The working principle of the inner ring high viscosity pump is mainly achieved through a pair of synchronous rotating stators and rotors. This pump design is particularly suitable for conveying high viscosity media, such as viscous liquids, oils, and gelatinous substances.
The rotor and stator are the core components of the pump. The rotor is usually a rotating shaft with a special tooth profile, while the stator is an internal component that cooperates with the rotor, usually a fixed rubber or elastic component, forming a certain space inside. When the rotor rotates, its interaction with the stator produces a volume change, resulting in the process of suction and discharge.
Specifically, when the rotor rotates, its special tooth profile interacts with the shape inside the stator, causing an increase in the inlet volume of the pump, thereby producing a vacuum suction effect and sucking high viscosity media into the pump. As the rotor continues to rotate, the volume gradually decreases, compressing and transporting the medium, and finally discharging it through the outlet side of the pump.
The working principle of the inner ring high viscosity pump makes it particularly suitable for handling high viscosity media that are difficult to flow or prone to sedimentation. Meanwhile, due to its unique design and materials, this pump also has good corrosion resistance and sealing performance, and can operate stably in various harsh working environments.
