Electrophotography – Image formation – Development
Reexamination Certificate
1999-11-26
2001-08-07
Royer, William J. (Department: 2852)
Electrophotography
Image formation
Development
C399S281000
Reexamination Certificate
active
06272305
ABSTRACT:
This invention relates generally to a development apparatus for ionographic or electrophotographic imaging and printing apparatuses and machines, and more particularly is directed to an apparatus and method for loading dry Xerographic toner onto a donor member and developing a latent electrostatic image.
BACKGROUND OF THE INVENTION
Generally, the process of electrophotographic printing includes charging a photoconductive member to a substantially uniform potential so as to sensitize the surface thereof. The charged portion of the photoconductive surface is exposed to a light image from either a scanning laser beam or an original document being reproduced. This records an electrostatic latent image on the photoconductive surface. After the electrostatic latent image is recorded on the photoconductive surface, the latent image is developed. Two component and single component developer materials are commonly used for development. A typical two component developer comprises magnetic carrier granules having toner particles adhering triboelectrically thereto. A single component developer material typically comprises toner particles. Toner particles are attracted to the latent image forming a toner powder image on the photoconductive surface, the toner powder image is subsequently transferred to a copy sheet, and finally, the toner powder image is heated to permanently fuse it to the copy sheet in image configuration.
The electrophotographic marking process given above can be modified to produce color images. One color electrophotographic marking process, called image on image processing, superimposes toner powder images of different color toners onto the photoreceptor prior to the transfer of the composite toner powder image onto the substrate. While image on image process is beneficial, it has several problems. For example, when recharging the photoreceptor in preparation for creating another color toner powder image, it is important to level the voltages between the previously toned and the untoned areas of the photoreceptor.
In the application of the toner to the latent electrostatic images contained on the charge-retentive surface, it is necessary to transport the toner from a developer housing to the surface. A basic limitation of conventional xerographic development systems, including both magnetic brush and single component, is the inability to deliver toner (i.e. charged pigment) to the latent images without creating large adhesive forces between the toner and the conveyor, which transport the toner to latent images. As will be appreciated, large fluctuation (i.e. noise) in the adhesive forces that cause the pigment to tenaciously adhere to the carrier, severely limit the sensitivity of the developer system, thereby necessitating higher contrast voltages forming the images. Accordingly, it is desirable to reduce such noise, particularly in connection with latent images formed by contrasting voltages.
Fluidized beds have been used to provide a means for storing, mixing and transporting toner in certain single component development systems and loading onto developer rolls. Efficient means for fluidizing toner and charging the particles within the fluidized bed are disclosed in U.S. Pat. No. 4,777,106 and U.S. Pat. No. 5,532,100, which are hereby incorporated by reference. In these disclosures, corona devices are embedded in the fluidized toner for simultaneous toner charging and deposition onto a receiver roll. While the development system as described has been found satisfactory in some development applications, it leaves something to be desired in the way applications requiring the blending of two or more dry powder toners to achieve custom color development. Also, it has been found in the above systems that there are frequently disturbances to the flow in the fluidized bed associated with charged particles in the high electric fields surrounding corona devices immersed in the reservoir. Also, wire contamination presents a reliability issue.
Triboelectric charging (contact electrification) of dry toners is a standard method used to electrically charge toner particles for development of latent electrostatic images. An alternate method to charge toners is via ion bombardment (Ion Charging) which offers many advantages, especially in applications to custom color where “in-situ” toner mixing is advantageous. Triboelectric charging of colored toners requires different additives dependent on toner color to achieve stable charging, whereas ion charging of toners offers the advantage of charging toner particles based mainly on their size, independent of their intrinsic composition and surface structure. Triboelectric charging of toners also can create localized patches of charge on the toner particles which can lead to strong adhesion of these toners to various surfaces requiring special measures to remove them in the development, transfer and cleaning steps in the xerographic process. In the ion charging process, charged ions bombarding the toner particles are driven by the net field around the particles which tends to uniformly charge the toner, helping to decrease adhesion of these toners to donor or photoreceptor surfaces. One method to charge toner via ion bombardment involves fluidizing the toner and charging it using corona generation in close proximity to this fluidized bed.
However, noting the issues above the achievement of high reliability and simple, economic manufacturability of the system continue to present problems.
SUMMARY OF THE INVENTION
Briefly, the present invention obviates the problems noted above by utilizing an apparatus for loading and charging toner and developing an image. An apparatus for developing a latent image recorded on an imaging surface, including a housing, defining a chamber, storing a supply of toner; a donor member, spaced from the imaging surface, for transporting developer material on the surface thereof, to a region opposed from the imaging surface, a transport member for transporting toner from said housing and loading toner onto said donor member, said transport member further includes a surface with uniformly distributed, high density fringe fields, to pickup and transport a toner layer and a corona device to ionicly charge the toner on said fringe field surface.
In accordance with another aspect of this invention, the transport member further includes a mask layer adjacent to a photoconductive layer, said mask layer having a screen pattern; a charging device for charging said photoconductive layer and an exposure device for discharging unmasked portions of said transport member thereby generating said fringe field on the surface of the transport member to attract toner from said housing to the surface of the transport member.
REFERENCES:
patent: 4777106 (1988-10-01), Fotland et al.
patent: 5532100 (1996-07-01), Christy et al.
patent: 5734955 (1998-03-01), Gruber et al.
patent: 5742885 (1998-04-01), Wayman
patent: 5950057 (1999-09-01), Erhardt et al.
Bean II Lloyd F.
Royer William J.
Xerox Corporation
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