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The application of LUM Ultrafine Vertical Grinding Mill:
SBM has devised a distinctive solution to circumvent issues encountered in traditional grinding mills, such as prolonged material retention, repetitive grinding, and elevated iron content during the grinding process. This innovation involves a unique roller shell and lining plate with an optimized grinding curve. This design facilitates the swift generation of material layers, enabling a high rate of finished products in a single powder milling process. As a result, the working efficiency of the grinding mill is significantly enhanced. Moreover, this advancement contributes to improving the whiteness and cleanliness of the final products, ensuring superior quality output.
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Features and benefits of LUM Ultrafine Vertical Grinding Mill:
SBM's implementation of a PLC control system and multi-head powder separating technology in this grinding mill has effectively addressed two critical issues: achieving high precision and accuracy in cutting powder diameter and swiftly adapting to varying production demands. This integration allows users precise control over crucial parameters such as grinding pressure and revolving speed, ensuring precise adjustments for different operational requirements.
Compared to conventional grinding mills, this innovative system significantly reduces energy consumption by an impressive margin, ranging from 30% to 50%. This heightened efficiency not only optimizes production processes but also minimizes energy expenditure, marking a substantial advancement in grinding technology. -
Working principle of LUM Ultrafine Vertical Grinding Mill:
In the LUM Ultrafine Vertical Grinding Mill, materials are directed onto the center of the grinding plate via a spiral feeder. The host's motor drives the reducer, initiating the rotation of the grinding plate, generating centrifugal force that propels materials towards the plate's periphery. Within the grinding area between the roller and grinding plate, larger materials are directly broken by the roller's pressure, while finer materials form a layer where mutual crushing occurs.
Post-grinding, the broken materials continue moving toward the edge of the grinding plate, eventually carried away by airflow into the powder selector. The blades within the selector act upon the materials: coarse particles failing the fineness standard drop back to the grinding plate for further grinding, while those meeting the standard exit as finished products into the powder collector.
Regarding impurities like iron blocks within materials, as they reach the plate's periphery, their weight causes them to drop into the lower cavity of the mill. A scraper at the bottom of the grinding plate guides these impurities to the discharging port for eventual removal from the mill. This process ensures efficient grinding while effectively managing and removing unwanted materials from the system.