Storing, managing, and picking materials with special shapes and heavy weights requires a more scientific automated storage solution.
For materials with a weight greater than 1000kg, a length greater than 4100mm, or a width greater than 812mm, QDITC Intelligent provides automated solutions through long-term in-depth exploration of customer application scenarios.
The industry involves large equipment, machinery, building materials, etc., such as wind turbine blades, transformers, large mechanical components, ship components, etc. These objects have special requirements for transportation, storage, and processing.
The challenge of storing heavy objects
Logistics transportation bottleneck: Insufficient load-bearing capacity of roads and bridges, tunnel height restrictions, resulting in multiple detours of transportation routes and increased costs.
High equipment requirements: relying on special transportation vehicles, equipment rental costs account for 15% -20% of the total project cost.
Unstable center of gravity of objects can easily cause overturning, with an accident rate 3-5 times higher than that of ordinary goods.
Challenges in the Super Large Object Industry
High cost and low efficiency: customized lifting scheme design takes time, project cycle extended by 20% -40%.
High dependence on manual operation and shortage of skilled workers.
The carbon emission intensity of heavy-duty transportation is 5-8 times that of ordinary logistics.
Solution for oversized objects
Adopting visual recognition and force feedback technology to achieve millimeter level positioning accuracy and improve loading and unloading efficiency by 40%; Breaking down ultra large equipment into standardized modules (such as segmented wind turbine towers) and reducing transportation difficulties through on-site assembly; Using materials such as carbon fiber and titanium alloy to reduce weight by 30% while maintaining structural strength; Establish an industry level equipment leasing network to reduce idle rates.
Storage Capacity
The large volume and irregular shape of oversized objects make it difficult for traditional shelves to efficiently utilize space, resulting in low storage density and rising costs in warehouses.
Size and weight compatibility
Scan the shape of the object and automatically generate a storage layout plan to avoid size conflicts (reducing storage conflicts at a certain port by 70%).
Access frequency management
High frequency access requirements (such as daily access ≥ 10 times) coexist with low-frequency long-term storage (such as annual maintenance items), and traditional manual scheduling has low efficiency.
Deepen Understanding
TowerMat for Heavy Duty Units Storage System
