Generic placeholder image

Recent Advances in Computer Science and Communications


ISSN (Print): 2666-2558
ISSN (Online): 2666-2566

Research Article

The Overall Design of the Comber Drive Control System

Author(s): Xiaobei Wang*

Volume 15, Issue 8, 2022

Published on: 07 December, 2020

Page: [1043 - 1051] Pages: 9

DOI: 10.2174/2666255813666201207153321


Objective: The cotton textile industry, as a competitive industry in China's international competition, is confronting new opportunities and challenges brought about by the growing popularity of mechatronics. To further improve the traditional drive control of combing machines made in China and the automatic level of machines as a whole, some of our cotton textile enterprises have undertaken necessary technical transformations on the combing machines so as to advance the operational efficiency and production technology of domestic textile equipment.

Methods: This paper focuses on the basic status and dynamic characteristics of the drive part of the domestic new comber, and analyzes the operation process of the comber and the prominent problems from the production practice.

Results: The technically improved drive control system uses an industrial control computer (IPC) as the core of the system, which effectively improves the overall working efficiency of the comber, and improves the production accuracy and production efficiency.

Conclusion: The combers that are textile machinery equipment with a comprehensive application of machines, electricity, gases and instruments, play a vital role in enhancing product quality and production efficiency. Highly intelligent and integrated process control, real-time monitoring and accurate data acquisition and data analysis have become the mainstreams in the development of auto-control. Therefore, the commitment of high technology to transform the traditional production mode has also been important research.

Keywords: New domestic comber, drive control system, industrial control computer, process parameters, gearing control algorithm, PID control.

© 2022 Bentham Science Publishers | Privacy Policy