How to Perfect the High Pressure Suspension Grinding Mill?

Hung high pressure roller mill is mainly suitable for processing mok's hardness below 9.3 and moisture below 6% of all kinds of inflammable and explosive mineral materials processing, in metallurgy, building materials, chemical, mining, highway construction, water conservancy and hydropower industry has been widely used, such as processing is quartz, feldspar, calcite, limestone, SLATE, ceramic, marble, granite, dolomite, bauxite, iron ore, barite, bentonite, coal gangue, coal and other materials ideal choice.

Working principle of High pressure suspension grinding mill is as follows: High pressure suspension roller mill in the host, tightening up roller hanger inherent in 1000-1000 kg pressure of high pressure spring. Began to work, grinding roll around the spindle rotation, and under the effect of high pressure spring and centrifugal force, close to the ring rolling, the rolling pressure is higher than the same power under the condition of Raymond mill (http://www.crushing-mill.com/powder-making-machine.html) 1.2 times, so the production is greatly improved. When the material into the grinding chamber, the shovel knife scooping up into between grinding roller and grinding ring rolling, rolling powder with blower after cycle into the analysis of wind machine, qualified fine powder with the gas flows into the whirlwind powder is the finished product, large particles grain fall back into the ground.Wind circulation return air blower, repeat the above process Yu Fengze into bag filter purification. When grinding roller and grinding ring reaches a certain wear, adjust the length of high pressure spring, keeping constant pressure that comes between grinding roller and grinding ring. To ensure the stable output and fineness.

Features of High Pressure Suspension Grinding Mill are as follows: 1 . Unique design2 finished a wide size rangeFine particle size generally up to 0.033 mm ( 425 mesh ) . A small part of the finest materials can reach 0.013 mm ( 1000 mesh ) . 3...