1. Field of the Invention
The present invention relates to an image forming apparatus such as a copier, a facsimile machine, a printer, etc., including a detection mechanism for precisely measuring the speed of a rotary member such as a transfer belt.
2. Description of the Background
A color copier or printer generally includes a plurality of developing devices surrounding a photo conductor (i.e., a single drum type apparatus) or a single developing device around a single photoconductor (i.e., a tandem type apparatus). The single drum type apparatus is advantageous because it is smaller, thereby reducing the overall cost of the apparatus. On the other hand, the tandem type apparatus is advantageous because the printing speed is faster.
Accordingly, the tandem type apparatus has recently been used especially because the printer market is demanding the printing speed of color copiers be the same as monochromatic copiers.
In addition, the tandem type apparatus includes two types. A first type is called a direct transfer type in which a toner on a photoconductor is transferred to a sheet conveyed by a transfer belt. The second type is called an indirect transfer type in which a toner on a transfer belt is transferred to a sheet by a second transfer device. However, both types of devices have a same problem in properly overlaying images to provide a color copy.
Therefore, an image forming apparatus must precisely determine and control the speed of the rotary member such as a transfer belt, a conveying belt, etc., to precisely overlay plural images. For example, Japanese Patent Laid-Open No. 11-024507 (JP '507) discloses a device that determines a speed of the rotary member by detecting a scale on the rotary member. However, in this publication, the location of the scale is in a position in which image transfer occurs. Therefore, the scale negatively affects the image transfer. JP '507 is also incorporated in its entirety.
Accordingly, one object of the present invention is to solve the above-noted and other problems.
Another object of the present invention is to provide a novel image forming apparatus that precisely detects the speed of the rotary member without negatively affecting the image transfer.
To achieve these and other objects, the present invention provides an image forming apparatus including a rotary member having an image formation area and a scale located at a position outside of the image formation area and on an inner circumference of the rotary member. The apparatus also includes a drive device configured to drive the rotary member, a developing device configured to develop an image on the image formation area, a transfer device configured to transfer the image on the image formation area to a recording sheet, and a sensor configured to detect the scale on the rotary member and to output a signal corresponding to the detection of the scale. The present invention also provides a novel image forming method.
A more complete appreciation of the present invention and many of the attendant advantages thereof will be readily obtained as the same becomes better understood by reference to the following detailed description when considered in connection with the accompanying drawings, wherein:
Referring now to the drawings, wherein like reference numerals designate identical or corresponding parts throughout the several views, the present invention will be described.
The image forming apparatus also includes a cleaning device 17 for removing toner remaining on the transfer belt 10. As shown, the cleaning device 17 is disposed upstream of the roller 16. Further, tandem image forming components 20 including yellow, cyan, magenta and black colors are disposed above the intermediate transfer belt 10. Further, each photoconductor 40Y, 40C, 40M, 40B of the tandem image components 20 has a charging device, a developing device, a first transfer device 62, a cleaning device for the respective photoconductor, and a discharging device. Note the order of the colors shown in
In addition, the transfer belt 10 includes a base layer, an elastic layer and a coating layer in this order. The base layer may be made from fluoric resin or from laminated materials such as canvas. The elastic layer may include fluorine rubber and the coating layer may be made from smooth materials such as fluoric resin, for example.
Also shown is an exposure device 21 disposed above the tandem image components 20, and a second transfer device 22 disposed under the transfer belt 10. A second transfer belt 24 is also stretched between rollers 23. The apparatus also includes a fixing device 25 having a pressure roller 27 and a friction roller 26 disposed next to the second transfer belt 24. The pressure roller 27 presses against the fixing roller 26 such that an image formed on the belt 24 is fixed to a sheet of paper passed therethrough.
The second transfer device 22 conveys a sheet to the fixing device 25. Alternatively, rather than the second transfer device 22, a transfer roller and a non-contact charger may be used to convey the sheet. Also shown in
An operation of the apparatus will now be described. At first, a manuscript is set on a manuscript tray 30 of the ADF 400. Alternatively, the ADF 400 may be opened and the manuscript set on a contact glass 32. When the apparatus is started, the manuscript in the ADF 400 is conveyed and the optical light source 33 and mirror 34 are appropriately operated to read the image on the manuscript. Light emitted from a light source included in the optical light source 33 is reflected by the mirror 34 to an optical member 34, which then focuses the light through a lens 35 into a sensor 36.
Further, each photoconductor 40Y, 40C, 40M, 40B rotates and the charging devices charge each respective photoconductor. The reflected light is also emitted towards each photoconductor 40Y, 40C, 40M, 40B based on the image read by the scanner 300, and using a toner included in each developing device, an image is formed on each photoconductor. As noted above, when the rollers 14, 15, 16 rotate, the transfer belt 10 also rotates. Then, each image from the photoconductors 40Y, 40C, 40M and 40B transfers to the transfer belt 10 using the first transfer devices 62. The cleaning device 17 cleans the toner remaining on the transfer belt 10. The discharging device then discharges the photoconductors.
After a paper feeding roller 42 included in the paper feeding device 200 rotates, a separation roller 45 separates a top sheet from an appropriate one of paper feeding cassettes 44 of a paper bank 43. The sheet then merges into a paper feeding path 46, and a conveyance roller 47 conveys the sheet toward a paper feeding pass 48 to a registration roller 49.
Alternatively, the sheet may be inserted via a manual feed tray 51. A roller 50 then conveys the sheet placed on the manual feed tray 51 to the registration roller 49. Further, the registration roller 49 conveys the paper between the intermediate transfer belt 10 and the second transfer device 22. Then, the second transfer device 22 conveys the sheet to the fixing device 25, and after the fixing device 25 fixes the image onto the sheet, the sheet is guided by a reshuffling member 55 toward a discharge roller 56. The discharge roller 56 then discharges the sheet to an eject tray 57.
Further, when a duplex mode is selected, the sheet is transferred to the duplex device 28 by the reshuffling member 55, which turns the sheet over for duplex printing. Then, an image on the back of the manuscript is formed on the back of the sheet.
In this image forming process, the intermediate transfer belt 10 is precisely driven to ensure each image is properly overlapped with a previous image (i.e., to form a color image). However, the axis of some of the rollers 14, 15, 16, etc., does not always directly coincide with the center of the roller. Accordingly, the actual speed of the rollers and hence the actual speed of the transfer belt 10 does not necessarily correspond with the desired speed of the transfer belt 10 to precisely overlay images. The material of the rollers, the belt 10 shifting on the rollers, etc., also affects the actual speed of the transfer belt 10.
Therefore, the present invention provides a rotary member including an image formation area, and a scale located at a position outside of the image formation area and on an inner circumference of the rotary member. Also provided is a sensor configured to detect the scale on the rotary member and to output a signal corresponding to the detection of the scale. In more detail,
As shown in
As shown in
Also, a reading gap “P” exists between the sensor 71 and the scale 70. The sensor 71 is also disposed between the rollers 14 and 16. Therefore, the scale 70 does not negatively affect image transfer, because the scale 70 is located outside of the image formation area and on an inner circumference of the transfer belt 10. Further, the location of the scale 70 is advantageous because there is generally more room on an inside of the transfer belt 10 and this is generally cleaner than areas outside of the belt 10. The same is true for the sensor 71. In addition, edges of the intermediate transfer belt 10 may buckle or heave due to the tension applied to the intermediate transfer belt 10 by the rollers 14, 15, 16. However, this negative influence is avoided, because the sensor 71 and scale 70 are arranged at a predetermined distance from the belt edge.
The present invention also includes a feedback control device as shown in
Further,
Thus, even though the transfer belt 10 may slide or shift due to the friction of the rollers 14, 15, 16, the axis of the roller does not precisely coincide with the center of the roller, etc., the sensor 71 still detects the actual speed of the transfer belt 10.
The present invention also applies to another type of image forming apparatus such as the tandem direct transfer type image forming apparatus. As shown in
The present invention may also be applied to an image forming apparatus including an indirect transfer type image forming apparatus, as shown in
Note that in the apparatus as shown in
Obviously, numerous modifications and variations of the present invention are possible in light of the above teachings. It is therefore to be understood that within the scope of the appended claims, the invention may be practiced otherwise than as specifically described herein.
Number | Date | Country | Kind |
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2002-220497 | Jul 2002 | JP | national |
The present application claims priority to Japanese Patent Application No. 2002-220497 filed on Jul. 29, 2002, which is incorporated in its entirety.
Number | Name | Date | Kind |
---|---|---|---|
4788572 | Slayton et al. | Nov 1988 | A |
5584475 | Asada et al. | Dec 1996 | A |
20020060397 | Kndo | May 2002 | A1 |
Number | Date | Country |
---|---|---|
0 994 052 | Apr 2000 | EP |
1 179 498 | Feb 2002 | EP |
11-24507 | Jan 1999 | JP |
11-024507 | Jan 1999 | JP |
WO 9401495 | Jan 1994 | WO |
Number | Date | Country | |
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20040228663 A1 | Nov 2004 | US |