Product Overview
The Impact Crusher is a high-performance crushing solution renowned for its compact design, operational efficiency, and versatile material processing capabilities. Ideal for applications in mining, recycling, and aggregate production, it delivers superior crushing ratios, energy efficiency, and uniform output sizing. Its selective crushing mechanism ensures optimal fragmentation while minimizing over-processing, making it a highly versatile solution for modern industrial demands.
Key Features & Benefits
1. Moisture-Tolerant Design
- Handles high-moisture materials with optional heated feed chutes and impact plates to prevent material adhesion.
- No bottom screen required, eliminating clogging risks and ensuring continuous operation.
2. Durable Composite Hammer System
- High-strength, wear-resistant composite hammer heads with reinforced connections enhance durability and safety.
- Extended service life reduces material waste and downtime compared to traditional models.
3. Rapid Maintenance & Tool-Free Adjustments
- Streamlined rotor design with only 6 hammers enables full replacement in one shift using specialized tools.
- Grinding chamber and rod replacement completed in minutes, minimizing maintenance costs and operational disruptions.
4. Automated Lubrication System
- Hydraulic station-driven bearing lubrication eliminates manual greasing, reducing labor intensity and human error.
5. High-Capacity Processing
- Oversized feed opening and deep crushing chamber accommodate large lump materials while minimizing stone powder generation.
- Optimized for hard, abrasive materials with minimal wear on critical components.
6. Energy-Efficient Performance
- Advanced impact dynamics ensure high productivity with low energy consumption and extended component lifespan.
Working Principle
The Impact Crusher utilizes kinetic energy to fracture materials through three key stages:
- Primary Impact: High-speed rotor rotation accelerates materials into the hammer impact zone, initiating initial fragmentation.
- Multi-Stage Crushing: Particles are propelled against adjustable impact plates, creating secondary and tertiary collisions within reinforced grinding chambers.
- Controlled Discharge: Adjustable gaps between the impact frame and rotor allow precise control over final particle size and shape.
- Vortex Refinement: A centrifugal vortex effect within the chamber ensures further particle-on-particle attrition for consistent grading.
The closed-circuit design enables cyclical reprocessing via screening systems to meet strict size specifications.
Technical Parameters
(Insert a table here with specifications such as: Max Feed Size, Capacity (t/h), Power (kW), Rotor Speed (rpm), Dimensions, etc.)
| Model | Specifications (mm) | Feed Opening (mm) | Max.Feeding Size (mm) | Capacity (t/h) | Power (kw) | Dimensions(L×W×H) (mm) |
| PF-1007 | Φ1000×700 | 400×730 | 300 | 30-70 | 4P 37-45 | 2330×1660×2300 |
| PF-1010 | Φ1000×1050 | 400×1080 | 350 | 50-90 | 4P 45-55 | 2370×1700×2390 |
| PF-1210 | Φ1250×1050 | 400×1080 | 350 | 70-130 | 6P 110 | 2680×2160×2800 |
| PF-1214 | Φ1250×1400 | 400×1430 | 350 | 80-180 | 6P 132 | 2650×2460×2800 |
| PF-1315 | Φ1320×1500 | 860×1520 | 500 | 100-280 | 6P 200 | 3180×2720×3120 |
| PF-1320 | Φ1300×2000 | 993×2000 | 500 | 140-380 | 6P 250 | 3220×3100×3120 |
| PF-1520 | Φ1500×2000 | 830×2040 | 700 | 200-550 | 4P 315-400 | 3959×3564×3330 |
| PF-1820 | Φ1800×2000 | 1260×2040 | 800 | 300-800 | 6P 630-710 | 4400×3866×4009 |
