Working principle of mixer

The working principle of a mixer varies depending on different types of mixers. Here are the working principles of several common mixers:

One-dimensional mixer: Agitate the material in one direction by stirring the paddle to achieve uniform mixing.

Two-dimensional mixer: The material is mixed in two directions by rotating and tilting the container simultaneously. The container is usually parallel or hemispherical, sliding the material along the wall of the container by tilting, and then repeatedly pushing the material toward the center of the container by rotation.

3D mixer: Add additional movement modes such as rotation, tilt and vibration on the basis of one-dimensional and two-dimensional mixers. Through the combination of multiple motion modes, the materials are mixed in three directions, thereby achieving higher mixing effects.

Double cone mixer: consists of two conical containers that are inclined to each other, and the material is mixed by rotation. A stirring arm or stirring blade is installed inside the container. When the container rotates, the stirring device pushes the material to the top of the container and returns to the bottom to form a circular mixing.

Square cone mixer: is a container with inclined on all sides, which mixes the material by rotating. A multi-layer stirring arm or blade is usually used, and when the container rotates, the stirring device pushes the material to one side of the container and bounces to the other side to achieve circular mixing.

V-type mixer: consists of a V-shaped container and a stirring device, and the material is mixed by rotation. These mixing equipment have a wide range of applications in different industries, and the appropriate mixing model can be selected according to production requirements and material characteristics.

Gravity-free mixer: It is loaded with two parallel blade shafts that rotate outward at the same time, and each shaft is equipped with cross blade blades. Under the synchronous action of the drive device, the running trajectories of the two cross blade shafts are intersected and are misaligned. The drive device drives the reward blade shaft to rotate rapidly, and the rotating reward spray generates centrifugal force, effectively throwing the material to the upper part of the cylinder, reaching the highest point of the parabola and then falling. The material is driven by the blade, and is mixed back and forth in the cylinder body, and is mixed, sheared and separated by the meshing space of the two shafts, so that the material is quickly mixed and evenly.

Coulter mixer: The coulter mixer is a single-axis forced agitator equipment. Multiple sets of coulter mixers are installed on the spindle, and the dislocation is continuously installed. The structure avoids the stirring dead corners. During operation, an uninterrupted vortex centrifugal force is generated. The dislocation coulter continues to stir. The vortex centrifugal material flow continues to overlap and disperse, causing the material to boil, and circulate in parallel to convective, and stir the material quickly.

The above is an introduction to the working principles of several common mixers. It should be noted that when selecting a mixer, the most suitable model should be determined based on the specific material characteristics and mixing requirements.