An image forming apparatus, in which an image forming method is performed, includes an image forming device to form an image on a recording medium, a reading device to scan the recording medium having a mark and generate a scanned image, and circuitry to calculate a correction value to adjust a position of the image to be formed on the recording medium, based on the scanned image. The circuitry calculates the correction value to adjust a position of an image to be formed on a second face of the recording medium based on a first scanned image generated from a first face of the recording medium, within a period from when the first scanned image is generated from the first face to when the image starts to be formed on the second face.

An image forming apparatus includes an image forming portion, an image heating apparatus including an image heating unit, a rotatable pressing roller, and an information storing portion; a reading portion; a counter portion; a display portion; and a controller. The controller controls the counter portion so that a) when the image heating apparatus mounted is exchanged with an image heating apparatus including a new image heating unit, on the basis of information of the information storing portion, the count value of the image heating apparatus, the count value of the image heating unit and the count value of the rotatable pressing member are reset, and b) when only the image heating unit mounted is exchanged with a new one, the count value of the image heating unit is reset and the count value of the rotatable pressing member is not reset.

An image forming apparatus has a feed tray, a transferring unit, a fixing unit, a output tray, a conveying unit for conveying a sheet along a sheet conveyance path including a first sheet conveyance path and a second sheet conveyance path which branches from the first sheet conveyance path on a downstream side and joins to the first sheet conveyance path on a upstream side, and a controller. The controller causes the conveying unit to convey sheets, calculates a specific amount related to the amount of toner per unit area of a page in image data, performs double-sided printing with the large number of sheets conveyed in a case where the specific amount is smaller than a predetermined amount, and performs double-sided printing with the small number of sheets conveyed in a case where the specific amount is equal to or larger than the predetermined amount.

An image forming apparatus has an image carrier, an electrifying member, and a charge eliminating device, and eliminates remaining charge on the surface of the image carrier by the charge eliminating device. The charge eliminating device includes a discharge member. The discharge member includes an electro conductive knit fabric knitted in a cylindrical shape using twisted yarn made of twisted metal fibers and a support member having a cylindrical shape and inserted in the electro conductive knit fabric, and is disposed to face the image carrier in a noncontact manner. A magnet member is disposed inside the image carrier within a charge elimination nip width between two tangential lines of an outer circumference surface of the discharge member, the two tangential lines being parallel to a straight line passing through a rotation center of the image carrier and a center axis of the discharge member.

The present invention relates to an image heating apparatus that includes a heater including a plurality of independently controllable heating blocks in a longitudinal direction thereof, each including a first conductor, a second conductor, and a heating element. At least one of electrodes corresponding to the respective heating blocks is disposed in an area where the heating element is located in the longitudinal direction on a second surface of the heater that is opposite to a first surface that comes into contact with an endless belt. An electrical contact is arranged so as to face the second surface of the heater. An overheating occurring in a no-media passage portion when an image formed on a recording material having a small size is heated is suppressed or reduced.

An image forming apparatus has an AC circuit having a heater and a triac for load control connected in series with the heater in order to control the heater. In addition, an image forming apparatus includes an overcurrent operation circuit connected in parallel with the AC circuit and through which a current flows in a state where DC power is suppliable to the AC circuit, and a polyswitch connected in series with the AC circuit and the overcurrent operation circuit, in which the polyswitch shuts off the current when an overcurrent flows in the overcurrent operation circuit.

The present invention relates to an image heating apparatus that includes a heater including a plurality of independently controllable heating blocks in a longitudinal direction thereof, each including a first conductor, a second conductor, and a heating element. At least one of electrodes corresponding to the respective heating blocks is disposed in an area where the heating element is located in the longitudinal direction on a second surface of the heater that is opposite to a first surface that comes into contact with an endless belt. An electrical contact is arranged so as to face the second surface of the heater. An overheating occurring in a no-media passage portion when an image formed on a recording material having a small size is heated is suppressed or reduced.

An image heating apparatus includes an image heating portion including first, second, and third heat generating blocks divided in a direction orthogonal to a conveying direction of the recording material. The image heating apparatus also includes a first driving circuit, a second driving circuit, a first temperature detection member, and a second temperature detection member. A control portion controls the first and second driving circuits according to at least one of the temperatures detected by the first and second temperature detection members, and controls energization of the second heat generating block together with a heat generating block that is energized by a driving circuit connected to the second heat generating block. In addition, a connection switching portion selectively connects any one of the first and second driving circuits to the second heat generating block according to a switching instruction from the control portion.

The present invention relates to an image heating apparatus that includes a heater including a plurality of independently controllable heating blocks in a longitudinal direction thereof, each including a first conductor, a second conductor, and a heating element. At least one of electrodes corresponding to the respective heating blocks is disposed in an area where the heating element is located in the longitudinal direction on a second surface of the heater that is opposite to a first surface that comes into contact with an endless belt. An electrical contact is arranged so as to face the second surface of the heater. An overheating occurring in a no-media passage portion when an image formed on a recording material having a small size is heated is suppressed or reduced.

A toner is provided that contains a crystalline polyester resin comprising a polycondensed resin of a dicarboxylic acid represented by the following formula (1) with a diol represented by the following formula (2). A content of a cyclic ester represented by the following formula (3) in the toner, measured by a thermal extraction gas chromatographic mass spectrometry at a thermal extraction temperature of 160 C., is from 1 to 200 ppm in terms of toluene:

##STR00001##

where n represents an integer of from 2 to 12;

##STR00002##

where m represents an integer of from 2 to 12; and

##STR00003##

where n represents an integer of from 2 to 12, m represents an integer of from 2 to 12, and m+n6 is satisfied.