loading
XCA180
| Availability: | |
|---|---|
| Quantity: | |
Product Introduction
The XCA180 prioritizes high efficiency, energy savings, and intelligent safety. It employs a new energy-saving hydraulic system, enabling dual-pump combined high-speed operation and single-pump slow-speed precision control, with a minimum stable slewing speed of 0.1°/s. Utilizing intelligent boom technologies such as boom compensation control, winch follow-up technology, and automatic work condition planning, it automatically compensates for boom deformation, maintains cargo position, and recommends optimal lifting solutions, significantly enhancing operational safety and efficiency.
Product Advantage
1. Super lifting performance
Six-section boom of 64m. Fixed jib of 11m-18.5m, and three boom extensions with each length of 7m are available.
2. High mobility
All-axle steering, small turning radius and free changeover of 6WD/8WD are available. 6WD is used to drive on roads, which is more economic. 8WD is suitable for off-road travel and jobsite transfer. Max. grade ability is 65% (14.00R25), taking the lead in the industry.
3. New highly efficient energy-saving hydraulic system
* New fully closed hydraulic system for lifting system is available, equipped with double-variable fine control adjusting system and control strategies, contributing to stable and smooth operation.
* Min. stable lifting speed (at drum) is 0.8-1m/min, and min. stable slewing speed is 0.1°/s.
4. Power and traveling performance
* Electronic diesel engine, rated power 356kW, max. torque 2300N.m.
* Max. travel speed 80Km/h, Max. grade ability 65% (14.00R25)/ 60% (16.00R25/20.50R25).
Technical Parameters
| Item | Specification | Unit | |
| Overall Length | 15770 | mm | |
| Overall Width | 3000 | mm | |
| Overall Height | 4000 | mm | |
| Total vehicle mass in travel configuration | 60000 | kg | |
| Axle Load | 12000x5 | kg | |
| Engine rated power | 162/2100 | 360/1800 | kw/(r/min) |
| Engine rated torque | 2200/1100 | N.m/(r/min) | |
| Max. travel speed | 80 | km/h | |
| Min. travel speed | 80 | km/h | |
| Min. turning diameter | 20 | m | |
| Max. grade ability | 50 | % | |
| Min. ground clearance | - | mm | |
| Approach angle | 16 | ° | |
| Departure angle | 13 | ° | |
| Braking distance (at 30 km/h, full load ) | ≤10 | m | |
| Oil consumption per 100km | 80 | L | |
| Max. rated total lifting capacity | 180 | t | |
| Min. rated working radius | 3000 | mm | |
| Time for boom raising | 80 | s | |
| Time for boom extending fully | 500 | s | |
| Max. slewing speed | 1.3 | r/min | |
Product Uses
1. Large-Scale Infrastructure Construction
The XCA180 is ideally suited for infrastructure projects such as bridge construction and large-scale venues. Its eight-section 80-meter main boom delivers a maximum lifting capacity of 9.5 tons at full extension, enabling efficient hoisting of heavy components like precast beam segments and large steel structures to boost construction efficiency.
2. Wind Turbine Installation and Maintenance
This model boasts excellent off-road mobility and heavy-load relocation capabilities, adapting to complex terrain in wind farms. It is frequently used for installing and maintaining wind turbines, with its long boom satisfying high-altitude lifting requirements.
3. Petrochemical and Power Construction
In petrochemical projects, power plant construction, and substation installations, the XCA180 handles the installation and positioning of heavy equipment like large tanks, reactors, and boiler modules.
4. Urban Construction Projects
With its flexible steering modes and high maneuverability, this crane operates efficiently in confined urban spaces. It participates in steel structure hoisting for high-rise buildings, large equipment transportation, and municipal engineering projects, minimizing disruption to surrounding traffic.
5. Industrial Equipment Installation and Handling
In industrial plants, mines, factories, and similar environments, this crane facilitates the installation, transportation, and maintenance of large production equipment and heavy machinery. Its intelligent boom technology enables safe and efficient execution of these positioning-critical tasks.
Product Operate Guide
Pre-Operation Inspection: Conduct a comprehensive inspection of the equipment before operation, including exterior structure, hydraulic system, power system, travel system, and safety devices. Ensure the vehicle is stationary with the parking brake fully engaged.
Startup and Travel: Before starting, confirm no obstacles are present and the transmission is in neutral. Turn the key to the “ON” position for a system self-check. After all dashboard warning lights extinguish, start the engine and idle for 3-5 minutes to warm up. Select an appropriate drive mode based on road conditions during operation and maintain speed control.
Preparation for Lifting Operations:
Always deploy outriggers before operation to ensure the vehicle is level. Set operating parameters via the cab controller, including boom length configuration and counterweight selection. Inspect lifting equipment such as hooks and wire ropes for integrity. Verify lifting parameters remain within safe limits; overloading is strictly prohibited.
FAQ
1. IS THE ACCUMULATOR PRESSURE RETENTION TIME TOO SHORT?
The accumulator bladder or diaphragm may be ruptured, or the charging valve may be leaking. Recharge with nitrogen or replace the component.
2. FREQUENT BREAKAGE OF THE SPOOL RESET SPRING IN THE DIRECTIONAL CONTROL VALVE?
The spool is stuck due to contaminated oil, and forced operation by the operator causes the spring to overload and shear.
3. AUTOMATIC SLOW MOVEMENT IN ONE DIRECTION DURING TILTED OPERATION?
The spool deviates from the neutral position due to gravity, or internal leakage paths in the actuator have changed.
4. EQUIPMENT AUTOMATIC IDLE FUNCTION FAILS?
Check if the pilot pressure detection switch or sensor under the joystick is faulty, or if this function is disabled in the ECU.
5. WIRING HARNESS WEARS THROUGH AND SHORTS AT METAL HOLES?
Rubber grommets are missing or uninstalled, allowing metal edges to cut through the harness insulation.
6. SENSOR SIGNAL VOLTAGE OCCASIONALLY DROPS TO ZERO DURING OPERATION?
Loose connection in the sensor power supply circuit causes momentary disconnection during equipment vibration.
