What is the design principle of continuous spray bottles?

The continuous spray bottle is an innovative design that is widely used in the kitchen, personal care and medical fields. Its design principle is based on a series of complex engineering and scientific principles to achieve continuous and stable spray effects.
1. Pressure system

The core design of the continuous spray bottle lies in its pressure system. Typically, continuous spray bottles contain a pressure tank or container of compressed air inside. The gas or liquid inside this container is compressed and released when used, pushing the liquid through the nozzle.

The design of the pressure system is critical to the effectiveness of continuous spraying. It needs to ensure sufficient pressure to push the liquid through the nozzle, and be able to maintain stable pressure during use to achieve a continuous spray effect.

2. Nozzle design

The nozzle is a key component to achieve continuous spraying. The design of the nozzle needs to ensure that the liquid can be sprayed out evenly and form fine mist particles. This is usually achieved through the size and shape of the nozzle holes. The smaller the nozzle holes, the finer the mist particles formed.

In addition, the nozzle also needs to have an anti-clogging design to prevent clogging due to impurities or solidified substances during use. Therefore, the design of the nozzle needs to take into account the viscosity and fluidity of the liquid to ensure an unimpeded spray system.

3. Liquid supply system

Continuous spray bottle designs also include a liquid supply system, which is responsible for transporting liquid from the storage container to the nozzle. This system usually includes a liquid storage tank, spray device and connecting pipes.

When in use, the liquid is pushed to the nozzle by a pressure system and then ejected through the nozzle. This process requires ensuring that liquid can be delivered to the nozzle stably without clogging or leakage.

4. Manual or automatic pressure release mechanism

To improve user experience, some continuous spray bottles are also designed with manual or automatic pressure release mechanisms. When the user presses the spray button or triggers a mechanical switch, the pressure inside the bottle is released, pushing the liquid into a mist-like spray. This design makes it more convenient for users to use without requiring too much effort.

5. Material selection and sealing performance

The design of a continuous spray bottle also needs to consider the selection of materials, especially the parts that are in direct contact with the liquid. Generally, corrosion-resistant and pressure-resistant materials are used to ensure that the bottle will not corrode or deform during long-term use. At the same time, good sealing performance is also an important consideration in the design to prevent leakage or failure of the spray system.

6. User-friendly design

In addition to its technical design, the continuous spray bottle also focuses on user-friendliness. For example, the humanized handle design and the structure that is easy to disassemble and clean will help improve the user experience.