Development of microcontroller-based bar feeder system for power hacksaw/
Fajardo, Lineilla C.
Development of microcontroller-based bar feeder system for power hacksaw/ Lineilla C. Fajardo, Trisha Mae P. Guevarra, Leonard N. Laborte, Jannella Kyle M. Naceda, Cyber Rose C. Requirme, and John Kenneth B. Sapallo.-- - Manila: Technological University of the Philippines, 2025. - xiv, 133pages: 29cm.
Bachelor's thesis
College Of Industrial Technology.--
Includes bibliographic references and index.
This thesis focused on the development of a microcontroller-based bar feeder system for a
power hacksaw, aiming to automate metal feeding and improve efficiency over traditional
manual methods. The system was designed to deliver consistent feed lengths while
reducing human error. The prototype underwent two tests: the accuracy of feed length and
the reliability of bar feeding speed. Across all tested lengths, minor discrepancies in feed
accuracy were observed, influenced by factors such as mechanical play, vibration, and
sensor placement. For the 50 mm target, the mean feed was 49.8 mm (SD = 0.75), while
100 mm trials averaged 99.67 mm (SD = 2.08). At 150 mm, feeds ranged from 148.5 to
152 mm (mean = 149.83 mm, SD = 1.89), and 200 mm trials showed overfeeding with a
mean of 213.33 mm (SD = 2.40), suggesting alignment or calibration issues. The 500 mm
trials showed minimal deviation (mean = 500.67 mm, range = ±3 mm). Feeding speed tests
showed that the time required for feeding increased proportionally with the feed length.
The system was consistent, and there was little variance in feeding times across the
different tested lengths, e.g., at 150 mm it had a standard deviation of only 0.08 seconds.
Although it had some inaccuracies, it was rated at 4.24 out of 5, which is a very satisfactory
rating given by both the users and the experts. Such a grade was a measure of the simplicity
of use and the possibility of streamlining the working routines within the workshop
scenario. Additional work is yet to be done to ensure the highest performance at long
lengths.
Automatic
Bar feeder
Metal feeding
BTH TJ 145 / F35 2025
Development of microcontroller-based bar feeder system for power hacksaw/ Lineilla C. Fajardo, Trisha Mae P. Guevarra, Leonard N. Laborte, Jannella Kyle M. Naceda, Cyber Rose C. Requirme, and John Kenneth B. Sapallo.-- - Manila: Technological University of the Philippines, 2025. - xiv, 133pages: 29cm.
Bachelor's thesis
College Of Industrial Technology.--
Includes bibliographic references and index.
This thesis focused on the development of a microcontroller-based bar feeder system for a
power hacksaw, aiming to automate metal feeding and improve efficiency over traditional
manual methods. The system was designed to deliver consistent feed lengths while
reducing human error. The prototype underwent two tests: the accuracy of feed length and
the reliability of bar feeding speed. Across all tested lengths, minor discrepancies in feed
accuracy were observed, influenced by factors such as mechanical play, vibration, and
sensor placement. For the 50 mm target, the mean feed was 49.8 mm (SD = 0.75), while
100 mm trials averaged 99.67 mm (SD = 2.08). At 150 mm, feeds ranged from 148.5 to
152 mm (mean = 149.83 mm, SD = 1.89), and 200 mm trials showed overfeeding with a
mean of 213.33 mm (SD = 2.40), suggesting alignment or calibration issues. The 500 mm
trials showed minimal deviation (mean = 500.67 mm, range = ±3 mm). Feeding speed tests
showed that the time required for feeding increased proportionally with the feed length.
The system was consistent, and there was little variance in feeding times across the
different tested lengths, e.g., at 150 mm it had a standard deviation of only 0.08 seconds.
Although it had some inaccuracies, it was rated at 4.24 out of 5, which is a very satisfactory
rating given by both the users and the experts. Such a grade was a measure of the simplicity
of use and the possibility of streamlining the working routines within the workshop
scenario. Additional work is yet to be done to ensure the highest performance at long
lengths.
Automatic
Bar feeder
Metal feeding
BTH TJ 145 / F35 2025