In daily operation, storage trucks often need to cross complex and changeable terrains and face various vibrations and impacts. As the power source of storage trucks, the stability and safety of small lithium battery are directly related to the operating efficiency and safety of the vehicle. Therefore, it is particularly important to design effective vibration and impact protection for small lithium batteries.
When designing a vibration and impact protection system, the first thing to consider is the physical properties and working environment of lithium batteries. Lithium batteries contain many precision components and vulnerable materials such as active substances, electrolytes and diaphragms. Under the action of vibration and impact, these components may be damaged, resulting in battery performance degradation or even failure. Therefore, when designing a protection system, it is necessary to ensure that the vibration and impact energy from the external environment can be effectively absorbed and dispersed.
To achieve this goal, a variety of technical means can be used. A common method is to use shock-absorbing materials such as rubber, foam and springs to absorb and disperse vibration energy. These materials can be placed around or at the bottom of the lithium battery to form a buffer layer, thereby reducing the impact of vibration on the battery.
In addition, lithium batteries can also be reinforced, such as increasing the thickness of the shell, using stronger materials or adding fixtures. These measures can enhance the impact resistance of lithium batteries and prevent them from being damaged or deformed when impacted by external forces.
In addition to the above measures, the overall structure of the storage truck can also be optimized to reduce the generation of vibration and impact. For example, by improving the suspension system and tire design, the bumps and vibrations during vehicle driving can be reduced. At the same time, regular maintenance and inspection of the vehicle to ensure that all parts are tightly connected and operate normally can also effectively reduce the impact of vibration and impact on lithium batteries.
In summary, the vibration and impact protection design of small lithium batteries in warehouse trucks is a systematic project that requires attention from many aspects. By adopting shock-absorbing materials, reinforcement design and optimizing vehicle structure, the stability and safety of lithium batteries can be effectively improved, providing strong guarantees for the normal operation of storage trucks.
