Views: 0 Author: Site Editor Publish Time: 2025-10-13 Origin: Site
As a 'multi-tool' in the field of engineering construction, all-terrain cranes, with their strong adaptability to complex scenarios, have become core equipment for heavy lifting operations. Their advantages are concentrated in the following aspects:
It integrates the high-speed driving characteristics of a truck crane with the complex road condition adaptability of an off-road crane, equipped with a multi-axle full-wheel drive and full-wheel steering system. It can travel long distances on highways at speeds over 80km/h, while also maneuvering flexibly on muddy and rugged construction sites. With a small turning radius, it makes U-turns and repositioning more convenient in narrow areas, significantly reducing transportation costs and time for relocation.
Equipped with high-strength booms and an optimized hydraulic control system, the main boom length can reach over 100 meters. It offers a wide coverage of maximum lifting height and rated lifting capacity, with excellent heavy-lifting performance in medium-to-long boom operating conditions. Additionally, it features precise micro-motion controllability, ensuring smooth operations for lifting, rotation, and amplitude adjustment. This makes it capable of meeting high-precision lifting requirements in applications such as wind power installation and bridge erection, with work efficiency improved by more than 30% compared to traditional cranes.
The vehicle body is equipped with a multi-mode suspension system that can automatically adjust the shock absorption effect according to the road hardness, reducing the wear and tear on the equipment caused by driving bumps; some models are fitted with special configurations such as low-temperature preheating and plateau adaptation, allowing normal operation in extreme environments such as -30℃ severe cold and plateaus above 4,000 meters altitude, without being restricted by region and climate.
Equipped with multiple intelligent monitoring systems such as built-in torque limiters, anti-overturning alarms, and over-winding protection, it can monitor operating parameters in real time and automatically cut off dangerous actions when limits are exceeded. With dual safeguards of multi-bridge braking and emergency braking, it features short braking distance and good heat resistance, ensuring safety during heavy-load driving and lifting operations.
The integrated design reduces the of equipment disassembly and transportation, so no additional trailer rental is needed during relocation; high-strength materials and modular structure lower the difficulty of later maintenance. The long service life of core components, combined with the application of energy-saving hydraulic and power systems, reduces fuel consumption by 15%-20% compared to equipment of the same class, significantly improving long-term economic efficiency.
