Core Tech of Electromagnetic Separator for Micron and Submicron Metals
1. Electromagnetic Separator for fine powder
1.1 Electromagnetic Separator for dry fine powder
1.2 Electromagnetic Separator for wet fine powder
1.3 Advantages of Mag Spring’s Electromagnetic Separator
1. Electromagnetic Separator for fine powder
1.1 Electromagnetic Separator for dry fine powder
1.2 Electromagnetic Separator for wet fine powder
1.3 Advantages of Mag Spring’s electromagnetic separator
Our electromagnetic separator can effectively remove extremely small iron magnetic impurities (micron and submicron levels) from materials. It is widely used in multiple fields such as electronics, chemicals, food, and pharmaceuticals. It features automatic control, with a reserved interface for remote control. The design also fully considers the coil, frame, and cooling system for better heat dissipation, meeting the requirements for better performance and cost-effectiveness. By using a symmetrically arranged vibration motor layout and flexible damping devices, the screen mesh can vibrate with high frequency and large amplitude. This ensures that materials with poor fluidity or weak magnetism can pass smoothly through the screen, and during slag discharge, impurities are thoroughly removed, significantly reducing the loss of materials with weak magnetism (such as lithium iron phosphate).In terms of control systems, the equipment has successfully developed a constant magnetic field control function, which solves the problem of reduced output magnetic field strength due to coil temperature rise in electromagnetic iron removal devices.
2. Core Technology of Electromagnetic Separator
Electromagnetic iron remover constant magnetic field output technology utilizes two intelligent control systems: closed-loop stepless pressure control based on PID control and constant magnetic field control. These control systems use negative feedback control, ensuring stable output that is not affected by fluctuations in the power grid. This technology addresses the issue of reduced magnetic field intensity output due to coil temperature rise in electromagnetic iron removers.
