Patent ID: 8654351

Claim:
An offset amount calibrating method for a surface profile measuring machine including: a stage on which an object is mounted; a contact-type detector being provided with a stylus that is brought into contact with a surface of the object; an image probe that captures an image of the surface of the object; a relative movement mechanism that relatively moves the stage against the contact-type detector and the image probe and moves the contact-type detector and the image probe against the stage; and a controller that controls an operation of the relative movement mechanism and executes processing on measurement data obtained by the contact-type detector and image data obtained by the image probe, the method obtaining an offset amount between the contact-type detector and the image probe, the method comprising: setting on the stage a calibration jig that has a surface being provided with a calibration pattern with a level difference; measuring the calibration pattern of the calibration jig by the contact-type detector to obtain a first reference position of the calibration pattern; capturing an image of the calibration pattern of the calibration jig by the image probe to obtain a second reference position of the calibration pattern; and calculating a difference between the first reference position and the second reference position to obtain the offset amount, wherein the calibration jig includes: a base board; and the calibration pattern having four sub-areas divided by two intersecting straight lines on a surface of the base board, surfaces of a first diagonal pair of the sub-areas being formed at a higher level than surfaces of a second diagonal pair of the sub-areas, the stylus of the contact-type detector is moved across boundaries between the sub-areas of the calibration jig to obtain plural positions of the level difference between the sub-areas and values representing the obtained positions of the level difference are approximated by two first linear lines to obtain the first reference position of the calibration pattern with reference to coordinates of an intersection between the two first linear lines, and an image of the sub-areas of the calibration jig is captured by the image probe to detect plural edges of the sub-areas and values representing the detected edges are approximated by two second linear lines to obtain the second reference position of the calibration pattern with reference to the coordinates of the intersection between the two second linear lines.