The physical and chemical properties of liquids play a vital role in optimizing the spray effect of Trigger Sprayer. Factors such as liquid viscosity, surface tension, density and injection speed significantly affect the uniformity and effectiveness of the spray. High-viscosity liquids are difficult to refine into tiny particles during the spray process, which not only increases the droplet size but also reduces the uniformity of the spray. At the same time, liquids with large surface tension are not easy to disperse after leaving the nozzle, and droplets are easy to aggregate, which in turn affects the coverage of the spray. In addition, if the liquid contains particles or impurities, it may cause nozzle clogging, further hindering the spray effect. Therefore, selecting the right liquid and adjusting its physical and chemical properties are key strategies to improve the spray effect of Trigger Sprayer.
As the core component of Trigger Sprayer, the size, shape and material of the nozzle have a decisive influence on the spray effect. The size of the nozzle aperture is directly related to the formation and distribution of droplets. The smaller the aperture, the finer the droplets produced, and the uniformity of the spray is improved. However, too small an aperture may cause nozzle clogging, so it is particularly important to reasonably select the nozzle aperture while ensuring the spray effect. The shape of the nozzle also affects the distribution and number of droplets. For example, a conical nozzle can achieve a more uniform distribution of droplets, while a flat nozzle may produce droplets of different sizes. In addition, the material selection of the nozzle is also crucial. Nozzles made of high-quality materials not only have better wear resistance and corrosion resistance, but also extend the service life and ensure the stability of the spray effect.
Injection pressure is another key factor in the spraying process of the Trigger Sprayer. The intensity of the injection pressure directly affects the injection speed of the liquid and the degree of refinement of the droplets. Within a certain range, increasing the injection pressure can increase the injection speed of the liquid, making the droplets smaller, thereby improving the uniformity of the spray. However, too high an injection pressure may cause the nozzle to wear more severely, and even cause the sprayer to be blocked or leaked. Therefore, in practical applications, the injection pressure should be reasonably adjusted according to the specific model of the sprayer and the properties of the liquid to achieve the best spray effect.