High Precision Chamber Filter Press for Fine Particle Separation with Controlled Hydraulic Pressure

2. Efficient Automatic Pressing System: Equipped with a fully automatic hydraulic pressing device, the pressure is adjustable and stable, ensuring a tight seal of the filter plates and preventing material leakage and liquid seepage. This significantly enhances the filtration efficiency and the quality of the filter cake.

3. Flexible manual pull plate design: The manual pull plate function is retained. In cases where the automatic system needs maintenance or special operations are required, it can be flexibly switched to ensure production continuity. The operation is simple and intuitive.

4. Clean dark flow liquid discharge method: A dark flow pipeline discharge design is adopted. The filtrate is centrally discharged through a sealed pipeline, ensuring a clean and splash-free environment on site. It is convenient for filtrate collection and subsequent treatment, meeting environmental protection requirements.

5. Modularization and Maintainability: Key components are designed in a standardized manner, making maintenance and replacement straightforward; the filter plates are arranged compactly, providing a large filtration area, and the configuration can be flexibly adjusted according to production capacity requirements.

2. Operation is simple: Automation of the pressing process reduces the need for manual intervention. The manual pulling plate serves as a backup option, balancing efficiency and operational flexibility, making it easy for employees to quickly master.

3. Energy conservation and environmental protection: The efficient filtration design reduces material residue, and the concealed liquid discharge avoids secondary pollution, meeting modern clean production and environmental protection standards.

4. Adaptable: Suitable for various material properties (such as fine particles, viscous or corrosive materials), and has excellent performance in multiple industries including chemical engineering, mining, and food.

5. Economical and practical: The initial investment and operation and maintenance costs are balanced. Through efficient separation effects, the subsequent treatment costs are reduced, and the return on investment is high.

2. Mining and Metallurgy: Dewatering of concentrate and tailings, precipitation and separation of metal hydroxides.

3. Environmental protection and wastewater treatment: Dewatering and reduction processing of municipal sludge and industrial sludge.

4. Food industry: Processes such as fermentation liquid filtration and juice clarification.

5. Ceramics and Building Materials: Dewatering and Recycling of Glazes and Sludges.

6. Other fields: For situations where efficient solid-liquid separation is required, such as in the cases of oils, biodiesel, pigment slurries, etc.