Patent ID: 8833168
Filing Date: 2014-09-16
Classification: G01N,G01S,G06T

Abstract:
1. An ultrasonic inspection device comprising: an ultrasonic probe which provides a plurality of piezoelectric elements; a pulser which supplies transmission signals to the respective piezoelectric elements of the ultrasonic probe; a receiver which receives signals from the respective piezoelectric elements of the ultrasonic probe; a delay time controller which sets delay times to the transmission signals to be supplied to the piezoelectric elements and sets delay times to the signals received by the piezoelectric elements, the delay times set to the transmission signals being different from each other, the delay times set to the received signals being different from each other; a data storage unit which stores the waveforms of ultrasonic waves received by the ultrasonic probe; a calculator which is provided for image processing and which generates three-dimensional inspection data from the waveforms stored in the data storage unit; a three-dimensional display unit which displays three-dimensional shape data of an object to be inspected and the three-dimensional inspection data generated by the calculator; and a positioning correction section which corrects the relative positions of the displayed three-dimensional shape data and the displayed three-dimensional inspection data on the basis of a coordinate system defined by points and a surface represented by a part of the three-dimensional shape data displayed by the three-dimensional display unit, the positioning correction section being used to display the three-dimensional shape data and the three-dimensional inspection data while the three-dimensional shape data and the three-dimensional inspection data overlap each other, wherein the positioning correction section: defines a Z direction that is perpendicular to an inspection surface on which the ultrasonic probe has been placed, the inspection surface having been selected from the three-dimensional shape data displayed on the three-dimensional display unit; redisplays the three-dimensional shape data and the three-dimensional inspection data, after positive and negative sides of the three-dimensional inspection data displayed on the three-dimensional display unit in the Z direction match positive and negative sides of the three-dimensional shape data displayed on the three-dimensional display unit in the Z direction, so that a surface that provides an incident point in the three-dimensional inspection data matches the inspection surface of the three-dimensional shape data; sets a Z axis that has an origin that is a first point which is located on, , and selected from the three-dimensional shape data; moves one of the three-dimensional inspection data and the three-dimensional shape data in parallel so that the origin of the three-dimensional inspection data matches the first point; sets an X axis that has an origin that is the first point, wherein the X axis extends on a line that connects the first point to a second point which is located on, and selected from, the three-dimensional shape data; sets a Y axis so that the X, Y and Z axes form a right handed coordinate system; rotates the one of the three-dimensional inspection data and the three-dimensional shape data relative to the other data around the Z axis on the basis of input information on a rotational angle and updates the three-dimensional display unit; and moves the one of the three-dimensional inspection data and the three-dimensional shape relative to the other data in parallel along the X, Y and Z axes on the basis of input information on the amount of the parallel movement and updates the three-dimensional display unit.