In electrophotographic printing, such as in laser printers and copiers, a pattern of electrostatic charges corresponding to a print image is developed on an optical photoconductor using radiated energy, either visible spectrum light or optical energy outside the visible light spectrum. Conventionally, near infrared laser light is used to develop an electrostatic image on the optical photoconductor. The optical photoconductor is usually a continuous surface such as a drum or belt.
The laser light scans across the charged surface of photosensitive material on the optical photoconductor in a succession of scan lines. Each scan line is logically divided into picture element (pixel) areas and the laser beam is modulated such that selected pixel areas are exposed to light. Pixel size (or pixel space) is defined by a given dot pitch, scan velocity and spot size of the printer. The exposure to light results in the reduction of voltage on the optical photoconductor at those select pixel locations forming a latent image pattern. Subsequently, toner is applied (deposited) onto those pixel locations to form a visible image and this image is then transferred to a print media (typically a sheet of paper).
In many electrophotographic printing devices, the supply of toner, the optical photoconductor and other associated components are housed in a separate toner cartridge that is easily inserted or removed from the printing device. The construction and operation of toner cartridges are well know in the art. Toner cartridges are described in U.S. Patent Application Publication US 2001/0041079 A1 filed Nov. 15, 2001 of Michlin et al., U.S. Patent Application Publication US2001/0055949 A1 filed Dec. 27, 2001 of Katakabe et al., U.S. Pat. No. 6,128,448 filed Oct. 3, 2000 of Arcaro et al., and U.S. Pat. No. 5,758,224 filed May 26, 1998 of Binder et al., each of which is hereby incorporated by reference for all that it discloses.
Traditional toner cartridges for printers generally employ toner products that leave waste-residue which must be removed to prevent printer malfunction and poor printed product. Accumulation of such waste-residue generally occurs within a waste-residue hopper situated in association with a blade that scrapes the waste-residue from a photoconductor drum located within the cartridge as the photoconductor drum rotates during routine printer operation. This so-removed waste-residue then enters the waste-residue hopper for retention.
Recently, however, new toner cartridges have been developed for printers wherein these newly developed cartridges initially are supplied with non waste-residue organic toner products that leave no waste-residue for collection. As a result, such cartridges no longer include a waste-residue collection site. When a user merely discards these new toner cartridges after their respective toner supplies are depleted, no problem exists since no re-use of such cartridges occurs. However, if the user does, in fact, wish to pursue a re-use program where only waste-residue-producing toner is available for replacement of spent non waste-residue toner, a very significant problem occurs, since no waste-residue collection site is present for the accumulation of such waste-residue. Additionally, of course, no waste-residue remover scraper is present for removing such waste-residue from the photo conductor drum. Consequently, printed work product quickly becomes unacceptable. Thus any toner recharge of such non waste-residue toner cartridges has heretofore been substantially unsatisfactory.
The present subject matter includes a converter for converting a non waste-residue collecting toner cartridge to a waste-residue collecting toner cartridge, a method for converting a non waste-residue collecting toner cartridge to a waste-residue collecting toner cartridge, and a converted toner cartridge.
An embodiment of a converter for converting a non-waste-residue collecting toner cartridge may include a waste-residue collection site and a waste-residue remover associateable with a photoconductor drum disposed within the cartridge. The waste-residue collection site may be placeable such that it is proximate the photoconductor drum for accumulation of waste-residue removed from the photoconductor drum. The waste collection site, in one embodiment, may be removed from the cartridge, emptied, and replaced for continued use.
Methodology for converting a non waste-residue collecting toner cartridge to a waste-residue collecting toner cartridge may include positioning a waste-residue collection site proximate the photo conductor drum as earlier described. The method may further include positioning a waste-residue remover such that waste-residue may be removed from the photo conductor drum and thereafter deposited into the waste-residue collection site.
The converted toner cartridge may include a housing, a photo conductor drum, and a waste-residue converter as described above. The converter may be releasably mounted within the cartridge such that the converter may be removed from the cartridge housing, emptied, and replaced within the housing for continued use.
The toner cartridge 10 may have a door 32 leading from the exterior thereof to a void 34 within the housing 12 whereby the converter 22 may pass into the void 34 for substantially complete accommodation therein and ultimate closure of the door 32. The door 32 may be provided with a hinge 40 and pull-knob 42, and may be releasably retained in a closed state such as by friction fit thereof with the surrounding housing 12, a latch or other retention device. Spacers 31 and/or attachment devices such as adhesive pads or the like (not shown) may be used to properly position the converter within the housing 12. Alternatively, the waste residue hopper 28 may be sized to precisely fit in void 34 in proper relationship with drum 14.
Whenever the waste-residue hopper 24 requires emptying, a user may easily open the door 32, remove the converter 22 from the housing 12, empty the waste-residue hopper 24, and thereafter reinsert the converter 22 into the void 34 of the housing 12 and close the door 32. Alternatively, the user may simply discard the removed converter and replace it with a new converter.
The toner cartridge 10 has been shown in simplified schematic form to facilitate description of the invention. It is of course understood that a non-waste-residue collecting toner cartridge to be modified in accordance with the teaching of this disclosure may be of any shape and may include operating components other than or in addition to those described herein. Accordingly, a non waste-residue collecting toner cartridge to be converted could be the same shape and could include the same operating components, except for the waste hopper and associated waste collection components, as those of any of the above patents and patent application publications incorporated by reference herein. Similarly, although an access door in the cartridge housing was specifically described herein as the means for insertion and removal of the converter 22 from the housing it is to be understood that the converter 22 could be inserted and removed in various other ways. For example, access through the housing wall might be accomplished through cutting out and removing a portion of the sidewall and subsequently refastening the removed section, after insertion of the converter, as by use of attachment brackets, adhesive tape or other attachment means. Also, the converter 22 could be provided as a unit that includes its own housing portion which replaces a removed portion of the original cartridge housing 12. Such a to-be-removed portion of the original housing 12 may be constructed to be readily removable; for example it may be attached to another portion of the original housing 12 by screws, clamps, break-away tabs, or other means that facilitate quick removal. Alternatively, removal of the to-be-removed portion could be accomplished as by cutting away the to-be-removed portion.
Thus, although certain embodiments of the invention have been expressly described herein, it is to be understood that the invention may be variously otherwise embodied. The appended claims are to be construed to cover all such embodiments, except to the extent limited by the prior art or express limitations of the subject claims.
This is a continuation of application Ser. No. 10/280,655 filed on Oct. 24, 2002, now U.S. Pat. No. 6,654,577, which is hereby incorporated by reference herein.
Number | Name | Date | Kind |
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4985734 | Honda et al. | Jan 1991 | A |
5182601 | Hodoshima et al. | Jan 1993 | A |
5426493 | Oyler | Jun 1995 | A |
5870654 | Sato et al. | Feb 1999 | A |
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Number | Date | Country |
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09179468 | Jul 1997 | JP |
Number | Date | Country | |
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20040081482 A1 | Apr 2004 | US |
Number | Date | Country | |
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Parent | 10280655 | Oct 2002 | US |
Child | 10654550 | US |