Structural design of External Lotion Pump: the key to improving drop resistance and durability

1. Risks encountered during transportation
During the transportation of liquid products, especially in long-distance transportation, handling or other uncertain factors, the products are often subject to external forces such as falling, collision or squeezing. These external forces may cause the lotion pump to break, leak or fail to work properly. As a dispensing device that needs to ensure that the liquid is intact, the structural design of External Lotion Pump must take into account the ability to resist falling and impact. If the pump body design is not strong enough, it is very easy to cause the connection between the pump head and the bottle body to break or be damaged due to falling or impact, which will affect the performance of the product.

2. Strengthen the connection structure of the pump body to reduce the concentration of force
The External Lotion Pump significantly improves its drop resistance by strengthening the structure of the pump body connection. The connection between the pump body and the bottle body is usually the vulnerable part of the product and is easily subjected to greater pressure when falling or colliding. Therefore, the External Lotion Pump adopts a more robust connection design. By optimizing the material and structure, the connection part can evenly disperse the pressure when subjected to external force, avoiding excessive force on a single part.

3. Strengthen the pump head structure and improve durability
The pump head design of External Lotion Pump also focuses on improving the anti-fall performance. As the core component of liquid distribution, if the pump head is impacted during transportation, it is very likely to cause damage to the pump head, thus affecting the use effect of the product. In order to improve the anti-fall performance of the pump head, External Lotion Pump has optimized the material selection and structural design of the pump head. The use of high-strength and impact-resistant materials allows the pump head to remain intact when it falls or crashes. At the same time, the appearance design of the pump head has also been carefully adjusted to improve its overall impact resistance, so that it can effectively cope with external forces from all aspects during transportation and ensure smooth liquid distribution.

4. The protective role of the pump body shell
In addition to strengthening the internal structure of the pump body, External Lotion Pump also adopts a shell design with a buffering effect. The shell not only provides additional protection for the pump body to prevent external impact from directly acting on the pump head, but also through the elasticity and toughness of the shell, the pump body can effectively absorb part of the impact force when it falls or vibrates violently, thereby reducing the risk of the impact being transmitted to the inside of the pump body.

5. Material innovation to improve overall drop resistance
The drop resistance design of External Lotion Pump is inseparable from material innovation. By selecting high-strength materials with high impact resistance, wear resistance and elasticity, External Lotion Pump can effectively disperse the impact force when encountering impact and reduce the possibility of damage. In addition, the performance of these materials not only enhances the drop resistance of the pump body, but also improves the durability of the pump body, so that it can maintain stable performance during long-term use.

6. Enhance consumer trust and enhance brand competitiveness
By strengthening the structural design and optimizing the use of materials, External Lotion Pump has not only greatly improved its drop resistance, but also improved the consumer experience. When consumers purchase liquid dispensing equipment, in addition to paying attention to the functionality and practicality of the product, the quality and stability of the product are also important considerations. The External Lotion Pump has won the trust of consumers by ensuring the integrity and reliability of the product during transportation and use through its carefully designed anti-fall structure.