Lamina Insert Cutter Speed and Feed

Abstract

Cutting plays a key role in manufacturing. The present work focus on development of lamina cutting machine has variable speed which is achieved by connecting the electronic speed control unit, where it consists of different electronic parts. Basic jigsaw J-819 machine was purchased from local market, and DC motor is used for operating the machine by interfacing both the pulleys of it and machine with help of V belt. Speed of the DC motor is regulated by pulse width modulation (PWM) method which is generated by the micro controller ATmega328p exist in Arduino nano is coded as per the requirement. IR sensor is used to the detect the speed of machine pulley and gives it as a feedback to the microcontroller in arduino and it regulate the pulses and sent to motor controller which helps the motor to rotate and maintain stability at the given speed through keyboard. Further, the machine is operated at different input speeds and all input and output speeds of machine pulley and motor pulley were measured and reported. Further, mechanical test specimens are machined from the developed composite lamina as per ASTM standards at different speeds on fabricated variable speed cutting machine to evaluate the ability of the developed cutting machine.

Keywords

• Variable speed DC motor
• Lamina cutting machine
• Arduino-based control unit
• PWM method
• Sensing
• Monitoring
• Controlling and machaning at different speeds

References

1. Candeals, F.A., Garcia, G.J., Puente, S., Pomares, J., Jara, C.A., Perez, J., Mira, D., Torres, F.: Experiences on using arduino for laboratory experiments of automatic control and robotics. In: IFAC Papers Online, pp. 105–110 (2015)

   Google Scholar

2. Ravi Kumar, K.S., Jaideep, Rohit, Vikas: Microprocessor based closed loop speed control of DC motor using PWM. In: International Conference on Control, Instrumentation, Communication and Computational Technologies, pp. 255–257 (2015)

   Google Scholar

3. Raka, A., Huda, S., Arta Wijaya, I.W.: Speed control for DC motor with pulse width modulation (PWM) method using infrared remote control based on ATmega 16 microcontroller. In: International Conference on Smart Green Technology in Electrical and Information Systems, pp. 108–112 (2014)

   Google Scholar

4. Liu, Z.,Jiang, L.: PWM speed control system of DC motor based on AT89S51. In: International Conference on Electrical & Mechanical Engineering and Information Technology, pp. 1301–1303 (2011)

   Google Scholar

5. Sun, J., Sun, Q.: Design and Simulation of PWM DC motor speed regulator based on Proteus. In: International Conference on Fluid Power and Mechatronics, pp. 1210–1213 (2015)

   Google Scholar

6. Dickson Neoh Tze How, Mohd Zafri Baharuddin, Syed Sulaiman Kaja Mohideen, Khairul Salleh Mohammed Sahari and Adzly Anuar.: Modular motor driver with torque control for gripping mechanism. In: International Symposium on Robotics and Intelligent Sensors, pp. 1476–1482. 2012.

   Google Scholar

7. Dubey, S., Naidu, H., Ghutke, P.: Speed control of DC motor by using PWM. Int. J. Res. Sci. Eng. 115–120 (2017)

   Google Scholar

8. Priyanka, K., Mariyammal, A.: DC motopr speed control using PWM. Int. J. Innov. Sci. Res. Technol. 584–587 (2018)

   Google Scholar

9. Mikova, L., Virgala, I., Kelemen, M.: Speed cotrol of DC motor. Am. J. Mech. Eng. 380–384 (2016)

   Google Scholar

10. Tripathi, N., Singh, R., Yadav, R.: Analysis of speed control of DC motor—a review study. Int. Res. J. Eng. Technol. 1616-1621 (2015)

    Google Scholar

11. Shrivastava, K., Pawar, M.D.: A review on types of DC motors and the necessity of starter for its speed regulation. Int. J. Adv. Res. Comput. Commun. Eng. 61–63 (2016)

    Google Scholar

12. Jagdish, Jayapal, R.: Design and development of universal switch mode power supply. Int. J. Adv. Res. Electr. Electron. Instrum. Eng. 6296–6302 (2017)

    Google Scholar

13. Kwon, S.-H., Yoo, D.-H., Jeong, G.-Y.: High-efficiency AC–DC switch-mode power supply using full bridge converter circuits. Int. J. Control Autom. 189–200 (2014)

    Google Scholar

14. Oommen, A.P., Rahul, A.P., Pranav, V., Ponni, S., Nadeshan, R.: Design and implementation of a digital code lock. Int. J. Adv. Res. Electr. Electron. Instrument. Eng. 7604–7607 (2014)

    Google Scholar

15. Manap, H.: Design and analysis of a double guided roller for a jigsaw. ARPN J. Eng. Appl. Sci. 7221–7224 (2016)

    Google Scholar

16. Dahake, P.H., Patil, V.V.: Development of computer assisted jig saw machine. Int. J. Recent Adv. Eng. Technol. 25–27 (2013)

    Google Scholar

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Acknowledgements

Words are often less to reveal one's deep regards. An understanding of the work life can never be outcome of a single person without one's support. Hence, the first author takes this opportunity to express our profound sense of gratitude and respect to all those who helped us throughout the duration of this work along with the second author given guidance in Design/Fabrication Project in B.Tech program. First author would like to extend his heartfelt thanks to beloved parents whose blessings and encouragement were always there as a source of strength and inspection.

Author information

Authors and Affiliations

1. Department of Mechanical Engineering, K L E F Deemed to be University, Green Fields, Vaddeswaram, India

   Gajavalli Venkata Pavan Gopi Nikhil & Nadendla Srinivasababu

Corresponding author

Correspondence to Gajavalli Venkata Pavan Gopi Nikhil .

Editor information

Editors and Affiliations

1. Department of Computer Science and Engineering, KGiSL Institute of Technology, Coimbatore, India

   Prof. Dr. A. Pasumpon Pandian

2. Department of Business Administration, The Gerald Schwartz School of Business, St. Francis Xavier University, Antigonish, NS, Canada

   Dr. Ram Palanisamy

3. University of Applied Sciences, Aigaleo, Greece

   Prof. Klimis Ntalianis

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Nikhil, G.V.P.G., Srinivasababu, N. (2021). Fabrication of Variable Speed Lamina Cutting Machine. In: Pandian, A.P., Palanisamy, R., Ntalianis, K. (eds) Proceedings of International Conference on Intelligent Computing, Information and Control Systems. Advances in Intelligent Systems and Computing, vol 1272. Springer, Singapore. https://doi.org/10.1007/978-981-15-8443-5_81

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• DOI : https://doi.org/10.1007/978-981-15-8443-5_81

• Published: 25 January 2021

• Publisher Name: Springer, Singapore

• Print ISBN: 978-981-15-8442-8

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