RISS 검색 - 국내학술지논문 상세보기

다국어 초록 (Multilingual Abstract)

A sensor for constructing an In-line roundness measuring device has a tough characteristic on a foreign matter existing on the surface during grinding processing, selects a non-contact eddy current sensor which is excellent in durability and does not cause surface scratches The objective was set to constitute a device capable of performing In - Line roundness measurement and to make it possible to measure by applying the theory of circularity of three points method. In this study, when three displacement sensor signals of the input values of the 3 point circularity algorithm are composed only of the sample shape and the vibration signal by simulation in consideration of the characteristics of the non-contact eddy current sensor, three displacement sensors Using the output of 3 point method to know the roundness was able to confirm the roundness shape of the input sample analogized to a certain value by the vibration protest canceling by the prism. Also, from the output of the displacement sensor, it can be considered that if the system noise is not included, the shape of the input sample can be completely estimated.

목차 (Table of Contents)

Abstract
1. 서론
2. 진원도 측정이론 및 측정장치 구성
3. 시뮬레이션
4. 결론

Abstract
1. 서론
2. 진원도 측정이론 및 측정장치 구성
3. 시뮬레이션
4. 결론
References

참고문헌 (Reference)

1 Wei GAO, "Roundness Measurement by the Orthogonal Mixed Method" 589 (589): 3775-3780, 1995

2 Masayuki MITS, "Research on precision diagnosis technology – Development of 3 point spindle rotation accuracy measurement device-" 425 (425): 115-123, 1982

3 Yasuo AOKI, "On a New Method of Roundness Measurement Based on the Three-point" 12 (12): 831-836, 1966

4 MethodMakoto OBI, "On a New Method of Roundness Measurement Based on the Sequential-Three-Points Method" 506 (506): 2475-2480, 1988

5 Takashi NAKAMURA, "Measurement of Form Errors by Phase Difference Method" 473 (473): 387-391, 1986

6 Yoshiaki KAKINO, "In Situ Measurement of Cylindricity by the 3-Point Method – In the Case of Successive Sectional Measurement-" 11 (11): 1386-1392, 1978

7 Hideo KATO, "Improvement of In-Situ Circularity Measurement Technique Based on Three-Point Method and Development of n-Point Method" 56 (56): 2303-2308, 1990

8 Norimitsu Ozawa, "High Precision Optical Surface Sensor (HIPOSS-1), Studies on Ultra-Precision Measuring Technology" 52 (52): 2080-2086, 1986

9 Korea Research Institute of Standards and Science, "Development of In-Process Gauging Technology (I), (II)" 1989

10 John A. Bosch, "Coordinate measuring Machines and Systems" Dekker 1995