Fuel Cube Tank Stacking Safety System
To ensure the stability and safety of fuel cube tank stacking, it is necessary to systematically protect from three aspects: structural design, fixing method, and usage specifications:
1. Optimize the box structure design
- Improve stability through physical interlocking and mechanical reinforcement.
- The top and bottom of the box adopt concave and convex slots, mortise and tenon joints or threaded nesting designs to ensure accurate module engagement and prevent horizontal sliding.
- Reinforcing ribs or metal corner wraps are set at the four corners to enhance the vertical pressure bearing capacity.
- Some products use magnetic or lock connection devices to further strengthen the connection strength between modules.
- Anti-slip textures or rubber buffer layers are added to the surface of the box to reduce the risk of relative displacement during stacking.
2. Strengthen external fixing measures
- Use professional fixing tools to constrain the overall shape.
- In transportation scenarios, high-strength binding belts and ratchet tighteners are used to fix stacked fuel tanks to carriages and shelves.
- Customized metal frames are used for position limiting; when stacking multiple layers, anti-slip rubber pads and grid plates are installed between layers.
- For high-risk transportation (such as bumpy roads), a shock-absorbing base can be used to absorb vibrations and reduce the probability of stacking and tipping.
3. Strictly implement usage specifications
- Clearly mark the maximum number of stacking layers of the product (usually no more than 3-5 layers).
- Check whether the box is deformed or damaged before stacking to ensure that the foundation is stable.
- Choose a flat ground when storing, away from vibration sources and heat sources.
- Regularly check the tightness of the fixing device during transportation, and reinforce it in time if abnormalities are found.
The triple guarantee of structure, fixation, and specification can significantly improve the safety of fuel cube tank stacking and avoid the risk of leakage or fire caused by tipping and collision.