In dealing with the vibration problem of aerial work equipment, we have adopted a series of in-depth and comprehensive strategies to ensure the safety, worry-free, efficient and stable operation of OIL FREE MEWP-ALL ELECTRIC AWP. During the equipment design stage, we devoted a lot of effort to structural optimization. Through precise calculations and simulations, the structural rigidity of the equipment was enhanced so that it can maintain a stable posture in the face of various working conditions. At the same time, we carefully selected high-performance shock-absorbing materials and cleverly applied them to the key connections of the equipment. These materials, like natural vibration absorbers, effectively absorb the vibration energy generated during the operation of the equipment, greatly reducing the impact of vibration on the equipment itself and the surrounding environment.
In addition to the optimization at the design level, we have also made in-depth improvements to the drive system. We have selected advanced low-vibration motors, which provide a solid power foundation for the stable operation of the equipment with their excellent stability and low noise characteristics. At the same time, we optimized the design and parameter matching of the transmission system, reduced the energy loss and vibration generation during the transmission process, and made the entire drive system more efficient and reliable.
In order to further reduce vibration, we have also introduced a variety of auxiliary equipment. For example, shock absorbers are installed at the bottom of the equipment, and the elasticity and damping characteristics of the shock absorbers are used to convert vibration energy into heat energy or other forms of energy, thereby achieving the purpose of vibration reduction. At the same time, when working outdoors, we also use auxiliary equipment such as windproof devices to reduce the impact of wind on the stability of the equipment.
During the operation process, we emphasize the importance of smooth operation and require operators to strictly follow the operating procedures to avoid sudden acceleration, sudden deceleration and other actions that may cause vibration. At the same time, we also strictly control the load of the equipment to ensure that the equipment operates under the premise of bearing a reasonable load to avoid increased vibration caused by overload or unbalanced load.