Industrial Consultancy & Sponsored Research (IC&SR) , IIT Madras
Method of Power Control in CNC Hot Wire Machines Inventors
Categories for this Invention
Category-
Robotics & Automation
Industry Classification:
- NIC (2008)- 28292- Manufacture of machinery for working soft rubber or plastics or for the
- manufacture of products of these materials
- NAICS (2022)- 335314- Relay and Industrial Control Manufacturing; 326140– Polystyrene Foam Product Manufacturing
Applications– Precision manufacturing, Expanded Polystyrene foam cutting
Market Drivers-
- Foam Cutting Machines Market is valued at USD 166.15 Billion in 2023 and is expected to reach USD 224.85 Billion by the end of 2030 with a CAGR of 6.59%.
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Problem Statement
- Hot wire machines with CNC Controller cut Expanded polystyrene (EPS) by melting the material while moving through the material.
- The heat produced by the hot wire needs to be controlled
- If the heat is more, then accuracy of the final object will reduce because of over melting. Conversely, with low heat bowing of wire occurs while cutting.
- There is need for an intelligent system to control the power to the heating element as per the feed rate of cutting to achieve precise shapes and curvatures.
Technology
- The numerically controlled hot wire cutting machine comprises a computing machine, a control unit, a machine tool, and a power source with constant and dynamic supply modes for controlling power.
- The electronic circuit of the power control unit is configured to receive a variable spindle PWM signal from the controller and amplify the received PWM signal based on the feed rate of cutting.
- The hot wire heating element is configured to receive the amplified power from the electronic circuit to increase, decrease or maintain the temperature
- The G-code was generated in a computer aided manufacturing (CAM) software and fed to the Arduino controller using CNC software.
Key Features / Value Proposition
- The method achieves effective cutting at the sharp corners and difficult curvatures achieving greater accuracy compared to conventional hot wire machines
- An intelligent system has been developed to control the power to the heating element of a hot wire machine which enables precise manufacturing reducing scope of human error.
- The dynamic mode essentially ensures that the amount of the power supplied is consistent even when the machine is accelerating or stopped.
- The power only turns on when the machine moves. This generally makes the hot wire safer to operate.
Questions about this Technology?
Contact For Licensing
sm-marketing@imail.iitm.ac.in
ipoffice2@iitm.ac.in
Research Lab
Prof. Sathyan Subbiah
Department of Mechanical Engineering
Intellectual Property
- IITM IDF Ref. 1705
- IN 380852 – Patent Granted
Technology Readiness Level
TRL – 4
Technology validated in lab scale.