사용자 친화적이고 직관적인 티칭을 위한 충돌예측기능을 포함하는 탈착형 로봇 교시 장치
초록
Increasing demand for automation and recent intact trends have accelerated the employment of robots in manufacturing and service areas. Thus, the need for an easy and efficient robot teaching is also increasing. In this paper, a novel concept of intuitive teaching device is proposed to overcome the weakness of the previous research that enables direct teaching by attaching the teaching device to the end effector of the robot and to improve the intuitiveness and operability. The teaching and collision prediction units are modularized according to their function and can be combined or disassembled. The manipulability is improved by lowering the height of the teaching device, and the influence on the payload is minimized by reducing the weight of the teaching device. A prototype is implemented, and the performance is verified through experiments by attaching the proposed teaching device to an industrial robot and performing teaching and playback tasks.
Keywords:
Robot teaching, Teaching handle, Human-robot collaboration, Collision prediction, Industrial robotAcknowledgments
This work was supported partially by the Ministry of Trade, Industry & Energy and KEIT under program number 10063413 and partially by the R&D program of KIMM funded by the National Research Council of Science & Technology.
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Principal researcher in the Department of Robotics and Mechatronics, Korea Institute of Machinery & Materials.His research interests are robot safety for human-robot collaboration, grasping and manipulation, robotic hand, tactile intelligence and machine learning.
E-mail: hmdo@kimm.re.kr
Senior researcher in the Department of Robotics and Mechatronics, Korea Institute of Machinery & Materials.His research interests are manipulator design, counterbalance mechanism & robot and safe robot arm
E-mail: hskim81@kimm.re.kr
Senior Researcher in the Department of Robotics and Mechatronics, Korea Institute of Machinery & Materials.His research interests are robot hand, surgical robot, six-axis force/torque sensor, force/tactile sensors for robotic applications.
E-mail: ukkim@kimm.re.kr
Principal researcher in the Department of Robotics and Mechatronics, Korea Institute of Machinery & Materials.His research interest is robot control, artificial intelligence, and industrial robot system.
E-mail: taeyongc@kimm.re.kr
Senior Researcher in the Department of Robotics and Mechatronics, Korea Institute of Machinery & Materials.His research interests are analysis of robot control, integrative system for robot, human hand motion and its synthesis for engineering, purposes.
E-mail: jekiel@kimm.re.kr
Principal Researcher in the Department of Robotics and Mechatronics, Korea Institute of Machinery & Materials.His research interests are the design and control of robot systems.
E-mail: parkstar@kimm.re.kr
Head, Department of Robotics and Mechatronics, Korea Institute of Machinery and Materials.His research interests are Cooperative robot, Parallel Kinematic Robot, Assembly Robot and Robot for the disabled.
E-mail: chpark@kimm.re.kr
Principal Researcher in the Department of Robotics and Mechatronics, Korea Institute of Machinery & Materials.He has served as a head of Robot team. His research interests are the design and control of robotic systems, and manipulation technology for human-robot cooperation.
E-mail: jhkyung@kimm.re.kr