⌈ Feeding size ⌋：60-313 mm
⌈ Production capacity ⌋：16-630 t/h
⌈ Application range ⌋：Metallurgical industry, building materials industry, road construction industry, chemical industry and silicate industry.
⌈ Applicable material ⌋：River pebble, granite, dolomite, basalt, iron ore, limestone, quartz, diabase, gold, copper and so on.
Modular design for high productivity
Modular design, optimized cavity, reasonable speed and stroke combination, stable and reliable performance; The cavity type is divided into standard type and short head type. By replacing the cavity type, the conversion of coarse, medium and fine crush can be realized, and the production efficiency can be improved.
Uniform product size and low operating cost
Using the principle of laminating crushing, the product is cubic, the particle size is uniform, the gradation is reasonable, and the cyclic load is reduced; In the medium and large size crushers, the hydraulic clearing system is adopted, which reduces downtime and greatly reduces operating costs.
Safe and reliable structure, easy to operate
The body is made of cast steel, with strong ribs at the heavy load and good sealing performance; The spring safety system is an overload protection device that allows foreign matter and iron to pass through the crushing chamber without damaging the crusher; All components can be removed from the top or side for easy removal of the fixed cone and moving cone assembly.
Symons cone crusher is mainly composed of frame, fixed cone assembly, moving cone assembly, spring mechanism, bowl type shaft frame and transmission; The auxiliary part consists of an electrical system, a thin oil lubrication system and a hydraulic clearing system.
During operation, the eccentric sleeve is rotated by the motor through the V-belt, the large pulley, the drive shaft, the bevel gear, and the large bevel gear. The center line of the broken cone rotates and moves under the pressure of the eccentric sleeve, so that the surface of the broken wall is sometimes close to and sometimes away from the surface of the crushed acetabular wall, so that the material is constantly crushed by extrusion impact and bending in the ring crushing cavity composed of the fixed and moving cones. After multiple extrusion impacts and bending, the material is broken to the required particle size and discharged through the lower portion.