Special Issue of the Society of Naval Architects of Korea (대한조선학회 특별논문집)
- 2005.06a
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- Pages.171-176
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- 2005
Development of a Intelligent Welding Carriage for Automation of Curved Block
곡 블록 자동화를 위한 지능형 용접 캐리지 개발
- Choi HeeByoung (Automation Research Part, SAUSUNG HEAVY INDUSTRIES) ;
- Moon JongHyun (Welding Research Part, SAMSUNG HEAVY INDUSTRIES) ;
- Jun WanLyul (Automation Research Part, SAUSUNG HEAVY INDUSTRIES) ;
- Kim Sehwan (Automation Research Part, SAUSUNG HEAVY INDUSTRIES)
- 최희병 (삼성중공업 생산기술연구소 자동화연구) ;
- 문종현 (삼성중공업 생산기술연구소 용접연구) ;
- 전완열 (삼성중공업 생산기술연구소 자동화연구) ;
- 김세환 (삼성중공업 생산기술연구소 자동화연구)
- Published : 2005.06.01
Abstract
This paper presents a novel Intelligent-Welding-Carriage (IWC) for automation of curved block in shipbuilding. The curved block is usually used in both front and back side of the ship. In curved block root gap is big, 1-7 (mm) and inclination, 0-30 (deg). Since available conventional carriage type is limited to use below root gap of 3 (mm), only manual welding is employed in curved block. To adopt an IWC in curved block, it requires control of the welding conditions, i.e., voltage. current, weaving speed, dwell time and travel speed, with respect to root gap and inclination to achieve good welding qualify. In this paper, an IWC is developed for automization of welding operation to accommodate gap and inclination. Kinematics model and dynamics using Lagrangian formulation of the manipulator is introduced. IWC utilizes a database to perform accurate welding. The database is programmed based on numerous experimental test results with respect to gap, inclination, material, travel speed, weaving condition, voltage, and current. Finally, experimental result using PID control is addressed for verifying the trajectory tracking accuracy of end-effector.