This patent document claims priority to Japanese Patent Publication 2002-325226 filed Nov. 8, 2002, and 2003-305697 filed Aug. 29, 2003, the entire contents of each of which are hereby incorporated herein by reference.
1. Field of the Invention
The present invention is directed to an electro-photographic image forming apparatus such as a printer, a facsimile device, a copy machine, etc., and is particularly directed to a replaceable process cartridge used in such an image forming apparatus.
2. Discussion of the Background
In an image forming device it is known to utilize an image carrier unit having a housing that contains an image carrier. Such an image carrier unit is replaceable to improve efficiency when such an image carrier unit becomes worn out or defective and needs to be replaced. Such an image carrier unit can be formed as a process cartridge that contains a developing device that develops an electrostatic latent image written on the surface of an image carrier and a cleaning unit that cleans a surface of the image carrier. Such a process cartridge also includes a housing with an opening that allows the image carrier to make contact with a transfer member, a paper sheet, etc.
In such an image forming device attention must be paid to avoiding contact with the image carrier through the opening in the housing. Particularly, attention must be paid that a worker's hand does not touch the image carrier when replacing the image carrier unit, or that foreign substances do not adhere to the image carrier. Light should also be prevented from impinging on the image carrier through the opening to prevent breakdown of the image carrier surface. Paying attention to the above-noted matters is particularly significant because the image carrier unit can be replaceably installed by a worker, and at that point must be handled by the worker.
Before an image carrier unit is installed into an image forming apparatus, the opening portion in the housing can be covered with a seal member. After the image carrier unit is installed into the image forming apparatus, the seal member is removed from the image carrier unit. An example of such an operation is disclosed in Japanese Patent Laid Open No. 59-61848. In that device a seal member is formed of a material such as a polyester film, which has a drawback that such a material is difficult to tear.
The present inventors recognized that an image carrier is particularly susceptible to damage because when a toner image on an image carrier is transferred to a transfer member or a paper sheet, it is necessary that some outer part of the image carrier protrude from an opening of the housing to contact the transfer member or paper sheet. As a result it becomes more difficult to protect that protruding portion of the image carrier.
The present inventors also recognized that when the opening of the housing is covered by a hard seal member, the outer layer of the image carrier may become damaged from contact with or rubbing against the hard seal member. Particularly when transporting the image carrier unit, for example prior to installing the image carrier unit, vibration caused by rotation of the image carrier may more easily result in contact between the outer layer of the image carrier and the hard seal member, again resulting in damage to the outer layer of the image carrier.
Accordingly, one object of the present invention is to address the above-noted and other drawbacks in the background art.
A more specific object of the present invention is to provide a novel image carrier unit structure in which an outer layer of an image carrier, particularly if it protrudes from an opening of a housing, is effectively protected against damage.
Another object of the present invention is to provide a novel seal structure for a novel image carrier unit and image forming device that is easy to implement, but that still properly protects an image carrier from damage particularly during transporting thereof, and that also protects the image carrier from light.
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, and more particularly to
As shown in
In the main body 1 a stack of paper sheets 3 is piled on a paper feed portion 4. Further, a paper conveyance path 5 is provided such that the paper sheets 3 piled on the paper feed portion 4 can be conveyed to the ejection portion 2. A paper conveyance roller pair 6 is formed in the paper conveyance path 5, and a fixing unit 7 is provided further downstream of the paper conveyance roller pair 6. A paper feed roller 8 is provided to feed the paper sheets 3 one at a time from the paper feed portion 4.
Further, within the main body 1 of the color printer P an image forming portion 9 is provided. The image forming portion 9 includes an intermediate transfer belt 10 supported by a drive roller 10a and a driven roller 10b. Four photoconductor units 20 are disposed along the intermediate transfer belt 10 in the rotation direction of the intermediate transfer belt 10. The four photoconductor units 20 each individually include a photoconducting portion forming a toner image of a respective color of Y (yellow), M (magenta), C (cyan), and K (black). The details of each photoconducting unit 20 are shown in
Each photoconductor unit 20 includes a housing 21, a photoconductor roller 11 that rotates within the housing 21, a charging roller 12 deployed around the photoconductor roller 11, a developing device 13, a first transfer roller 14, and a cleaning unit 15. The developing device 13 includes a developer accommodation portion 13a and a developer roller 13b.
Further, the image forming portion 9 includes an exposure unit 16 to form an electrostatic latent image onto the surface of each photoconductor roller 11, and a cleaning unit 17 to clean intermediate transfer belt 10. The exposure unit 16 includes various optical components such as lenses, a polygonal mirror, etc.
A second transport roller 18 is also provided in contact with the driven roller 10b to contact the intermediate transfer belt 10 under a pressure. In addition, developer (e.g. toner) is replenished to each developing device 13 from toner in various toner bottles 19.
The fixing unit 7 includes a heating roller 7a with a heating function and a pressure roller 7b. An image can be fixed onto paper sheets 3 passing through the fixing unit 7 by the heating roller 7a and the pressure roller 7b.
An operation of image forming in the color printer P is now described.
In the image forming portion 9, the surface of the photoconductor roller 11 for each photoconductor unit 20 is charged by the charging roller 12. An electrostatic latent image corresponding to desired image data is then formed on each photoconductor roller 11 by a signal output from the exposure unit 16. Each electrostatic latent image is then developed by a respective developing device 13, and thereby a toner image is formed on each photoconductor roller 11. The toner images formed on each respective photoconductor roller 11 are then transferred to the surface of the intermediate transfer belt 10 by the respective transfer rollers 14, in registration.
Also, paper sheets 3 piled up on the paper feed portion 4 are then fed to contact the tip portion of the paper conveyance roller pair 6 by the paper feed roller 8. Each individual paper sheet 3 is then conveyed to the nip portion between the transfer belt 10 and the second transfer roller 18 by the paper conveyance roller pair 6, and thereby a toner image on the intermediate transfer belt 10 is then transferred to the paper sheet 3. The paper sheet 3 then subsequently passes through the fixing unit 7, and the toner image on the paper sheet 3 is fixed by the fixing unit 7. The paper sheet 3 with a fixed image is then ejected to the ejection portion 2.
Further, after the above-noted operation residual toner remaining on the different photoconductor rollers 11 is removed by their respective cleaning units 15. The photoconductor rollers 11 are then electrically neutralized at the same time by their respective charging rollers 12. With those operations the photoconductors rollers 11 are then in a state in which they are ready to execute a next image forming process.
Further, residual toner from the intermediate transfer belt 10 is cleaned by the cleaning unit 17, so that the intermediate transfer belt 10 is also then ready for a next image forming operation.
It is also noted that in the color printer P of
Specifics of the individual photoconductor units 20 are now further explained with reference to
Each photoconductor unit 20 in the present embodiment includes a photoconductor roller 11, a charging roller 12, a developing device 13, and a cleaning unit 15, all placed inside a main housing 21. A handle 22 is also disposed at both side ends of an axis direction of the photoconductor roller 11 and a positioning portion 23 is provided to connect with the main body 1 of the color printer P, to ensure proper positioning of the photoconductor unit 20 in the color printer P. That handle 22 and positioning portion 23 are also formed in the housing 21.
The housing 21 further includes a feeding portion 27 that allows feeding a bias to the charging roller 12, a feeding portion 26 that allows feeding a bias to a diffusion brush 15a of the cleaning unit 15 (see
As shown in
As also shown in
Further, an adhesion portion 31 including a step is formed at both sides of the opening portion 30 along an axis direction of the photoconductor roller 11. As viewed from the front portion 29 of the housing 21, a guide portion 33 is further formed at a front end of the adhesion portion 31.
As shown in
The seal member 32 extends in an axis direction of the photoconductor roller 11 and has a central covering portion 35 that covers substantially all of the opening portion 30, and thereby that central cover portion 35 covers the portion of the photoconductor roller 11 protruding from the opening portion 30. That seal member 32 is turned-back on itself (i.e. is folded back to be U-shaped) so that a turned-back portion thereof is underneath the top surface. That turned-back portion 34 directly covers the photoconductor roller 11.
Further, the turned-back portion 34 is turned back at the ends thereof adjacent to the adhesion portion 31 of the housing 21. The turned-back portion 34 is turned back in an axis direction of the photoconductor roller 11.
Further, the seal member 32 includes a reinforcement portion 36 at each side of the central cover portion 35 and turned-back portion 34, and also formed in an axis direction of a photoconductor roller 11. The seal member 32 further includes a handle portion 37 that is attached at an end of the seal member 32. Handle portion 37 can be formed of a relatively hard material such as a resin. The seal member 32 is provided in the photoconductor unit 20 such that the reinforcement portions 36 go through the guide portions 33 of the housing 21. In removing the seal member 32 from the housing, the reinforcement portions 36 provide a good guide operation through the guide portion 33.
The reinforcement portions 36 can be formed by bending a polyester sheet of elastically hard millers (e.g., from the Dupont company) on either side of the seal member 32 as lining materials.
The seal member 32 can be bonded onto the adhesion portion 31 of the housing 21. That adhesion can be performed by specifically adhering the reinforcement portions 36 to the adhesion portion 31, the reinforcement portion 36 in turn being bonded to the main cover portions 35 and turned-back portion 34. The adhesion of the reinforcement portions 36 to the adhesion portion 31 of the housing can, for example, be effectuated by an adhesive, a two-sided tape, etc. The adhesion should not be so strong to prevent the seal member 32 from being removed by pulling the handle portion 37. The handle portion 37 is positioned at an end of the sealing member 32 and is also made rigid particularly with respect to the reinforcement portions 36, i.e. connected to the reinforcement portions 36.
When the handle portion 37 is pulled to tear off the seal member 32 from the housing 21, almost all of the tension acts on the reinforcement portions 36 so that the seal member 32 can be removed smoothly and without tearing.
In addition, one end of the developer seal member 28 can be fixed to the handle portion 37. With that structure, when the seal member 32 is torn off from the housing 21 by pulling the handle portion 37 in the direction indicated by the arrow A in
Further, the handle portion 37 can extend beyond the front face 29 of the photoconductor unit 20 such that if the seal member 32 and the developer seal member 28 are not properly removed, the front door of the image forming apparatus will not close. That prevents a user from forgetting to remove the seal member 32 and the developer seal member 28 from the photoconductor unit 20 after the photoconductor unit 20 is installed in an image forming apparatus.
With the photoconductor unit 20 with the structure as noted above, the seal member 32 can protect the photoconductor roller 11, particularly at a time when the photoconductor unit 20 is being transported and then installed into an image forming apparatus. Further, since the seal member 32 is made of a softer material than that of the photoconductor roller 11, even if the seal member 32 touches an outer layer of the photoconductor roller 11, particularly the portion of the photoconductor roller 11 protruding from the opening portion 30, the photoconductor roller 11 can still be prevented from being damaged.
Further, by bonding the seal member 32 to the adhesion portion 31 such that the seal member 32 is pulled in a width wise direction, i.e., at a right angle to an axis direction of the photoconductor roller 11, a stress state in the seal member 32 against the photoconductor roller 11 can be maintained. That is, the seal member 32 has the central cover portion 35 and the reinforcement portions 36 at both edges thereof, and additionally the turned-back portion 34 and the handle portion 37 fixed to the reinforcement portions 36 at an end of the turned-back portion 34. With such a structure, when the handle portion 37 is gripped to tear off the seal member 32 from the housing 21, a pulling force is transmitted directly to the reinforcement portions 36 so that the seal member 32 does not stretch. As a result the seal member 32 becomes easy to tear off.
Further, at a time of transporting or installing the photoconductor unit 20, relative movement of the photoconductor roller 11 and the seal member 32 can be controlled so that again any damage caused on the photoconductor roller 11 by contact with the seal member 32 can be further prevented. Further, the seal member 32 and the developer seal member 28 can be torn off from the housing 21 at a same time when a photoconductor unit 20 is changed by merely gripping the single handle portion 37 and pulling the single handle portion 37 in the direction indicated by the arrow A.
Further, the seal member 32 as noted above has a light blocking effect to prevent deterioration of the photoconductor roller 11 by light.
Further, when tearing off the seal member 32 from the housing 21 the reinforcement portions 36 are positioned on both sides of the seal member 32 and are guided by the guide members 33 in the housing 21. As a result, the seal member 32 can be pulled smoothly and in a straight direction so to again make the seal member 32 easy to tear off.
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 present invention may be practiced otherwise than as specifically described herein.
Number | Date | Country | Kind |
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2002-325226 | Nov 2002 | JP | national |
2003-305697 | Aug 2003 | JP | national |
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Number | Date | Country | |
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20040190936 A1 | Sep 2004 | US |