How to optimize the design of Trigger Sprayers to improve spray efficiency?

To optimize the design of Trigger Sprayers to improve spray efficiency, the following aspects can be considered:
Adjust the trigger force and displacement distance:
Referring to the design mentioned in Article 1, the force range of the trigger can be adjusted to ensure that it is between 10 and 15 pounds, which can ensure the convenience of user operation and provide sufficient force to drive the spray.
At the same time, extending the displacement distance of the trigger rod (such as 0.5 inches mentioned in Article 1) can increase the amount of liquid extracted and compressed, thereby increasing the amount of spray.
Optimize the design of the piston and piston hole:
Increasing the size of the piston hole and the piston can increase the amount of liquid extracted each time it is pressed, thereby improving the spray efficiency.
Optimize the sealing performance between the piston and the piston hole to prevent liquid leakage and ensure the stability and efficiency of the spray.
Improve the structural design of the nozzle:
Designing a more efficient nozzle structure, such as using a finer nozzle hole, can improve the atomization effect of the liquid and make the spray more uniform and delicate.
Adjust the spray angle and range of the nozzle to meet the needs of different application scenarios and improve the coverage and efficiency of the spray.
Consider user experience and convenience:
During the design process, the user's usage habits and experience should be fully considered to ensure that the operation of Trigger Sprayers is convenient and comfortable.
The user experience can be improved by adding anti-slip design, adjusting the grip angle, etc.
Using new materials and processes:
Using corrosion-resistant and wear-resistant materials to manufacture Trigger Sprayers can extend their service life and stability.
Adopting advanced production processes and technologies to improve the processing accuracy and assembly quality of Trigger Sprayers, thereby ensuring the stability and reliability of spray efficiency.
Perform performance testing and verification:
After the design is completed, the performance of Trigger Sprayers is tested and verified, including indicators such as spray volume, spray efficiency, and atomization effect.
According to the test results, necessary adjustments and optimizations are made to ensure that the performance of Trigger Sprayers meets the design requirements.
In summary, the optimization of the design of Trigger Sprayers needs to start from multiple aspects, including adjusting the trigger force and displacement distance, optimizing the design of the piston and piston hole, improving the structural design of the nozzle, considering user experience and convenience, adopting new materials and processes, and performing performance testing and verification. Through the implementation of these measures, the spraying efficiency and performance of Trigger Sprayers can be significantly improved.