Superior domestic mixers, crushers, granulators, conveyors, vibrating screens, dryers, and EPC powder drying engineering manufacturers
Working Principle:
The plow blade mixer is a single-shaft forced mixing equipment, featuring multiple plow blade mixers installed on the main shaft in an offset, continuous arrangement. This structure eliminates dead mixing zones. During operation, it generates a continuous vortex centrifugal force, with the offset plow blades continuously stirring. The vortex centrifugal material flow overlaps and breaks up continuously, causing the material to boil and form a convection cycle, quickly mixing the material.
Agglomerated materials such as fibers, dampened clumps, or liquid-coalesced powders are broken down and separated by the force of a high-speed cutting blade in a plow blade mixer, which creates a convectional circulation effect during the mixing process with the plow blade agitator.
The high-speed flying knife is installed at a downward angle of 45 degrees on the side of the plow blade mixing cylinder. The blade tip extends into the cylinder. During mixing, the material is driven towards the effective range of the flying knife by the plow blade and subjected to high-speed shearing.
Selection Method:
1. Determine the volume of material mix for each batch, ranging from 0.1 to 20 cubic meters, and select the corresponding equipment size.
2. Select equipment material, categorized as: parts in contact with materials, and parts not in contact with materials. Other equipment components maintain the original material.
Material selection is based on factors such as material properties, operating conditions, and hygiene levels. Common options include carbon steel, and 304/316L/321 stainless steel.
After material selection, determine the surface treatment requirements as per specifications.
3. Determine the driving capacity based on the material's specific gravity, fluidity, and other properties, as well as the startup standard.
Startup Standards: Overload Startup, No-Load Startup.
4. Based on actual process conditions, add auxiliary function components such as spray liquid, heating/cooling, etc.
5. Specify the opening requirements for the equipment design, such as the feeding opening, cleaning opening, exhaust holes, etc.
6. Select the discharge mode and driving method, including manual, pneumatic, and electric.
Important Notice: The selection of equipment is a crucial step. Please provide as much detail as possible about the materials and process arrangements so that our professional staff can offer you high-quality technical services.
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