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I. Significantly Improved Operating Efficiency and Reduced Reliance on Manual Labor

1) Power drive replaces manual labor for faster handling: The CBD electric pallet truck is equipped with a 1.5kW AC drive motor, achieving an unloaded driving speed of up to 6km/h and a maximum loaded speed of 5.5km/h, allowing for rapid long-distance cargo transfer; while manual stackers rely entirely on human power for pushing and pulling, with a speed only 1/3 to 1/2 that of electric models, and the efficiency gap becomes more pronounced over longer distances.

2) Electric lifting saves labor and effort, making heavy-duty operations more efficient: Equipped with a 0.8kW lifting motor, the lifting speed reaches 0.043/0.040m/s (unloaded/loaded), and the lowering speed is 0.035/0.445m/s, eliminating the need for manual lifting via a hydraulic lever. Even when handling heavy loads of 2000-3000kg, lifting and lowering can be easily completed; manual stackers require operators to manually press the hydraulic lever for lifting and lowering, resulting in extremely high labor intensity under heavy loads, and the lifting speed is slow (usually only 0.01-0.02m/s).

3) Stronger continuous operation capability: Powered by a 24V/210Ah lead-acid battery, the battery life can meet the needs of high-frequency operations in the warehouse throughout the day, requiring only a single charge for continuous operation; manual stackers rely on human power, leading to operator fatigue and short continuous operating times, making them unsuitable for high-intensity warehousing scenarios.

II. More Convenient and Comfortable Operation, Reducing Labor Intensity

1) Riding design reduces physical exertion: The CBD electric pallet truck features a riding design, allowing operators to work in a seated position, eliminating the need for constant walking or bending and pushing, significantly reducing physical exertion during prolonged operation. Manual stackers require operators to walk alongside the entire time, and bending and applying force when pushing and pulling, resulting in extremely high labor intensity, especially in large warehouses and long-distance transportation scenarios.

2) Intelligent control lowers the operating threshold: Equipped with an EPS electric power steering system, steering is light and flexible, eliminating the need for manual force, allowing for easy operation even in narrow aisles; coupled with a branded control system, the operation logic is clear and easy for beginners to learn. Manual stackers rely on human power for steering, and steering resistance is high under heavy loads, requiring more physical strength and skill from the operator.

3) Modular design adapts to diverse needs: The fork outer width is available in 685/540mm, and the pedal can be folded/unfolded (vehicle length 1825/2240mm), allowing for flexible adaptation to different specifications of shelves, pallets, and storage spaces; manual stackers have fixed dimensions and limited fork adjustment range, resulting in poor adaptability.

III. Wider Range of Applications, Adapting to Complex Warehousing Needs

1) Outstanding Heavy-Duty Operation Capability: CBD electric pallet trucks have a rated load capacity covering 2000-3000kg, with a fork center distance of 600mm and a load distance of 970mm, allowing for stable handling of heavy and bulky goods; manual stackers typically have a rated load capacity of 1000-1500kg, and are prone to hydraulic leaks and frame deformation under heavy loads, failing to meet the needs of medium to heavy-duty cargo handling.

2) More Flexible Operation in Narrow Spaces: The minimum turning radius is only 1670/2070mm, the stacking aisle width (1m×1.2m pallet) is 2220/2620mm, and the vehicle width is only 760mm, allowing for flexible movement in narrow warehouse aisles and between dense shelves; manual stackers have poor steering flexibility, with a turning radius usually exceeding 2500mm, making them prone to getting stuck in narrow spaces and affecting operational efficiency.

3) More Stable Operation on Slopes: The maximum climbing ability is 10%/6-8% for unloaded/loaded conditions, respectively, and with the electromagnetic braking system, it is less likely to roll back when operating on warehouse ramps; manual stackers lack power assistance, relying entirely on human power for climbing, making it almost impossible to operate in areas with slopes exceeding 3% under heavy loads, and posing a high risk of rolling back.

IV. More Reliable Safety Performance, Ensuring the Safety of People and Goods

1) Multiple protection systems reduce risks: Equipped with a branded control system and multi-functional protection system, providing a higher level of functional safety assurance; the electromagnetic brake responds quickly, allowing for rapid parking and preventing cargo tipping or collision accidents. Manual stackers rely solely on mechanical braking, and the braking effect is greatly affected by human effort, and there are no additional protection systems, resulting in higher operating risks.

2) Low noise and environmentally friendly design: Optimized gear meshing technology + full AC drive system, the noise level at the driver's ear is only 75dB (A), creating a quieter working environment; electric drive has no exhaust emissions, meeting the environmental protection requirements of indoor warehouses. Manual stackers have no noise reduction design, resulting in higher noise during pushing, pulling, and hydraulic lifting, and some manual hydraulic models have the risk of hydraulic oil leakage and pollution.

3) More stable and durable structure: Adopts a vertical branded gearbox, wear-resistant PU wheels (front and rear wheels + balance wheels), and a modular structure, resulting in a low failure rate and convenient maintenance; manual stackers rely on mechanical hydraulic structures, which are prone to hydraulic seal aging and excessive wheel wear after long-term use, and require more frequent maintenance.

V. Long-Term Operating Costs Are More Advantageous

1) Significantly Lower Labor Costs: Electrified operation reduces reliance on the physical strength of operators, lowering recruitment requirements and reducing efficiency losses and injury risks caused by operator fatigue, indirectly lowering labor costs; manual pallet trucks require physically strong operators, and high employee turnover leads to higher long-term labor costs.

2) More Controllable Maintenance Costs: The all-AC drive system eliminates the need for carbon brush replacement, and the core components are highly durable, resulting in less frequent maintenance; manual pallet trucks require regular replacement of hydraulic oil, seals, and worn wheel sets, leading to shorter maintenance cycles and higher cumulative costs.

3) Improved Overall Efficiency Drives Down Costs: The operating efficiency of CBD electric pallet trucks is 2-3 times that of manual pallet trucks, reducing the number of equipment required and shortening cargo turnover cycles, improving overall warehouse throughput capacity, and indirectly lowering the handling cost per unit of cargo.