Application areas
Widely used in industries such as mining, metallurgy, and building materials, it can crush a variety of hard stones and rocks.
Applicable Materials
Suitable for medium and fine crushing of various medium-to-hard materials.
Product Features of the Cone Crusher
1. The frame and spindle are precision-cast and precision-forged from high-strength alloy steel, ensuring robustness and durability—perfectly suited for crushing materials of medium to high hardness.
2. This machine features a well-balanced combination of a high swing frequency in the cone crushing section and a large eccentric sleeve offset (stroke length). This design significantly enhances the throughput capacity of the multi-cylinder cone crusher series. Additionally, the machine can operate continuously at a consistent discharge opening, eliminating the need for the single-cylinder main shaft to fluctuate up and down during production—which could otherwise cause variations in the discharge setting.
3. The specially designed crushing chamber, utilizing high-energy laminating theory, delivers greater energy input, enabling material breakage not only between particles and the lining plates but also among the particles themselves. As a result, production capacity is higher, wear on wearing parts is relatively reduced, and the resulting product exhibits a more cubic particle shape with lower levels of needle-like and flaky particles.
4. Fixed-axis design: The main shaft remains stationary during operation, significantly enhancing its strength and enabling higher installed power output. Yet, this design substantially reduces the equipment's weight compared to traditional cone crushers.
5. The bidirectional iron-release hydraulic cylinder allows iron blocks to pass through the crushing chamber, features a large stroke for efficient hydraulic cleaning of the chamber, and is independent of liner wear—significantly reducing the effort required to clear any blockages inside the crushing chamber.
6. The hydraulic motor drives the adjusting sleeve (fixed cone liner), enabling precise adjustment of the discharge opening. Additionally, the hydraulic motor allows the entire adjusting sleeve and fixed cone liner to rotate completely out of the support sleeve, making it easy to replace both the fixed and moving cone liners—and significantly reducing the effort required for liner replacement.
7. Advanced liner-fixing technology enhances the reliability of the liners. The stationary cone liner is secured using wedge blocks that engage with the spiral bevel surface at the upper part of the stationary cone, creating a self-locking mechanism. Meanwhile, the moving cone liner is tightly fastened by self-locking locking bolts.
8. The bronze bushings used in this machine provide enhanced load capacity in crushing environments characterized by high vibration and heavy dust accumulation.
9. All components can be disassembled, assembled, and maintained from the top or side, making it easy to replace both the moving cone liner and the stationary cone liner—no need to remove the frame or loosen any bolts.
How it works
This machine primarily consists of components such as the frame, moving jaw, eccentric shaft, jaw plate, and adjustment seat. During operation, the electric motor drives the eccentric shaft via a V-belt connected to a pulley, causing the moving jaw to follow a specific motion trajectory. This action crushes the material fed into the crushing chamber. Finally, the crushed material is discharged through the discharge opening under the influence of its own weight.
Technical specifications
| Model | Maximum Motor Installation Power (kW) | Throughput (t/h) under the Close-Side Setting (CSS) discharge opening | |||||||||||
| 6mm | 8mm | 10mm | 13mm | 16mm | 19mm | 22mm | 25mm | 32mm | 38mm | 45mm | 51mm | ||
| HPY200 | 160 | 60-75 | 70-90 | 85–115 | 115–145 | 135–175 | 145–185 | 155–195 | 165-215 | 185–230 | 205-245 | ||
| HPY300 | 220 | 75–95 | 100–130 | 110–140 | 145–180 | 170–215 | 190–230 | 220–260 | 225–275 | 245-320 | 300–375 | 345-430 | |
| HPY400 | 315 | 105–140 | 135–170 | 180–225 | 215-275 | 250–320 | 275-345 | 285-370 | 315-425 | 350–480 | 400–540 | 455-615 | |
| HPY500 | 400 | 135–170 | 170–220 | 225-290 | 270-345 | 310–400 | 340–425 | 360–450 | 400–530 | 425-585 | 500–670 | 560–770 | |
| HPY600 | 450 | 210-305 | 280-385 | 330–450 | 365–485 | 415-535 | 435-570 | 440-635 | 515-705 | 575-790 | |||
| HPY700 | 500 | 220-325 | 300-405 | 350–485 | 400–520 | 465-590 | 490–620 | 550–690 | 605-755 | 685–860 | 780-975 | ||
| HPY800 | 630 | 240-335 | 315-420 | 375–500 | 420–540 | 550–650 | 550–750 | 650–850 | 585-920 | 670-990 | 765-1100 | ||
| HPY1000 | 750 | 540–610 | 600–750 | 660–820 | 730-920 | 790–1050 | 850-1230 | 1100–1480 | 1350–1780 | 1600–2120 | 1850–2500 | ||
| HPY1250 | 1000 | 595-710 | 775–925 | 845-1025 | 910-1135 | 1025–1385 | 1150–1520 | 1460–1885 | 1725–2195 | 2010-2615 | 2295-3035 | ||
| Note: The listed crusher capacities are based on open-circuit operations using limestone with a loose density of 1.6 t/m³. Under closed-circuit conditions, the equipment capacity increases by 15% to 30% compared to open-circuit operations. | |||||||||||||
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HPY Series Multi-Cylinder Hydraulic Cone Crusher
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