Cone crusher is a high-efficiency crushing equipment widely used in mining, building materials, metallurgy and other industries. It is mainly used for medium and fine crushing of ores and rocks of various hardness. The following is a detailed introduction to the working principle of cone crusher:
1. **Basic structure**
Cone crusher is mainly composed of the following key components:
Frame: Provides support and fixes other components.
Moving cone: The main moving component used to crush materials.
Fixed cone: Fixed component, forming a crushing chamber with the moving cone.
Eccentric sleeve: The moving cone produces a swiveling motion through eccentric motion.
Main shaft: Connects the moving cone and the eccentric sleeve to transmit power.
Spring or hydraulic system: Used to adjust the size of the discharge port and overload protection.
Feeding device: Feeds the material evenly into the crushing chamber.
Transmission device: Usually includes a motor, pulley or coupling, etc., used to drive the eccentric sleeve to rotate.
2. Working Principle
The working principle of the cone crusher is based on the relative movement between the moving cone and the fixed cone, and the material is crushed to the required particle size through extrusion, grinding and impact. The following is a detailed working process:
2.1 Movement of the moving cone
The role of the eccentric sleeve: The eccentric sleeve is installed on the main shaft, and the moving cone produces a swiveling motion through eccentric motion. When the eccentric sleeve rotates, the moving cone makes a complex circular motion in the crushing chamber.
Swinging motion of the moving cone: The motion trajectory of the moving cone is a complex conical trajectory. When the moving cone approaches the fixed cone, the material is squeezed and ground; when the moving cone leaves the fixed cone, the material falls under its own gravity.
2.2 Crushing process
Material entry: The material is evenly fed into the crushing chamber through the feeding device, which is usually completed by a hopper and a vibrating feeder.
Extrusion and grinding: When the moving cone approaches the fixed cone, the material is squeezed and ground by the moving cone and the fixed cone in the crushing chamber. The material is squeezed into smaller particles.
Falling of materials: When the moving cone leaves the fixed cone, the crushed materials fall under their own gravity and are discharged from the crusher through the discharge port.
Circular crushing: Materials that do not meet the particle size requirements will continue to remain in the crushing chamber, waiting for the next extrusion and grinding of the moving cone until the required particle size is reached.
2.3 Adjustment of the discharge port
Hydraulic system or spring system: Cone crushers are usually equipped with hydraulic systems or spring systems to adjust the size of the discharge port. By adjusting the size of the discharge port, the particle size of the crushed material can be controlled.
Overload protection: The hydraulic system or spring system also plays the role of overload protection. When uncrushable foreign matter enters the crusher, the system will automatically release the pressure to make the moving cone retreat, thereby protecting the equipment from damage.
3. Types of crushers
Cone crushers can be divided into the following types according to their structure and working principle:
Standard cone crusher: Mainly used for medium crushing, with a larger discharge port, suitable for processing larger particle size materials.
Short-head cone crusher: mainly used for fine crushing, with a small discharge port, suitable for processing materials with smaller particle sizes.
Hydraulic cone crusher: The hydraulic system is used for discharge port adjustment and overload protection, which makes operation more flexible and maintenance more convenient.
4. Advantages
High crushing efficiency: The relative movement between the moving cone and the fixed cone can crush materials efficiently.
Uniform particle size: By adjusting the size of the discharge port, the particle size of the crushed material can be accurately controlled.
Overload protection: The hydraulic or spring system can effectively protect the equipment from overload damage.
Strong adaptability: It is suitable for ores and rocks of various hardnesses and is widely used in mining, building materials, metallurgy and other industries.
5. Maintenance and care
Regular inspection: Regularly check the wear of each component and replace the severely worn components in time.
Lubrication system: Keep the lubrication system clean and operating normally, and replace the lubricating oil regularly.
Hydraulic system: Regularly check the sealing and pressure of the hydraulic system to ensure its normal operation.
Cleaning and maintenance: Regularly clean the dust and debris in the crushing chamber to keep the equipment clean.
Through the above introduction, you can fully understand the working principle of cone crusher and its advantages and maintenance points in practical applications.
