An image forming apparatus includes a transfer portion, a fixing unit, a conveyance belt configured to convey a sheet from the transfer portion toward the fixing unit, a driving portion configured to drive the conveyance belt, and a controller configured to control the driving portion. The controller is configured to, in a case of switching the image forming apparatus to a standby state in which the image forming apparatus is ready to start an image forming operation and stands by for input of an image forming job, execute preheating in which the fixing unit is preliminarily heated, and cause the driving portion to rotate the conveyance belt while the preheating is executed.

An image forming apparatus includes an image forming device which forms an image on a recording medium and an image scanning device which transmits scanned image data to the image forming device. The image forming device includes a receiver, a first image forming unit, a second image forming unit, and a controller. The receiver receives at least one of external image data transmitted from an external device and the scanned image data as input image data. The first image forming unit forms a developer image based on the input image data on the recording medium. The second image forming unit forms a mark image on the recording medium. The controller determines whether to make the second image forming unit form the mark image or not depending on a type of a transmission source of the input image data.

An image forming apparatus that avoids adverse effects after the next start-up when the snapshot acquisition process is performed in a power saving state. The image forming apparatus executes a first snapshot acquisition process storing save target information for a first device group, and executes a second snapshot acquisition process storing save target information for a second device group.

A distributed printing system includes: a job management device that divides a print job to generate divided jobs; image forming devices that execute the divided jobs to form an image on a sheet; and a sorting device that sorts sheets of a sheet bundle, wherein each of the image forming devices executes the divided jobs, and discharges a sheet bundle, the job management device includes a storage that stores information regarding the sheets constituting the sheet bundles, and the sorting device includes a sheet feeder on which the sheet bundles is settable, an instructor that instructs an operator on an arrangement order of the sheet bundles to be set on the sheet feeder, and a sheet discharger that sorts the sheets of the sheet bundles on the basis of operation information, and discharges a sheet bundle and a sheet bundle including remaining sheets to different sheet discharge trays.

The image forming apparatus includes a control unit for converting image information into an image signal and output the image signal with reference to a timing signal, a sheet feeding control unit for feeding a recording material, an image forming unit for forming the image on a photosensitive drum based on the image signal output from the control unit, a transmission unit for transmitting a length of the image corresponding to a length of an output period of the image signal, an automatic sheet length detection mechanism for acquiring a length of the recording material in a conveyance direction thereof, and an image control unit for controlling a time interval at which the timing signal is output based on the size of the image and the size of the recording material.

An image forming apparatus includes: a print processing portion that executes print jobs transmitted from a plurality of information processing apparatuses, according to a predetermined execution order; a human detecting portion that detects a presence of a human within a predetermined specific range from the image forming apparatus; a job identifying portion that identifies, from the print jobs, a first print job that corresponds to the human detected by the human detecting portion; a job detecting portion that detects, from the print jobs, a presence of a second print job that was transmitted from any of one or more second information processing apparatuses that have been grouped into the same group as a first information processing apparatus that is a transmission source of the first print job identified by the job identifying portion; and a notification processing portion that notifies the presence of the detected second print job.

An image forming apparatus includes a transfer portion, a fixing unit, a conveyance belt configured to convey a sheet from the transfer portion toward the fixing unit, a driving portion configured to drive the conveyance belt, and a controller configured to control the driving portion. The controller is configured to, in a case of switching the image forming apparatus to a standby state in which the image forming apparatus is ready to start an image forming operation and stands by for input of an image forming job, execute preheating in which the fixing unit is preliminarily heated, and cause the driving portion to rotate the conveyance belt while the preheating is executed.

An image forming system includes first and second image forming apparatuses including respective image forming sections and fixing sections. When the system forms an image on a sheet using the first image forming section, then forms an image on the sheet using the second image forming apparatus, and forms an image on a same side of a sheet which has a nonuniform sheet thickness and first and second regions respectively having small and large sheet thicknesses, the image in the first region is formed and fixed using the first image forming apparatus and the image in the second region is formed and fixed using the second image forming apparatus, and the respective fixing sections of the first and the second image forming apparatuses pass the nonuniform sheet while applying a second load lower than a first load applied to a sheet having a uniform sheet thickness.

An embodiment provides an image forming apparatus that has a first operation mode and a second operation mode. The first operation mode forms an image on a sheet with toner. The second operation mode decolorizes the toner on the sheet on which the image is formed with a decolorable toner having a decoloring function. In the first operation mode, when the sheet passes through a transfer unit, a transfer bias having the same polarity as that of a charge of the toner is applied to the transfer member and a toner image formed on a surface of the transfer member is transferred to the sheet. In the second operation mode, when the sheet passes through the transfer unit, a cleaning bias having a reverse polarity to that of the transfer bias is applied to the transfer member.

In a first image formation mode, an image is formed with a first development contrast C1 and a specific dot pattern is formed with a second development contrast C2, which is lower than the first development contrast C1; in a second image formation mode, an image is formed with a third development contrast C3 and a specific dot pattern is formed with a fourth development contrast C4, which is lower than the third development contrast C3; and when C1 (=C2/C1) denotes a ratio between the second development contrast C2 and the first development contrast C1, and C2 (=C4/C3) denotes a ratio between the fourth development contrast C4 and the third development contrast C3, C2<C1 is satisfied.