Principle and function of ultrasonic dispersion machine
Ultrasonic dispersion machine can upgrade your ordinary equipment to advanced chemical equipment with ultrasonic without changing the customer's existing production equipment and process flow. The ultrasonic power is large, the investment is small, the installation is simple, and the output and efficiency are obviously improved.
The principle of ultrasonic crushing and dispersing machine is as follows:
The ultrasonic crushing and dispersing machine is composed of three parts: ultrasonic vibration parts, ultrasonic special driving power supply and reaction kettle: ultrasonic vibration parts mainly include high-power ultrasonic transducer, horn, tool head (transmitting head), used to generate ultrasonic vibration, And launch this vibration energy into the liquid. The transducer converts the input electrical energy into mechanical energy, namely ultrasound. Its manifestation is that the transducer stretches back and forth in the longitudinal direction, and the amplitude is generally several microns. Such amplitude power density is not enough and cannot be used directly. The horn amplifies the amplitude according to the design requirements, isolates the reaction solution and the transducer, and also plays a role in fixing the entire ultrasonic vibration system. The tool head is connected with the horn, and the horn transmits the ultrasonic energy vibration to the tool head, and then the ultrasonic energy is emitted into the chemical reaction liquid by the tool head.
Industrial grade ultrasonic crushing and dispersing machine is mainly used for large-scale industrial production. The industrial-grade high-power ultrasonic sonochemical processing equipment produced by Hangzhou Altrasonic Technology Co., Ltd. has high power, high efficiency, and large radiation area. It is suitable for large-scale industrial production. It has real-time frequency power monitoring, power adjustable, and overload alarm. Features. The industrial-grade ultrasonic crusher has an energy conversion efficiency of 80%-90%.