Energy-saving Raymond mill Performance Characteristics

Time: 2019-03-21

With the continuous development of technology, the performance of Raymond mill has also been improved. Among them, the emergence of energy-saving and efficient Raymond Mill has brought customers a new experience.

Compared with the traditional Raymond mill, the energy-saving Raymond mill uses rolling bearing instead of bearing bush, which reduces the friction power consumption of the main bearing by more than 90%, and achieves the effect of energy-saving. It is widely used in mineral processing, building materials and chemical industry. The hollow shaft of energy-saving ore Raymond mill is made of cast steel. The lining can be replaced according to the use. In addition, the barrel of energy-saving ore Raymond mill is equipped with wear-resistant lining plate, which greatly enhances the wear resistance. Moreover, the structure of Raymond mill for energy-saving ore is stable and it runs smoothly.

Energy-saving Raymond mill can also carry out various forms of grinding, if according to the shape of materials, can be divided into dry and wet grinding, according to the way of ore discharge can be divided into grid type and overflow type. It combines the performance characteristics of ordinary ore Raymond mill to improve and enhance, greatly improve productivity, which can save cost and investment, belongs to the new era of optimum Raymond mill.

1. Long Service Life
In the normal operation of Raymond mill, the daily maintenance workload can be greatly reduced, because the high-quality parts, Raymond mill can run for ten years without changing bearings.

2. Reducing Manpower
The machine can be operated continuously and normally for a long time without artificial adjustment and operation, which can save a lot of manpower and material resources and produce efficiently.

3. Significant Energy-saving Effect
After the technical transformation of Raymond mill, the amount of lubricating oil and electricity has been greatly saved, and the cost has been effectively reduced.