What specific structural designs are used to achieve the drop resistance of the Tablet Protective Cover?
Publish Time: 2024-11-01
The drop resistance of the Tablet Protective Cover is mainly achieved through the following specific structural designs, which are designed to absorb impact, disperse pressure, and protect the key parts of the tablet from damage.
1. Shell material
Silicone: soft and elastic, can effectively absorb impact and reduce the impact of falling.
TPU (thermoplastic polyurethane): has both hardness and elasticity, is wear-resistant and impact-resistant, and provides good drop protection.
Polycarbonate (PC): high hardness and strong impact resistance, suitable for the hard part of the shell.
2. Thickened edges
Thick edges: The edges of the protective cover are usually thicker than the tablet itself, which can absorb the impact of falling and prevent the screen and edge frame from being directly impacted.
Corner pad design: Add additional thickened material or gaskets to the four corners of the protective cover to absorb more impact and reduce the risk of damage to the corners of the tablet.
3. Shock-absorbing materials
Buffer sponge: Adding sponge or similar buffer materials to the inside of the protective cover can further absorb impact and protect the internal components of the tablet.
Air bag design: Some high-end protective covers are designed with air bags in key parts, which absorb impact through the compression and release of air to enhance the anti-fall performance.
4. Multi-layer structure
Multi-layer design: Protective covers are usually composed of multiple layers of materials, such as hard materials on the outer layer and soft materials on the inner layer. This combination can provide protection while maintaining a good grip.
Nested structure: Some protective covers are designed in two parts, a harder outer protective shell and a softer inner protective cover. This nested structure can provide double protection.
5. Adjustable stand
Stand design: Many Tablet Protective Covers have a foldable stand design, which not only provides multi-angle support, but also reduces the ground impact of the tablet through the support of the stand when it falls.
6. Anti-slip design
Anti-slip texture: The outer layer of the protective cover usually has an anti-slip texture or rubber coating to increase friction and prevent the tablet from slipping during use or carrying.
7. Internal support
Internal support structure: Some protective covers are designed with reinforcing ribs or support strips inside to increase the rigidity of the protective cover and prevent the tablet from bending and deforming when it falls.
8. Fastening design
Snap-on or magnetic attraction: Protective covers usually have snap-on or magnetic attraction designs to ensure that the tablet is firmly in the cover and prevent the tablet from sliding out of the protective cover when it falls.
The drop resistance of the Tablet Protective Cover is achieved through a variety of structural designs, including the use of high-strength and elastic materials, thickened edges and corner pads, shock-absorbing materials, multi-layer structures, adjustable brackets, non-slip textures, internal support, and fastening designs. These design elements work together to effectively absorb and disperse impact forces and protect the tablet from damage caused by falls.