In the cosmetics industry, cosmetic mist sprayers are widely favored by consumers for their multiple functions such as instant moisture replenishment, makeup setting, oil control and moisturizing. As one of the key indicators for evaluating the performance of a sprayer, the fineness of the spray directly affects the user's experience and the actual effect of the product. The manufacturing process of the sprayer and its fineness largely determine the fineness and uniformity of the spray.

The internal structure of the sprayer, including the nozzle, pump body and pressure control system, are the core elements that affect the fineness of the spray. The high-precision manufacturing process can significantly reduce the manufacturing errors of these parts, thereby ensuring that the mist droplets are quickly dispersed into fine particles during spraying to achieve the ideal spray effect. For example, the aperture and shape of the nozzle must be precisely designed to ensure that the spray direction and angle of the mist droplets are ergonomic and ensure even coverage of the face. If the manufacturing process is not precise enough, the aperture and shape of the nozzle may deviate, resulting in inaccurate spray direction and angle, thus affecting the fineness and uniformity of the spray.

In terms of material selection, the quality of the manufacturing process will also directly affect the performance of the sprayer. Different materials have their own unique physical and chemical properties, which have a significant impact on the dispersion and evaporation rate of droplets. A high-quality manufacturing process will select appropriate materials to make key components such as the nozzle and pump body to ensure that the mist droplets can be quickly dispersed into fine particles when sprayed out, and maintain a moderate evaporation rate to avoid water droplets or makeup stains. Condition. If the material selected is inappropriate, the dispersion and evaporation speed of the mist droplets will be affected, further leading to a decrease in the fineness and effectiveness of the spray.

The manufacturing process flow also has a significant impact on the performance of the sprayer. During the entire manufacturing process, multiple processes of processing and assembly are required, and each process may have an impact on the performance of the sprayer. If the process flow is not reasonable enough or the control is not strict enough, the overall performance of the sprayer will be affected and the fineness of the spray will also be reduced. For example, during the nozzle processing process, if the cutting parameters are improperly set or the cutting quality is unstable, it may lead to deviations in the nozzle aperture and shape, thus affecting the fineness and uniformity of the spray.