The movement mode of the Blade Gantry Transfer Vehicle reflects its high flexibility and adaptability to meet the needs of transferring large objects such as wind turbine blades in different environments and conditions. The following is a detailed explanation of the movement mode of the Blade Gantry Transfer Vehicle:
1. Straight and lateral movement mode
The Blade Gantry Transfer Vehicle is equipped with four independent omnidirectional wheels, which enables it to achieve two basic movement modes of straight and lateral movement in various complex environments. The straight mode ensures that the transfer vehicle can efficiently and stably transport blades from one location to another. The lateral movement mode allows the transfer vehicle to move flexibly in narrow spaces, such as narrow passages in a workshop or dense areas in a yard.
2. Rotation in situ and rotation around any point mode
In addition to straight and lateral movement, the Blade Gantry Transfer Vehicle can also rotate in situ and around any point. These two modes enable the transfer vehicle to perform a 360° full-scale rotation in situ or around a specific point. This high degree of flexibility is particularly important for large objects such as wind turbine blades, as they often require precise transfer and positioning in a small space.
3. Oblique driving and turning while walking mode
In order to meet more complex and special transfer needs, the Blade Gantry Transfer Vehicle also has the ability to drive obliquely and turn while walking. The oblique driving mode allows the transfer vehicle to move obliquely at a certain angle, which is very useful in certain specific scenarios. The turning while walking mode allows the transfer vehicle to turn while moving, greatly improving the efficiency and safety of transfer.
In summary, the movement modes of the Blade Gantry Transfer Vehicle include straight driving, lateral movement, rotation on the spot, rotation around any point, oblique driving and turning while walking. These modes together constitute the highly flexible and adaptable characteristics of the transfer vehicle, enabling it to efficiently and stably transfer large objects such as wind turbine blades in various complex environments and conditions. At the same time, these movement modes also reflect the technical level and innovation ability of the transfer vehicle design and manufacturing.
