Disk Vacuum Filter

Product Introduction

The Disk Vacuum Filter, featuring a vertical disk structure composed of fan-shaped plates, is a high-efficiency vacuum filtration device specifically designed for dewatering fine-grained concentrates containing mineral sludge. It is particularly suitable for dewatering flotation tailings and concentrates of non-ferrous metals. Additionally, it demonstrates exceptional performance in solid-liquid separation across metallurgy, chemical, petroleum, and wastewater treatment industries. Its unique design and high-efficiency filtration capability make it an indispensable filtration solution in modern industry.

Advantages and Features

Lightweight and Corrosion-Resistant Materials

Made from polypropylene plastic filter plates, the disk vacuum filter is lightweight and resistant to corrosion, ensuring stable operation and long service life even in harsh environments.

High Efficiency and Space Saving

The compact design and strong adsorption capability allow for high-efficiency filtration while maximizing valuable production space.

Flexible Speed Adjustment and Energy Efficiency

The drive mechanism supports stepless speed adjustment, allowing the main shaft speed to be adjusted as needed. This feature not only enhances operational convenience but also improves efficiency, reduces noise, and lowers energy consumption, reflecting the equipment’s eco-friendly characteristics.

High-Performance Fan-Shaped Plates

The grid-style fan-shaped plates made from engineering plastics feature a new design that significantly enhances performance and durability, ensuring long-term stable operation and low maintenance costs.

Working Principle

The disk vacuum filter operates based on the pressure differential created by a vacuum pump. During the filtration process, the filtering disk slowly rotates in the slurry tank. Solid particles are attracted to the filter cloth on the disk under the action of vacuum pressure, forming a filter cake of considerable thickness. The filtrate passes through the filter cake and cloth, and is discharged from the central axis, achieving initial solid-liquid separation. The filter cake, subjected to pressure air from a scraper and blower, is removed from the disk and falls into the cake discharge hopper, completing the filtration cycle. This process is efficient and continuous, ensuring thorough dewatering of the material and clarity of the filtrate, thus providing high-quality raw materials for subsequent processing or treatment.

Technical Parameters