Power Mixer

The power mixer utilizes dual shafts with multiple evenly distributed blades, employing a helical rotation mechanism to propel and mix materials, achieving uniform blending and resource conservation. Simultaneously, this equipment features a simple structure, rational layout, and scientifically designed transmission, offering exceptional practicality. The replacement of wear parts is straightforward, allowing for equipment maintenance and repair without extensive disassembly, which significantly extends the overall service life of the unit. It is widely applied in industries such as steel plants and chemical plants.

Working Principle

The power mixer employs blades mounted on dual-shaft screws within a U-shaped trough to achieve continuous material agitation. Material is conveyed to the front end of the chamber via a feeder. During operation, the material inside the mixer undergoes composite motion driven by two counter-rotating rotors. The blades propel the material to rotate inward along the inner wall of the trough, simultaneously facilitating lateral tumbling. In the overlapping region between the two rotors, a weightless zone is formed. Within this zone, regardless of the material's shape, size, or density, it becomes momentarily suspended in a weightless state. This induces comprehensive, continuous tumbling and mutual shearing within the trough, thereby achieving rapid, gentle, and homogeneous mixing. Finally, the material flows toward the discharge outlet at the rear end of the chamber under the agitation of the blades.