Patent ID: 9073350
Filing Date: 2015-07-07
Classification: B41J,G03G,H04N

Abstract:
1. An optical scanning device, comprising: a photoreceptor on which a latent image is formed by scanning thereof with a laser beam, a scanning area of the laser beam being divided into a plurality of areas aligned in a main scanning direction; a light source unit that includes an f-θ lens that images the laser beam entered on the photoreceptor in a spot form, and outputs the laser beam passing through the f-θ lens at a substantially constant velocity, the photoreceptor being scanned in the main scanning direction with the laser beam; a plurality of correction value storage units, each of which stores a light quantity correction value that is predetermined in association with each of the areas; a light quantity correction unit which corrects a light quantity when scanning the photoreceptor with the laser beam by using the light quantity correction value stored in the correction value storage unit in association with each of the areas corresponding to the scanning position of the laser beam; a DA converter that generates an analog signal of a signal level corresponding to the light quantity correction value input from the light quantity correction unit; and a laser control unit that adjusts an amount of a drive current supplied to the light source unit according to the signal level of the analog signal input from the DA converter, wherein a target correction amount for correcting the light quantity is predetermined according to a position of the photoreceptor in the main scanning direction, and the target correction amount changes according to the position of the photoreceptor in the main scanning direction, a length, in the main scanning direction, of each area contained in the plurality of areas is shorter in an area in which a correction value change rate, which is a variation in the target correction amount per unit length of the main scanning direction, is greater, the light quantity correction value is determined based on the target correction amount according to a position of an area corresponding to the light quantity correction value the photoreceptor is provided with an image forming area where the latent image is formed and drawing prohibited areas at both ends of the image forming area and in which the scanning by the laser beam is prohibited, the signal level of the analog signal when the latent image is not formed on the photoreceptor is predetermined as the target correction amount corresponding to a position of each of the drawing prohibited areas, and the plurality of areas are generated by repeatedly dividing the image forming area each time the variation in the target correction amount corresponding to each position within a range from one end to the other end of the image forming area exceeds a specified value.