HPT Cone Crusher

Based on some design principles of traditional multi-cylinder hydraulic cone crushers like fixed main shaft, eccentric sleeve rotating around main shaft and lamination crushing, HPT Multi-cylinder Hydraulic Cone Crusher makes a breakthrough on its structure. After optimization, the structure improves the performance and crushing capability a lot. Meanwhile, the hydraulic lubrication system of HPT Cone Crusher not only ensures the stable operation but also makes the system control more intelligent.

Product Features: Higher crushing ratio, bigger processing capacity, better granularity and shape of finished products

Input Size: 0-350mm
Capacity: 45-1200TPH
Material: Granite, diabase, basalt, pebble, limestone, dolomite, metallic ores and non-metallic ores, etc.

  • The Principle Of Lamination Crushing Brings Better Discharging Size

    HPT Hydraulic Cone Crusher adopts the principle of lamination crushing. Not only can the crushing efficiency improve, but also the abrasion of vulnerable parts reduces greatly. The finished products are cubic. Meanwhile, the content of qualified fine particles is high enough. Finished products can better serve as high-quality aggregates.

  • Multiple Cavity Types Meet Various Production Needs

    HPT Hydraulic Cone Crusher has several kinds of cavities suitable for medium-fine or fine crushing of materials. Users can freely make choices among different cavities by changing only a few spare parts like the lining plate, truly achieving that a crusher serves multiple purposes.

  • Digitalized Processing, Higher Precision

    There are tens of lines of numerical controlling machine tools. Operations such as steel plates’ cutting, bending, planing, milling and paint spraying are all controlled numerically. The machining precision is high, especially for the core parts.

Working Principle

When a HPT Multi-cylinder Hydraulic Cone Crusher works, driven by the motor, the transmission shaft rotates under the action of belt pulley and triangular belt. Next, the transmission shaft drives the eccentric sleeve to make it rotate around the axis. Meanwhile, the eccentric sleeve forces the movable cone to do pendular movement. This movement makes the movable cone and fixed cone sometimes close to, sometimes far away from the rolling wall. Materials are continuously shocked, squeezed and crushed in the crushing cavity between the crushing wall and the rolling wall. Finally, materials are discharged out of the machine when their fineness reaches the discharging standard.

Related Solutions