In accordance with an embodiment, an image forming apparatus comprises a main body, an attaching/detaching section, an uneven part, and a cleaning member. A conveyance path is formed inside the main body. The attaching/detaching section housed in the main body is detachably drawn out with respect to the main body along the conveyance path. The uneven part has a convex part and a concave part and is arranged in the attaching/detaching section. The cleaning member arranged in the main body is slidable with the convex part in a direction in which the attaching/detaching section moves along the conveyance path.

In accordance with an embodiment, an image forming apparatus comprises a main body, an attaching/detaching section, an uneven part, and a cleaning member. A conveyance path is formed inside the main body. The attaching/detaching section housed in the main body is detachably drawn out with respect to the main body along the conveyance path. The uneven part has a convex part and a concave part and is arranged in the attaching/detaching section. The cleaning member arranged in the main body is slidable with the convex part in a direction in which the attaching/detaching section moves along the conveyance path.

An image forming apparatus includes a photosensitive drum for bearing a developer, a charging roller that comes into contact with the photosensitive drum at a different velocity and that charges the photosensitive drum, a transfer roller that transfers a developer image on the photosensitive drum to a recording material, and a developing sleeve that supplies a developer to the photosensitive drum and that recovers a developer on the photosensitive drum after transfer. A detecting device detects information relating to injection charging, and a controller controls an amount of the fogging developer during image formation according to information detected by the detecting device while suppressing the amount of the developer recovered in the developing sleeve.

An image forming apparatus includes first, second, and third acquisition processing portions. The first acquisition processing portion acquires the potential value of a charged area, charged by the charging member, on the image-carrying member. The second acquisition processing portion acquires a state value regarding the state of a surface layer of the image-carrying member based on the potential value of the charged area acquired by the first acquisition processing portion and the current value of a charging current flowing through the charging member during formation of the charged area. The third acquisition processing portion acquires the electrical resistance value of the transfer member based on the state value acquired by the second acquisition processing portion, the voltage value of a transfer voltage applied to the transfer member, and the current value of a transfer current flowing through the charged area in response to application of the transfer voltage.

A charge eliminating apparatus configured to remove charges from a sheet on which an image is formed by a printing apparatus, includes a charge eliminating roller pair including a first charge eliminating roller and a second charge eliminating roller configured to form a nip portion together with the first charge eliminating roller, the charge eliminating roller pair being configured to remove the charges from the sheet in a state of contacting the sheet at the nip portion, a first setting unit configured to set a value of a voltage applied to the charge eliminating roller pair, and a second setting unit configured to set whether to apply the voltage to the charge eliminating roller pair, wherein the second setting unit is configured to set whether to apply the voltage to the charge eliminating roller pair without changing the value of the voltage set by the first setting unit.

An image forming apparatus includes a photosensitive member including a photosensitive layer and a protective layer provided outside the photosensitive layer; a charging member configured to electrically charge the photosensitive member; an exposure device configured to expose, to light, the photosensitive member charged by the charging member; a detecting member configured to detect a surface potential of the photosensitive member; and an output portion configured to output information on a lifetime of the photosensitive member. The output portion outputs the information on the basis of an exposure amount with which the photosensitive member charged is exposed to light and a detection result of the surface potentials of the photosensitive member by the detecting member before and after the photosensitive member is exposed to the light with the exposure amount.

In an image forming apparatus, a seal member is a non-conductive, flexible member supported by a developing device. The seal member is formed to project from an edge part of the developing device that faces an image carrying member, along a longitudinal direction of the image carrying member. The seal member fills a part of a gap between the developing device and an outer circumferential surface of the image carrying member. An electrode film is adhered to a surface of the seal member. The electrode film is a conductive film. A potential detecting device detects a potential of the electrode film. A charging controller controls a charging voltage based on a result of comparison between a predetermined reference potential and the potential detected by the potential detecting device.

In one example, a method for calibrating a position of a charge roller is described. The method may include a processor positioning a first end of a charge roller to a first plurality of index positions, determining a capacitance between the charge roller and a photoconductor imaging plate at each of the first plurality of index positions, determining a first index position of the first plurality of index positions with a greatest change in capacitance, and calibrating a position of the charge roller based upon the first index position.

A printing apparatus includes a transport mechanism for transporting a transport roll paper, a first slack detection sensor and a second slack detection sensor, or a label detection sensor driven at a predetermined cycle, a high-pass filter circuit to which detection voltages of the first slack detection sensor and the second slack detection sensor, or the label detection sensor are inputted, and an SOC (control circuit) for determining presence or absence of the transport roll paper or a label attached to a label sheet by comparing a detection voltage that has passed through the high-pass filter circuit with a predetermined threshold value.

An image forming apparatus includes a latent image bearer to bear a latent image, a potential sensor having a vibrator driven by a drive frequency to detect a surface potential of the latent image bearer, a developer bearer to bear developer that develops the latent image on the latent image bearer, and a power supply to apply a superimposed voltage obtained by superimposing an alternating voltage on a direct current voltage on the developer bearer. The frequency of the alternating voltage is not a multiple of the drive frequency and is a value obtained by adding a predetermined value to a multiple of the driving frequency.