AUTOMATIC COIL WINDING MACHINE

Authors

  • Mr. S. B. Masuti Lecturer in Department of Mechanical Engineering, SVSMD’s KKI Polytechnic, Akkalkot, Solapur, Maharashtra, India
  • Mr. Birajdar Anand A Student, Department of Mechanical Engineering SVSMD’s KKI Polytechnic, Akkalkot, Solapur, Maharashtra, India
  • Mr. Dhanagonde Akshay G Student, Department of Mechanical Engineering SVSMD’s KKI Polytechnic, Akkalkot, Solapur, Maharashtra, India
  • Mr. Rathod Rahul N Student, Department of Mechanical Engineering SVSMD’s KKI Polytechnic, Akkalkot, Solapur, Maharashtra, India
  • Mr. Mali Chandrashekhar M Student, Department of Mechanical Engineering SVSMD’s KKI Polytechnic, Akkalkot, Solapur, Maharashtra, India
  • Mr. Kore Kedarnath R. Student, Department of Mechanical Engineering SVSMD’s KKI Polytechnic, Akkalkot, Solapur, Maharashtra, India

Abstract

In this project "AUTOMATIC COIL WINDING MACHINE" main objective is to bring out a machine which can implement the idea of automation in Transformer winding or any type of coil windings .Here in real time application let us consider Transformer Manufacturer were the winding is important criterion. A transformer changes (transforms) an alternating voltage from one value to another.

It consists of two coils, called the primary and secondary winding, which are not connected electrically. The windings are either one on top of the other or are side by side on an iron, iron-dust or air core.

A transformer works by electromagnetic induction: a.c. is supplied to the primary and produces a changing (alternating) voltage in the secondary. It is important that as much as possible of the magnetic field produced by the primary passes through the secondary.

A practical arrangement designed to achieve this in an iron-cored transformer. In which the secondary is wound on top of the primary. You should also notice that the induced voltage in the secondary is always of opposite polarity to the primary voltage.

Too large a current in a transformer causes magnetic saturation of the core i.e. the magnetization of the core is a maximum and it is no longer able to follow changes of magnetizing current. Particular care is required when there is a d.c. component.

In block consists of keypad, Microcontroller, display, Stepper motor, Stepper driver circuit, coil winding machine. This demo works on the basis that the keypad provided is for entering the set values that is the number of windings can be given In case of transformer the primary winding & secondary winding can be entered.

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References

Research by Prathmesh Mulik, Rajkumar Kamble on “Development Of Automatic Transformer Winding Machine” ISSN:2394-3696, Volume 2, ISSUE 3 March 2015.

Research by Somwanshi Amit Jaywantrao, Shah Ronak Hemant, Purohit Kapil Kanahaiyalal, Ranbhor Snehul Gajendra, Vardhe Shwetaij Sudhir, Ambadas Uttam Sonawane on “Design and Development of Coil Winding Machine” ISSN:2319-8354, Volume 07, Special Issue No. 03, Jan 2018.

A research paper by Bindu B, Hemasuganya K, Srilekha V on “Design of Automated coil Winding Machine” ISSN:2321-9653, Volume 4 Issue V, May 2016.

A research paper by Prajval Vaskar, Suraj Zambhare, Shraddha Waje, Rushabh Vhora on “ Design And Development Of Automatic coil Winding Machine” ISSN:2395-0056, Volume 05,Issue 06, June-2018.

V. B. Bhandari book “Design of Machine Element”.

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Published

2022-05-10

How to Cite

[1]
Mr. S. B. Masuti, Mr. Birajdar Anand A, Mr. Dhanagonde Akshay G, Mr. Rathod Rahul N, Mr. Mali Chandrashekhar M, and Mr. Kore Kedarnath R., “AUTOMATIC COIL WINDING MACHINE”, IEJRD - International Multidisciplinary Journal, vol. 7, no. 3, p. 3, May 2022.

Issue

Vol. 7 No. 3 (2022): Volume 7 Issue 3

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