Patent ID: 8948631
Filing Date: 2015-02-03
Classification: G03G

Abstract:
1. An image forming apparatus, comprising: a memory unit; an image forming unit that includes a photoconductive drum and a developing unit that supplies toner to the photoconductive drum and that forms a toner image on a circumferential surface of the photoconductive drum by applying a developing bias voltage to the developing unit; an intermediate transfer member to which the toner image formed on the circumferential surface of the photoconductive drum is transferred and from which the toner image is secondarily transferred to a recording medium; a density detecting unit that detects the density of a surface of the intermediate transfer member; a background density measuring unit that stores background density, which is density of the intermediate transfer member surface detected by the density detecting unit in a state where the toner image is not transferred, in the memory unit in correspondence with position information on the intermediate transfer member surface before an execution timing of a calibration process that adjusts image formation density, separately from the calibration process; a test patch formation controlling unit that causes the image forming unit to form a test patch, which is a toner image for density adjustment, on the intermediate transfer member surface while causing the intermediate transfer member to drive at a predetermined driving speed; a density correcting unit that executes the calibration process, after the background density has been stored in the memory unit in correspondence with the position information by the background density measuring unit and after a predetermined number of sheets are printed by the image forming apparatus; a member position detecting unit that detects the passage of a position detecting member provided on the intermediate transfer member surface; and a time measuring unit that measures a driving time of the intermediate transfer member after the detection of the passage of the position detecting member by the member position detecting unit; wherein the density correcting unit adjusts image formation density by the image forming unit according to a difference between the background density already stored in the memory unit and corresponding to the position information indicating the formation position of the test patch on the intermediate transfer member surface and the density of the test patch formed on the intermediate transfer member surface by the test patch formation controlling unit and detected by the density detecting unit at the time of executing the calibration process, the density correcting unit sets a developing bias voltage value which is a value of the developing bias voltage according to the difference to adjust the image formation density, the density correcting unit executes the calibration process using the background density stored in the memory unit without measuring the background density by the background density measuring unit every time the calibration process is started, the background density measuring unit stores a multiplication result of the driving time of the intermediate transfer member measured by the time measuring unit after the detection of the passage of the position detecting member and the predetermined driving speed of the intermediate transfer member as position information indicating a position on the intermediate transfer member surface in a moving direction of the intermediate transfer member surface in the memory unit in correspondence with the background density, the test patch formation controlling unit causes the image forming unit to form a plurality of the test patches on the intermediate transfer member surface, the density correcting unit calculates the position information indicating the position on the intermediate transfer member surface for the respective plurality of test patches formed by the image forming unit by multiplying the driving time of the intermediate transfer member measured by the time measuring unit after the detection of the passage of the position detecting member and the predetermined driving speed of the intermediate transfer member, the density correcting unit plots points corresponding to combinations of the developing bias voltage values at the time of forming the respective plurality of test patches and the difference values between densities of the plurality of test patches and the background densities in a two-dimensional coordinate system, and calculates an approximation line representing a relation between the developing bias voltage values and toner densities by using the points, and the density correcting unit obtains a target developing bias voltage value corresponding to a target density set beforehand based on the approximation line, and sets the target developing bias voltage value as the developing bias voltage value at the time of an image forming operation by the developing unit.