An image forming apparatus includes a belt-shaped image bearer, a transferer, a guide, two rotators, and a support. The image bearer has an image bearing surface to bear an image thereon. The transferer forms a transfer section between the transferer and the image hearer, to transfer the image onto a recording medium. The guide is disposed upstream from the transfer section in a delivery direction of the recording medium, to guide the recording medium toward the transfer section. The two rotators are disposed upstream from the transfer section in a moving direction of the image bearer and in contact with a non-image bearing surface of the image bearer opposite to the image bearing surface, a first rotator being closer to the transfer section than a second rotator. The support supports the first rotator and the guide and adjusts a position of the first rotator and a position of the guide.

An image forming apparatus includes: a guide groove for a rotation shaft; a positioning groove provided on a guide surface, for the rotation shaft, in the guide groove; a pressing member provided so as to be rotatable about a support shaft provided at the opening side with respect to the positioning groove, and configured to press the rotation shaft in a groove depth direction of the positioning groove; and a lower surface portion configured to apply a first pressing force in the groove depth direction to the rotation shaft in a fit-in state where the rotation shaft is located at a fit-in position, and apply a second pressing force in the inserting direction to the rotation shaft against the first pressing force in an escape state where the rotation shaft is located at an escape position.

An image forming apparatus includes a belt-shaped image bearer, a transferer, a guide unit, and a plurality of contact members. The belt-shaped image bearer has an image bearing surface to bear an image thereon. The transferer forms a transfer section between the transferer and the image bearer, to transfer the image onto a recording medium. The guide unit is disposed upstream from the transfer section in a delivery direction of the recording medium, to guide the recording medium toward the transfer section. The plurality of contact members are disposed side by side at positions opposing the guide unit and in contact with a non image bearing surface of the image bearer opposite to the image bearing surface.

In accordance with one embodiment, an image forming apparatus includes an image forming section and a transfer roller. A support body supports the image carrier in a main body opposite to the transfer roller. A holding member positioned in the support body holds the transfer roller. The holding member includes at least one groove in a portion of the holding member that holds the transfer roller. At least one conductive member is positioned in, and protruding from, the at least one groove so that a part of the conductive member makes electrical contact with the transfer roller when the transfer roller is held in the holding member. A power supply section applies transfer bias between the image carrier and the transfer roller through the conductive member.

An image forming apparatus for forming an image on a sheet includes a rotatable image bearing member, a transfer roller, a fan, and a duct. The duct extends in a parallel direction to a shaft direction of the transfer roller and includes an inflow port to guide air. The duct further includes, in an area opposing the transfer roller, a first opening portion that is provided at a position closer to a first end side of the duct than to a second end side of the duct, and a second opening portion that is provided at a position closer to the second end side than to the first end side, in the parallel direction. The air supplied to the duct by the fan through the inflow port passes through the first opening portion and the second opening portion, and is supplied to the transfer roller.

An image-forming apparatus includes a main body, a belt unit detachably attachable to the main body, a coupling and a restricting part. The belt unit includes: a first roller defining an axis extending in an axial direction, a second roller opposing the first roller in a first direction perpendicular to the axial direction, and a belt looped over the first roller and the second roller. The coupling is configured to move in the axial direction to come into engagement with the first roller for inputting a drive force into the first roller. The restricting part is provided on the main body and is configured to restrict the first roller from moving in a second direction perpendicular to the axial direction and the first direction when the belt unit is attached to the main body.

An ITM module for an imaging device, including a frame; a tension roll disposed in the frame; an ITM belt rotatably coupled to the frame and formed as an endless loop around rolls of the ITM module, including the tension roll; and an adjustment mechanism coupled to an end portion of the frame and to the tension roll, the adjustment mechanism setting an amount of skew of the tension roll relative to the frame. The amount of skew is in a direction that is substantially orthogonal to a process direction of the ITM belt. The adjustment mechanism includes a cam member rotatably coupled to the frame and having a cam surface coupled a first end portion of the tension roll such that rotating the first cam member sets an amount of elevation of the first end portion of the tension roll relative to the frame.

An image forming apparatus includes a unit that is attachable and detachable with respect to a main body frame, and a lock mechanism. The lock mechanism includes a handle portion, a lock member that is swingably disposed on the unit and has a hook portion engageable with an engaged portion formed on the main body frame, and a first biasing member that biases the lock member in a first direction in which the hook portion engages with the engaged portion. Due to the handle portion being moved in the detaching direction, the lock member is caused to swing against a biasing force of the first biasing member in a second direction opposite to the first direction so as to release engagement between the hook portion and the engaged portion. The lock member includes a restraint portion that restrains swinging of the lock member.

An image forming apparatus includes an image forming device, a body, an intermediate transfer unit, a cover, and a guide rail. The body has a bottle housing hole in which a toner bottle is removably inserted. The intermediate transfer unit includes an intermediate transfer belt and a plurality of rollers to drive the intermediate transfer belt and is removably disposed between the image forming device and the bottle housing hole. The intermediate transfer unit and the toner bottle are accessible from a front side of the body. The openable and closable cover is disposed at an inlet-and-outlet port of the bottle housing hole. The guide rail is disposed at a lower side of the bottle housing hole to slidably guide the intermediate transfer unit and has a front-side end extended to a position crossing at least a vertical projection line of the cover on the front side of the body.

An image forming apparatus includes a photosensitive member, a transfer unit having a transfer belt, a primary transfer roller, a secondary transfer inner roller below the primary transfer roller in a vertical direction, and a stretching roller, a secondary transfer outer roller, a support unit, and an air duct provided in the transfer unit. The secondary transfer outer roller faces the secondary transfer inner roller via the transfer belt and forms a nip portion for secondarily transferring a toner image on the transfer belt to a sheet. The air duct is located downstream of the nip portion in a sheet conveyance direction and below a portion of the transfer belt stretched between the secondary transfer inner roller and the stretching roller in the vertical direction. The air duct includes an air intake port and moves with the transfer unit with movement of the transfer unit from the support unit.