Overview:
The TL-DF series electromagnetic dry powder magnetic separator is a new desulfurization machine developed specifically for anode and cathode powder materials. It features a magnetic system with a large arc angle, multiple poles, and a relatively uniform magnetic track density in the machine's separation area, which optimizes the magnetic system's separation function. The field strength can be designed differently based on the properties of the ore. When non-magnetic minerals脱离 the magnetic field, they are effectively separated from the magnetic drum under the action of gravity. Moreover, some models are equipped with an overall vibration device, which not only enhances the desulfurization effect but also facilitates the disposal of iron.
Application Range:
This equipment is primarily used for removing ferromagnetic oxides, scale, and other contaminants from fine powdery materials. It is suitable for purifying materials in industries such as ceramics, glass, quartz, refractory materials, and non-metallic minerals, as well as in chemical and food industries.
Structure and Working Principle:
This magnetic separator mainly consists of the coil excitation section, the vibration feeding section, the discharge outlet, the magnetic guiding medium section, the pneumatic conversion device, and the electrical control section.
This machine is powered by a dedicated silicon rectifier control box, providing direct current excitation power. Once powered on, the straight-structured filter plates in the working chamber are magnetized. The powdered material enters the filter plates from top to bottom, and due to the motor vibration, the material flows evenly from top to bottom. When passing through the magnetic filter plates, iron, cobalt, nickel metal powders and their oxides in the material are adsorbed onto the filter plates. After a period of operation, when the filter plates are filled with iron, the feeding can be stopped, the discharge outlet switched, the coil de-energized, and the iron material is then discharged from the iron outlet. This process can be set to automatically remove iron based on the iron content of the material, achieving full automation.
Main Technical Parameters:
