HEAT-BASED AUTOMATED ON-THE-ROAD PAINTING MACHINE

Authors

  • Mas Omar Mas Rosemal Hakim Faculty of Mechanical Engineering, Universiti Teknologi Malaysia, 81310 UTM Johor Bahru, Johor, Malaysia
  • Musa Mailah Faculty of Mechanical Engineering, Universiti Teknologi Malaysia, 81310 UTM Johor Bahru, Johor, Malaysia

Keywords:

Design process, semi-automated, Arduino microcontroller, paint system, electric bicycle

Abstract

This paper focuses on the design and development of a semi-automated road painting machine. The system design incoporates an electric bicycle as the prime mover to be driven by a human operator, which hauls a mobile platform that carries an automated and heat assisted paint delivery mechanism, capable of producing different straight line (single or double) patterns on the road. An Arduino-based microcontroller was used to execute data communication between the system devices through a written programming code for the operation of a desired painting task. A safety lamp and a camera with a reasonably large LCD screen were installed onto the system as additional commercially attractive features. A working prototype of semi automated road lane painting machine that intergrates mechanical, electric/electronic and computer control parts was tested in actual road conditions. The test indicated that 30% of the diluted paint mixture produces the best performance.

References

Abrams, S. 2013, The Unseen History of Our Roads, http://www.roadandtrack.com/carculture/a4447/the-road-ahead-road-evolution/. Accessed 2 May 2017.

Ali, M. A., Mailah, M., and Tang H.H, 2014, Autonomous Robotic System for On-the-Road Marks Painting, 14thInternational Conference on Robotics, Control and Manufacturing Technology (ROCOM '14), Kuala Lumpur.

Woo, S., Hong, D., Lee, W.C., Chung, J.H. and Kim, T.H., 2008. A robotic system for road lane painting. Automation in Construction, 17(2), 122-129.

Kotani, S., Mori, H., Shigihara, S. and Matsumuro, Y., 1994. May. Development of a lane mark drawing robot. In Industrial Electronics, 1994. Symposium Proceedings, ISIE'94., 1994

IEEE International Symposium on (pp. 320-325). IEEE.

Teakway Industrial Sdn Bhd 2011, Road Line Machine,

http://www.teakway.com.my/roadline-machine.htm. Accessed 13 May 2017.

R.S. Machineries Sdn Bhd 2003, Roadline Marking Machines,

http://www.thersgroup.com.my/prod01.htm 13 May 2017.

DY-HPT Road Marking Machine Sent to Malaysia, 2011. http://www.dyroad.com/news/59- dy-hpt-road-marking-machine-sent-to-malaysia.html. Accessed 15 May 2017.

City of Edmonton, 2012. Design and Construction Standards: Marking Pavements Guidelines. Edmonton.

Road Safety Markings Association Department, 2010. Top Marks: A Guide To The Road Marking Industry in UK, UK.

Department of Transportation and Main Roads, 2013. Guideline Pavements Marking 2013, Part D: Materials and Equipments. Queensland, http://www.tmr.qld.gov.au/businessindustry/Technical-standards-publications.aspx. Accessed 1 June 2015.

Witt A., Smith R. and Visser A., 2000. Durability and Cost Effectiveness of Road Marking Paint, South African Transport Conference, South Africa.

Public Work Department Malaysia, 1985. Manual on Traffic Control Device: Road Marking and Dileanation, Kuala Lumpur: Road Branch Public Works Department Malaysia.

Miller J. D., 1962. United States Patent No. US3059574, Beall Hall, McConnell AFB, Kans: United States Patents Office.

Southey Jr. S. J., 1929. United States Patent No. US1738738, Cleveland, Ohio: United States Patents Office

Selma P., 1953. United States Patent No. US2751618, Jamaica, N.Y.: United States Patents Office.

Derek A. F., 1981. United States Patent No. US4269328, British Colombia, Canada: United States Patents Office.

Hobe Sr. E. T., 1950. United States Patent No. US2528657, Mich: United States Patents Office.

Jali, M.K.M., 2016. Mechatronic Design and Development of a Semi- Automated on-the-road Painting Machine.

Seyyed K., 2005. Engineering Design Process. California, Solectron Corporation.

John I., 2004. PIC Microcontroller Project Book 2, New York, NY, USA: McGraw-Hill, Inc.

Simon M., 2013. 30 Arduino Projects for the Evil Genius, Second edition, United States of America: McGraw-Hill Education.

Tsangaraki-Kaplanoglou, I., Theohari, S., Dimogerontakis, T., Wang, Y.M., Kuo, H.H.H. and Kia, S., 2006. Effect of alloy types on the anodizing process of aluminum. Surface and

Coatings Technology, 200(8), 2634-2641.

Downloads

Published

2018-04-01

How to Cite

Mas Rosemal Hakim, M. O., & Mailah, M. (2018). HEAT-BASED AUTOMATED ON-THE-ROAD PAINTING MACHINE. Jurnal Mekanikal, 40(1). Retrieved from https://jurnalmekanikal.utm.my/index.php/jurnalmekanikal/article/view/6

Issue

Section

Mechanical

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