Dispersal machines are generally a type of mixer. Due to the use of high-speed mixers (such as circular serrated mixers), strong turbulence can be formed locally, which usually has a strong dispersion and emulsification effect on the material. So for this type of high-speed mixer, it is also called a disperser. Dispersers are mainly divided into lift type dispersers and kettle type dispersers. Lift type dispersers can be further divided into hydraulic lift dispersers, pneumatic lift dispersers, manual lift dispersers, etc. according to the lifting method.

Main features:

Adopting various specifications such as electromagnetic speed regulation, variable frequency speed regulation, and three speed regulation, stable and powerful operation, suitable for various viscosities; There are two types of lifting and lowering: hydraulic and mechanical, which can rotate freely and adapt to various positions; Ordinary and explosion-proof configuration, safe and reliable, easy to operate and maintain; Strong production continuity, fast dispersion and dissolution of materials, good dispersion effect, high production efficiency, stable operation, and easy installation. There are different powers and models for the viscosity and processing capacity of different materials.

Job characteristics

The strong centrifugal force throws the material from the radial direction into the narrow and precise gap between the stator and rotor. At the same time, it is subjected to comprehensive forces such as centrifugal compression, liquid layer friction, and hydraulic impact, and the material is initially dispersed.

The high-speed rotating rotor of the 2 disperser generates a linear velocity of at least 15m/s, and the material is fully dispersed and broken under strong hydraulic shear, liquid layer friction, tear collision, and other effects. At the same time, it is shot out at high speed through the stator slot.

The material of the 3 disperser is continuously ejected from the radial direction at high speed, changing its flow direction under the resistance of the material itself and the container wall. At the same time, under the action of the upper and lower axial suction forces generated in the rotor area, two strong turbulent flows are formed, namely the upper and lower turbulent flows. The material undergoes several cycles until the dispersion process is completed.