@article{ART002895555},
author={Lim, Sang Ho and Ahn Sang-Jun and Yun Gyeong- Yeol},
title={Development of roll bending process technology applied precision orthogonal feeding robot system},
journal={Industry Promotion Research},
issn={2466-1139},
year={2022},
volume={7},
number={4},
pages={9-15},
doi={10.21186/IPR.2022.7.4.009}
TY - JOUR
AU - Lim, Sang Ho
AU - Ahn Sang-Jun
AU - Yun Gyeong- Yeol
TI - Development of roll bending process technology applied precision orthogonal feeding robot system
JO - Industry Promotion Research
PY - 2022
VL - 7
IS - 4
PB - Industrial Promotion Institute
SP - 9
EP - 15
SN - 2466-1139
AB - This study evaluated the automated system of the roll bending process, which is one of the difficult processes. In the past, 20 cartridges were produced per hour. but Automation changed it to a process that produces 50 pieces per hour. The average value of production was 57.6 pieces per hour, error of repeatability was 0.03 mm, average roll diameter error value was 0.49 mm, average alignment error value was 0.09 mm and average process lead time was 43.21 seconds. This paper presented specific evaluation methods such as productivity, repeatability, defect rate, alignment defect rate, and process lead time. It is thought that the contents performed in this study will be helpful in the verification of other automation systems in the future.
KW - Roll bending;FA;Orthogonal robot;Feeding system;technology development
DO - 10.21186/IPR.2022.7.4.009
ER -
Lim, Sang Ho, Ahn Sang-Jun and Yun Gyeong- Yeol. (2022). Development of roll bending process technology applied precision orthogonal feeding robot system. Industry Promotion Research, 7(4), 9-15.
Lim, Sang Ho, Ahn Sang-Jun and Yun Gyeong- Yeol. 2022, "Development of roll bending process technology applied precision orthogonal feeding robot system", Industry Promotion Research, vol.7, no.4 pp.9-15. Available from: doi:10.21186/IPR.2022.7.4.009
Lim, Sang Ho, Ahn Sang-Jun, Yun Gyeong- Yeol "Development of roll bending process technology applied precision orthogonal feeding robot system" Industry Promotion Research 7.4 pp.9-15 (2022) : 9.
Lim, Sang Ho, Ahn Sang-Jun, Yun Gyeong- Yeol. Development of roll bending process technology applied precision orthogonal feeding robot system. 2022; 7(4), 9-15. Available from: doi:10.21186/IPR.2022.7.4.009
Lim, Sang Ho, Ahn Sang-Jun and Yun Gyeong- Yeol. "Development of roll bending process technology applied precision orthogonal feeding robot system" Industry Promotion Research 7, no.4 (2022) : 9-15.doi: 10.21186/IPR.2022.7.4.009
Lim, Sang Ho; Ahn Sang-Jun; Yun Gyeong- Yeol. Development of roll bending process technology applied precision orthogonal feeding robot system. Industry Promotion Research, 7(4), 9-15. doi: 10.21186/IPR.2022.7.4.009
Lim, Sang Ho; Ahn Sang-Jun; Yun Gyeong- Yeol. Development of roll bending process technology applied precision orthogonal feeding robot system. Industry Promotion Research. 2022; 7(4) 9-15. doi: 10.21186/IPR.2022.7.4.009
Lim, Sang Ho, Ahn Sang-Jun, Yun Gyeong- Yeol. Development of roll bending process technology applied precision orthogonal feeding robot system. 2022; 7(4), 9-15. Available from: doi:10.21186/IPR.2022.7.4.009
Lim, Sang Ho, Ahn Sang-Jun and Yun Gyeong- Yeol. "Development of roll bending process technology applied precision orthogonal feeding robot system" Industry Promotion Research 7, no.4 (2022) : 9-15.doi: 10.21186/IPR.2022.7.4.009
