Quartz Powder Ultrafine Grinding Production Line Roller Mill
Roller Mill Production Line widely used in quartz, calcium carbonate (calcite, marble, limestone, chalk), barite, kaolin, dolomite, magnesite, alumina, superfine cement, slag, steel slag and other industries.
Features of roller mill ultrafine grinding production line
Relying on the grinding roller orbital revolution and rotation on the grinding ring track to finish grinding;
Compared with Raymond mill or ball mill, the production efficiency is more than doubled under the same dynamic conditions,lower operating cost;
Good product fineness index: can reach the fineness of fluidized bed jet mill, D97: 3 ~ 45µm;
Built-in classifying wheel;
It is equipped with classifying wheel frequency control, which can adjust the granularity of the product without stopping the machine;
Favorable product granularity and stability,Ideal equipment for current dry grinding method to produce non-metallic mineral fine powder such as calcium carbonate;
Grinding is in closed system, low dust and noise, clean and environmentally friendly production process;
PLC control system, easy operation;
Explosion-proof design can be selected to meet the requirements of ultra-fine grinding processing of flammable and explosive oxide materials;
Can be used in series with multi-stage classifiers to produce products with multiple sizes at one time.
Roller Mill Working Principle:
Roller mills(micro powder roller mill,fine roller mill,ring roller mill,roller grinding machine,automatic roller mill,three/four roller/rolling mill) are mills that use cylindrical rollers, either in opposing pairs or against flat plates, to crush or grind various materials, such as grain, ore, gravel, plastic, and others. Roller grain mills are an alternative to traditional millstone arrangements in gristmills. Roller mills for rock complement other types of mills, such as ball mills and hammermills, in such industries as the mining and processing of ore and construction aggregate; cement milling; and recycling.
Transmission device connects with main shaft. The top of shaft connects with rotor structure. The rotor structure has peripheral shaft. Peripheral shaft is installed with roller. When the main shaft starts to rotate, peripheral shaft rotates too, which would make the rollers revolve around main shaft and also rotate round peripheral shaft. The roller would create strong centrifugal force during the rotation and revolving, and grind material with stator. The ground material would fall down to the distribution plate. The distribution plate and the main shaft would rotate at the same time, and bring material to the round ring. Under negative pressure, it would go along the distribution ring to the classifier chamber. Qualified fine powder would go through the classifier wheel and into the collector, while coarse powder would fall down back to the milling chamber for further grinding.