further from the image carrier relative to a tangential line defined at an abutting point between the blade member and to the image carrier.
According to the invention, there is also provided an image forming apparatus, comprising:
an image carrier, on which an electrostatic latent image is formed;
a developing roller, separatably abutted on the image carrier at a developing position to supply toner onto the image carrier to make the latent image visible as a toner image,
a first transfer member, on which the toner image is primarily transferred; and
a first cleaner, abutted on the image carrier to remove toner remained thereon,
wherein a dummy toner image is formed on a portion of the first transfer member which faces a portion of the image carrier that passes the developing position while the developing roller is separated from the image carrier.
Preferably, the dummy toner image is formed periodically or every time when the toner image is formed in a predetermined number of times.
Preferably, the dummy toner image is an image in which a plurality of lines or dots are arrayed with a fixed interval.
Preferably, the dummy toner image is reversely transferred onto the portion of the image carrier that passes the developing position while the developing roller is separated from the image carrier.
Preferably, the image forming apparatus further comprises: a second transfer member, which secondarily transfer the toner image from the first transfer member onto a recording medium; and a second cleaner, operable to remove toner remained on the first transfer member. Here, the second cleaner is separated from the first transfer member so as to avoid the dummy toner image.
Preferably, the developing roller is mounted on a rotary unit operable to move the developing roller in a circumferential direction thereof, thereby separating the developing roller from the image carrier. Here, the rotary unit comprises a plurality of cartridges each of which contains one color of toner different from another and is provided with the developing roller.
Preferably, the first cleaner comprises a blade member which is pivotable about a point situated further from the image carrier relative to a tangential line defined at an abutting point between the blade member and to the image carrier.
According to the invention, there is also provided an image forming apparatus, comprising:
an image carrier;
a latent image former, which forms an electrostatic latent image on the image carrier;
a developing roller, separatably abutted on the image carrier at a developing position to supply toner onto the image carrier to make the latent image visible as a toner image;
a first transfer member, on which the toner image is primarily transferred;
a first cleaner, abutted on the image carrier to remove toner remained thereon; and
a toner supplier, which supplies toner onto the image carrier such that the supplied toner is placed on a portion of the image carrier at which the first cleaner is abutted when the latent image former starts to form the latent image.
Preferably, the toner supplier supplies the toner while the developing roller is separated from the image carrier.
Preferably, the supplied toner is a dummy toner image formed on the first transfer member.
Preferably, the image forming apparatus further comprises: a second transfer member, which secondarily transfer the toner image from the first transfer member onto a recording medium; and a second cleaner, operable to remove toner remained on the first transfer member. Here, the second cleaner is separated from the first transfer member so as to avoid the dummy toner image.
Preferably, the toner supplier is a circulator such as a rotary brush which returns the toner removed by the first cleaner onto the image carrier.
Preferably, the developing roller is mounted on a rotary unit operable to move the developing roller in a circumferential direction thereof, thereby separating the developing roller from the image carrier. Here, the rotary unit comprises a plurality of cartridges each of which contains one color of toner different from another and is provided with the developing roller.
Preferably, the first cleaner comprises a blade member which is pivotable about a point situated further from the image carrier relative to a tangential line defined at an abutting point between the blade member and to the image carrier.
According to the invention, there is also provided an image forming apparatus, comprising:
a rotary image carrier;
a latent image former, which forms an electrostatic latent image on the image carrier;
a developing roller, separatably abutted on the image carrier at a first circumferential position thereof to supply toner onto the image carrier to make the latent image visible as a toner image;
a transfer member, on which the toner image is transferred;
a cleaner, abutted on the image carrier at a second circumferential position thereof to remove toner remained thereon; and
a controller, which causes the latent image former to start to form the latent image after the toner supplied from the developing roller reaches the second circumferential position.
Preferably, the controller includes a detector which detects whether the toner is absent at the second circumferential position. Here, the controller inhibits the latent image formation when the detects that the toner is absent at the second circumferential position.
It is preferable that the detector detects whether the toner is absent at the first portion based on a fact that the developing roller is abutted on a portion of the image carrier placed at the second circumferential position when the portion was placed at the first circumferential position.
It is also preferable that the detector detects whether the toner is absent at the first portion based on a fact that a dummy toner image is formed on a portion of the transfer member that opposes a portion of the image carrier which was placed at the first circumferential position while the developing roller is separated from the image carrier.
Preferably, the developing roller is mounted on a rotary unit operable to move the developing roller in a circumferential direction thereof, thereby separating the developing roller from the image carrier. Here, the rotary unit comprises a plurality of cartridges each of which contains one color or toner different from another and is provided with the developing roller.
Preferably, the first cleaner comprises a blade member which is pivotable about a point situated further from the image carrier relative to a tangential line defined at an abutting point between the blade member and to the image carrier.
The above objects and advantages of the present invention will become more apparent by describing in detail preferred exemplary embodiments thereof with reference to the accompanying drawings, wherein:
Embodiments of the invention will be described below in detail with reference to the accompanying drawings.
As shown in
The photosensitive body 3, serving as an image carrier, includes a conductive base material of a thin cylindrical shape, and a photosensitive layer formed on the surface thereof. Around the periphery of the photosensitive body 3 are provided a charging device 4 to uniformly charge the outer circumferential surface of the photosensitive body 3, an exposing device (or a writing device) 5 to form an electrostatic latent image on the photosensitive body 3, the rotary development unit 8 to develop the electrostatic latent image, an intermediate transfer belt 12 onto which the toner image on the photosensitive body 3 is primarily transferred, the intermediate transfer unit to perform primary transfer for the toner image to be transferred onto the intermediate transfer belt 12, a cleaner 7 to clean the surface of the photosensitive body 3 after the primary transfer is performed.
The intermediate transfer unit comprises: a driving roller 10; a follower roller 11; the intermediate transfer belt 12, which is an endless belt stretched by these rollers 10 and 11 and is circulated in a direction indicated by an arrow in
The power supply 16 is provided below the exposing device 5, and the sheet feeding tray 17 is provided at the bottom of the body casing 2. A recording medium in the sheet feeding tray 17 is transported to the sheet discharge tray 21 by way of a pick-up roller 18, a transportation path 19, the secondary transfer roller 15, and the fixing unit 20. A holder 17b is attached to the sheet feeding tray 17 so as to be pulled out forward from the apparatus, and in order to handle a sheet of paper of a larger size, an auxiliary tray 17a, protruding from behind the apparatus, is attached so as to be pulled out from the apparatus.
With the image forming apparatus 1 configured as described above, when an image forming signal is inputted into the exposing device 5, the photosensitive body 3, a developing roller 6a provided with each toner cartridge in the rotary development unit 8, and the intermediate transfer belt 12 are driven under the control of the control unit, and the outer circumferential surface of the photosensitive body 3 is uniformly charged first by the charging device 4. Subsequently, the surface of the photosensitive body 3 is selectively exposed by the exposing device 5 according to image information to form an electrostatic latent image.
In this instance, the rotary development unit 8 is rotated such that the developing roller 6a of the toner cartridge is brought into contact with the photosensitive body 3. The electrostatic latent image is made visible as a toner image formed on the photosensitive body 3. The toner image is transferred onto the intermediate transfer belt 12 by the primary transfer roller 13 to which a primary transfer voltage of a polarity opposite to a toner charging polarity is being applied. Toner remaining on the photosensitive body 3 is then removed by the cleaner 7.
In a full-color image forming apparatus, toner cartridges 6Y, 6M, 6C, and 6K, respectively corresponding to yellow Y, magenta M, cyan C, and black K, are detachably mounted to the rotary development unit 8. During an image forming operation, the surface of the photosensitive body 3 is selectively exposed by the exposing device 5 according to image information of a first color, for example, yellow Y, to form an electrostatic latent image of yellow Y. In this instance, the rotary development unit 8 moves by rotation in such a manner that the developing roller 6a of the toner cartridge 6Y of yellow Y abuts on the photosensitive body 3 for a toner image of the electrostatic latent image of yellow Y to be formed thereon. The toner image is subsequently transferred onto the intermediate transfer belt 12 by the primary transfer roller 13 to which the primary transfer voltage of a polarity opposite to a toner charting polarity is being applied.
During the foregoing operations, the belt cleaner 14 and the secondary transfer roller 15 are kept spaced apart from the intermediate transfer belt 12. By repetitively performing a series of these operations for image forming signals of a second color, a third color, and a fourth color, toner images of yellow Y, magenta M, cyan C, and black K corresponding to the contents of the respective image forming signals are transferred from the photosensitive body 3 to be superposed sequentially on the intermediate transfer belt 12, and as a result, a full-color image of four colors is formed thereon.
At a timing at which a full-color image in which the respective colors of toner images are superposed reaches the secondary transfer roller 15, a recording medium in the feed tray 17 is transferred from the pickup roller 18 to the secondary transfer roller 15 via the transportation path 19, and the secondary transfer roller 15 is pressed against the intermediate transfer belt 12 while being applied with a secondary transfer voltage. The full-color toner image on the intermediate transfer bolt 12 is thereby transferred onto the recording medium by the secondary transfer roller 15. When the recording medium, onto which the full-color toner image has been transferred in this manner, is transferred to the fixing unit 20 via the street transfer unit 22, the toner image on the recording medium is heated and pressurized by the fixing unit 20 to be fixed thereon. Toner remaining on the intermediate transfer belt 12 is then removed by the belt cleaner 14.
In the case of double-sided printing, a recording medium coming out from the fixing unit 20 is switched back so that the rear end comes to the forefront, and is fed to the secondary transfer roller 15 again by way a double-sided printing transportation path in the sheet transportation unit 22. A full-color toner image on the intermediate transfer belt 12 is then transferred onto the other side of the recording medium, and is fixed thereon through heating and pressuring by the fixing unit 20 again, after which the recording medium is discharged onto the sheet discharge tray 21.
In this embodiment, four toner cartridges 6Y, 6M, 6C, and 6K are mounted to the rotary development unit 8 to constitute a full-color image forming apparatus of four colors. However, the toner cartridge 6K for the toner of black K alone may be mounted to constitute a monochrome image forming apparatus, in which the toner cartridge 6K stands by at the stand-by position (home position), and when an image is formed, the toner cartridge 6K of black K moves by rotation from the stand-by position to the developing position to develop an electrostatic latent image on the photosensitive body 3 into a toner image. This allows the use of the rotary development unit 8 of the same design specifications for both full-color and monochrome images. By using the common specifications for full-color and monochrome images, it is possible to remarkably save the maintenance, design, and manufacturing costs in comparison with a case where an image forming apparatus is designed separately for a full-color image and a monochrome image.
The mechanism of irregularities in the rotation velocity of the photosensitive body and a countermeasure will now be described with reference to
In the color image forming apparatus of this embodiment, while the rotary development unit 8 is in a stand-by state and stays at the home position, none of the toner cartridges 6Y, 6M, 6C, and 6K is present at the developing position to oppose the photosensitive body 3. In short, the developing roller 6a does not abut on the photosensitive body 3. Normally, even when no image is written by the exposing device 5, a slight quantity of fogging toner mounts on the photosensitive body 3 while the developing roller 6a abuts on the photosensitive body 3, and the fogging toner serves as a kind or lubricant at the abutting point of the cleaner 7. This enables smooth frictional sliding of the photosensitive body 3 with respect to the cleaner 7, and as a consequence, there is only a slight irregularity in the rotation velocity of the photosensitive body 3.
However, when the surface of the photosensitive body 3 cleaned by the cleaner 7 moves by rotation and abuts on the cleaner 7 again to undergo frictional sliding while the developing roller 6a is kept spaced apart from the photosensitive body 3, because no fogging toner is present, the frictional resistance of the photosensitive body 3 becomes larger on the abutting point of the cleaner 7, which in turn makes the rotational velocity of the photosensitive body 3 unstable. In other words, as the frictional resistance on the surface of the photosensitive body 3 becomes larger, the photosensitive body 3 is thought to repetitively undergo minute locking and releasing phenomena with respect to the cleaner 7, which appears as irregularities in the velocity and vibrations of the photosensitive body 3.
Referring to
An area where irregularities in the rotation velocity of the photosensitive body are generated due to the operation sequence will now be described.
The oblique line “m” indicates the movement of a position on the photosensitive body 3 at which the developing roller 6a comes in contact. That is, an intersection between the oblique line “m” and the horizontal line labeled as “cleaning blade” means that the position at which the development roller 6a comes in contact reaches the abutment point of the cleaner 7.
Similarly, the oblique line “n” indicates the movement of a position on the photosensitive body 3 at which the developing roller 6a separates to be subjected to the development color switching. That is, an intersection between the oblique line “n” and the horizontal line labeled as “cleaning blade” means that the position at which the development roller 6a separates reaches the abutment point of the cleaner 7.
As is shown in
As is shown in
After that, the primary transfer bias is applied when the toner image reaches the primary transfer position (the intersection between the oblique line “o” and the horizontal line labeled “primary transfer bias”) to primarily transfer the toner image onto the intermediate transfer belt 12.
Hence, for a time period t′ from the point in time at which the image forming signal is activated to the point in time at which the development roller 6a comes in contact reaches the abutment point of the cleaner 7, an area of the photosensitive body 3 in which the developing roller 6a has not been abutted (that is, toner as the lubricant is absent) is subjected to the frictional contact with the cleaner 7. The time period t′ is therefore an area where irregularities in the rotation velocity of the photosensitive body 3 are generated. For the second through fourth colors, this area is similarly defined as a time period between the intersections of the oblique lines m and n with respect to the horizontal line labeled as “cleaning blade”.
In view of the above, in this embodiment, lubricant such as toner is supplied to the photosensitive body 3 where the developing roller 6a is not abutted thereon during the development color switching. Specifically, the lubricant is supplied so as to be present at a portion of the photosensitive body 3 that comes in contact with the cleaner 7 when the exposure with a beam B (see
Specifically, the supply of lubricant is performed by forming a dummy toner image on an area of the intermediate transfer belt 12 opposing the photosensitive body 3 that passes by the developing position during the development color switching. The dummy image on the intermediate transfer belt 12 is thus transferred reversely onto the photosensitive body 3 at the primary transfer point, by controlling the primary transfer bias, the contact velocity or pressure between the intermediate transfer belt 12 and the photosensitive body 3, or without having to perform any special control. The toner reversely transferred onto the photosensitive body 3 serves as the lubricant between the photosensitive body 3 and the cleaner 7, which makes it possible to stably maintain the rotation velocity of the photosensitive body 3.
The above fact can be expressed as explained below. In this embodiment, the exposure with the beam B from the exposing device 5 performed after the development color switching of the rotary development unit 8 is so controlled as to start after the portion of the photosensitive body 3 onto which the lubricant such as toner has been supplied reaches the abutment point of the cleaner 7. For example, the initiation of exposure is suspended until the toner image which has been reversely transferred from the intermediate transfer belt 12 onto the photosensitive body 3 reaches the abutment point of the cleaner 7. Here, there may be performed judgment whether the lubricant is supplied on the photosensitive body 3 at the abutment point of the cleaner 7. The exposure may be canceled if the absent of the lubricant at the abutment point of the cleaner 7 is judged.
In order to transfer the toner image reversely from the intermediate transfer belt 12 onto the photosensitive body 3, it is necessary to keep the belt cleaner 14 spaced apart so that the toner present on the intermediate transfer belt 12 will not be removed until it is transported to the primary transfer point.
The toner image on the intermediate transfer belt 12 may be the above described dummy image or the fogging toner transferred from the photosensitive body 3 at the primary transfer point.
The formation of the dummy toner image will be described with reference to
In this case, the dummy image (black-painted part) is first formed and transferred onto the intermediate transfer belt 12 (indicated by an arrow I) before an image formation for the first color is performed. Since the residual toner is present on the photosensitive body 3 even after the primary transfer is performed, the photosensitive body 3 and the cleaner 7 undergo frictional sliding smoothly, thereby eliminating velocity fluctuations of the photosensitive body 3.
For the image formation of the second, the third and the fourth colors, the primary transfer bias is controlled such that the dummy toner image is reversely transferred from the intermediate transfer belt 12 onto an area of the photosensitive body where the developing rollers 6a have not been abutted during the development color switching (indicated by arrows II, III and IV). It is thus possible to eliminate a time duration during which the lubricant is absent on the abutting portion between the photosensitive body 3 and the cleaner 7 at least while a latent image is formed by an exposing beam B.
While the developing roller 6a is abutted on the photosensitive body 3, fogging toner may be supplied even if any toner image is formed thereon, so that the fogging toner serves as the lubricant. When the toner image formed and transferred onto the intermediate transfer belt 12, the toner residual on the photosensitive body 3 may serve as the lubricant.
In view of the above, a slight quantity is sufficient for the toner to be transferred reversely as the lubricant from the intermediate transfer belt 12 onto the photosensitive body 3. It is thus possible to transfer the dummy toner image reversely from the intermediate transfer belt 12 little by little repetitively more than once, by controlling a quantity of toner to be transferred reversely at the primary transfer point. The number of repetition times can be controlled by the number of image formations or a quantity of toner used for the dummy image, or the bias used for inverse transfer.
The dummy image to be transferred in advance from the photosensitive body 3 onto the intermediate transfer belt 12 can be a periodical line image formed, for example, by exposing an exposing beam B from the exposing device 5 in a cycle of 1-line ON and 10-line OFF, or an image of a regular dot pattern. An image area and a non-image area are assigned on the intermediate transfer belt 12. When the exposing device 5 starts exposure from a given point (i.e., the image area) with the use of an exposing beam B according to an image signal, the point at which the photosensitive body 3 abuts on the cleaner 7 is found, and the area, across which the toner is to be transferred in advance (i.e., the non-image area), is determined on the basis of the computation.
Instead of the dummy image formation, as shown in
Alternatively, as is shown in
As shown in
The control for replenishing toner on the photosensitive body 3 from the intermediate transfer belt 12 will now be described in more detail with reference to
In this embodiment, prior to the image forming operation, the photosensitive body 3, the developing roller 6a of the rotary development unit 8, and the intermediate transfer belt 12 are driven to rotate in the directions Ro, Rd, and Rb, respectively, and the outer circumferential surface of the photosensitive body 3 is thereby charged uniformly by the charging device 4. Subsequently, as shown in
As is shown in
Since the belt cleaner 14 and the secondary transfer roller 15 are kept spaced apart from the intermediate transfer belt 12, when the toner image 36 of the first color has been formed on the photosensitive body 3, the dummy toner image 35′ on the intermediate transfer belt 12 approaches the primary transfer point as shown in
In order to perform the image formation of the second color, the development color switching of the rotary development unit 8 is performed. Then, as shown in
Likewise, when the image formation of the second color is started, as shown in
When the image formation of the fourth color is started, as shown in
During the foregoing operations, the belt cleaner 14 is kept spaced apart from the intermediate transfer belt 12 as are shown in
As has been described, by positively replenishing toner on the photosensitive body 3 in an area where the lubricant runs out during the developing color switching during which the developing roller 6a is kept spaced apart from the photosensitive body 3, the subsequent exposure can be started as soon as the developing color switching is completed, which can shorten a so-called sheet-to-sheet interval. In a case where no toner is present on the photosensitive body 3 that opposes the cleaner 7 during the operation sequence involving the development color switching, the exposure may not be performed as is shown in
It should be appreciated that the invention is not limited to the embodiments above, and can be modified in various manners. For example, an applicable apparatus is not necessarily limited to a rotary-type full-color image forming apparatus equipped with the rotary development unit, provided that the apparatus is of a type in which the developing roller is kept spaced apart from the photosensitive body during the standby state and the developing roller is abutted on the photosensitive body according to a job execution in performing the image formation. Also, it goes without saying that the invention is applicable to a monochrome image forming apparatus regardless of whether the apparatus is equipped with the rotary development unit or not in solving the similar problems.
Further, when the dummy image is transferred reversely onto the photosensitive body from the intermediate transfer belt, not only the bias in the opposite direction is applied, but also the primary transfer bias may be controlled by lowering the primary transfer bias to reduce a potential difference or deactivating the primary transfer bias. Alternatively, the circumferential velocity or the contact pressure of the primary transfer roller may be changed.
In addition, the dummy image is not necessarily formed in the form of a toner image of the first color or black K, and it may be formed, for example, in the form of n toner image of yellow Y having a low visibility. The dummy image is not necessarily formed immediately before the image formation of the first color, and it may be formed during the position setting operation by which the cartridge or the unit is set in the standby state for replacement, or when the image forming operation is started from the standby state, and thereafter, it may be formed on the intermediate transfer belt based on certain criteria according to the number of jobs having been performed.
Although the present invention has been shown and described with reference to specific preferred embodiments, various changes and modifications will be apparent to those skilled in the art from the teachings herein. Such changes and modifications as are obvious are deemed to come within the spirit, scope and contemplation of the invention as defined in the appended claims.
Number | Date | Country | Kind |
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P2003-147794 | May 2003 | JP | national |
P2003-147795 | May 2003 | JP | national |
P2003-147796 | May 2003 | JP | national |
P2003-147797 | May 2003 | JP | national |
P2003-158947 | Jun 2003 | JP | national |
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