Model Number | Customized |
Material | Aluminum-plastic |
Usage | spray bottle |
Custom Order: | OEM or ODM |
Brand Name: | Xinbo, Zhejiang |
Type : | Screw cap |
Customized: | Color & logo accept |
Design: | Professional designer design as your requirement |
MOQ | 10000pcs |
Shape: | Cylindrical |
Sealing Status | Perfect |
size: | actual sample |
Feature: | Refillable |
Material Recycling | permit |
Weight: | 7g |
Sample Time | 7-10days |
Place of oringin | Shaoxing, Zhejiang, China |
Lead time: | about 35 days after confirming order |
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Read MoreHow does the fine mist function of this aluminum spray bottle come true?
The fine mist function of this aluminum spray bottle is mainly realized through its internal spray system, which is mainly composed of key components such as nozzles, nozzle holders, and spiral pumps. These components work together to convert the liquid in the bottle into fine droplets for spraying.
As the spiral pump shaft rotates or moves, a complex fluid dynamics process begins inside the pump body. In a chamber of the pump body, as the pump shaft moves, its internal volume changes continuously, first expanding to produce a low-pressure area, and then shrinking to form a high-pressure area. It is this volume change from large to small and then from small to large that creates a negative pressure environment inside the pump body. This negative pressure environment is like an invisible suction force, sucking the liquid stored in the bottle into the low-pressure chamber of the pump body through a straw or a specific liquid channel. When the liquid reaches the nozzle, it is already in a highly pressurized state. The design of the nozzle cleverly utilizes this pressure difference to spray the liquid at a very high speed through its internal tiny spray hole, forming fine droplets visible to our naked eyes. These droplets spread rapidly in the air, creating what we call a "fine mist" effect.
The nozzle is a key component in forming fine mist, and it is designed with tiny spray holes inside. The size, shape, and distribution of these spray holes are carefully designed to ensure that the liquid sprayed can form uniform, fine droplets. When the liquid reaches the nozzle, the liquid is sprayed out at high speed through the tiny spray holes to form a fine mist. If there is no built-in compressed gas system, the spray bottle may achieve the fine mist effect through the pressure difference generated when the manual pump is pressurized. In some advanced spray bottles, a compressed gas system may be built-in. When the pump body sends the liquid to the nozzle, these compressed gases are released at the same time, mixed with the liquid and sprayed out through the nozzle, further enhancing the fine mist effect.
The physical properties of the liquid, such as viscosity and surface tension, will directly affect the size and uniformity of the sprayed droplets. Generally speaking, liquids with lower viscosity are more likely to form fine droplets. The size, shape, and distribution of the nozzle's spray holes have an important impact on the fine mist effect. Optimized nozzles can produce more uniform and delicate droplets. The working efficiency, stability and sealing performance of the pump body will affect the delivery and compression effect of the liquid, and then affect the fine mist effect.
Before use, make sure that the spray bottle is filled with liquid and well sealed. When spraying, maintain a proper distance and angle to obtain the best fine mist effect. If the spray effect is not good or the liquid cannot be sprayed out, check whether the spray bottle is blocked or damaged, and clean or replace the parts in time.
The fine mist function of this aluminum spray bottle is achieved through its internal spray system, which includes key components such as the pump body and nozzle, and converts the liquid into fine droplets through the nozzle design.