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1. Uneven load distribution problem: the challenge of traditional design
When performing daily handling operations, forklifts often need to bear large loads, especially when working under high loads or complex environments, the stability and load distribution of forklifts become particularly important. Traditional forklift designs often lead to uneven load distribution due to the limited number of rollers and deficiencies in layout design. Locally overloaded rollers will cause severe wear, which will not only affect the service life of the forklift, but may also cause performance degradation during operation.
2. Design advantages of Double rows of full ball forklift side rollers
The design of "Double rows of full ball forklift side rollers" adopts an innovative double-row structure, which can optimize the load distribution of each roller, so that the pressure on the forklift during operation can be evenly distributed. Compared with traditional designs, the double-row global design increases the number of rollers and optimizes the arrangement of the rollers to ensure that each group of rollers can bear the load evenly. In this way, not only can the overall load capacity of the forklift be improved, but also the friction and wear problems caused by uneven load can be effectively reduced.
This design enables the forklift to better disperse the pressure in various operating links such as turning, accelerating, and braking. Each roller can carry the load smoothly, avoiding the performance problems caused by local overload in traditional designs. For example, when the forklift turns, the uniform load distribution makes the pressure on each roller of the forklift relatively consistent, thus effectively avoiding possible tilting or loss of control.
3. Uniform load distribution: improve the load-bearing capacity and maneuverability of the forklift
Uniform load distribution is a key factor in improving the load capacity and maneuverability of the forklift. Under high-load conditions, the stability and maneuverability of the forklift directly determine its work efficiency and safety. The double-row global design effectively enhances the load-bearing capacity of the forklift by optimizing the force of each roller, so that the forklift can still maintain excellent maneuverability under higher loads.
During operations such as turning and accelerating, the uniform load distribution helps reduce the deviation and tilt of the forklift, so that the forklift always maintains a stable operating state. In addition, uniform force can also improve the maneuverability of the forklift, allowing operators to control the movement of the forklift more accurately, avoiding operational difficulties and errors caused by uneven load.
4. Reduce friction and wear: extend the service life of equipment
Friction is an inevitable factor in the operation of forklifts, but excessive friction will accelerate the wear of equipment and reduce work efficiency. In traditional designs, due to uneven loads, friction is often concentrated on a few rollers, which not only causes excessive wear of some rollers, but may also affect the performance of other related components. The double-row global design increases the number of rollers and optimizes the arrangement, so that friction can be evenly distributed on multiple rollers, thereby effectively reducing the wear of local rollers.
Through this uniform distribution, each roller of the forklift can run smoothly for a long time, reducing the wear of system components and extending the service life of rollers and related components. This not only reduces the maintenance frequency of the forklift, but also reduces the downtime caused by failures, further improving the work efficiency of the forklift.
5. Improve forklift stability: ensure efficient operation
The stability of a forklift under high load conditions directly affects its work efficiency and safety. Through the design of "double-row global forklift side rollers", the load distribution has been optimized and the stability of the forklift has been significantly improved. The uniform load distribution allows the forklift to maintain a more stable posture during operation, avoiding tilting or rollover that may occur when the load is too large.
In various operating links, especially when turning, braking and accelerating, the stability of the forklift is a key factor in ensuring operational safety. The double-row global design effectively avoids stability problems caused by uneven loads through reasonable load distribution, ensuring that the forklift can still maintain efficient and safe operation under high load conditions.
