Patent ID: 6061162
Filing Date: 2000-05-09
Classification: B41J,G02B,H04N

Abstract:
An optical exposure unit comprising:light sources which are arranged in correspondence with numbers indicated by N.sub.1 to N.sub.M (M is an integer not less than 2) and emit light beams;first lens means for converting the light beams emitted by each of said light sources into one of convergent light and collimated lights said first lens means including one of a finite lens and collimate lens in number corresponding to a sum of N.sub.1 to N.sub.M ;second lens means given lens power associated with a first direction to converge the light beams output from each of said first lens means in only the first direction, M sets of said second lens means being provided;deflection means for deflecting the light beams output from said second lens means in a second direction perpendicular to the first direction, said deflection means including a reflection surface which is formed to be rotatable about a rotation axis extending in a direction parallel to the first direction as a center of rotation; andimaging means, including at least one lens, for imaging each of the light beams deflected at an equal speed by said deflection means at a predetermined position, andwherein a distance L.sub.0 between a final lens surface and an image surface in a light scanning unit for irradiating M beam groups onto M image carriers falls within a range defined by:(.DELTA.L.sub.MAX +L.sub.M +L.sub.1)/1.8>L.sub.0L.sub.0 >(.DELTA.L.sub.MAX +L.sub.M +L.sub.1)/2where L.sub.1 is the distance between an optical axis of a system of second optical means and a scanning line on one end,L.sub.M is the distance between the optical axis of the system of the second optical means and a scanning line on the other end, and.DELTA.L.sub.MAX is the distance, in a direction parallel to the optical axis of the system, between the scanning lines at the two ends.