Patent Number: 
Section: claims

1. An eddy-current flaw detector comprising:a profilometer configured to acquire surface shape data of an object to be inspected;a trace data calculator configured to calculate each coordinate with respect to flaw detection points on which an inspection probe including a contact plane is moved and positioned to perform an eddy-current testing, the flaw detection points being predetermined on a surface of the object based on a condition of the eddy-current flaw detection to be inputted and the surface shape data acquired by the profilometer, and to calculate each of first normal vectors at each of the flaw detection points;a gap evaluation calculator storing the surface shape data and shape data of the inspection probe and configured to acquire, using the surface shape data and the shape data of the inspection probe, an evaluation result by evaluating a gap between the object surface and the inspection probe for each of the flaw detection points, under conditions where (i) the inspection probe is arranged to be in contact with the object surface, and (ii) a second normal vector of the contact plane oriented toward a side of the object surface at the time of scanning matches the first normal vector calculated by the trace data calculator, the second normal vector being perpendicular to the contact plane and passes through a center point of the contact plane;a flaw detection data collector configured to acquire flaw detection data of the object to be inspected for each of the flaw detection points from the inspection probe; anda flaw detection data analyzer configured to evaluate presence/absence of a flaw in the object surface based on the flaw detection data of the object to be inspected and the evaluation result, acquired for each of the flaw detection points. 2. The eddy-current flaw detector according to claim 1,wherein the gap evaluation calculator includes a gap presence/absence determination unit configured to determines whether the gap is absent or not for each of the flaw detection points and to acquire a determination result whether the gap is absent or not for each of the flaw detection points. 3. The eddy-current flaw detector according to claim 1,wherein the gap evaluation calculator includes a distance calculation unit configured to calculate a distance between a first intersection point and a second intersection point for each of the flaw detection points and to acquire the calculated distance as the evaluation result, andwherein the first intersection point is a point where the contact plane of the inspection probe intersects with the first and second normal vectors that accord with each other, and the second intersection point is a point where the object surface intersects with the first and second normal vectors. 4. The eddy-current flaw detector according to claim 1,wherein the gap evaluation calculator includes a sectional area calculation unit configured to calculate a sectional area of a cross-section of the gap for each of the flaw detection points, the cross-section being obtained by virtually cutting the gap by a desired flat plane which includes a straight line in parallel with the first and second normal vectors being matched each other, and to acquire the calculated sectional area as the evaluation result. 5. The eddy-current flaw detector according to claim 1,wherein the gap evaluation calculator includes a volume calculation unit configured to calculate a volume of the gap for each of the flaw detection points and to acquire the calculated volume as the evaluation result. 6. The eddy-current flaw detector according to claim 1,wherein the flaw detection data analyzer includes a flaw signal detection unit configured to detect a flaw signal indicating a flaw in the object surface from the flaw detection data, and a determination unit configured to determine degree of probability that the flaw signal indicates a true flaw in the object surface, based on the detected flaw signal and the evaluation result on the gap for each of the flaw detection points acquired by the gap evaluation calculator, and is configured to evaluate whether the flaw in the object surface is present or absent based on the flaw signal and the determined degree of probability. 7. The eddy-current flaw detector according to claim 1, further comprising:a driver including an attachment unit configured to detachably attach the flaw detection probe and the shape measurement sensor, the driver being configured to change a position and orientation of the attachment unit in a desired state; anda controller configured to control the position and orientation of the attachment unit based on the first normal vector calculated by the trace data calculator, the shape data of the inspection probe, the shape data of the shape measurement sensor, and information to determine whether the flaw detection probe is attached to the attachment unit or the shape measurement sensor is attached to the attachment unit. 8. An eddy-current flaw detection method using an eddy-current flaw detector that includes a trace data calculator, a gap evaluation calculator, a flaw detection data collector, and a flaw detection data analyzer, the eddy-current flaw detection method comprising:a trace data calculation step, by the trace data calculator, of calculating each coordinate with respect to flaw detection points on which an inspection probe including a contact plane is moved and positioned to perform an eddy-current testing, the flaw detection points being predetermined on a surface of an object to be inspected based on a condition of the eddy-current flaw detection to be inputted and surface shape data of the object surface measured by a profilometer, and calculating each of first normal vectors at each of the flaw detection points;a data transmission step, by the trace data calculator, of transmitting the surface shape data of the object and shape data of the inspection probe to the gap evaluation calculator;a gap evaluation step, by the gap evaluation calculator, of acquiring an evaluation result, using the surface shape data and the shape data of the inspection probe transmitted in the data transmission step, by evaluating a gap between the object surface and the inspection probe for each of the flaw detection points, under conditions where (i) the inspection probe is arranged to be in contact with the object surface, and (ii) a second normal vector of the contact plane oriented toward a side of the object surface at the time of scanning matches the first normal vector calculated in the trace data calculation step, the second normal vector being perpendicular to the contact plane and passes through a center point of the contact plane;a flaw detection data collection step, by the flaw detection data collector, of acquiring flaw detection data of the object to be inspected for each of the flaw detection points from the inspection probe; anda flaw detection data analysis step, by the flaw detection data analyzer, of evaluating presence/absence of a flaw in the object surface based on the flaw detection data of the object to be inspected acquired for each of the flaw detection points in the flaw detection data collection step and the evaluation result acquired for each of the flaw detection points in the gap evaluation step. 9. The eddy-current flaw detection method according to claim 8,wherein the gap evaluation step includes at least one ofa gap presence/absence determination step of determining whether the gap is absence or not for each of the flaw detection points,a distance calculation step of calculating a distance between a first intersection point and a second intersection point for each of the flaw detection points, and wherein the first intersection point is a point where the contact plane of the inspection probe intersects with the first and second normal vectors that accord with each other, and the second intersection point is a point where the object surface intersects with the first and second normal vectors,a sectional area calculation step of calculating a sectional area of a cross-section of the gap for each of the flaw detection points, the cross-section being obtained by virtually cutting the gap by a desired flat plane which includes a straight line in parallel with the first and second normal vectors being matched each other,a volume calculation step of calculating a volume of the gap for each of the flaw detection points, anda step of acquiring the evaluation result including an determination whether the gap is absence or not for each of the flaw detection points when the gap evaluation step includes the gap presence/absence determination step, a calculation result of the distance between the first intersection point and the second intersection point for each of the flaw detection points when the gap evaluation step includes the distance calculation step, a calculation result of the sectional area of the cross-section of the gap for each of the flaw detection points when the gap evaluation step includes the sectional area calculation step, and a calculation result of the volume of the gap for each of the flaw detection points when the gap evaluation step includes the volume calculation step. 10. The eddy-current flaw detection method according to claim 8,wherein the flaw detection data analysis step includes a flaw signal detection step of detecting a flaw signal indicating a flaw in the object surface from the flaw detection data, a determination step of determining degree of probability that the flaw signal indicates a true flaw in the object surface, based on the flaw signal detected in the flaw signal detection step and the evaluation result on the gap for each of the flaw detection points evaluated in the gap evaluation step, and a step of evaluating whether the flaw in the object surface is present or absent based on the detected flaw signal and the determined degree of probability.