조립 로봇용 가변 수동 강성 장치의 설계

General industrial robots are difficult to use for precision assembly because they are operated based on position control. Their position accuracy is also usually higher than the assembly clearance (several tens of ${\mu}m$). In previous researches, force control was suggested as a robotic assembly...

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Veröffentlicht in:한국생산제조학회지 2016, 25(6), , pp.517-521
Hauptverfasser: 김휘수(Hwi Su Kim), 박동일(Dong Il Park), 박찬훈(Chan Hun Park), 김병인(Byung In Kim), 도현민(Hyun Min Do), 최태용(Tae Yong Choi), 김두형(Doo Hyung Kim), 경진호(Jin Ho Kyung)
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Zusammenfassung:General industrial robots are difficult to use for precision assembly because they are operated based on position control. Their position accuracy is also usually higher than the assembly clearance (several tens of ${\mu}m$). In previous researches, force control was suggested as a robotic assembly solution. However, this method is difficult to apply in reality because of speed and cost problems. The RCC provides high speed, but applications are limited because the compliance is fixed, and it cannot detect an assembly condition during a task. A variable passive compliance device (VPCD) was developed herein. The VPCD can detect the assembly condition during tasks. This device can provide proper compliance for successful assembly tasks. The pneumatic system and the Stewart platform with an LVDT sensor were applied for measuring the displacement and variable compliance, respectively. The concept design and analysis were conducted to prove the effectiveness of the developed VPCD.
ISSN:2508-5093
2508-5107
DOI:10.7735/ksmte.2016.25.6.517