The single-cylinder hydraulic cone crusher adopts a unique thin oil station lubrication system and a PLC control system, which can achieve dynamic stepless adjustment of the crushing cavity clearance, effectively reduce downtime and ensure continuous and stable work of the equipment. It has the characteristics of superior performance, simple operation, convenient maintenance and stable operation.
Feed size: 35-300mm
Production capacity: 36-1172t / h
Application: It is mainly used for the crushing of raw materials in metallurgy, mining, construction, chemical and silicate industries. Concrete foundation or steel structure foundation can be used. Both fixed and mobile occasions can be used.
Applicable materials: Limestone, granite, basalt, river pebble, construction waste, steel slag, cement raw materials, ceramic raw materials, etc.
Single-cylinder cone crusher advantages
1. Higher performance and lower operating costs
GLP's constant crushing cavity type and high-power motor are equipped to make it comparable to other larger crushers in most cases.
Second, suitable for multiple needs of users
There are several standard crushing cavity types to choose from. By selecting the appropriate crushing cavity type and eccentricity, the cone crusher can easily adapt to different production needs.
Third, the overall automatic control of the process
The crusher can be equipped with ASRi, an automatic adjustment system for the discharge opening, which can monitor the load of the crusher, automatically optimize the crusher settings, and give full play to the equipment's capabilities.
Fourth, easy to operate and maintain
The tightly sealed internal structure of the crusher effectively protects the equipment from dust and other fine particles, thereby reducing maintenance workload and further increasing the service life of the crusher.
When the single-cylinder hydraulic cone crusher works, the motor drives the small gear of the crusher, the small gear drives the large gear, and the large gear component (large gear, large gear frame, eccentric steel sleeve) drives the eccentric sleeve component (eccentric cylinder sleeve, eccentric copper sleeve). ) And the main shaft assembly (spindle, inner cone, inner cone liner) are centered on the theoretical vertical line and revolve in the copper bushing, and the main shaft assembly can rotate on the centerline of the main shaft in the eccentric copper bushing. When the machine is running empty, the eccentric sleeve assembly "holds" the spindle assembly and revolves with the large gear. After the material is added to the crushing cavity, the spindle assembly (spindle, inner cone) is slow in the eccentric copper sleeve under the resistance of the material Rotation. The trajectory of the inner cone appears to be swinging back and forth in the crushing cavity, while slowly rotating. The material is crushed and crushed by the swinging inner cone. The connection between the support sleeve and the frame is compressed by a hydraulic cylinder. When the crusher falls into an unbreakable object such as a metal block, the single-cylinder moving cone is held up by the hydraulic piston at the bottom to adjust the discharge port and protect the iron. Ups and downs to eliminate ore blocking.