With the acceleration of urbanization, the number of high-rise buildings and complex structure buildings is increasing, and higher requirements are also put forward for lifting machinery. With its unique design and superior performance, spider crane shows extremely high construction efficiency in narrow spaces and complex environments.
Design Principle
The tracked spider crane adopts rubber crawler hydraulic walking device, which has good passability and stability. The boom adopts high-strength manganese steel overall process, which has high strength and good torsion resistance. The design and optimization concept of three-dimensional modeling, finite element analysis and whole machine calculation is adopted to ensure the flexibility and convenience of the whole machine.
The tracked spider crane adopts a full hydraulic transmission system to achieve precise control of hoisting, telescopic, heaving and rotating actions. The hydraulic system has high working efficiency and response speed, ensuring the speed and stability during the construction process.
Impact on Construction Efficiency
Improve operation speed: The electric spider crane is simple to operate and easy to learn, so that construction personnel can quickly master the operation skills. The operation mode of wireless remote control or fuselage switch enables the driver to stay away from dangerous areas and improve the operation speed.
Adapt to narrow space: Electric spider crane is small in size and light in weight, and can adapt to the construction needs of low space and narrow places. Flexible transfer capability and hoisting flexibility enable it to operate efficiently in different scenarios.
Improve safety: The outrigger grounding sensor and the boom outrigger interlocking function effectively prevent the risk of machine rollover and out-of-control of the boom.
With its unique design principle and superior performance, spider crane provides efficient, safe and flexible solutions for construction.