Patent ID: 7594319
Filing Date: 2009-09-29
Classification: B41J,H01L,H05K,Y10T

Abstract:
1. An electronic-component alignment method, comprising the steps of: arranging first and second electronic components so as to face each other, the first component having alignment holes formed at predetermined positions thereof so as to be spaced away from each other by a predetermined interval, and the second component having round or polygonal alignment marks, each comprised of a plurality of concentrically positioned alignment markings of different sizes, a small alignment making being positioned within a area occupied by a large alignment marking, the alignment marks having an interval therebetween matching that between the alignment holes; capturing an overall image of the small alignment marking of each alignment mark as viewed through a corresponding alignment hole; measuring a first position correction amount so as to place said small alignment markings at a desired position within said alignment holes; roughly adjusting the relative positions of said alignment marks and said alignment holes by relatively moving the second component so that said large alignment marks are captured within said alignment holes, if said large alignment markings were not originally captured within said alignment holes; again capturing an image of said alignment marks; determining whether a portion of each of said large concentric alignment markings is captured within the corresponding alignment hole while capturing an image of said second component within the same field of view as said alignment marks; determining whether both the small and large concentric alignment markings are captured within their respective alignment holes; measuring a second amount of position correction for positioning the alignment mark in registry with the center of the corresponding alignment hole using the large alignment marking or the large and small alignment markings; and finely adjusting the relative positions of first and second electronic component by relatively moving the second component by the second amount of position correction so that the first and second electronic components are aligned with each other.