Design and Simulation of Solar Powered Semi-Automatic Grass Cutter

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Year : 2026 | Volume : 4 | 01 | Page :
    By

    Sachin S Raj,

  • R A Kapgate,

  • Kasabe Smitha D,

  • Sakhare Sakshi,

  • Wagh Shantanu S,

  • Pawar Rushikesh S,

  1. Students, Department of Mechatronics Engineering, Sanjivani College of Engineering, Kopargaon, Ahmednagar, Maharashtra, India
  2. Students, Department of Mechatronics Engineering, Sanjivani College of Engineering, Kopargaon, Ahmednagar, Maharashtra, India
  3. Students, Department of Mechatronics Engineering, Sanjivani College of Engineering, Kopargaon, Ahmednagar, Maharashtra, India
  4. Students, Department of Mechatronics Engineering, Sanjivani College of Engineering, Kopargaon, Ahmednagar, Maharashtra, India
  5. Students, Department of Mechatronics Engineering, Sanjivani College of Engineering, Kopargaon, Ahmednagar, Maharashtra, India
  6. Professor, Department of Mechatronics Engineering, Sanjivani College of Engineering, Kopargaon, Ahmednagar, Maharashtra, India

Abstract

The maintenance of large area of grass lawns has always been a tedious task considering continuous human labour and long hours of work. Inorder to reduce the fatigue human work a novel design of automated grass cutting machine powered with a solar panel is designed and simulated for remote operated functioning. The mechanism works with the skeletal frame of a normal grass cutting machine face lifted with ultrasonic sensor for distance and obstacle detection, a 12 V 3 watt poly-crystalline solar panel integrated 9 V battery powering the dual motors relatively one driving the unmanned machine and the other responsible for the cutting operation contolled by a L293D motor drive chip.

An AT mega 32A microcontroller plays a major role in operating the automated system. The entire prototype is connected through arduino wifi modem access to a mobile phone through which the machine is operated hassle free. At a maximum rpm of 1000 rpm the grass is cut precisely and a follower steel brush arm fitted at the back ensures that the cut grass is removed from the path way of the machine. The design and simulation is performed through software and efficiency data is cloud monitored through thingspeak platform.

The goal of the suggested solar-powered semi-automatic grass cutter is to offer a green and energy-efficient lawn care option. The device lowers carbon emissions and depends less on traditional fuel-powered machinery by combining a photovoltaic solar panel with a rechargeable battery system. Real-time obstacle detection is made possible by the ultrasonic sensor, guaranteeing safe and seamless operation. Remote monitoring and control via a smartphone is made possible by the ATmega32A microcontroller’s coordination of motor control, sensor input processing, and wireless communication via an Arduino Wi-Fi module. While cloud-based monitoring with the ThingSpeak platform improves data accessibility and system optimization, simulation is used to examine performance factors including motor speed, power consumption, and operational efficiency.

Keywords: Simulation, Automated grass cutter, Solar powered, CREO, Lawn mover

How to cite this article:
Sachin S Raj, R A Kapgate, Kasabe Smitha D, Sakhare Sakshi, Wagh Shantanu S, Pawar Rushikesh S. Design and Simulation of Solar Powered Semi-Automatic Grass Cutter. International Journal of Energy and Thermal Applications. 2026; 04(01):-.
How to cite this URL:
Sachin S Raj, R A Kapgate, Kasabe Smitha D, Sakhare Sakshi, Wagh Shantanu S, Pawar Rushikesh S. Design and Simulation of Solar Powered Semi-Automatic Grass Cutter. International Journal of Energy and Thermal Applications. 2026; 04(01):-. Available from: https://journals.stmjournals.com/ijeta/article=2026/view=238783


References

[1] Shaikh Mohd Sameer M.S, Venkatesh S. Thevar, Suraj K. Patil, Nitish S. Mangalpawar, Pramod G. Rahate. Design of Solar Grass Cutter in International Research Journal of Engineering and Technology, 8 (7), 2021.

[2] Tanmay Bhalodi, Nikhil Bhujbal, Karan Doshi, Rahul Goregaonkar, Sheetal Jagtap.Environmental. Friendly Solar Grass Cutter in International Journal of Research in Engineering, Science and Management, 3(7), 2020.

[3] Digambar Rane,  Akash Jamdhade,  Krushna Thete, Ashitosh Kasab.  IoT Based Grass Cutter Using Solar System, IJIRT, 10, 2023.

[4] Vorugnti.Bharath Kumar, N.Sravani, SA.Sowmya, B.Venu, D.Harshed, Automatic Solar Grass Cutter, Advanced Science Letters E-ISSN:1936-7317.

[5] Pushpendra Tyagi, Aman Agarwal, Aman Singh Kalhans, Alok Kumar, Amit Kumar, Automated Solar Grass Cutter, Global Journal For Research Analysis, 7(2), 2018.

[6]P. S. Chaudhari, Sanchit J. Mhashakhetri, Achal R. Panchbhai, Aman V. Kadu, Sachin S. More, Jatin H. Rahangdale, Solar Grass Cutter in International Journal of Advanced Research in Science, Communication and Technology (IJARSCT), 2(2), 2022.

[7] Subhash chaurasiya, Vindhyachal Gupta, Vipin Kumar, Ankit Sharma, Karunakar Singh, Manisha Singh Chauhan, Solar Powered Grass Cutter, Journal of Emerging Technologies and Innovative Research (JETIR), 9(4), 2022.

[8] Firas B. Ismail, Nizar F.O. Al-Muhsen, Fazreen A. Fuzi, A. Zukipli. Design and Development of Smart Solar Grass Cutter in  International Journal of Engineering and Advanced Technology (IJEAT), 9(2), 2019.

[9] Prasanna Titarmare, Shital Yende, Priyanka Gaurkhede, Ankit Salunke. Research Paper On Solar Automated Grass Cutter, IJARIIE, 7(3), 2021.

[10] Shubham R. Khillare, Deepak P. Morey, Bhagyashri A. Ghoti, Shaileja S. Fully Automated Grass Cutter Using Solar Power in International Journal of Progressive Research in Science and Engineering, 1(4), 2020.

[11] Sayan Das, M.V. Pranav Chandran, Design And Fabrication Of Solar Powered Grass Cutter, 2021.

[12] Muhammad Waqas Jabbar, Muhammad Noman, Asad Muneer, Ali Abbas and Adnan Mazhar. Solar Powered Grass Cutter for Domestic Utilization in Eng. Proc., 12, 105, 2022.

[13] K. Naresh, M. Yashwanth Kumar, R. Prashanth, M. Venkata Ramana Reddy. Design and Fabrication of Solar Grass Cutter in IJARSCT, 3(1), 2023.

[14] Mothibeli Joseph Pita, Peter Baonhe Sob, Design Of Solar -Powered Grass Trimmer, 2021.

[15] Kevin Vaishnav, Harshit Vyas, Dhruvil Patel, Kashyap Nayee, Solar Grass Cutter, 2018.

[16] M. Babu, P. Sekhar Babu, S.R. Sachin, S. Saravanan, Theoretical design, material  study and material selection for compact linear frensel reflector concentrating system, Mater. Tod. Proc. 45 (2020) 1671–1678.

[17] M. Babu, M.K. Anton, P. Sekhar Babu, S.R. Sachin, C. Thiruvasagam, Angular error correction and performance analysis of linear frensel reflector solar concentrating system with varying width mirror reflector, Mat. Tod. Proc. 45 (2020) 2348–2353.

[18] M. Babu, S.R. Sachin, A.A. Valan, Experimental analysis on linear frensel reflector solar concentrating hot water system with varying width reflector, Case Stud. Ther. Eng. 14 (2019) 100444.

[19] S.P. Chowdavaram, M. Babu, S.R. Sachin, Thermal analysis on exhaust valve with thermal barrier, International research journal of automotive technology. 1 (6) (2018) 18–32.

[20] S.R. Sachin, M. Babu, C. Kumaresan, S. Sivaprakash, S. Sivasuriyan, S. Sridharnath, Investigations on ceramic wool packed catalytic converter modified exhaust system, Mukt shabd. 9 (4) (2020) 4500–4505.

[21] V. Sandeep, M. Babu, S.R. Sachin, Thermal analysis on Al-Si piston using different heat barrier coatings, International research journal of automotive technology. 1 (6) (2018) 33–48.

[22] P Mohan Babu, M Saravanan, S Krishnakumar, SR Sachin, Explicit Dynamic Analysis of Multilayer Sheet Metal Forming–A Simulatory Analysis, Strength of Materials, 56, 2, 386-399, 2024

[23] Loganathan J and Maniraj S Sachin S Raj, Babu M, Madhankumar K, Kishore S Design and Fabrication of Slow Stirrer Device for Stir Casting of Polymer Composites, Mukt Shabd Journal, 9,, 4, 4484-4487, 2020

[24] Dhileepkumar G Sachin S Raj, Rathish R, Arul Murugan P, Boopathi R, Deepan G, The power plant using pair of magnet, International Journal of Innovative Research in Technology, 3, 111, 55-57, 2017

[25] Silpa Krishnaveni P S Sachin S Raj, Prabhu P, Parthipan M, Rakeshvarma S, Design and Fabrication of magnetic tricycle for disabled people, International Journal of Advanced Research Methodology in Engineering & Technology, 1, 2, 81-84, 2017

[26] Pradeep R Sachin S Raj, Mohanasundaram G, Mohanraj C, Poovarasan M, Design and Fabrication of Wireless Vaccum cleaner, International Journal of Research, 5, 12, 1440-1443, 2018

[27] Sachin Sumathy Raj Manakattupady Amarnath Madhusudhananj; Darshan Sunil Somase; Shubham Vijay Lad; Siddart Bimashankar Lokhande; Jaydeep B Ashtekar, Cloud monitoring of temperature and humidity in 3DFDM printer using ESP32 node MCU interfaced with Thingspeak using arduino IDE, AIP Conference proceedings, 3175 (1), 2025

Ahead of Print Subscription Review Article
Volume 04
01
Received 24/01/2026
Accepted 26/02/2026
Published 12/03/2026
Publication Time 47 Days
38

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