Magnetic separator MST

Electromagnetic separators are used to automatically capture and remove ferrous metal contaminants from the product or to separate metallic components from non-metallic materials.

They are used in various industries such as mining, wood, recycling, manufacturing in order to enhance product purity and protect other machinery from potential damage caused by metal pieces. Typically they are used with the higher material heights and higher belt speeds for protection of equipment in further process.

The electromagnetic separator needs a direct electrical current to operate, which is supplied by an electrical cabinet. This cabinet includes controllers, customized for the specific technological process and to meet user requirements. Its main advantages are its strength and robustness, along with the capability to toggle the magnetic field on and off and to adjust the field's intensity as needed.

Our electromagnetic separator system can combine high-performance separation capabilities with advanced metal detection technology, optimizing both technological and economic efficiency. This integrated approach ensures maximum functionality with minimal operational costs.

The metal detector activates the electromagnetic separator only when it detects a metal particle. This reduces the power needs of the electromagnetic separator considerably. The separator produces a high-intensity magnetic field on demand - something not possible during continuous operation - thereby extending the separator's lifespan.

In addition to removing ferromagnetic particles, it's crucial to detect and remove non-magnetic metals to protect equipment fully. We install a detector after the separation point, which will signal or halt the conveyor if it detects a non-magnetic metal passing through.

This can be achieved by installing, downstream of the separation point, a detector which, in a case of the passage of a non-magnetic metal particle, marks and/or stops the transport system.

The uninterrupted and reliable performance of technical equipment is increasingly vital. Enhanced monitoring and control can improve this. Monitoring critical aspects like temperature, power usage and detection events is streamlined through a local network connected to a computer. This comprehensive monitoring lessens the need for manual oversight and boosts the transport system's economic efficiency.