Stain Steel Grid Iron Remover Magnetic Separation Equipment Anti Corrosion Design With Custom Sizes

Stain Steel Grid Iron Remover | Efficient Magnetic Separation Equipment | Anti-Corrosion Design with Custom Sizes | Worldwide Logistics.

1. Material Characteristics
   • Particle Size: If the material particle size is large, such as ore particles, etc., a grille permanent magnet iron remover with a strong magnetic field strength and a large spacing between magnetic rods should be selected to allow large-particle materials to pass through smoothly while effectively adsorbing the ferromagnetic impurities in them. For materials with a fine particle size, such as flour, cement, etc., an iron remover with a small spacing between magnetic rods can be selected to improve the iron removal effect.
   • Humidity: Wet materials may cause ferromagnetic impurities to adhere to the materials, affecting the iron removal effect. For materials with high humidity, a grille permanent magnet iron remover with strong magnetic force and a good sealing structure should be selected to prevent moisture from entering the inside of the iron remover and affecting the magnetic performance, and at the same time ensure that it can effectively adsorb iron impurities.
   • Content of Iron Impurities: When there are many iron impurities in the materials, it is advisable to select a grille permanent magnet iron remover with an automatic iron unloading function, such as a rotating grille iron remover, which can continuously and automatically remove iron, improve the iron removal efficiency, and reduce the workload of manual cleaning. If the content of iron impurities is small, a drawer-type iron remover can meet the requirements, and a good iron removal effect can be achieved by regularly cleaning the adsorbed iron impurities manually.
2. Installation Location
   • Pipeline: When installing on the pipeline, it is necessary to select a suitable grille permanent magnet iron remover according to the diameter, shape of the pipeline, and the flow rate of the materials. Generally, an iron remover that matches the diameter of the pipeline is selected to ensure that the materials can uniformly pass through the iron remover in the pipeline to achieve efficient iron removal. For example, for a circular pipeline, a grille iron remover with a circular cross-section can be selected; for a square pipeline, an iron remover with a square cross-section is selected.
   • Chute: For the grille permanent magnet iron remover installed on the chute, the width, inclination angle of the chute, and the flow rate of the materials need to be considered. The width of the iron remover should be adapted to the width of the chute to cover the entire material flow and prevent iron impurities in the materials from leaking through the edge of the chute. For chutes with a relatively large inclination angle, an iron remover with a large magnetic field strength can be selected to overcome the influence of the material gravity on the adsorption of iron impurities.