The Blade Gantry Transfer Vehicle significantly improves flexibility during transfer through a series of innovative designs and advanced technologies. Here’s a detailed explanation of its approach to increasing flexibility:
1. Four-wheel independent omnidirectional wheel design
The Blade Gantry Transfer Vehicle uses a four-wheel independent omnidirectional wheel design, which is the key to its increased flexibility. This wheel design allows the transfer vehicle to achieve multiple movement modes such as straight travel, sideways movement, in-situ rotation, rotation around any point, diagonal travel, and turning while walking. This all-round movement capability enables the vane gantry transfer vehicle to easily cope with complex transfer environments and various irregular road conditions, thereby greatly improving the flexibility of transfer.
2. Two-vehicle linkage control
Blade Gantry Transfer Vehicle also adopts dual-vehicle linkage control technology, which can achieve synchronous control of two or more transfer vehicles through remote control operation. This linkage control technology enables multiple transfer vehicles to work together to achieve synchronized forward, backward, steering, translation and other actions, thereby further improving the flexibility and efficiency of transfer.
3. Independent two-stage lifting device
The Blade Gantry Transfer Vehicle is also equipped with an independent two-stage lifting device, which can adjust the height of the blade according to different application conditions. The design of this lifting device allows the transfer vehicle to easily cope with the transfer needs of blades of different heights and angles, further improving the flexibility and adaptability of transfer.
4. Optimization of technical parameters
In addition to the above design features, Blade Gantry Transfer Vehicle has also been optimized in terms of technical parameters. For example, its turning radius is small and can adapt to a narrower transfer environment; at the same time, its load capacity is large and it can meet the transfer needs of large blades. The optimization of these technical parameters makes Blade Gantry Transfer Vehicle more flexible and efficient in practical applications.
To sum up, the Blade Gantry Transfer Vehicle has significantly improved the flexibility during the transfer process through various methods such as four-wheel independent omnidirectional wheel design, dual-vehicle linkage control, independent two-stage lifting device, and optimization of technical parameters. This high degree of flexibility makes the Blade Gantry Transfer Vehicle one of the important equipment in the field of wind power blade transfer, making an important contribution to the development of the wind power industry.
