Machinery Weight 38-57t
Max Feeding size(mm) ≤650mm
Hopper Volume(m³) 120-440t/h
The overflow and discharge in a wheel sand washing machine are important aspects of the cleaning process. These processes ensure the proper removal of waste materials, impurities, and excess water from the machine, while allowing the cleaned sand and aggregates to continue through the system. Here's how overflow and discharge typically work in a wheel sand washing machine:
Overflow and Waste Removal:
As the material is agitated, scrubbed, and sprayed with water inside the machine, impurities such as clay, silt, and debris are dislodged and suspended in the water. This mixture of water and suspended impurities creates a slurry.
The slurry, along with excess water used in the washing process, overflows or is directed to designated channels or outlets within the machine.
The purpose of the overflow is to separate the waste materials (impurities and excess water) from the cleaned sand and aggregates. The waste materials are carried away from the machine for disposal or further treatment.
Discharge of Cleaned Material:
The cleaned sand and aggregates that have undergone the washing process continue to move through the machine.
The machine is designed with a separate discharge outlet or chute specifically for the cleaned material.
The discharge outlet is strategically positioned to ensure that only the cleaned material exits the machine while avoiding re-contamination by the waste materials.
Preventing Re-Contamination:
The separation of overflow and discharge outlets is crucial for preventing re-contamination of the cleaned material. By keeping the waste materials separate, the machine ensures that the cleaned sand remains free from impurities and debris.
Channeling and Collection:
Within the machine's interior, there are channels or pathways that guide the flow of waste materials (overflow) and cleaned materials (discharge) to their respective outlets.
These channels are designed to efficiently direct the flow of materials and prevent mixing between waste and cleaned materials.
Proper Outlet Design:
The design of the overflow and discharge outlets is essential for maintaining the efficiency of the machine. It ensures that waste materials are effectively removed and that cleaned materials are discharged without obstruction.
Efficiency and Quality Control:
Proper overflow and discharge management contribute to the overall efficiency and quality of the cleaning process. They help ensure that the cleaned sand and aggregates meet the required specifications for various applications, such as construction, concrete production, and road building.
Machinery Weight 38-57t
Max Feeding size(mm) ≤650mm
Hopper Volume(m³) 120-440t/h
Machinery Weight 45-62t
Max Feeding size(mm) ≤650mm
Hopper Volume(m³) 80-360t/h
Machinery Weight 42-58t
Max Feeding size(mm) ≤211mm
Hopper Volume(m³) 95-360t/h
Machinery Weight 31t
Max Feeding size(mm) ≤400mm
Hopper Volume(m³) 100-380t/h
Machinery Weight 32t
Max Feeding size(mm) ≤500mm
Hopper Volume(m³) 100-500t/h
Machinery Weight 48-65t
Max Feeding size(mm) ≤650mm
Hopper Volume(m³) 80-380t/h
Machinery Weight 60t
Max Feeding size(mm) ≤40mm
Hopper Volume(m³) 150-380t/h
Machinery Weight 9.5-75t
Max Feeding size(mm) ≤1000mm
Hopper Volume(m³) 61-1204t/h
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