How does the structural design of the BAMBOO Storage Cabinet ensure its firmness and stability?

The four legs of the BAMBOO Storage Cabinet and the cabinet body adopt the traditional frame-tenon structure, which is a high-strength connection method similar to the mortise and tenon joint. Through precise concave and convex fitting, a nail-free and glue-free stable assembly is achieved. This structure not only makes the connection parts tight and firm, but also effectively prevents deformation or cracking caused by changes in temperature and humidity. Bamboo itself has high hardness and toughness, and the mortise and tenon joint process further enhances the load-bearing capacity. Even if heavy objects are placed in the cabinet, the connection between the cabinet legs and the cabinet body can still maintain uniform force to avoid loosening or shaking.

The drawer part is equipped with high-quality buffer slide rails, which are smooth and labor-saving during the push and pull process, and automatically return to their original position slowly when closed, reducing the impact force and avoiding the loosening of the track caused by long-term use. At the same time, the drawer panel adopts an inner buckle design, which fits tightly with the cabinet body, which not only improves the overall aesthetics, but also prevents displacement caused by external force collision, ensuring that the drawer remains stable after long-term use.

Bamboo has the characteristics of high density and high bending strength, and is more wear-resistant and less prone to deformation than ordinary wood. In addition, bamboo has been treated with high-temperature carbonization or mildew and moth-proofing to effectively reduce expansion or contraction in a humid environment, thereby maintaining long-term structural stability and extending service life.

Horizontal or longitudinal reinforcement ribs are usually installed inside the cabinet to enhance the rigidity of the overall frame and prevent deformation after long-term load-bearing. Metal angle codes or woodworking screws may also be used to assist in fixing the connection between the cabinet feet and the cabinet body, further improving the load-bearing capacity and impact resistance of the overall structure, ensuring that the cabinet body can remain stable in various use environments.

The cabinet feet adopt a rounded corner design to increase the contact area with the ground, making the cabinet body more stable and reducing the risk of tipping. At the same time, the rounded edges can reduce wear on the floor, avoid bumps in daily use, and take into account both safety and durability.