Product Description

Cupping, as a traditional Chinese medicine treatment method, is increasingly being widely used in clinical practice with the continuous development of modern medical technology. However, traditional treatments often only focus on therapeutic effects, and cupping devices are mostly reused repeatedly or given to multiple people after simple cleaning and disinfection, ignoring the risk of cross infection. Especially in some small clinics, beauty salons, and other places, skin damage is caused by inadequate cleaning and disinfection of cupping devices, improper operation, and other reasons, leading to increasingly serious bacterial infection problems. For example, in the acupuncture and moxibustion Department of many Chinese medicine hospitals, the staff used plastic cupping and glass cupping devices and simply washed them with tap water. If the cleaning and disinfection work of the cupping machine is ignored, it will cause great safety hazards to people's health. In recent years, in China and even around the world, the incidence rate of hepatitis B, hepatitis C, alcoholic liver and AIDS has gradually increased, and these diseases are very easy to spread through blood.

In response to the aforementioned safety hazards, in order to prevent and control the occurrence of cross infection and ensure medical safety, Xinzhi Biotechnology specializes inConduct a survey and analysis on the cleaning and disinfection work of common glass and plastic cupping utensils in the market, and address the urgent need for solutionsTo address the issue of standardized cleaning and disinfection, modern ultrasound technology has been used to develop a high-temperature collection systemdryUV, ozoneUltrasonic cleaning and disinfection machine for cupping equipment.

working principle

The ultrasonic frequency electrical signal generated by the ultrasonic generator of the ultrasonic cleaning and disinfection machine is converted into mechanical vibration of the same frequency through the piezoelectric inversion effect of the transducer, and radiates intensively forward in the cleaning solution in the form of ultrasonic longitudinal waves (ultrasonic longitudinal waves alternate between negative and positive pressure zones), generating tens of thousands of small bubbles for circulationBlasting”It is these bubbles that form and grow in the negative pressure zone, quickly close and explode in the positive pressure zone, and form high-pressure bombardment on the surface, gaps, and voids of the cleaned object, achieving the cleaning effect and causing dirt to quickly peel off (this is the unique feature of ultrasonic cleaners)The "cavitation" effect enables the cleaning surface to achieve the purpose of cleaning and purification. Then, throughThe disinfection tankdryOzone, UV sterilization and disinfection，Thus completing the vesselcleanDry and disinfect.

There are many factors that affect the effectiveness of ultrasonic cleaning, mainly including the following:

1. Ultrasonic power density: The higher the power density, the stronger the cavitation effect, the better the cleaning effect, and the faster the cleaning speed. For difficult to clean workpieces, high power density is recommended, while for precision workpieces, low power density is recommended.

2. Ultrasonic frequency: The lower the frequency, the better the cavitation, and the higher the frequency, the better the reflection and refraction effect. For simple surfaces, it is advisableUsing low frequency, high frequency (20KHz, 28KHz, 40KHz, 80KHz, 0.8MH) is recommended for complex surfaces and deep holes and blind holes.

3. Cleaning temperature: Ultrasonic waves have the best spatialization between 40 ℃ and 50 ℃. The higher the temperature, the more conducive it is to the decomposition of pollutants, but when the temperature reaches 70 ℃~80 ℃, it affects the effectiveness of ultrasonic waves and reduces the cleaning effect.

4. Cleaning time: The longer the cleaning time, the better the effect, except for special materials.