JP3545917B2 - Transfer transfer device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a transfer / conveyance apparatus used for an image forming apparatus such as a copying machine, a printer, and a facsimile.
[0002]
[Prior art]
In general, in an image forming apparatus such as a copying machine, a printer, and a facsimile, an electrostatic latent image is formed on an image carrier such as a photoconductor by a latent image forming unit, and the electrostatic latent image on the image carrier is developed. The toner image on the image carrier is transferred to a sheet such as transfer paper by a transfer device. As the transfer device, a transfer charger, a transfer roller, a transfer conveyance device, or the like is used.
[0003]
The transfer / conveyance device contacts the image carrier with an endless transfer belt stretched over a plurality of rollers, applies a transfer bias to the transfer belt from a transfer bias applying unit, and feeds the sheet fed by the transfer belt. The toner image on the image carrier is transferred to a sheet, the sheet is separated from the transfer belt at a predetermined position, and the transfer belt is cleaned after the sheet is separated. Cleaning with blade.
[0004]
JP-A-8-110712 discloses that in an image forming apparatus having a transfer belt, the transfer belt is cleaned with a cleaning blade on the assumption that the transfer belt and an image carrier including a photosensitive drum are brought into contact. What prevents back stains is described.
Japanese Utility Model Laid-Open No. 3-125372 discloses an image forming apparatus having a transfer belt, in which a means for applying a bias to a roller in contact with the outer peripheral surface of the transfer belt is provided as a means for cleaning the transfer belt. .
[0005]
Japanese Patent Application Laid-Open No. 4-209145 describes a belt transfer / conveyance apparatus provided with a transfer body conveyance belt that continues to clean the transfer body conveyance belt for a predetermined time after the transfer body conveyance belt is separated from the photoconductor. Have been. Japanese Patent Application Laid-Open No. Hei 4-233556 discloses a method for cleaning a photosensitive belt using two fur brushes to which positive and negative biases are applied.
[0006]
Japanese Patent Application Laid-Open No. 5-303310 discloses that a conductive member capable of applying a bias voltage to a blade for cleaning a transfer belt is provided, and a polarity opposite to a charging characteristic of the toner immediately before the blade is released from the transfer belt. An image forming apparatus that applies a bias voltage to the conductive member, immediately before the blade contacts the transfer belt, applies a bias voltage having the same polarity as the charging characteristic of the toner to the conductive member, and stops the application after the contact. Has been described. Japanese Patent Application Laid-Open No. 1-262576 describes an image forming apparatus that drives a transport belt at a speed higher than the transport speed at the time of image formation when the transport belt is separated from an image forming unit and is cleaned by a blade. I have.
[0007]
[Problems to be solved by the invention]
In the device described in JP-A-8-110712, the transfer belt is brought into contact with the photosensitive drum to clean the transfer belt with the cleaning blade. Powder or the like is input to the transfer belt and the transfer belt cannot be sufficiently cleaned.
[0008]
The present invention can effectively achieve the cleaning of the toner on the transfer belt and the cleaning of the paper dust on the transfer belt, can reduce the back stain of the sheet such as the transfer paper, and has a charging roller. It is possible to reduce the contamination of the charging roller in the image forming apparatus, stabilize the charging potential of the image carrier, stabilize the image forming process, and enable stable image formation over time, and transfer. The cleaning property of the belt can be improved, the wear and chipping of the cleaning member can be prevented, the toner on the transfer belt can be electrically cleaned by applying a cleaning bias, and the cleaning of the transfer belt can be performed mechanically. In addition, the cleaning of the transfer belt can be improved by electrically Cleaning, the load on the cleaning member can be reduced, the life of the cleaning member can be prolonged, the normally charged toner and the oppositely charged toner on the transfer belt can be cleaned, and the transfer belt cleaning can be performed. It is an object of the present invention to provide a transfer conveyance device that can surely perform cleaning of a transfer belt when a degree of a defect is severe.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, the invention according to claim 1 includes an endless transfer belt that supports and conveys a sheet and electrostatically transfers a toner image on an image carrier to the carried sheet. A driving unit for rotating, a cleaning member for cleaning the transfer belt, a first electrode for contacting the inner peripheral surface of the transfer belt and applying a transfer bias to the transfer belt, and applying a transfer bias to the first electrode. In a transfer / conveying apparatus having a power supply to be supplied and a contact / separation unit for bringing the transfer belt and the image carrier into and out of contact with each other, when the transfer belt is cleaned by the cleaning member after image formation is completed, In a state in which the transfer belt and the image carrier are separated from each other, the rotation speed of the transfer belt is at least lower than the process linear speed. It is possible to effectively achieve the cleaning of the toner on the transfer belt and the cleaning of the paper dust on the transfer belt, and to reduce the back contamination of the sheet such as the transfer paper. The contamination of the charging roller can be reduced, the charging potential of the image carrier can be stabilized, the image forming process can be stabilized, and stable image formation can be performed over time. Can be improved, and wear and chipping of the cleaning member can be prevented.
[0010]
According to a second aspect of the present invention, in the transfer conveyance device according to the first aspect, a bias applying unit that applies a cleaning bias to the transfer belt when the transfer belt is cleaned by the cleaning member is provided. In addition to providing the same effect as the transfer conveyance device described in 1, the toner on the transfer belt can be electrically cleaned by applying a cleaning bias, and the cleaning of the transfer belt is performed mechanically and electrically. The cleaning property of the transfer belt can be improved, and the transfer belt can be cleaned in a short time, so that the load on the cleaning member can be reduced and the life of the cleaning member can be extended.
[0011]
According to a third aspect of the present invention, in the transfer / transport apparatus of the second aspect, the cleaning bias has a polarity opposite to the normal charging polarity of the toner. Not only is it possible to clean, but it is also possible to clean the oppositely charged toner on the transfer belt.
[0012]
According to a fourth aspect of the present invention, in the transfer / transport apparatus according to the second aspect, the cleaning bias has the same polarity as the normal charging polarity of the toner. In addition to cleaning, the normally charged toner on the transfer belt can be cleaned.
[0013]
According to a fifth aspect of the present invention, in the transfer / transport apparatus according to the second aspect, the bias applying unit applies a bias having the same polarity as a normal charging polarity of the toner as the cleaning bias to the transfer belt and a normal charging polarity of the toner. Applies a bias having a reverse polarity at a different timing, so that the same effect as that of the transfer / conveying apparatus according to claim 2 can be obtained, and both the normally charged toner and the oppositely charged toner on the transfer belt are cleaned. can do.
[0014]
According to a sixth aspect of the present invention, in the transfer / transport apparatus according to the fifth aspect, when the transfer belt is cleaned by the cleaning member, the transfer belt has the normal charging polarity of the toner as the cleaning bias. Performs the operation of applying a bias having the same polarity and a bias having a polarity opposite to the normal charge polarity of the toner at different timings at least twice or more, and achieves the same effect as the transfer / transport apparatus according to claim 5. In addition, when the degree of cleaning failure of the transfer belt is severe, the transfer belt can be more reliably cleaned than the transfer conveyance device according to the fifth aspect.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
1 to 3 show a first embodiment of the present invention. The first embodiment is an embodiment of the invention according to claims 1 and 2, and is used for an image forming apparatus including, for example, an electrophotographic copying machine. In the transfer conveyance device 1 of the first embodiment, a belt unit 2 is detachably supported by a copying machine main body 3 and is installed below an image carrier 4 composed of a drum-shaped photosensitive member.
[0016]
As shown in FIGS. 1 and 2, the belt unit 2 includes an endless transfer belt 5, a driving roller 6 and a driven roller 7 on which the transfer belt 5 is stretched to rotate the transfer belt 5, and a transfer belt 5. A contact / separation lever 8 and a DC solenoid 9 which constitute contact / separation means for contacting / separating the photosensitive member 4, a contact electrode 10 composed of a bias roller for applying a transfer bias to the transfer belt 5, and a charge on the transfer belt 5 are removed And a contact plate 11 to be used.
[0017]
The transfer conveyance device 1 includes, in addition to the belt unit 2, a cleaning device 12 including a cleaning member 12A including a cleaning blade that scrapes off residual toner adhering to the surface of the transfer belt 4 and paper debris of the sheet S including the transfer paper; A high-voltage power supply 13 for applying a transfer bias to the roller 10, a transfer control plate 14 as control means for controlling the high-voltage power supply 13 and controlling the transfer bias, and the cleaning device 12 and the high-voltage power supply 13 Is provided.
[0018]
The drive roller 6 has a gear 6b connected to a drive motor as shown in FIGS. 3 and 4, and is driven by the drive motor to rotate the transfer belt 5 in a direction opposite to the rotation direction of the photoconductor 4. Therefore, the drive motor constitutes a drive unit for driving the transfer belt 5 to rotate. As shown in FIG. 5, the transfer belt 5 has a two-layer structure of an inner layer 5a and a surface layer 5b, and has a surface resistivity of the surface layer 5b as measured by JIS K6911 when 100 V DC is applied. 1 × 10 ⁹ Ω ~ 1 × 10 ¹² Ω, the surface resistivity of the inner layer 5a is 1 × 10 ⁷ Ω ~ 1 × 10 ⁹ Ω and volume resistivity 5 × 10 ⁸ Ω · cm to 5 × 10 ¹⁰ It is set to Ω · cm.
[0019]
The drive roller 6 and the driven roller 7 are rotatably supported by a support 15 as shown in FIGS. The support member 15 supports the support shaft 6 a of the drive roller 6, which is located downstream of the nip portion (transfer position) B between the photosensitive member 4 and the transfer belt 5 in the transfer paper transport direction A among the drive roller 6 and the driven roller 7. It can swing as a fulcrum, and the contact / separation lever 8 is connected to a DC solenoid 9.
[0020]
When the DC solenoid 9 is turned on / off by a control plate 16 as control means, the contact / separation lever 8 separates the transfer belt 5 from the photoconductor 4 as shown in FIG. As shown in FIG. Normally, the DC solenoid 9 is off and the contact / separation lever 8 separates the transfer belt 5 from the photoconductor 4 via the support 15.
[0021]
The transfer sheet S is fed from a sheet feeding device to sheet feeding means 17 including a registration roller. The registration roller 17 is driven by a driving source when a registration clutch is turned on to transfer the transfer sheet S to the toner image on the photoconductor 4. The toner is sent out between the photoreceptor 4 and the transfer belt 5 at a predetermined speed with the front end position being aligned. When the leading end of the transfer sheet S approaches the photoconductor 4, the control plate 16 drives the DC solenoid 9 to turn it on, and the DC solenoid 9 drives the contact / separation lever 8.
[0022]
Accordingly, the contact / separation lever 8 drives the support 15 to press the transfer belt 5 against the photoconductor 4, and conveys the transfer paper S to a position facing the transfer belt 5 and the photoconductor 4 while making the transfer paper S contact the photoconductor 5. A nip B is formed. As shown in FIG. 4, the driven roller 7 of the rollers 6 and 7 which is located on the photoconductor 4 side is formed such that both end portions 7 a in the axial direction are tapered to prevent the transfer belt 5 from shifting. ing.
[0023]
The driven roller 7 is a conductive roller made of metal or the like, but only supports the transfer belt 5 having the electric resistance as described above, and is electrically connected directly to another conductive member. It is electrically floating. The driving roller 6 can feed back a current to the high voltage power supply 13 like the contact plate 11 and can be grounded. The drive roller 6 is made of a material such as EPDM rubber, chloroprene rubber, or silicone rubber in order to increase the gripping force on the transfer belt 5 when driving the transfer belt 5. The driving roller 6 may be a conductive roller without using rubber.
[0024]
The bias roller 10 is provided so as to contact the inner peripheral surface of the transfer belt 5 on the downstream side (left side in FIGS. 1 and 2) of the driven roller 7 with respect to the moving direction of the transfer belt 5. The bias roller 10 forms a contact electrode for applying a charge having a polarity opposite to the normal charge polarity of the toner on the photoconductor 4 to the transfer belt 5, and is connected to a high-voltage power supply 13.
[0025]
The contact plate 11 is disposed near the driven roller 7 on the inner peripheral surface of the lower side of the transfer belt 5 which is not the transfer paper transport surface, and suppresses the injection of electric charge to the transfer paper S upstream of the transfer nip B. The contact plate 11 is for detecting a current flowing on the transfer belt 5 as a feedback current, and the current supplied from the bias roller 10 to the transfer belt 5 is controlled by the transfer control plate 14 by detecting the current. You. For this reason, a transfer control plate 14 for controlling a supply current from the bias roller 10 to the transfer belt 5 in accordance with the detected current is connected to the contact plate 11, and the transfer control plate 14 The supply current from the bias roller 10 to the transfer belt 5 is controlled by controlling the high-voltage power supply 13 accordingly.
[0026]
In the transfer conveyance device 1, as shown in FIG. 2, the control plate 16 drives the DC solenoid 9 and the DC solenoid 9 drives the contact / separation lever 8 in accordance with the transfer of the transfer paper S from the registration roller 17. Then, the contact / separation lever 8 drives the support member 15 to press the transfer belt 5 against the photoconductor 4, so that the transfer belt 5 is positioned at a position facing the transfer belt 5 and the photoconductor 4 in the transport direction of the transfer paper S by about 4 to 8 mm. Is formed.
[0027]
On the other hand, the photoreceptor 4 is driven to rotate by the driving unit and is uniformly charged to -800 V by the charging unit, and then an electrostatic latent image is formed by exposing the original image by the exposing unit, and as shown in FIG. The electrostatic latent image is developed with a developer by 18 to become a toner image. The developing device 18 is supplied with a developing bias voltage from a developing bias power supply, applies a developer to the photoconductor 4, and electrostatically attracts the positively charged toner 19 to the photoconductor 4 to thereby form a toner image on the photoconductor 4. Develop.
[0028]
Next, the photoreceptor 4 is discharged by the pre-transfer discharger 20 to reduce the surface potential. In FIG. 6, the height of the charge of the toner 19 is indicated by the size of a circle. The state in which the charge of the toner 19 is reduced by the pre-transfer static eliminator 20 is indicated by the fact that the size of the circle is smaller after the gradual charge than before the gradual charge. The transfer belt 5 is charged by applying a transfer bias from a high-voltage power supply 13 via a bias roller 10, electrostatically adsorbs and carries the transfer paper S, and transports the transfer paper S. After the toner image on the photoconductor 4 is transferred onto the transfer paper S when passing through the portion B, the transfer paper S is separated from the photoconductor 4.
[0029]
In this case, the transfer bias is applied from the high-voltage power supply 13 to the bias roller 10 in the range of -1.5 KV to -6.5 KV. The transfer bias is variably set by constant current control by the transfer control plate 14. That is, in FIGS. 1 and 2, the current output from the high voltage ₁ The feedback current flowing from the transfer belt 5 to the ground via the contact plate 11 is represented by I ₂ Then, the transfer control plate 14 receives the feedback current I ₂ To detect
I ₁ −I ₂ = Iout (Iout: constant value) (1)
Is controlled by controlling the high-voltage power supply 13 so that ₁ Control.
[0030]
This is to stabilize the surface potential Vp on the transfer paper S to eliminate the change in transfer efficiency irrespective of the change caused by environmental conditions such as temperature and humidity and the manufacturing quality of the transfer belt 5. It is. In other words, the current flowing to the photoreceptor 4 through the transfer belt 5 and the transfer paper S is regarded as Iout, so that the flow of the current to the transfer belt 5 on the transfer paper S is facilitated by lowering or increasing the surface resistance on the transfer paper S. This is to prevent the change in the length from affecting the separation performance and transfer performance of the transfer paper S.
[0031]
In this embodiment, good transfer was performed when Iout was set to 330 μm / sec, the effective length of the bias roller 10 was 310 mm, and Iout = 35 μA ± 5 μA. As described above, the bias roller 10 and the high-voltage power supply 13 constitute a charge supply unit that supplies charges to the transfer belt 5.
[0032]
By the way, when the toner image is transferred from the photoconductor 4 to the transfer paper S, the transfer paper S is charged at the same time. Therefore, the transfer paper S is electrostatically attracted to the transfer belt 5 and separated from the photoconductor 4 by the relationship between the true charge of the transfer belt 5 and the polarization charge generated on the transfer paper S side. The separation of the transfer paper S from the photoconductor 4 is promoted by the peeling operation of the transfer paper S from the photoconductor 4 due to the stiffness of the transfer paper S itself using the curvature separation of the photoconductor 4. The transfer paper S that cannot be separated from the photoconductor 4 is separated from the photoconductor 4 by the separation claws 21.
[0033]
Such separation of the transfer sheet S electrostatically adsorbed on the transfer belt 5 and the photoconductor 4 is easy because a current easily flows through the transfer sheet S in high humidity due to a change in environmental conditions. Disappears. However, since the surface resistance of the surface layer 5b of the transfer belt 5 is set to be slightly higher, the transfer of the true charges to the transfer paper S at the nip portion B is delayed, and the bias roller 10 is further moved from the nip portion B. Since the transfer of the true charges from the transfer belt 5 to the transfer paper S is delayed by being located on the downstream side in the transfer paper transport direction, the electrostatic attraction relationship between the transfer paper S and the photoconductor 4 is reduced. Be avoided.
[0034]
In this case, delaying the transfer of the true charge means that the transfer of the true charge to the transfer sheet S does not occur upstream of the transfer sheet S until the transfer sheet S reaches the nip portion B on the photoconductor 4 side. I have. This prevents the transfer paper S from being wound around the photoconductor 4 and prevents the transfer paper S from being poorly separated from the photoconductor 4.
[0035]
Further, it is better to select a transfer belt 5 having a small resistance change due to an environmental change. For the transfer belt 5, an appropriate amount of carbon, zinc oxide or the like is added as a conductive material for controlling resistance, and a rubber belt is used as an elastic belt. In this case, it is desired to select a material having a low hygroscopicity and a stable resistance value, such as chloroprene rubber, EPDM rubber, silicone rubber, epichlorohydrin rubber, and the like. Note that the value of the current Iout flowing from the transfer belt 5 to the photoconductor 4 is not unique, and can be reduced when the transfer paper transport speed is low. If the pre-static eliminator 20 is not used, the number will be increased.
[0036]
The transfer paper S that has passed through the nip portion B is conveyed in accordance with the movement of the transfer belt 5 because the transfer paper S is electrostatically attracted to the transfer belt 5, and the curvature separation is performed at the drive roller 6. The diameter of the drive roller 6 is set to 16 mm or less, and high quality 45K paper (stiffness 21 cm in width) ³ / 100) has been obtained.
The transfer paper S separated from the transfer belt 5 is guided by the guide member 22, and is conveyed between the heating roller 23a of the fixing device 23 and the pad roller (pressure roller) 23b. The heating roller 23a and the pad roller 23b fix the toner on the transfer sheet S by applying heat and pressure.
[0037]
When the transfer paper S is separated from the transfer belt 5, the control plate 16 releases the excitation of the DC solenoid 9, the DC solenoid 9 releases the drive of the contact / separation lever 8, and the support plate 15 moves away from the photoconductor 4. The transfer belt 5 is separated from the photoreceptor 4 by being separated. Then, the surface of the transfer belt 5 is cleaned near the lower side of the drive roller 6 by the cleaning device 12. The cleaning device 12 includes a cleaning blade 12A. The cleaning blade 12A rubs the surface of the transfer belt 5 to transfer the toner transferred from the photoconductor 4 on the transfer belt 5 and the transfer paper from the photoconductor 4 to the transfer paper. The toner scattered around the transfer belt 5 without being transferred and the paper powder of the transfer paper are scraped off.
[0038]
The transfer belt 5 rubbed by the cleaning blade 12A has a low friction coefficient such as a fluorine-based resin material, For example, the surface is coated with polyvinylidene fluoride, ethylene tetrafluoride, or the like. The toner and paper dust scraped from the transfer belt 5 by the cleaning blade 12A are collected from the copying machine main body 3 into a waste toner collecting container (not shown) by the collecting screw 12B.
Further, the photoconductor 4 is cleaned by the cleaning device after the transfer paper is separated, and is prepared for the next copying operation.
[0039]
At the time of standby after completion of the job (after completion of the image forming operation), the control plate 16 controls the DC solenoid 9 so that the transfer belt 5 is separated from the photosensitive member 4 as shown in FIG. The transfer belt 5 is rotated at least once or more, for example, two times, and a cleaning bias voltage is applied to the transfer belt 5 from the high-voltage power supply 13 to clean the transfer belt 5.
[0040]
In this case, a cleaning bias voltage is applied to the transfer belt 5 by applying a cleaning bias voltage to the drive roller 6 from the high voltage power supply 13 as shown in FIG. Therefore, toner and paper dust adhering to the transfer belt 5 during a job are mechanically cleaned by the cleaning blade 12A, and at the same time, a cleaning bias voltage is applied to the transfer belt 5 from the high-voltage power supply 13 to electrostatically charge the transfer belt. Is cleaned.
[0041]
Here, if the transfer belt 5 is cleaned while the transfer belt 5 is in contact with the photoconductor 4, background toner and paper dust on the photoconductor 4 are input to the transfer belt 5, and Cleaning cannot be performed sufficiently. Therefore, in the present embodiment, the transfer belt 5 is cleaned in a state where the transfer belt 5 is separated from the photoreceptor 4, so that only the transfer belt 5 can be effectively cleaned.
[0042]
Further, by performing the cleaning of the transfer belt 5 while the photoconductor 4 rotates at least one or more times, the toner and paper dust on the transfer belt 5 can be sufficiently cleaned, and the first transfer paper can be cleaned in the next job. Back dirt can be eliminated. Further, when the contact charging device of the present embodiment is used in an image forming apparatus having a charging roller as a charging unit for charging the photoconductor 4, the contamination of the charging roller is reduced. If the contamination of the charging roller can be reduced, the charging potential of the photoconductor 4 can be stabilized as a result, and the image forming process can be stabilized. When the toner removed from the photoreceptor 4 by the cleaning device is sent to the developing device 18 for toner recycling, the cleaning property of the transfer belt 5 is inevitably deteriorated due to the effect of the recycled toner. It becomes essential to do.
[0043]
As described above, according to the present embodiment, the transfer of the toner image from the photoconductor 4 to the transfer paper is completed in order to prevent the background toner and paper dust on the photoconductor 4 from adhering to the transfer belt 5. Immediately after the belt 5 is separated from the photosensitive member 4, the transfer belt 5 is cleaned by rotating the transfer belt 5 at least one rotation or more.
[0044]
The purpose of applying the cleaning bias to the transfer belt 5 is to clean the toner electrostatically attached to the transfer belt 5. Not only the method of mechanically cleaning the transfer belt 5 with the blade 12A, but also the method of applying the cleaning bias to the transfer belt 5 and electrically cleaning the transfer belt 5 is combined, so that the cleaning performance of the transfer belt 5 is improved. , The cleaning of the transfer belt 5 can be performed in a short time more efficiently than only the mechanical cleaning method, and the possibility of the turning-up of the blade 12A also decreases, thereby reducing the margin. Is up.
[0045]
The control plate 16 controls a drive motor for rotating the transfer belt 5 to clean the transfer belt 5 in a state where the transfer belt 5 is separated from the photoreceptor 4. Is lower than the process speed (the linear rotation speed when the image forming process is performed (when the toner image is transferred from the photoconductor 4 to the transfer paper)). Therefore, the margin of the cleaning property of the transfer belt 5 can be increased.
[0046]
FIG. 9 shows the relationship between process speed / linear rotation speed of the transfer belt 5 and cleaning performance. The solid line in FIG. 9 shows the above relationship when the blade 12A is not normally deteriorated, and the dotted line in FIG. 9 shows the above relationship when the blade 12A is deteriorated (wear or chipped). It can be seen that the cleaning performance of the transfer belt 5 is worse when the blade 12A is deteriorated, and it is effective to reduce the rotation linear speed at the time of cleaning the transfer belt 5.
[0047]
The first embodiment is an embodiment of the invention according to claim 1, in which a sheet S made of transfer paper is carried and conveyed, and the toner image on the photoconductor 4 as an image carrier is carried on the carried sheet S. Endless transfer belt 5 for electrostatically transferring the transfer belt 5, a driving unit including a drive motor for rotating the transfer belt 5, a cleaning member including a cleaning blade 12A for cleaning the transfer belt 5, A first electrode comprising a bias roller for contacting the inner peripheral surface and applying a transfer bias to the transfer belt 5; a power supply comprising a high voltage power supply 13 for supplying a transfer bias to the first electrode 10; A transfer unit having a DC solenoid 9 for bringing the image carrier 4 into and out of contact with the image carrier 4 and a contact / separation means comprising a contact / separation lever 8. When the transfer belt 5 is cleaned by the cleaning member 12A, the rotation speed of the transfer belt 5 is set at least to the process linear speed in a state where the transfer belt 5 and the image carrier 4 are separated by the contact / separation means. Because of the delay, the cleaning of the toner on the transfer belt and the cleaning of the paper dust on the transfer belt can be effectively achieved, the back stain of the sheet such as the transfer paper can be reduced, and the charging roller is mounted. It is possible to reduce the contamination of the charging roller in the image forming apparatus, stabilize the charging potential of the image carrier, stabilize the image forming process, and enable stable image formation over time, and transfer. The cleaning property of the belt can be improved, and wear and chipping of the cleaning member can be prevented.
[0048]
Further, the first embodiment is an embodiment of the invention according to claim 2, and in the transfer conveyance device according to claim 1, when the transfer belt 5 is cleaned by the cleaning member 12A, Since a bias applying means comprising a high-voltage power supply 13 for applying a cleaning bias is provided, the same effect as that of the transfer / conveying apparatus according to claim 1 can be obtained, and the toner on the transfer belt can be electrically charged by applying the cleaning bias. The transfer belt can be cleaned, and the cleaning of the transfer belt can be improved by mechanically and electrically cleaning the transfer belt, so that the transfer belt can be cleaned in a short time. And the life of the cleaning member can be prolonged.
[0049]
The second embodiment of the present invention is one embodiment of the invention according to claim 4. Only mechanical cleaning of the transfer belt 5 makes it difficult to clean charged toner, particularly positively charged toner charged to the same polarity as that of the normally charged toner. Therefore, in the second embodiment, the cleaning bias applied to the drive roller 6 from the high-voltage power supply 13 in the first embodiment is a cleaning bias having the same polarity as the charging polarity of the normally charged toner.
[0050]
Therefore, the positively charged toner adhering to the transfer belt 5 is electrostatically weakened by the cleaning bias applied to the transfer belt 5, so that the toner 12 is cleaned by the blade 12 </ b> A. In particular, it is difficult to clean a toner that has entered a crack or the like of the transfer belt 5 by a mechanical cleaning method or a method of applying a cleaning bias to the transfer belt 5 from the outside. However, in the present embodiment, the toner can be cleaned. This embodiment is also effective when the blade 12A is chipped or worn. The value of the cleaning bias applied to the transfer belt 5 may be about several hundred volts, since the electrostatic force of the toner electrostatically attached to the transfer belt 5 may be reduced.
[0051]
This second embodiment is an embodiment of the invention according to claim 4, and in the transfer conveyance device according to claim 2, the cleaning bias is set to the same polarity as the normal charging polarity of the toner. Not only the same effects as in the transfer / transport apparatus described above can be obtained, but also the normally charged toner on the transfer belt can be cleaned.
[0052]
The third embodiment of the present invention is an embodiment of the third aspect of the present invention. In the first embodiment, the cleaning bias applied to the drive roller 6 from the high voltage power supply 13 is opposite to the charging polarity of the normally charged toner. The cleaning bias has the polarity shown in FIG. Therefore, the normal oppositely charged toner adhered to the transfer belt 5 is electrostatically weakened to the transfer belt 5 by applying a cleaning bias to the transfer belt 5, and is cleaned by the blade 12A. In particular, it is difficult to clean a toner that has entered a crack or the like of the transfer belt 5 by a mechanical cleaning method or a method of applying a cleaning bias to the transfer belt 5 from the outside. However, in the present embodiment, the toner can be cleaned. This embodiment is also effective when the blade 12A is chipped or worn. The value of the cleaning bias applied to the transfer belt 5 may be about several hundred volts, since the electrostatic force of the toner electrostatically attached to the transfer belt 5 may be reduced.
[0053]
This third embodiment is an embodiment of the invention according to claim 3, and in the transfer conveyance device according to claim 2, the cleaning bias has a polarity opposite to a normal charging polarity of the toner. In addition to obtaining the same effects as those of the transfer / transport device described in item 2, it is possible to clean the oppositely charged toner on the transfer belt.
[0054]
The fourth embodiment of the present invention is an embodiment of the invention according to claims 5 and 6, and FIG. 8 shows the operation timing of the fourth embodiment. In the fourth embodiment, in the first embodiment, the control plate 16 controls the DC solenoid 9 to separate the transfer belt 5 from the photoreceptor 4 at the time of standby after the end of the job (after the end of the image forming operation). In this state, the transfer motor 5 rotates the transfer belt 5 at least two times, for example, two times, and the high-voltage power supply 13 applies a cleaning bias of a polarity opposite to the charge polarity of the normally charged toner to the transfer belt 5 from the high voltage power supply 13. A cleaning bias having the same polarity as the charging polarity of the toner is sequentially applied at different timings to clean the transfer belt 5.
[0055]
In this case, the control plate 16 applies a cleaning bias having a polarity opposite to that of the normally charged toner to the transfer belt 5 from the high voltage power supply 13 and then applies a cleaning bias having the same polarity as the charged polarity of the normally charged toner. Alternatively, a cleaning bias having the same polarity as the charging polarity of the normally charged toner may be applied to the transfer belt 5 from the high voltage power supply 13 and then a cleaning bias having a polarity opposite to the charging polarity of the normally charged toner may be applied.
[0056]
The fourth embodiment is an embodiment of the invention according to claim 5, wherein in the transfer conveyance device according to claim 2, the bias applying unit 13 causes the transfer belt 5 to regularly charge toner as the cleaning bias. A bias having the same polarity as the polarity and a bias having a polarity opposite to the normal charging polarity of the toner are applied at different timings, so that not only the same effects as those of the transfer conveyance device according to claim 2 but also the transfer belt can be obtained. Both the normally charged toner and the oppositely charged toner can be cleaned.
[0057]
Further, the fourth embodiment is an embodiment of the invention according to claim 6, wherein the bias applying unit 13 cleans the transfer belt 5 by the cleaning member 12A. At this time, an operation of applying a bias having the same polarity as the normal charging polarity of the toner and a bias having a polarity opposite to the normal charging polarity of the toner at different timings to the transfer belt 5 is performed at least twice. Therefore, not only the same effects as those of the transfer / transport device according to the fifth aspect are obtained, but also the transfer belt is more reliably cleaned than the transfer / transport apparatus according to the fifth aspect, when the degree of cleaning failure of the transfer belt is severe. be able to.
[0058]
In each of the other embodiments of the present invention, the invention according to each claim is applied to a transfer and conveyance device in an image forming apparatus having an image density detection mode. The cleaning of No. 5 is performed in conjunction with the image density detection mode at the same timing as the image density detection mode.
[0059]
In the image density detection mode, in the image density detection mode, the photosensitive member 4 is rotated by the driving unit, uniformly charged by the charging unit, and then exposed to a predetermined pattern by the exposure unit to form an electrostatic latent image. The electrostatic latent image is developed by the developing device 18 to form a toner pattern (P sensor pattern), the density of the toner pattern (toner adhesion amount) is detected by a photo sensor, and the toner density is determined based on the output value of the photo sensor. And other image forming conditions.
[0060]
In these embodiments, when the transfer belt 5 is cleaned, the transfer belt 5 is separated from the photoconductor 4, so that the photosensor is installed on the downstream side of the transfer conveyance device 1 in the rotation direction of the photoconductor 4. By linking the cleaning of the transfer belt 5 to the image density detection mode, the transfer belt 5 can be cleaned simultaneously with the image (toner pattern) density detection.
[0061]
In the above embodiments, the cleaning bias is applied to the transfer belt 5 from the high-voltage power supply 13 via the drive roller 6. However, the cleaning bias may be applied to the transfer belt 5 from the high-voltage power supply 13 via the bias roller 10. Alternatively, a cleaning bias may be applied to the transfer belt 5 from the high voltage power supply 13 via the driven roller 7.
[0062]
When the transfer belt 5 is cleaned, a cleaning bias current may leak from the transfer belt 5 to the photoconductor 4 due to the application of the cleaning bias from the high-voltage power supply 13 to the transfer belt 5. In consideration of such a case, in order to eliminate the occurrence of the leakage of the cleaning bias current from the transfer belt 5 to the photoconductor 4, the cleaning bias is supplied from the high voltage power supply 13 rather than applied from the high voltage power supply 13 to the bias roller 10. It is preferable to apply the voltage to the driving roller 6 or the driven roller 7 because the spatial distance from the photosensitive member 4 to the cleaning bias application point becomes longer.
[0063]
【The invention's effect】
As described above, according to the first aspect of the present invention, an endless transfer belt that carries a sheet, conveys the sheet, and electrostatically transfers the toner image on the image carrier to the carried sheet, and rotates the transfer belt A driving unit for cleaning, a cleaning member for cleaning the transfer belt, a first electrode for contacting the inner peripheral surface of the transfer belt and applying a transfer bias to the transfer belt, and supplying a transfer bias to the first electrode. A transfer power supply, and a contact / separation unit for bringing the transfer belt and the image carrier into and out of contact with each other, when the transfer belt is cleaned by the cleaning member after image formation, In a state where the transfer belt and the image carrier are separated from each other, the rotation speed of the transfer belt is set to be lower than at least the process linear speed. Cleaning of the toner and paper dust on the transfer belt can be effectively achieved, the back dirt of the sheet such as the transfer paper can be reduced, and the charging roller in the image forming apparatus equipped with the charging roller can be effectively cleaned. Stain can be reduced, the charge potential of the image carrier can be stabilized, the image forming process can be stabilized, and stable image formation can be performed over time, and the cleaning property of the transfer belt can be improved. Thus, wear and chipping of the cleaning member can be prevented.
[0064]
According to the second aspect of the present invention, in the transfer transporting device according to the first aspect, a bias applying unit that applies a cleaning bias to the transfer belt when the transfer belt is cleaned by the cleaning member is provided. In addition to providing the same effect as the transfer conveyance device described in 1, the toner on the transfer belt can be electrically cleaned by applying a cleaning bias, and the cleaning of the transfer belt is performed mechanically and electrically. The cleaning property of the transfer belt can be improved and the transfer belt can be cleaned in a short time, and the load on the cleaning member can be reduced and the life of the cleaning member can be prolonged.
[0065]
According to the third aspect of the present invention, in the transfer / transport apparatus of the second aspect, the cleaning bias has a polarity opposite to the normal charging polarity of the toner. Not only is it possible to clean, but it is also possible to clean the oppositely charged toner on the transfer belt.
[0066]
According to the fourth aspect of the present invention, in the transfer / transport apparatus according to the second aspect, the cleaning bias has the same polarity as the normal charging polarity of the toner. In addition to cleaning, the normally charged toner on the transfer belt can be cleaned.
[0067]
According to a fifth aspect of the present invention, in the transfer / transport apparatus according to the second aspect, the bias applying unit applies a bias having the same polarity as a normal charging polarity of the toner to the transfer belt as the cleaning bias, and a normal charging of the toner. Since a bias having a polarity opposite to that of the polarity is applied at a different timing, not only the same effects as those of the transfer conveyance device according to claim 2 are obtained, but also both the normally charged toner and the oppositely charged toner on the transfer belt are cleaned. can do.
[0068]
According to a sixth aspect of the present invention, in the transfer / transport apparatus according to the fifth aspect, when the transfer belt is cleaned by the cleaning member, the bias application unit charges the transfer belt with the regular charging of toner as the cleaning bias. Since the operation of applying a bias having the same polarity as the polarity and a bias having a polarity opposite to the normal charge polarity of the toner at different timings is performed at least twice or more, the same effect as that of the transfer / transport apparatus according to claim 5 is obtained. In addition, when the degree of cleaning failure of the transfer belt is severe, the transfer belt can be more reliably cleaned than the transfer conveyance device according to the fifth aspect.
[Brief description of the drawings]
FIG. 1 is a schematic diagram illustrating a state in which a photoconductor and a transfer belt are separated according to a first embodiment of the present invention.
FIG. 2 is a schematic diagram illustrating a contact state of a photoconductor and a transfer belt according to the first embodiment.
FIG. 3 is a perspective view showing an embodiment of a copying machine including the first embodiment.
FIG. 4 is a plan view showing a part of the first embodiment.
FIG. 5 is a sectional view showing a part of the transfer belt according to the first embodiment.
FIG. 6 is a schematic view showing a part of the first embodiment.
FIG. 7 is a schematic view showing a part of the first embodiment.
FIG. 8 is a timing chart showing operation timings of a fourth embodiment of the present invention.
FIG. 9 is a characteristic diagram showing a relationship between process speed of the image forming apparatus / linear speed of transfer belt rotation and cleaning performance.
FIG. 10 is a schematic view showing a part of the first embodiment.
[Explanation of symbols]
4 Photoconductor
5 Transfer belt
8 Contact lever
9 DC solenoid
10 bias roller
12A cleaning blade
13 High voltage power supply
16 Control board

Claims (6)

An endless transfer belt that electrostatically transfers the toner image on the image carrier to the sheet that carries and conveys the sheet, a driving unit that rotates the transfer belt, and a cleaning member that cleans the transfer belt. A first electrode that contacts the inner peripheral surface of the transfer belt and applies a transfer bias to the transfer belt, a power supply that supplies a transfer bias to the first electrode, and the transfer belt and the image carrier. A transfer / conveying device having a contact / separation unit for contacting / separating the transfer belt when the transfer belt is cleaned by the cleaning member after completion of image formation; A transfer speed of the transfer belt is lower than at least the process linear speed. 2. The transfer conveyance device according to claim 1, further comprising a bias applying unit that applies a cleaning bias to the transfer belt when the transfer belt is cleaned by the cleaning member. 3. The transfer conveyance device according to claim 2, wherein the cleaning bias has a polarity opposite to a normal charging polarity of the toner. 3. The transfer conveyance device according to claim 2, wherein the cleaning bias has the same polarity as the normal charging polarity of the toner. 3. The transfer conveyance device according to claim 2, wherein the bias applying unit sets the cleaning belt to have a bias having the same polarity as the normal charging polarity of the toner and a bias having a polarity opposite to the normal charging polarity of the toner as the cleaning bias. A transfer conveyance device characterized in that the transfer is applied at a timing. 6. The transfer conveyance device according to claim 5, wherein the bias applying unit is configured such that when the transfer belt is cleaned by the cleaning member, a bias having the same polarity as a normal charging polarity of toner as the cleaning bias is applied to the transfer belt; Wherein the operation of applying a bias having a polarity opposite to the normal charging polarity at a different timing is performed at least twice or more.

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