Development of virtual component technology-based CNC system for ISO 6983 data interface model

Md Amir, Hamdan Syakirin (2022) Development of virtual component technology-based CNC system for ISO 6983 data interface model. Project Report. Universiti Teknikal Malaysia Melaka, Melaka, Malaysia. (Submitted)

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Abstract

This paper reports development of a visual component technology-based CNC machine system for the ISO 6983 data interface model. This can do three-axis simultaneous interpolation. Today's fast-paced CNC machines are governed by the ISO 6983 data interface model, which was already deemed a poor script, and diverse CNC programs are generally viewed as owing to reliance on manufacturer requirements. Most of the existing systems are high cost and black box in nature. This is most likely because of these robots' remarkable capability. The goal of this project is to create a low-cost, portable machine using the characteristics of a conventional PC interface as well as an ATMEGA 328 microprocessor CNC system in an Arduino. This device also has an offline G-Code parser that is read via a USB and instead interpreted just on the microcontroller. The primary goal of this study is to create a three-axis soft CNC motion control system for a three-axis milling machine that incorporates virtual components to carry out ISO 6983. An interpreter is a software model that interprets input code according to the mechanical properties of a CNC machine. The method that is used in this project is LabView software where it can interpret the G-Code and run the machine to create the design. The result has been shown that the G-Code running smoothly and no error while machine doing the process. This project can improve the quality of the machine, the need to reduce human errors, reduce wastage and maintain high quality and precision are some intrinsic properties driving the potential volume for CNC milling machine.

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