Reverse Engineer 5 Degrees of Freedom Robot Arm using Programmable Logic Controller

ELEKTRIKA- Journal of Electrical Engineering Pub Date : 2022-04-20 DOI:10.11113/elektrika.v21n1.348

N. A. Abd Rahman, Z. Aspar

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Abstract

Many types of robot arms have been developed in the market. Whenever a robot arm broke down, it is a challenge to do reverse engineer and repair the robot arm. This project has successfully reused the existing 5 degrees of freedom robot arm structure and electronic components while replacing the controller with a new Programmable Logic Controller (PLC) and LLD model. The project uses the existing DC servo motor, encoder, sensors, power supply, and interface board. Since the structure and most electronic components are already available, they are important to be analyzed and understood before they can be reused. Hence the reverse engineering activities are needed. In addition, a low-cost PLC is used to save cost. Thus, it is not possible to move all axes at the same time. Instead, the robot arm can only move one axis at a time. Additionally, the robot arm has been improved to be able to be programmed manually or automatically and repeat previously predetermined position sequences. In total, 90 rungs, 96 built-in commands, and custom functions have been used. The refurbished system is very stable and reliable.

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利用可编程逻辑控制器逆向工程5自由度机械臂

市场上已经开发出多种类型的机械臂。每当机械臂发生故障时，对其进行逆向工程和修复是一个挑战。本项目成功地重用了现有的5自由度机械臂结构和电子元件，同时用新的可编程逻辑控制器(PLC)和LLD模型取代了控制器。本项目采用现有的直流伺服电机、编码器、传感器、电源和接口板。由于结构和大多数电子元件已经可用，因此在重用它们之前对它们进行分析和理解非常重要。因此需要逆向工程活动。此外，采用了低成本的PLC，节省了成本。因此，不可能同时移动所有轴。相反，机械臂一次只能移动一个轴。此外，机器人手臂已经改进到能够手动或自动编程，并重复先前预定的位置序列。总共使用了90个梯级、96个内置命令和自定义函数。改造后的系统非常稳定可靠。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ELEKTRIKA- Journal of Electrical Engineering

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