Method of cleaning in electrophotographic printer
First Claim
1. A method of cleaning an electrophotographic printer having a charging section which charges a rotating photoconductor, the charging section having a main charging device and an auxiliary charging device, the main charging device having a first area in electrical contact with the photoconductor and a second area in electrical contact with the auxiliary charging device;
- wherein when a printing operation is being performed, the method includes the steps of;
applying potential differences among the main charging device, the auxiliary charging device, and the photoconductor, the potential differences being such that reversely-charged toner having a polarity opposite to normally-charged toner and being deposited on the photoconductor migrates from the photoconductor to the main charging device via the first area by Coulomb force, then said reversely-charged toner migrates from the main charging device to the auxiliary charging device via the second area by Coulomb force; and
wherein when a cleaning has been started,the method includes the steps of;
applying a potential difference between the auxiliary charging device and the main charging device, the potential difference being such that said reversely-charged toner deposited on the auxiliary charging device migrates from the auxiliary charging device to the main charging device via the second area by Coulomb force; and
applying a potential difference between the photoconductor and the main charging device, the potential difference being such that said reversely-charged toner deposited on the main charging device migrates from the main charging device to the photoconductor via the first area by Coulomb force; and
wherein when said reversely-charged toner that has been deposited on the surface of the photoconductor due to Coulomb force reaches a cleaning section as the photoconductor rotates, the cleaning section being disposed downstream of the charging section, the method includes the step of;
applying a potential difference between the photoconductor and the cleaning section having a third area in electrical contact with the photoconductor, the potential difference being such that said reversely-charged toner migrates from the photoconductor to the cleaning section via the third area by Coulomb force.
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Accused Products
Abstract
A method of cleaning is used to remove residual toner in an electrophotographic printer. After a printing operation, some amount of normally-charged toner and reversely-charged toner is left on the photoconductive drum and rollers such as charging rollers, transfer roller, and cleaning roller in contact with the photoconductive drum. A potential difference is applied between two members, for example, the cleaning roller and the photoconductive drum in electrical contact with each other so as to cause the residual toner to migrate from one member to the other. The potential differences are applied at specific timings so that the residual toner migrates properly onto the rotating photoconductive drum and is carried to the developing section for reuse.
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Citations
5 Claims
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1. A method of cleaning an electrophotographic printer having a charging section which charges a rotating photoconductor, the charging section having a main charging device and an auxiliary charging device, the main charging device having a first area in electrical contact with the photoconductor and a second area in electrical contact with the auxiliary charging device;
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wherein when a printing operation is being performed, the method includes the steps of; applying potential differences among the main charging device, the auxiliary charging device, and the photoconductor, the potential differences being such that reversely-charged toner having a polarity opposite to normally-charged toner and being deposited on the photoconductor migrates from the photoconductor to the main charging device via the first area by Coulomb force, then said reversely-charged toner migrates from the main charging device to the auxiliary charging device via the second area by Coulomb force; and wherein when a cleaning has been started,the method includes the steps of; applying a potential difference between the auxiliary charging device and the main charging device, the potential difference being such that said reversely-charged toner deposited on the auxiliary charging device migrates from the auxiliary charging device to the main charging device via the second area by Coulomb force; and applying a potential difference between the photoconductor and the main charging device, the potential difference being such that said reversely-charged toner deposited on the main charging device migrates from the main charging device to the photoconductor via the first area by Coulomb force; and wherein when said reversely-charged toner that has been deposited on the surface of the photoconductor due to Coulomb force reaches a cleaning section as the photoconductor rotates, the cleaning section being disposed downstream of the charging section, the method includes the step of; applying a potential difference between the photoconductor and the cleaning section having a third area in electrical contact with the photoconductor, the potential difference being such that said reversely-charged toner migrates from the photoconductor to the cleaning section via the third area by Coulomb force. - View Dependent Claims (2, 3, 4, 5)
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Specification