An image foil ling apparatus includes a latent image bearer, a charger, an exposure device, a developing device, a toner adhesion amount detector, and control circuitry. The control circuitry controls the charger, the exposure device, and the developing device to form a detection toner pattern shorter than a circumferential length of the latent image bearer in a circumferential direction of the latent image bearer at an area of the latent image bearer including at least a part of an opposite portion of the latent image bearer opposite the charger when the latent image bearer stops rotation, controls the toner adhesion amount detector to detect a toner adhesion amount of the detection toner pattern, and executes a refreshing operation to recover the surface of the latent image bearer from a deteriorated state due to a discharge product based on a result of the detection toner pattern detected by the toner adhesion amount detector.

An image forming apparatus includes an information processing section that is provided with a housing and an image forming section that is disposed above the housing in a gravitational direction. In the image forming apparatus, a gap exists between the housing and the image forming section, and a ventilation hole is formed in an upper surface of the housing.

An image forming apparatus includes a latent image bearer, a charger, an exposure device, a developing device, a toner adhesion amount detector, and control circuitry. The control circuitry controls the charger, the exposure device, and the developing device to form the detection toner pattern shorter than a circumferential length of the latent image bearer in a circumferential direction of the latent image bearer at an area of the latent image bearer including at least a part of an opposite portion of the latent image bearer opposite the charger when the latent image bearer stops rotation, controls the toner adhesion amount detector to detect the toner adhesion amount of the detection toner pattern, and executes a refreshing operation to recover the surface of the image bearer from a deteriorated state due to a discharge product based on a result of the detection toner pattern detected by the toner adhesion amount detector.

In one example, a wheel includes an annular body having a central axis; and multiple concentric grooves in the body surrounding the central axis. A first one of the grooves penetrates the body from a first side and a second one of the grooves penetrates the body from a second side opposite the first side.

There is provided a voltage generation device for generating a voltage in which an alternating-current voltage is superimposed on a direct-current voltage, to apply the voltage to a rotary body. The voltage generation device includes a direct-current power supply, an alternating-current power supply, a variation phase determiner, and a voltage controller. The alternating-current power supply is connected to the direct-current power supply. The variation phase determiner is configured to determine whether variation of an output voltage of the alternating-current power supply and variation of an output current of the alternating-current power supply are in opposite phases. The voltage controller is configured to perform gain correction for the output voltage in a case where the variation of the output voltage and the variation of the output current are in opposite phases.

An image forming apparatus includes an information processing section that is provided with a housing and an image forming section that is disposed above the housing in a gravitational direction. In the image forming apparatus, a gap exists between the housing and the image forming section, and a ventilation hole is formed in an upper surface of the housing.

There is provided a voltage generation device for generating a voltage in which an alternating-current voltage is superimposed on a direct-current voltage, to apply the voltage to a rotary body. The voltage generation device includes a direct-current power supply, an alternating-current power supply, a variation phase determiner, and a voltage controller. The alternating-current power supply is connected to the direct-current power supply. The variation phase determiner is configured to determine whether variation of an output voltage of the alternating-current power supply and variation of an output current of the alternating-current power supply are in opposite phases. The voltage controller is configured to perform gain correction for the output voltage in a case where the variation of the output voltage and the variation of the output current are in opposite phases.

In examples provided herein, a roller damper comprises a damper body element having mass and having a shape to fit an interior of a tubular roller element. The roller element is associated with a natural frequency. The roller damper also comprises an elastomer support member coupled to the damper body element. The mass of the damper body element and the elastomer support member are selected based on the natural frequency of the tubular roller element.

A charging member for an image forming apparatus may include a conductive support and a surface layer on the conductive support and spaced apart from a photosensitive member. The surface layer may include a urethane foam including foam cells and having a foam structure based on the foam cells, the foam cells including open cells.

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.