Net tray cage structure layout: the secret of stable load-bearing and efficient storage?

The cage design of the net tray cage usually adopts a quadrilateral or hexagonal structure. These two shapes have excellent stability and load-bearing capacity in mechanics. The quadrilateral structure has become the most common basic shape in the design of net tray cages with its simple geometric form and uniform force distribution. When the quadrilateral cage is subjected to vertical pressure, it can evenly disperse the force to the four corners, effectively resist deformation, and ensure the overall stability of the cage. In addition, the design of the quadrilateral cage facilitates standardized production, reduces manufacturing costs, and improves production efficiency.

The hexagonal cage further improves the stability and load-bearing capacity of the structure. Compared with the quadrilateral, the hexagon has more sides and corners, which can provide a larger support area when under pressure, thereby dispersing more force. This design makes the hexagonal cage more stable when bearing heavy objects, reducing the risk of deformation or damage caused by excessive local force. The design of the hexagonal cage also increases the stacking stability of the cage, making it safer and more reliable when stacked in multiple layers.

The frame of the net pallet cage is made of sturdy steel, which is the key to the stable load-bearing of the cage. Steel is an ideal material for the frame part because of its high strength, corrosion resistance and wear resistance. The sturdy steel frame not only provides strong support to ensure that the cage is not easily deformed or damaged when bearing heavy objects, but also increases the overall strength and durability of the cage.

In terms of frame design, the net pallet cage is usually welded or bolted to ensure the stability of the frame part. The welding method melts and connects the steel together at high temperature to form a seamless connection, which improves the overall strength and load-bearing capacity of the cage. The bolt connection method connects the steel together through fasteners, which is easy to disassemble and repair, while maintaining the stability and load-bearing performance of the cage.

The mesh part of the net pallet cage is woven with fine steel wire. This design not only reduces the dead weight, but also ensures the permeability and visual penetration of the cage. The fine steel wire mesh can prevent the goods from falling out of the cage or being damaged during handling and stacking, while allowing air circulation to effectively prevent moisture and mildew. In addition, the grid design enables managers to easily identify items in the cage, improving the transparency and efficiency of warehouse management.

In terms of grid weaving technology, mesh pallet cages are usually machine-automatic or manual weaving. The machine-automatic weaving method improves production efficiency, reduces manufacturing costs, and ensures the uniformity and stability of the grid. The manual weaving method pays more attention to details and personalized design, and can be customized according to customer needs.

The structural layout design of the mesh pallet cage, especially the combination of quadrilateral or hexagonal structure, thick steel frame and fine steel wire mesh, works together to improve the stability and load-bearing capacity of the cage, while maintaining light weight and strong permeability. These designs give the mesh pallet cage significant advantages in warehouse storage:

Stable load-bearing: The design of the quadrilateral or hexagonal structure and the thick steel frame enables the mesh pallet cage to remain stable when bearing heavy objects, effectively avoiding damage to goods or safety accidents caused by insufficient load-bearing.
Efficient storage: The design of the fine steel wire mesh makes the cage highly permeable, which is convenient for managers to quickly identify items in the cage, and improves the transparency and efficiency of warehouse management. The stacking function of the cage allows more goods to be stored in the same volume, improving the space utilization of the warehouse.
Strong durability: The combination of a sturdy steel frame and a fine wire mesh, as well as a sophisticated manufacturing process, gives the mesh pallet cage excellent durability and load-bearing limit, extending its service life and reducing repair and replacement costs.
High flexibility: The mesh pallet cage can be customized according to customer needs, such as size, shape, material, etc., to meet diverse storage needs. At the same time, the reinforcement treatment of the cage edge further enhances the durability and load-bearing capacity of the cage.