Open AccessReverse Engineer 5 Degrees of Freedom Robot Arm using Programmable Logic Controller
Author(s) -
Nurul Huda Abd Rahman,
Zulfakar Aspar
Publication year - 2022
Publication title -
jurnal elektrika
Language(s) - English
Resource type - Journals
ISSN - 0128-4428
DOI - 10.11113/elektrika.v21n1.348
Subject(s) - robotic arm , robot , arm solution , controller (irrigation) , control engineering , programmable logic controller , degrees of freedom (physics and chemistry) , interface (matter) , servomotor , robot control , encoder , dc motor , engineering , embedded system , computer science , mobile robot , artificial intelligence , electrical engineering , gibbs isotherm , physics , quantum mechanics , chemical engineering , agronomy , biology , operating system , pulmonary surfactant
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.