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Working Principle
The impact crusher is made up of a housing, a rotor, and impact plates.
The impact crusher uses impact energy to break materials. When working, the rotor spins at high speed driven by the motor. When materials enter the hammer action area, they are crushed by hitting the hammers on the rotor, then thrown onto the impact device for further crushing, and then bounce back from the impact plate to the hammer action area to be crushed again. This process repeats, and materials gradually move from the first, second, third, and impact chambers, being crushed repeatedly until they reach the desired size and are discharged from the outlet. Adjusting the gap between the impact frame and the rotor can change the particle size and shape of the output material.
Performance
Hydraulic Adjustment System for Easy Operation
The hydraulic system automatically adjusts the gap between impact frame and blow bars, reducing manual labor and improving operational efficiency.
High Crushing Efficiency & Increased Capacity
The constant-tension impact frame design improves crushing stability and increases production capacity by up to 20%, while reducing energy consumption.
Heavy-Duty Bearings for Long Service Life
Optional oversized bearings improve load capacity. The integrated cast steel bearing housing enhances durability and radial strength for heavy-duty mining applications.
Integrated Structure for Easy Maintenance
The split housing design with hydraulic opening system allows fast maintenance and reduced downtime, improving overall plant productivity.
Heavy-Duty Rotor Design for Stable Performance
The high-inertia rotor improves crushing force. Wedge-fixed blow bars ensure secure installation and easy replacement. Crescent-shaped blow bars improve vertical impact efficiency for better particle shape.
Specifications - Technical Data
Related Cases
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Malaysia Stone & Sand Production Site
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Guizhou Copper Ore Crushing Line Project
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Iron Ore Crushing Plant Solution Design


