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XGC85
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Product Introduction
The XGC85 prioritizes high efficiency, intelligent operation, and safety reliability. Equipped with a microcomputer control system and load-sensing LUDV hydraulic system, it delivers precise and smooth movements. Overload protection, limit switches, anti-tipping systems, and an ergonomically designed cab ensure operational safety and comfort. It is widely used in construction, bridge building, petrochemical, and other industries.
Product Advantage
Basic machine is an integrated transport design, without disassembling track frame and boom base, greatly save transport costs and improve the assembly/disassembly efficiency. Unique A-frame gantry self-erection technology, no need of cylinder can achieve self- erection, to realize crane quick assembly. Single counterweight weighing no more than 6t, small auxiliary lifting equipment can achieve complete counterweight assembly.
Integrated design to reduce failure points, while reserve open space for assembly/ disassembly and maintenance. Use of highly integrated LUDV main valve, with the functions of multi-complex operation, control of combined flow, high/low speed selection, to ensure operation efficiency. Optional unique independent bypass filtration in the industry, strong magnetic adsorption device, strengthened hydraulic system filtration, and anti-emulsifying ability.
Technical Parameters
| Item | Unit | Parameter |
| Max. rated lifting capacity for boom | t | 85 |
| Max. rated lifting capacity for fixed jib | t | 12 |
| Max. load moment | t.m | 341 |
| Max. rated lifting capacity for boom single top | t | 8 |
| Boom length | m | 13~58 |
| Boom luffing angle | ° | -3~80 |
| Fixed jib length | m | 7~19 |
| Max. dimension of single unit in transport state(L×W×H) | m | 13.05×3.4×3.3 |
| Fixed jib offset angle | ° | 10,30 |
| Max. single line speed for hoist mechanism | m/min | 120 |
| Max. single line speed for boom luffing mechanism | m/min | 70 |
| Max. slewing speed | r/min | 2 |
| Max. travel speed | km/h | 0.9 |
| Grade ability | % | 30 |
| Mean ground pressure | MPa | 0.087 |
| Model | - | SC9DK270G3/QSC8.3 |
| Engine power | kW | 200/183 |
| Emission | - | National III/ EU III |
| Overall crane mass | t | 71.5(main hook, 13m boom) |
| Max. mass of single unit in transport state | t | 41.2 |
Product Uses
1. Infrastructure Construction and Urban Engineering
Widely used in building construction, road and bridge building, subway construction, steel structure installation, and reinforcing cage placement. Its main drum rapid release function meets the demands of impact pile driving and vibratory pile hammer operations.
2. Mining and Quarry Operations
Suitable for lifting and transporting ore, stone, and heavy equipment components in mining and quarry sites. Its robust chassis and 85-ton lifting capacity handle harsh environments, though ground leveling and equipment maintenance require attention.
3. Water Conservancy and Large-Scale Water Diversion Projects
In cross-basin, long-distance water diversion projects like the Yellow River to Qingdao Project, it facilitates pipeline installation and equipment hoisting. Its integrated transport design reduces shipping costs and enhances assembly/disassembly efficiency, while the self-lifting human-shaped frame technology enables rapid assembly.
4. Plateau, High-Altitude, and Harsh Environments
With optimized hydraulic systems and reinforced designs for frigid regions, it adapts to operations in high-altitude, frigid, and muddy mountainous terrain like the Sichuan-Tibet Railway and Lhasa.
5. Petrochemical and Energy Sectors
In petrochemical projects, it handles heavy equipment lifting, large-diameter pipe installation, and auxiliary maintenance tasks. Its precise micro-movement capability and exceptional stability ensure safe lifting operations within confined industrial sites.
Product Operate Guide
Pre-Operation Inspection: Ensure outriggers are securely supported on solid ground. Check hydraulic fluid level and system integrity. Verify safety devices are operational.
Operational Controls: Select lifting mode via the cab's smart display or wireless remote controller. Set boom length and angle. Operate with smooth movements. Overloading is strictly prohibited.
Critical Precautions: Continuously monitor wind speed. Keep unauthorized personnel out of the operating radius. Avoid obstacles during slewing. Retract working equipment after operation. Park on level ground.
FAQ
1. HOW TO REDUCE FUEL CONSUMPTION OF EQUIPMENT?
Avoid unnecessary idling, operate smoothly, perform regular maintenance, and select the appropriate power mode based on working conditions.
2. HOW TO EXTEND TIRE LIFESPAN?
Maintain standard tire pressure, avoid sharp turns and scraping against obstacles, drive slowly on rough terrain, and rotate tires regularly.
3. WHAT IS THE OPTIMAL OPERATING LOAD FOR EQUIPMENT?
Typically, operating at 80%-90% of rated load is recommended. This ensures efficiency while preventing premature damage from prolonged overload.
4. IS IT ACCEPTABLE TO LEAVE THE ENGINE IDLING FOR EXTENDED PERIODS WHEN IDLE?
No. This wastes fuel and increases carbon buildup, causing engine wear. Shut down the engine if idle for over 5 minutes.
5. WHAT PRECAUTIONS SHOULD BE TAKEN WHEN USING EQUIPMENT IN HIGH-ALTITUDE REGIONS?
Engine power decreases due to thin air. Select high-altitude models or make corresponding adjustments. Equipment efficiency will be reduced, so plan operations accordingly.
6. WHAT PRECAUTIONS ARE NEEDED FOR MARINE OR CORROSIVE ENVIRONMENTS?
Marine-rated equipment must be used or additional anti-corrosion treatment applied. Rinse salt residue with fresh water immediately after operation and inspect structural components and wiring harnesses more frequently.
7. WHAT REQUIREMENTS APPLY IN FLAMMABLE/EXPLOSIVE ENVIRONMENTS?
Explosion-proof specialized equipment must be used. Its exhaust and electrical systems undergo special treatment to prevent spark generation.
