The advantages of Tianzi pallets in the logistics field
Source: kuda 2025-09-16
As a key carrier in modern logistics systems, the core design concept of Tian shaped plastic pallets originates from the geometric form of the Chinese character Tian. The bottom is composed of four horizontally and vertically staggered ribs forming a regular grid structure, forming multiple uniformly distributed support units. This biomimetic design achieves the optimization of mechanical performance. Just like farmland dividing the land into orderly blocks, the field structure disperses the load-bearing pressure points to evenly transmit the weight of goods to the bottom of the pallet, effectively avoiding the risk of deformation caused by local stress concentration. Compared with traditional nine legged pallets, its continuous support frame significantly enhances overall rigidity and maintains structural stability during stacking or mechanical handling, making it particularly suitable for scenarios that require multi-layer stacking or long-distance transportation.
The grid structure of the Tianzi plastic tray exhibits significant advantages in mechanical properties, and its core value is reflected in three dimensions:
Firstly, the criss crossing ribs form a continuous support network, which evenly distributes the pressure of the goods through multiple nodes. This distributed load-bearing characteristic significantly improves the bending resistance of the pallet, even when carrying heavy machinery or metal components, it can maintain structural integrity.
Secondly, the fully connected design at the bottom of the Tian character creates higher structural redundancy. When a single support point is subjected to impact, adjacent grid cells can immediately share the load. This collaborative effect effectively avoids the risk of foot pier fracture that may occur with traditional nine legged pallets.
Thirdly, the mesh surface has a larger meshing area with the forklift teeth, coupled with the four-way fork design, which improves the stability of mechanical handling by about 30% and significantly reduces the probability of cargo overturning. These mechanical advantages together constitute the irreplaceability of Tianzi pallets in high-intensity scenarios such as heavy logistics and three-dimensional warehousing.
The grid design of the Tianzi plastic tray not only optimizes its mechanical performance, but also expands its application scenarios through functional integration. The evenly distributed ventilation holes on its surface can form natural airflow circulation, which can effectively prevent tray brittleness caused by cold air accumulation during cold chain transportation, and also prevent agricultural products from deteriorating due to stuffiness.
The friction coefficient between the grid pattern and the bottom of the cargo is about 40% higher than that of a flat pallet. When used in conjunction with anti slip pads, it can stably carry cylindrical barrels of chemical raw materials, significantly reducing the risk of slipping during inclined handling. This multifunctionality makes it outstanding in fields that require strict hygiene and stability, such as food processing and pharmaceutical transportation. It can be quickly cleaned with high-pressure water guns and is compatible with mechanical grasping of automated sorting systems. The unique bottom suspension design of the Tianzi structure can also provide moisture-proof protection for precision goods such as electronic components, demonstrating its unique value in the clean room logistics of semiconductor factories.
The grid structure of Tianzi plastic pallets is optimized through mechanics and integrated with functions, demonstrating excellent adaptability in various scenarios such as heavy-duty logistics, cold chain transportation, and precision manufacturing. Its distributed load-bearing design provides a stable foundation for three-dimensional warehousing and mechanical handling, while its ventilation and anti slip characteristics precisely match the special needs of the food and pharmaceutical industry. The deep coupling of this structural advantage and scene requirements is the core reason why it has become an important carrier of modern logistics systems.
2025-09-16
