In a conventional batch ball mill, it is necessary to stop the mill temporarily and open and close the lid when loading and unloading the raw materials.
A conventional ball mill involves stopping the mill, opening the lid, adding the raw material before grinding into the mill, closing the lid, rotating the mill for a certain period, and then stopping it. After that, the lid is opened again to remove the ground material. This process is repeated (the amount that can be ground in one operation is called one batch). A fully automated ball mill is one where this entire series of operations is automated. By using a dual-axis system, it performs a swinging motion in addition to the usual rotational movement, which promotes mixing within the mill and leads to uniform and efficient grinding. If the preceding and subsequent processes are also automated, it enables the operation of a fully automated plant.
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basic information
○ It can be widely used in industries such as ceramics and chemical plants. ● For other functions and details, please contact us.
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Chemicals, ceramics, glass, electronic components, semiconductors
Company information
In the field of ceramics such as pottery and tiles, we have been crushing and grinding raw materials like clay and ores to refine them, increasing purity and producing high-quality products. To prevent impurities from mixing in the raw materials and glazes for sanitary ceramics, we quickly adopted alumina ceramic bricks and have used them as lining materials for jaw crusher teeth, roll crusher rolls, and ball mills. The manufacturing of fine ceramics, electronic components, and semiconductors now requires even finer grinding and higher purity. The ball mill is also referred to as a trommel or tromill. Ball mills are used in fields such as insulators like insulators, sensors, and honeycombs. The feature of Nakakou Seiki's ball mill is that it transmits power from the motor to the main shaft using rubber Loveflex and V-shaped belts instead of iron gears. This ensures smooth power transmission, reduces noise, and minimizes oil contamination. It is also used for grinding silica and quartz. Moving forward, various recycling and grinding processes will be necessary to reduce fossil fuels in response to global environmental and global warming issues. To address battery materials and promote a resource-saving and energy-efficient society, Nakakou Seiki is challenging micron and nano grinding.