Impact Crusher Introduction:
The impact crusher adopts mature manufacturing technology and a scientific structural design, enabling the crushed product to produce cubic particles, reducing tension and cracks, resulting in better particle shape. It can crush various coarse, medium, and fine materials (granite, limestone, concrete, etc.) with a feed particle size not exceeding 500mm and a compressive strength not exceeding 350MPa.
The impact crusher can be widely used in various ore crushing, railway, highway, energy, cement, chemical, and construction industries. Its discharge particle size is adjustable, and the crushing specifications are diverse. It is generally used as a secondary crusher, with the primary crushing stage using a jaw crusher or hammer crusher (if the stone is limestone).
Impact Crusher Working Principle:
The impact crusher utilizes impact energy to crush materials. During operation, the rotor rotates at high speed driven by the motor. The material entering from the feed inlet impacts with the hammer plates on the rotor and is crushed by the high-speed impact of the hammers. The crushed material is then impacted onto the impact plates for further crushing; this process is repeated until the material is crushed to the required particle size and finally discharged from the discharge outlet. Adjusting the gap between the impact plate bracket and the rotor can change the material outlet particle size and shape. The impact crusher uses a spring safety device behind the impact plate; when non-crushable material enters the crushing chamber, the front and rear impact plates retract, and the non-crushable material is discharged from the machine.
Impact Crusher Performance Characteristics:
1. Large feed opening and high crushing chamber, suitable for crushing materials with high hardness and large particle size.
2. Adjustable gap between the impact plate and the hammer, effectively controlling the discharge particle size and shape.
3. Compact structure, high machine rigidity, and a rotor with large rotational inertia.
4. High-chromium hammers, impact-resistant, wear-resistant, and with high impact force.
5. Convenient maintenance, economical and reliable.
6. Comprehensive crushing function, high production efficiency, high wear resistance of machine parts, low energy consumption, and high overall efficiency.