The main application measures for achieving efficient and energy-saving high-frequency welded pipe equipment include:
1. Adopting frequency conversion control technology to achieve matching between welded pipe production and power consumption, and providing power as needed.
2. Use energy recovery devices to recover and utilize ineffective energy during the welding process, reducing losses.
3. Optimize the electrode structure design, concentrate electrical energy, and reduce magnetic leakage losses.
4. Improve the power control circuit, increase power factor, and reduce no-load losses.
5. Strengthen the maintenance of electrical components of equipment, ensure good contact, and reduce contact resistance loss.
6. Accurately control welding pressure to avoid energy waste caused by excessive pressure.
7. Reasonably set up automation systems to avoid energy waste during manual operations.
8. Utilize residual heat for preheating, reduce starting current, and achieve energy reuse.
9. Choose new energy sources such as photovoltaic power supply to reduce operating costs.
10. Regularly test equipment energy efficiency parameters and evaluate energy-saving effects.
Through these means, the overall work efficiency of high-frequency welded pipe equipment can be improved and energy-saving goals can be achieved.
