Overview
High Efficiency, Low Cost Crushing Solution
Looking for a reliable, high-performance cone crusher that delivers stable output, low operating cost, and excellent product shape?
The single-cylinder hydraulic cone crusher is engineered for high-efficiency secondary and tertiary crushing. Designed with advanced hydraulic technology and a robust structure, it delivers consistent particle shape, high production capacity, and reduced operating costs. It is widely used in mining, quarrying, construction aggregates, and recycling applications.
Our Single-cylinder Hydraulic Cone Crusher is engineered for modern mining, quarry, and aggregate production lines worldwide.
Applications
Our Single-cylinder Hydraulic Cone Crusher is widely used in:
- Mining industry
- Quarry aggregate production
- Highway & railway construction
- Concrete batching plants
- Metal ore crushing
- Sand & gravel production lines
Materials It Can Handle
- Granite
- Basalt
- Limestone
- River Pebbles
- Quartz
- Iron ore (secondary crushing stage)




Why Choose Us
Optimized crushing chamber and continuous lamination crushing improve throughput and product shape.
Automatic overload protection and discharge adjustment reduce downtime and manual intervention.
Fewer wearing parts, easy maintenance, and energy-efficient design lower total cost of ownership.
Heavy-duty frame and precision components ensure long-term reliability in harsh environments.
Suitable for granite, basalt, limestone, iron ore, and other medium to hard materials.
Hydraulic discharge opening adjustment allows precise control of output size, improving flexibility for different applications.
Working Principle
The motor drives the eccentric sleeve to rotate, causing the mantle to move in a circular motion. Materials are continuously crushed between the mantle and concave through compression and lamination. The hydraulic system adjusts the discharge opening and protects the crusher from overload, ensuring stable and efficient operation.
Technical Advantages
- Single-cylinder hydraulic system for precise control and quick adjustment
- Large feed opening with high crushing ratio
- Automatic cavity clearing reduces downtime
- Integrated PLC control system for real-time monitoring
- Compact structure for easy installation and transport
Technical Specifications
| Model | Cavity Type | Max Feed Size (mm) | Min Discharge Opening (mm) | Power (kW) | Capacity (t/h) |
|---|---|---|---|---|---|
| SC100S | C1 | 250 | 22 | 90 | 85–170 |
| SC100S | C2 | 200 | 19 | 90 | 70–130 |
| SC160S | C1 | 360 | 25 | 160 | 125–345 |
| SC160S | C2 | 300 | 22 | 160 | 108–305 |
| SC250S | C1 | 450 | 35 | 250 | 267–605 |
| SC250S | C2 | 400 | 29 | 250 | 225–515 |
| SC315S | C1 | 560 | 41 | 315 | 349–1050 |
| SC315S | C2 | 500 | 38 | 315 | 318–892 |
| SC100 | F1 | 150 | 10 | 90 | 45–135 |
| SC100 | F2 | 90 | 10 | 90 | 43–118 |
| SC100 | F3 | 50 | 6 | 90 | 36–71 |
| SC160 | F1 | 200 | 13 | 160 | 69–215 |
| SC160 | F2 | 115 | 10 | 160 | 57–184 |
| SC160 | F3 | 75 | 8 | 160 | 63–126 |
| SC250 | F1 | 215 | 16 | 250 | 116–396 |
| SC250 | F2 | 140 | 13 | 250 | 97–328 |
| SC250 | F3 | 70 | 8 | 250 | 95–252 |
| SC315 | F1 | 275 | 16 | 315 | 177–662 |
| SC315 | F2 | 175 | 16 | 315 | 162–552 |
| SC315 | F3 | 85 | 13 | 315 | 195–401 |
| SC560 | F1 | 300 | 22 | 560 | 448–1512 |
| SC560 | F2 | 195 | 19 | 560 | 380–1373 |
| SC560 | F3 | 90 | 13 | 560 | 357–912 |
| SC750 | F1 | 370 | 25 | 750 | 394–2181 |
| SC750 | F2 | 300 | 19 | 750 | 342–2020 |
| SC750 | F3 | 230 | 16 | 750 | 267–1814 |
| SC750 | F4 | 120 | 13 | 750 | 248–1165 |
| SC750 | F5 | 85 | 10 | 750 | 185–1170 |
Capacity may vary depending on material hardness, moisture content, and feeding conditions.
Optional Configurations
- Different crushing chamber types (coarse, medium, fine)
- PLC automation upgrades
- Dust suppression systems
- Mobile or stationary crushing plant integration
After-Sales Support
WhInstallation & Commissioning Guidance
- Operator Training
- Spare Parts Supply
- Technical Consultation
- 24/7 Online Support
- Lifetime Service Assistance
Our engineering team ensures your crushing plant operates efficiently and profitably throughout its lifecycle.
Project Cases
200tph Basalt Crusher in Libya
A complete crushing plant was successfully delivered to a quarry project in Libya for processing limestone and basalt, with a designed capacity of 150–200 t/h. The production line consists of a jaw crusher, single-cylinder hydraulic cone crusher, and vibrating screen, producing high-quality aggregates in sizes of 0–5 mm, 5–10 mm, and 10–20 mm. The system operates with stable performance and low maintenance cost, significantly improving the customer’s aggregate production efficiency and supply capability.
300t/h Granite Crusher in Kazakhstan
A complete crushing production line was successfully installed in Kazakhstan for processing hard rock materials including granite and river pebbles. The plant is designed with a capacity of 200–300 t/h and consists of a jaw crusher, single-cylinder hydraulic cone crusher, and vibrating screen. It produces high-quality aggregates in sizes of 0–5 mm, 5–10 mm, and 10–20 mm, providing stable operation, excellent product shape, and reliable performance for local construction and infrastructure projects.
FAQ
The hydraulic system provides automatic overload protection, discharge opening adjustment, and easier maintenance operations, which helps reduce downtime and improve safety.
Yes, it can be integrated into mobile or stationary crushing plant setups depending on project requirements.
It offers a strong balance of output, particle shape, and operating cost, making it a practical choice for aggregate production and hard rock crushing.
Yes. We provide tailor-made crushing solutions based on your material, capacity, output size, and project requirements, including full plant design and equipment selection.

