Swapnil Metkari,
Arun Bhosale,
Vishwajit Patil,
Pranjal Yadav,
Juniad Ali,
- Student, Department of Mechanical Engineering, NBNSTIC, Maharashtra, India
- Assistant Professor, Department of Mechanical Engineering, NBNSTIC, Maharashtra, India
- Student, Department of Mechanical Engineering, NBNSTIC, Maharashtra, India
- Student, Department of Mechanical Engineering, NBNSTIC, Maharashtra, India
- Student, Department of Mechanical Engineering, NBNSTIC, Maharashtra, India
Abstract
Design and Development of Automation of Loading and Unloading to machine fixture” This Setup involves the use of automation solution to reduce operator fatigue and increase efficiency. Industries in the recent day concentrating on CNC machineries for mass production by replacing conventional lathes to improve productivity but loading and unloading of job carried over by manual, However Present work, machine tool manufacturer are coming with solutions including automatic loading and unloading to reduce the fatigue of labor and reduce cycle time and increasing productivity. Productivity Improvement on a Production by Automatic Loading and Unloading of Component includes analysis and detailed study of manufacturing process including loading and unloading methods of components on a machine. Present work aims at improving the productivity of components on a CNC Fixture. Here emphasis is placed upon improving the existing time-consuming methods.
Keywords: Automation, CNC machineries, robots, CAD model, industries
[This article belongs to International Journal of Industrial and Product Design Engineering (ijipde)]
Swapnil Metkari, Arun Bhosale, Vishwajit Patil, Pranjal Yadav, Juniad Ali. Efficient Automation Solutions: Building a Budget-friendly Cylindrical Robotic Arm for Component Handling. International Journal of Industrial and Product Design Engineering. 2023; 01(01):6-15.
Swapnil Metkari, Arun Bhosale, Vishwajit Patil, Pranjal Yadav, Juniad Ali. Efficient Automation Solutions: Building a Budget-friendly Cylindrical Robotic Arm for Component Handling. International Journal of Industrial and Product Design Engineering. 2023; 01(01):6-15. Available from: https://journals.stmjournals.com/ijipde/article=2023/view=127546
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Volume | 01 |
Issue | 01 |
Received | 14/07/2023 |
Accepted | 29/07/2023 |
Published | 29/11/2023 |