Design and Control of a 3D Printed Robotic Arm

Tamás Bárány, László Rónai
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Abstract

The paper is dealing with a 3D printed robotic arm, which is capable to use in the education. The RRR type, 4 degrees of freedom robot is designed in the Autodesk Fusion 360 software, the body of each joint is manufactured by the use of Fused Deposition Modelling technology. The system uses micro servo units as actuators, the control unit is an ATmega2560 microcontroller. Inverse kinematics problem of the arm is solved by geometric approach, joint angles to be determined serve the basis of the control. The workspace of the robot can be analysed via a special purpose Excel spreadsheet. The control program is developed under VS Code software. The system has an OLED screen, which can give information about the reachability of the coordinates, and the state of the robotic arm. The points to be reached are contained by the uploaded control program. The system is capable to use as demonstrating purposes, especially for engineering students.
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3D打印机械臂的设计与控制
这篇论文是关于3D打印机械臂的,它可以用于教育。RRR型,4个自由度的机器人是在Autodesk Fusion 360软件中设计的,每个关节的身体都是使用熔融沉积建模技术制造的。该系统采用微伺服单元作为执行器,控制单元为ATmega2560单片机。采用几何方法求解手臂的运动学逆问题,确定关节角为控制提供依据。机器人的工作空间可以通过一个特殊用途的Excel电子表格进行分析。控制程序是在vscode软件下开发的。该系统有一个OLED屏幕,可以提供有关坐标可达性和机械臂状态的信息。要到达的点包含在上传的控制程序中。该系统能够用于演示目的,特别是对工程专业的学生。
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