What structure does this electric stacker with initial lifting function use to ensure stability?

This electric stacker with initial lifting function adopts a carefully designed four-point support structure, which is inspired by the principle of a stable base in architecture. The four support points are like the four pillars of a building. Through optimized layout and strengthened materials, the load is evenly distributed and effectively loaded. Each support point has been precisely calculated and rigorously tested to ensure that the integrity and stability of the structure can be maintained when bearing the maximum rated load. This design not only improves the load-bearing capacity of the stacker, but also greatly reduces the risk of structural deformation or damage caused by excessive local force, providing a solid guarantee for long-term and high-intensity operations.

In order to further improve the controllability and stability of the stacker, the vehicle is specially equipped with a rudder auxiliary system. As an important part of the control system, the rudder achieves precise control of the stacker's driving direction through precise mechanical transmission and electronic control systems. During driving or turning, the rudder can quickly and accurately adjust the stacker's driving trajectory according to the operator's instructions, effectively offsetting the offset or shaking caused by external factors such as centrifugal force and side wind. In addition, the side rudder also has an automatic return function. When the stacker completes the turn, the side rudder can automatically adjust to the middle position to ensure that the stacker maintains a straight driving state, further improving the safety and efficiency of the operation.

During the design process, engineers optimized the overall layout and weight distribution of the stacker, and lowered the key components such as the battery pack, motor, and fork as much as possible, thereby achieving the overall downward shift of the center of gravity. The low center of gravity design makes the stacker more stable when carrying heavy objects and can better resist the risk of overturning caused by too high a center of gravity. Especially when making fast turns, emergency braking, or passing through uneven ground, the low center of gravity design can significantly reduce the shaking and tilting of the stacker, providing the operator with a more stable and comfortable working experience. At the same time, the low center of gravity design also helps to improve the driving stability and braking performance of the stacker, further shorten the braking distance, and improve the safety of the operation.

This electric stacker with initial lifting function uses a combination of a four-point support structure, side rudder assistance, and a low center of gravity design to build a stable and efficient working platform. Its excellent stability design not only meets the needs of medium-height warehouse-intensive storage operations, but also provides operators with a safer and more reliable working environment.