An image forming apparatus includes a first air suction port sucking an air containing ozone, a second air suction port sucking an air containing the scattered toner, and a duct unit partitioned into a first duct passing through the air containing ozone and a second duct passing through the air containing toner. The duct includes a first fan generating a first air flow inside the first duct to suck the air from the first air suction port and a second fan generating a second air flow inside the second duct to suck the air from the second air suction port. An ozone filter is detachably provided to both the first and second ducts, disposed straddling the first and second ducts, and filters the ozone contained in the first and second air flows.

An exhaust device includes: a flow path section through which gas containing ozone generated inside a device body flows; a joint section connected to the flow path section with an inlet opening where hot gas generated inside the device body flows, and where gas containing ozone and hot gas are joined internally; a first air flow generator that generates an air flow which causes the gas containing ozone to flow through the flow path section and to the joint section; and a second air flow generator that causes the gas containing ozone and the hot gas to be joined and discharged from the joint section to outside the device body so that a flow rate of the joint gas discharged from the joint section to outside the device body is higher than a flow rate of the gas containing ozone to the joint section by the first air flow generator.

A method for reducing artifacts in an electrophotographic printing system includes receiving a print job including image data for a set of pages. The electrophotographic printing system is used to print a block of pages from the print job to provide corresponding printed pages. The image data for the block of pages is analyzed to determine a cross-track image profile for each page in the block of pages. Image data for a compensation image and a number of compensation images are determined, wherein the compensation image has a cross-track image profile which has an inverted shape relative to an average of the cross-track image profiles for the block of pages. The printing of the compensation images reduces image burn-in artifacts which result from the printing of the block of pages.

An image forming apparatus includes a rotatable photosensitive member, a charging member, a developing device, a blade, a detecting portion, and a controller. The controller causes the photosensitive member to rotate through one full circumference or more on the following conditions during a predetermined operation: (i) a voltage which is a discharge start voltage or more is applied to the charging member, and (ii) an operation condition of the developing device is a first condition on which an amount of fog toner deposited from the developer carrying member on the photosensitive member is smaller than an amount of the fog toner on a second condition which is an operation condition of the developing device during a sheet interval before the image formation during the continuous image formation is interrupted.

A channel switching device includes: an accommodation portion in which a unit is detachably accommodated; a first channel; a second channel passing through the accommodation portion; and a switch separating the first channel and the second channel, the switch including: a first communication portion communicating with the first channel and the second channel; and a second communication portion disposed at a different position with the first communication portion, the second communication portion communicating with the first channel and the second channel, and the switch configured to switch to one of the first communication portion or the second communication portion in response to an attachment or detachment of the unit to the accommodation portion.

An exhaust device includes: a flow path section through which gas containing ozone generated inside a device body flows; a joint section connected to the flow path section with an inlet opening where hot gas generated inside the device body flows, and where gas containing ozone and hot gas are joined internally; a first air flow generator that generates an air flow which causes the gas containing ozone to flow through the flow path section and to the joint section; and a second air flow generator that causes the gas containing ozone and the hot gas to be joined and discharged from the joint section to outside the device body so that a flow rate of the joint gas discharged from the joint section to outside the device body is higher than a flow rate of the gas containing ozone to the joint section by the first air flow generator.

In a case where a cleaning member is located at a cleaning position in attachment of a process cartridge to an image forming apparatus, a stopper located at a first position butts against the process cartridge guided in a direction of attachment by a guide portion such that the process cartridge is disabled from being attached to the image forming apparatus, and in a case where the cleaning member is located at a retraction position in attachment of the process cartridge to the image forming apparatus, a lever portion moves due to a press by a cleaning unit and the stopper moves from the first position to a second position such that the process cartridge is enabled to be attached to the image forming apparatus.

A method for reducing artifacts in an electrophotographic printing system includes receiving a print job including image data for a set of pages. The electrophotographic printing system is used to print a block of pages from the print job to provide corresponding printed pages. Image data for the block of pages is analyzed to determine a cross-track image profile for each page in the block of pages. Image data for a compensation image and a number of compensation images are determined, wherein the compensation image has a cross-track image profile which has an inverted shape relative to an average of the cross-track image profiles for the block of pages. The printing of the compensation images reduces image burn-in artifacts which result from the printing of the block of pages.

An image forming apparatus that includes a charger for charging a surface of a photoreceptor and that forms an image by using an electrophotographic system, the charger being configured to be cleanable, includes a guidance notification unit that causes a guidance notification prompting cleaning of the charger to be displayed and a guidance notification determination unit that, in accordance with a threshold set in accordance with usage condition of the image forming apparatus, determines whether or not to cause the guidance notification to be displayed.

An image forming apparatus includes an apparatus body, a photoconductor unit, and a developing cartridge. The apparatus body includes a controller and a body-side contact portion. The photoconductor unit includes a photoconductor, a charger, and a frame body. The developing cartridge includes a developing roller, a storage medium configured to store information, and a cartridge-side contact portion. The photoconductor unit includes a first contact portion configured to be electrically connected to the body-side contact portion, a second contact portion configured to be electrically connected to the cartridge-side contact portion, and a wiring portion electrically connecting the first contact portion and the second contact portion. The photoconductor unit further includes a separating member. The separating member is arranged to separate the charger and the part of the wiring portion when viewed in the rotational axis direction of the photoconductor.