Double-drive three-pivot lithium-ion forklift, double-drive electric forklift climbing performance, three-pivot lithium-ion heavy-duty operation
Double-drive three-pivot lithium-ion forklift relies on dual driving force and compact three-pivot balance design, stable climbing within a reasonable slope range, safe start and stop, and flexible and efficient heavy-duty operation within the rated load. It is a practical choice for complex logistics warehousing
Double-drive three-fulcrum lithium-battery forklift, double-drive forklift hill climbing diagram, three-fulcrum lithium-battery heavy-load diagram, narrow channel with load turning diagram, flat ground uniform speed pulling diagram
Performance Analysis of Climbing and Heavy-load Operation of Double-drive Three-pivot Lithium Battery Forklift
The hill-climbing performance of the dual-drive three-point lithium-ion forklift truck is one of the core performances that many logistics and warehousing practitioners pay attention to. Such models usually use a dual-drive wheel layout. Compared with single-drive models, the distribution of two-wheel power can make better use of the friction between the tire and the ground, reduce the probability of wheel skid, and improve the capacity of the road on a reasonable slope. At the same time, the compact three-point body structure can also provide unique balance support. When the vehicle is driving on the uphill and downhill sections, especially when the downhill is ready to slow down or stop, the center of gravity moves less than the four-wheel model, which can reduce the risk of forward tilting or rollover and ensure the stability of the operation process. It is important to note that the climbing capacity of any electric forklift truck has its rated range. For specific values, please refer to the vehicle's instruction manual. During operation, it should be strictly followed to avoid operating beyond the range.
In the case of heavy-duty operation, the dual-drive three-point lithium-ion forklift truck also has its suitability. The cargo handling within the rated load is the main consideration in the design of this type of model. The power output of the dual-drive wheel can provide the vehicle with more sufficient traction, even in the case of bearing the rated weight, it can maintain a relatively stable driving speed, and there will be no obvious power shortage and body dragging. The small turning radius of the three-point structure can still play an advantage when heavy-duty handling requires frequent adjustment of direction or through narrow channels, allowing the vehicle to steer flexibly in a limited space and improving the utilization rate of storage space. However, during heavy-duty operation, it is also necessary to ensure that the goods are stacked evenly and firmly fixed to avoid the deviation of the center of gravity of the goods and affect the balance performance of the vehicle.
The power source of the double-drive three-pivot lithium-ion forklift is lithium batteries. Compared with traditional lead-acid batteries, lithium batteries have the characteristics of fast charging speed, smooth discharge, and long service life. These characteristics can also assist hill climbing and heavy-duty operations to a certain extent. For example, the characteristics of fast charging can reduce the waiting time of the vehicle, which is suitable for continuous operation scenarios; smooth discharge performance allows the vehicle to maintain a stable power output when climbing or heavy-duty starting, without obvious power fluctuations.
