Magnetic Clamping System Magnet

The magnetic clamping system uses a sintered Neodymium magnet to generate a strong magnetic field on the plate, with the switching function accomplished by reversing the poles of a low-coercivity cast AlNiCo magnet. Magnetic clamping systems can significantly reduce changeover time and are widely used in various industries today, particularly in injection molding, die casting, and machining.

Working Principle:

The system's magnetic module consists of cast AlNiCo magnets, sintered Neodymium magnets, and copper coils. Coil wrapping is applied to the AlNiCo magnets. When the magnetic circuit is balanced within the plate and not in use, the polarity of the AlNiCo magnets is reversed, creating a strong clamping force on the plate surface. This clamping force can be maintained indefinitely unless a demagnetizing current is applied.

Advantages of the Magnetic Clamping System Magnet:

1. Improves productivity by reducing downtime, labor costs, and inventory costs.
2. Strong applicability and suitability for both new and existing equipment, with no need for standard molds.
3. Easy and safe to use.
4. Reliable and accurate system monitoring.
5. No energy consumption or heat generation while in operation.
6. Enhances product quality.

About Our Company:

Magnets used in magnetic clamping systems must offer high-performance consistency. Hongyu Magnetics has extensive experience with these systems and can provide comprehensive testing specifications.