Product Introduction
The XCA500 excels in both power and intelligent capabilities. Equipped with a sedan-grade human-machine interface system, it features intuitive information displays and supports wireless remote operation, delivering high levels of automation. Its broad operational adaptability enables a maximum lifting height of 134 meters in tower boom mode and a peak lifting capacity of 67 tons in wind turbine boom mode, allowing it to effortlessly handle high-altitude and long-reach hoisting challenges.
Product Advantage
XCA500 automatically matches the corresponding highest gear through axle load monitoring to ensure vehicle driving safety. Outrigger pressure detection - real-time monitoring of the force of the outrigger, emergency alarm when the operation stability is insufficient or the outrigger pressure setting range is exceeded to prevent the occurrence of a rollover accident.
There are more accessories for wind power maintenance, which is more convenient and efficient to install;
Technical Parameters
| Item | Unit | Parameter |
| Overall Length | mm | 19165 |
| Overall Width | mm | 3000 |
| Overall Height | mm | 4000 |
| Wheel Base | mm | 1650+2360+1650+3300+1650+2580 |
| Travelling Weight | kg | |
| Rated Power | kw/(r/min) | |
| Rated Torque | N.m/(r/min) | |
| Max.Travelling Speed | km/h | |
| Min.Stable Travelling Speed | km/h | |
| Min Diameter of Turning Circle | m | |
| Max Gradeability | % | |
| Minimum Ground Clearance | mm | |
| Approach Angle | ° | |
| Departure Angle | ° | |
| Braking Length | m | |
| Fuel Consumption Per Hundred Kilometers | L | |
| Max.Rated Lifting Capacity | t | |
| Max. Lifting Moment of Basic Boom | kN·m | |
| Basic Boom | m | |
| Full-extend boom | m | |
| Full-extend boom + jib | m | |
Product Uses
1. Wind Turbine Installation and Maintenance
The XCA500 is ideally suited for installing and servicing wind turbines up to 2.0MW. Its powerful lifting capacity and exceptional lifting height enable efficient handling of wind turbine components.
2. High-Rise Construction and Urban Bridge Engineering
This crane excels in installing elevated highway decks, high-speed rail bridge slabs, and large precast elements for high-rise buildings. Its compact chassis design and flexible multi-girder steering system enable agile maneuvering and operation within confined urban spaces.
3. Large-scale Petrochemical and Power Plant Construction
In petrochemical projects and large power plant construction, the XCA500 excels at lifting large tanks, reaction towers, and heavy equipment. Its extensive operating capabilities and exceptional stability meet the stringent requirements for lifting safety and precision in these sectors.
Product Operate Guide
Operating the XCA500 requires a valid Special Equipment Operator Certificate. Before operation, thoroughly inspect the equipment condition to ensure the wire rope, hooks, and safety devices are in good working order. Overloading is strictly prohibited. Maintain smooth and precise movements during operation. Conduct regular inspections and maintenance of the hydraulic system. After completing work, retract the boom to a safe position and disconnect the power supply.
FAQ
1. PRESSURE TEST FITTINGS INSTALLED AT TEST PORTS FREQUENTLY FAIL?
Failure to slowly relieve pressure after testing causes sudden high-pressure oil impact, damaging the ball valve. Causes include improper operation or poor fitting quality.
2. HYDRAULIC TANK LEVEL GAUGE DISPLAYS INACCURATELY?
The gauge float is stuck, or oil contamination on the transparent tube's outer wall. Clean or replace as needed.
3. HYDRAULIC HOSES BECOME ABNORMALLY HOT AFTER SYSTEM OPERATION?
Internal lining may have peeled off due to aging, causing localized throttling and overheating—immediately replace.
4. ACCUMULATOR PRESSURE RETENTION TIME IS TOO SHORT?
Accumulator bladder rupture or charging valve leakage—recharge with nitrogen or replace.
5. DOES THE SPOOL RESET SPRING IN THE DIRECTIONAL CONTROL VALVE FREQUENTLY BREAK?
The spool may be stuck due to contaminated oil. Forced operation by the operator causes the spring to overload and shear.
6. DURING TILTED OPERATION, DOES MOVEMENT IN ONE DIRECTION AUTOMATICALLY SLOW DOWN?
This may occur due to the spool deviating from the neutral position under gravity or changes in internal leakage paths within the actuator.
