The working principle of the linear ultrasonic bottle washing machine is to use the oscillation effect of ultrasonic waves in the liquid to oscillate the detergent into small bubbles, generating high-speed water flow and small eddies to achieve the washing effect. Specifically, the high-frequency oscillation signal emitted by the ultrasonic generator is converted into high-frequency mechanical oscillation by the transducer and propagated into the cleaning solvent. Ultrasonic waves radiate forward in the cleaning solution with alternating density, causing the liquid to flow and generate a large number of non-stationary small bubbles. These bubbles form and grow in the negative pressure zone where ultrasonic waves propagate longitudinally, and quickly close in the positive pressure zone, forming a "cavitation" effect. When the bubble closes, it generates an instantaneous high pressure of over 1000 atmospheres, continuously impacting the surface of the object to quickly remove dirt and achieve the purpose of cleaning.
The main components of a linear ultrasonic bottle washing machine include the following parts:
Ultrasonic generator: generates high-frequency ultrasonic signals to drive the transducer to work.
Transducers: convert ultrasonic signals into mechanical vibrations for cleaning bottles.
Cleaning tank: a tank containing cleaning solution, in which bottles complete the cleaning process.
Conveyor system: Using a linear conveyor belt, the bottles are sequentially fed into the cleaning tank and then sent out.
Lifting mechanism: used to adjust the depth of the bottle in the cleaning tank to ensure the cleaning effect.
Control system: controls the operation of the entire bottle washing machine, including conveying speed, ultrasonic power, etc.
Pump and filter: The circulation pump is used for the circulation of cleaning solution, and the filter is used for filtering impurities in the cleaning solution.