Cone Crusher is normally to crush mid-hard and above mid-hard ores and rocks. It is popular stone crushing machines in manufactured sand production, aggregates production and mining operations. Cone crusher is used in secondary, tertiary crushing stages.
1. The moving cone rotates continuously, and the crushing process and unloading process are carried out alternately and continuously along the working surface, with high productivity.
2. Provide spring protection device, which greatly reduces downtime.
3. Near the discharge port of CS cone crusher crushing chamber, there is a parallel belt with an equal gap between the movable cone and the fixed cone, so that the finished product is uniform in size.
4. Symons cone crusher adopts two sealing methods of dry oil or water, so that dust and impurities cannot enter the body, thus ensuring the cleanness of the lubricating oil, prolonging the service life of sliding bearings and thrust ball bearings, and making the machine run reliably.
Cone crusher insurance system adopts spring overload protection, dry oil (or water) in the form of the seal to improve performance.
Users could choose a PYB based on the standard head type, PYD short head type, PYZ for medium crushing chamber to get required crushed stone size.
Heavy-duty design and use of high-quality components with optimized wear parts keep the operating costs down.
Easy maintenance, and easy to operate. Laminated crushing process makes the final material in good grain shape.
Cone crusher is a compression type of stone crusher. The feeding rock is crushed by squeezing or compressing the feed material between a wear resistant mantle and a manganese concave or a bowl liner.
The mantle is a moving part that gyrates in an eccentric motion though an eccentrically gyrating spindle. When rock enters the top of the cone crusher, it is squeezed between the mantle and the bowl liner or concave, as the eccentric spindle rotates to cause the compression within the chamber. The material gets smaller as it moves down through the wear liner as the opening in the cavity gets tighter. Large pieces of ore are broken once, and then fall to a lower position where they are broken again. This process continues until the pieces are small enough to fall through the narrow opening at the bottom of the crusher. Final sizing and reduction is determined by the closed side setting or the gap between the two crushing members at the lowest point.
Spring system plays the role of overload protection, which will enable the exotic materials or steel piece to pass through the crushing chamber without any damage to the machine.
Model |
Cone Dia. (mm) |
Max. Feed Size (mm) |
Adjusting Range of Output Size(mm) |
Capacity (t/h) |
Motor Power (kw) |
Overall Dimension (mm) |
PYB-600 | 600 | 65 | 12-25 | 15-25 | 30 | 2800×1300×1700 |
PYD-600 | 600 | 35 | 3-15 | 5-23 | 30 | 2800×1300×1700 |
PYB-900 | 900 | 115 | 15-50 | 50-90 | 55 | 3050×1640×2350 |
PYZ-900 | 900 | 60 | 5-20 | 20-65 | 55 | 3050×1640×2350 |
PYD-900 | 900 | 40 | 3-13 | 15-50 | 55 | 3050×1640×2350 |
PYB-1200 | 1200 | 145 | 20-50 | 110-200 | 110 | 4152×2300×2980 |
PYZ-1200 | 1200 | 100 | 8-25 | 50-150 | 110 | 4152×2300×2980 |
PYD-1200 | 1200 | 50 | 3-15 | 18-105 | 110 | 4152×2300×2980 |
PYB-1750 | 1750 | 215 | 25-60 | 280-480 | 160 | 4870×3800×4192 |
PYZ-1750 | 1750 | 185 | 10-30 | 115-320 | 160 | 4870×3800×4192 |
PYD-1750 | 1750 | 85 | 5-15 | 75-230 | 160 | 4870×3800×4192 |
PYB-2200 | 2200 | 300 | 30-60 | 590-1000 | 280 | 7705×3430×4852 |
PYZ-2200 | 2200 | 230 | 10-30 | 200-580 | 280 | 7705×3430×4852 |
PYD-2200 | 2200 | 100 | 5-15 | 120-340 | 280 | 7705×3430×4852 |
*The output will vary according to different materials, feed particle size and other factors
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