The gyratory cone crusher is suitable for the crushing of various minerals and rocks whose compression strength are not more than 250Mpa as well as the materials with medium hardness. In addition, it is also applicable to the crushing of raw materials in the industries of metallurgy, construction, road building, chemical and silicate, especially for the secondary crushing and fine crushing of the ores and rocks in the small and medium-sized dressing plants. The series of cone crusher has high production capacity, long service life of the tooth plate, low energy consumption and uniform granularity of the products. It possess a higher production capacity, best product shape and greatest reliability and flexibility and it is easy to automatic control, creating more value for the users.
1, large crushing ratio, high production efficiency, simple maintenance, easy to use;
2, less consumption of the wearing parts, low running costs;
3, excellent granularity of the finished products, high degree of automation, short downtime;
4, rare lubrication, reliable and advanced, long service life;
5, a variety of crushing cavity, flexible application, strong adaptability;
The cavity shape of the cone crusher is a kind of working space formed by the crushing wall (dynamic cone) and rolling wall (fixed cone). The design of the cavity has a significant impact on the economic and technical indicators of the cone crusher (productivity, energy consumption, the grain size of the products broken, grain shape and the wear of the crushing wall and rolling wall). This unique design makes the granularity of the final products even and appear cube shape and the wear of the dynamic cone work surface more uniform.
The operating parameters of the cone crusher has a direct impact on the motion characteristics of granular materials in the crushing cavity,which can be mainly manifested by the impact on the motion state of the granular material left by the swing speed of the spindle. And then the work performance of the crusher (productivity and granularity distribution of the broken product etc.) will be affected.