Measurement frequency variable ultrasonic imaging device

The invention claimed is: 1. A measurement frequency variable ultrasonic imaging device comprising: an ultrasonic probe including a piezoelectric device transmitting ultrasonic waves to a sample and receiving ultrasonic waves reflected, scattered, and refracted by the sample to output a received signal; a scanner scanning the sample with the ultrasonic probe and positioning the ultrasonic probe at a predetermined scanning position in a Y direction after scanning in an X direction by one line; a frequency controller controlling a frequency of the received signal at a predetermined frequency in accordance with the scanning position in the Y direction of the probe, the predetermined frequency being varied stepwise; a signal processing unit processing the received signal; and an image generator generating an ultrasonic wave image with the predetermined frequency varied stepwise in accordance with the scanning position in the Y direction on the basis of an output signal of the signal processing unit. 2. The measurement frequency variable ultrasonic imaging device as claimed in claim 1 , wherein the frequency controller controls the frequency of the received signal by varying a frequency of a transmission signal supplied to the piezoelectric device. 3. The measurement frequency variable ultrasonic imaging device as claimed in claim 1 , wherein the frequency controller comprises a burst wave oscillator generating and supplying a burst signal having the predetermined frequency to the piezoelectric device. 4. The measurement frequency variable ultrasonic imaging device as claimed in claim 1 , wherein the frequency controller controls the frequency of the received signal by controlling a pass band of the received signal. 5. The measurement frequency variable ultrasonic imaging device as claimed in claim 2 , wherein the frequency controller controls the predetermined frequency of the ultrasonic waves in accordance with the scanning position, and wherein the image generator displays the predetermined frequency in accordance with the scanning position on the generated ultrasonic wave image. 6. The measurement frequency variable ultrasonic imaging device as claimed in claim 1 , further comprising an optimal frequency adjusting processing unit estimating the ultrasonic wave image of the sample and optimizing the frequency of the ultrasonic waves. 7. The measurement frequency variable ultrasonic imaging device as claimed in claim 6 , wherein the optimal frequency adjusting processing unit comprises a contrast calculating unit and optimizes the frequency of the ultrasonic waves to maximize the contrast. 8. The measurement frequency variable ultrasonic imaging device as claimed in claim 6 , wherein the optimal frequency adjusting processing unit comprises a high frequency component calculating unit calculating a high frequency component of the ultrasonic wave image of the sample and optimizes the frequency of the ultrasonic waves to maximize the high frequency component. 9. The measurement frequency variable ultrasonic imaging device as claimed in claim 1 , further comprising: a burst wave oscillator generating a burst wave having the predetermined frequency; an impulse wave oscillator generating an impulse wave; and a switch supplying either of the burst wave or the impulse wave to the piezoelectric device. 10. A measurement frequency variable ultrasonic imaging device comprising: an ultrasonic probe including a piezoelectric device transmitting ultrasonic waves to a sample and receiving ultrasonic waves reflected, scattered, and refracted by the sample to output a received signal; a scanner scanning the sample with the ultrasonic probe and positioning the ultrasonic probe at a predetermined scanning position in a Y direction after scanning in an X direction by one line; a frequency controller varying a frequency of the transmitting ultrasonic waves of the piezoelectric device at a predetermined frequency stepwise in accordance with the scanning position in the Y direction of the probe; a signal processing unit processing the received signal; and an image generator generating one sheet of an ultrasonic wave image with the predetermined frequency varied stepwise in accordance with the scanning position in the Y direction on the basis of an output signal of the signal processing unit.