Efficient Gypsum Mill
Gypsum Mill overview
The air-selected airflow of the Gypsum Mill is circulated and flowed in the fan & mdash; mill shell & mdash; cyclone separator & mdash; therefore, it has less dust than the high-speed centrifugal pulverizer, and the operation workshop is clean and the environment is non-polluting.
The Gypsum Mill is a high-precision milling equipment that adapts to high-efficiency closed-circuit circulation in large, medium and small mines, chemicals, building materials, metallurgy and other industries. The Gypsum Mill adopts the advanced structure of similar foreign products and is updated and improved on the basis of the large Raymond mill. The Gypsum Mill equipment has higher efficiency than the ball mill, low power consumption, small floor space and less one-time investment. . The Gypsum Mill grinding roller is tightly pressed on the grinding ring under the action of centrifugal force, so when the grinding roller and the grinding ring wear to a certain thickness, the yield and fineness of the finished product are not affected. The Gypsum Mill has a long cycle time for grinding rolls and grinding rings, thus eliminating the shortcomings of short replacement cycles of the centrifugal crusher. The air-selected airflow of the Gypsum Mill is circulated and flowed in the fan & mdash; mill shell & mdash; cyclone separator & mdash; therefore, it has less dust than the high-speed centrifugal pulverizer, and the operation workshop is clean and the environment is free from pollution.
Use of Gypsum Mill
The Gypsum Mill is mainly used for grinding of mineral materials such as metallurgy, building materials, chemicals, mining, etc., and can grind quartz, feldspar, calcite, talc, barite, fluorite, rare earth, marble, ceramic, aluminum. Bauxite, manganese ore, iron ore, copper ore, phosphate rock, iron oxide red, zircon sand, slag, water slag, cement clinker, activated carbon, dolomite, granite, garnet, iron oxide yellow, bean cake, fertilizer , compound fertilizer, fly ash, bituminous coal, coking coal, lignite, magnesite, chrome oxide green, gold, red mud, clay, kaolin, coke, coal gangue, china clay, kyanite, fluorspar, bentonite, rice Stone, rhyolite, porphyrite, pyrophyllite, shale, purple sandstone, falling rock, basalt, gypsum, graphite, silicon carbide, thermal insulation materials, etc. Mohs hardness below 9.3, humidity 6% of various non Processing of flammable and explosive mineral products.
Main structure of Gypsum Mill
The structure of the Gypsum Mill is mainly composed of a main machine, an analysis machine, a blower, a finished cyclone, a pipeline device, a motor and the like. The Gypsum Mill main body is composed of a frame, an inlet volute, a blade, a grinding roller, a grinding ring, a casing and a motor. The Gypsum Mill auxiliary equipment includes jaw crusher, bucket elevator, electromagnetic vibration feeder, electric control cabinet, etc., users can flexibly choose according to the site conditions.
How Gypsum Mills work
When the Gypsum Mill is working to crush the large raw material to the required feed size, the bucket elevator transports the material to the storage bin, and then the electromagnetic vibrating feeder is evenly sent to the Gypsum Mill host. In the grinding chamber, the material entering the grinding chamber is shoveled by the blade into the grinding roller and the grinding ring is crushed, the air blower blows air from the diverting disc into the grinding chamber, and the pulverized powder is sent to the analysis chamber, and the speed is adjusted. The motor drives the rotating analytical impeller by the transmission device. The large granular material falls back to the grinding chamber, regrinds, and the fineness meets the specification. The powder enters the finished cyclone collector with the airflow. After being separated from the air, it is discharged from the discharge port. Finished product. The blade system plays a very important role in the working process of the Gypsum Mill. The utility model is located at the lower end of the grinding roller, and the material is shoveled and fed into the roller ring between the blade and the grinding roller to form a pad layer, and the material layer is rotated by the grinding roller to generate an outward pressing force to the material. Milling, thereby achieving the purpose of milling.