Attrition Scrubbing Washing Machine
Mines, sandfields, stone yards, coal yards, construction, construction sites, etc.
Capacity: Customization
Applicable materials: Suitable for natural or artificial sand with a mineral particle size of 0-6mm, various loose mud particles or materials. Such as silicon carbide, mullite, limestone, barite, albite, wollastonite, dolomite, calcite, limestone, etc.,
Description
Attrition scrubbing washing machines are also called attrition scrubbers, or attrition cells, which are used to scrub the slurry of quartz sand, scrub the mud and sand on the ore, create conditions for mineral processing operations, and are suitable for other scrubbing industries. The attrition scrubber consists of a tank with rotating paddles or blades that agitate and scrub the mineral particles against each other, effectively removing any surface contaminants or coatings. The scrubbing action can also help break down clay or other materials clinging to the mineral particles. We design single and multiple-cell attrition scrubber units for different scrubbing requirements of mineral materials.
The attrition scrubbing washing machine is generally used before or after sand screws in the sand washing plant to scrub the surfaces of particulates, break down impurities, and remove them from competent aggregate material to reduce product turbidity.
Advantages
- The impeller is made of highly wear-resistant materials, with longer service life and low maintenance costs.
- The unique tank structure and impeller configuration provide high scrubbing intensity, about 30% higher than the traditional scrubbing machine of the same specification.
- The cylinder body is equipped with a wear-resistant lining plate to protect the cylinder body effectively, and the replacement of the lining plate is simple and convenient.
- The relative positions of the ore discharge and the motor can be manufactured into different positions according to the user's requirements.
Principle
Slurry enters the scrubber cavity through the feed pipe and produces severe turbulence under the strong agitation of the impeller. The ore particles have great momentum in them and produce intense friction and collision with each other. The impurity membrane wrapped on the surface of the ore is easily peeled off the mineral surface by friction and impact due to its low strength. The cement surface is immersed in water and then the mineral particles are strongly rubbed and collided to loosen and disintegrate, thereby separating clay and ore. These impurities and clay are disintegrated and exfoliated into the slurry, which can be separated by subsequent desliming. In the actual production process, different agents should be added according to the actual conditions of the mineral.
Specification
Model | Volum(m³) | Feeding Size (mm) | Feeding density (%) | Motor Power (kw) | Diamension L*W*H(mm) | Weight (kg) |
GSC1-1 | 1 | ≤5 | 50-60 | 11 | 1420x1310x1860 | 1300 |
GSC1-2 | 2 | ≤5 | 50-60 | 11×2 | 2340x1310x1860 | 2500 |
GSC2-1 | 2 | ≤5 | 50-60 | 30 | 2150x1900x2780 | 3200 |
GSC2-2 | 4 | ≤5 | 50-60 | 30×2 | 3530x1900x2780 | 5300 |
GSC4-1 | 4 | ≤5 | 50-60 | 55 | 2596x2800x3441 | 3800 |
GSC4-2 | 8 | ≤5 | 50-60 | 55×2 | 4430x2800x3441 | 7500 |
GSC6-2 | 12 | ≤5 | 50-60 | 90×2 | 4900x3200x4100 | 9500 |