| Model | Rotor size | Feed | capacity | Output size | Power | Weight |
| size | ||||||
| mm | mm | t/h | mm | kw | t | |
| PFY0504 | Φ500×400 | 30-100 | 4‒10 | ≤ 25Account for 85% | 22-37 | ≤ 2 |
| PFY0607 | Φ640×740 | 30-100 | 10‒20 | ≤ 25Account for 85% | 22-37 | ≤ 4.4 |
| PFY0705 | Φ7500×500 | 35-120 | 10‒25 | ≤ 25Account for 85% | 22-37 | ≤ 4.4 |
| PFY0807 | Φ850×700 | 40-150 | 15‒30 | ≤ 25Account for 85% | 30-55 | ≤ 8.9 |
| PFY1007 | Φ1000×700 | 50-200 | 25‒60 | ≤ 25Account for 85% | 37-90 | ≤ 10.5 |
| PFY1010 | Φ1000×1000 | 60-250 | 30‒100 | ≤ 25Account for 85% | 55-110 | ≤ 13.9 |
| PFY1013 | Φ1000×1300 | 80-250 | 50‒120 | ≤ 25Account for 85% | 110-185 | ≤ 14.5 |
| PFY1210 | Φ1250×1050 | 100-300 | 60‒140 | ≤ 25Account for 85% | 110-185 | ≤ 16 |
| PFY1212 | Φ1250×1250 | 100-300 | 80‒160 | ≤ 25Account for 85% | 132-185 | ≤ 21 |
| PFY1214 | Φ1250×1400 | 120-300 | 80‒180 | ≤ 25Account for 85% | 132-200 | ≤ 21.5 |
| PFY1310 | Φ1280×1050 | 120-300 | 70‒150 | ≤ 25∂85% | 132-200 | ≤ 19 |
| PFY1315 | Φ1300×1500 | 150-350 | 100‒250 | ≤ 25Account for 85% | 180-315 | ≤ 23 |
| PFY1320 | Φ1300×2000 | 150-3500 | 200‒350 | ≤ 25Account for 85% | 300-400 | ≤ 26 |
| PFY1415 | Φ1400×1500 | 200-400 | 250‒400 | ≤ 25Account for 85% | 300-400 | ≤ 26 |
| PFY1622 | Φ1600×2200 | 200-400 | 400‒600 | ≤ 25Account for 85% | 450-560 | ≤ 101 |
| PFY1822 | Φ1800×2200 | 250-500 | 500‒800 | ≤ 25Account for 85% | 560-710 | ≤ 118 |
– Applicable Materials:
limestone, coal gangue, river pebble, granite, concrete, iron ore, etc.
Working Principle
The impact crusher is a mechanical device that uses impact energy to crush materials with medium hardness. The rotor rotates at a high speed under the driving force of the motor, and the ore obtains huge kinetic energy from the process. After entering the action area of the hammer, the materials are hit and crushed by the hammer on the rotor, then thrown at a high speed to the counter-attack device and broken again. Finally, they are rebounded from the impacting liner back to the zone and crushed. This is a repeated process, and the materials are broken in the first, second and third impacting chambers. When crushed into being in required particle size, the materials are discharged from the discharge port. Users can adjust the gap between the counter-rack and the rotor to achieve the goal of changing the materials’ discharging size and shape.
Advantages
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Cost-effective and Energy-saving
The impact crusher has a large feeding inlet and a large crushing chamber. It can process those large and high-hardness materials and the finished products have little stone powder.
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Optimum particle shapes
The gap between the impacting plate and the hammer can be optionally adjusted to effectively control the discharge granularity, thus producing beautiful finished products in a uniform size.
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Unique Structure
The machine is rigid and compact, and its rotor has high inertia.
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High Comprehensive Effect
High chrome hammer is resistant to impact and wear and provides large impacting force.
