Load Capacity: Standard Models: Most full-electric stackers are designed to handle a range of loads, typically between 1,000 and 3,000 kg (approximately 2,200 and 6,600 lbs). This makes them suitable for a variety of warehouse applications, including the movement and stacking of pallets, boxes, and other goods.
Heavy-Duty Variants: For more demanding industrial environments, heavy-duty full-electric stackers can support loads of up to 5,000 kg (approximately 11,000 lbs) or even higher. These models are often equipped with reinforced structures and enhanced stability features to handle heavier weights.
Operational Considerations: When determining the appropriate load capacity for a specific task, it is critical to consider the type of load to be handled. For example, the weight distribution and center of gravity of a pallet can significantly affect the performance and stability of an all-electric stacker. Users should always follow the manufacturer's guidelines for load capacity to ensure safe operation.
Height Limitations: Lifting Height: Lifting heights for full-electric stackers typically range from 2 meters (6.5 feet) to 6 meters (20 feet). This range enables efficient stacking and retrieval in typical warehouse racking systems.
Extended Reach Models: Some specialized full-electric stackers, especially those designed for high-density storage systems, can achieve lift heights in excess of 6 meters. Some models may reach 7 or 8 meters (23 to 26 feet), providing additional flexibility in multi-story storage environments.
Height Stability: As lift heights increase, so do stability considerations. Higher lift heights can lead to an increased risk of tipping or instability, especially if the load is unevenly distributed. Full-electric stackers are designed with safety features, such as a lower center of gravity and anti-tipping systems, to mitigate these risks.
Other Considerations: Environment and Application: The selection of an all-electric stacker, including its load capacity and lift height, should be based on the specific operating environment. For example, a stacker used in a narrow-aisle warehouse may require different specifications than one used in a larger, open space.
Battery Life and Performance: It is also important to consider how load capacity and height capabilities affect the battery performance of an all-electric stacker. Heavier loads and higher lifts result in increased power consumption, affecting the overall efficiency and uptime of the equipment.
Consult the Manufacturer: For precise specifications, users should consult the technical documentation provided by the manufacturer. This includes detailed information on maximum load capacity and safe lifting heights to ensure the selected equipment is suitable for the intended task.
Fully electric stackers are versatile machines capable of handling a wide range of loads and heights, typically with capacities of 1,000 to 3,000 kg and lift heights of 2 to 6 meters, with some models exceeding these limits. Knowing the specific load capacity and height limitations is essential to operating safely and efficiently, and users should always follow the manufacturer's guidelines to optimize performance in their unique environment.