06-24-2025, 08:12 PM
The SANY SY485GLC-S excavator is a large-sized crawler hydraulic machine designed for heavy earthworks, large infrastructure projects, and mining operations. This model incorporates advanced hydraulic technology and a powerful engine, offering exceptional digging capacity and fuel efficiency. It is built to perform efficiently and stably in demanding working conditions.
Official Specifications:
The SANY SY485GLC-S excavator is a high-performance hydraulic machine designed for heavy-duty earthworks and large engineering projects. With its powerful engine and efficient hydraulic system, the SY485GLC-S delivers outstanding performance in extreme working conditions. Its impressive digging depth and working radius make it the ideal choice for large-scale infrastructure projects and mining operations. Additionally, its optimized fuel efficiency and stable operational performance ensure lower operational costs during extended high-intensity use, making it a cost-effective solution for long-term projects.
Official Specifications:
- Engine Type: Inline 6-cylinder diesel engine
- Engine Power: 350 kW (469 horsepower)
- Operating Weight: 49,500 kg
- Bucket Capacity: 2.0 m³
- Maximum Digging Depth: 7,550 mm
- Maximum Digging Radius: 11,200 mm
- Maximum Dump Height: 7,620 mm
- Travel Speed: 3.0 km/h (low speed), 5.3 km/h (high speed)
- Hydraulic System Flow Rate: 600 L/min
- Fuel Tank Capacity: 950 L
- Track Width: 800 mm
- Minimum Ground Clearance: 500 mm
- Machine Dimensions (L × W × H): 12,500 mm × 3,400 mm × 4,420 mm
The SANY SY485GLC-S excavator is a high-performance hydraulic machine designed for heavy-duty earthworks and large engineering projects. With its powerful engine and efficient hydraulic system, the SY485GLC-S delivers outstanding performance in extreme working conditions. Its impressive digging depth and working radius make it the ideal choice for large-scale infrastructure projects and mining operations. Additionally, its optimized fuel efficiency and stable operational performance ensure lower operational costs during extended high-intensity use, making it a cost-effective solution for long-term projects.
