High Capacity Chamber Automatic Membrane Filter Press For Mining

Key Features and Advantages

1. Efficient dehydration, resulting in drier filter cake: The diaphragm compression pressure is extremely high, much higher than the pressure of the feed pump. This enables the production of filter cakes with extremely low moisture content, thereby reducing the subsequent drying costs and transportation weight.

2. Energy conservation and cost reduction, with low operating costs: The extremely high filtration efficiency shortens the single cycle time and enhances the processing capacity. Compared with traditional equipment, it can save a significant amount of energy when achieving the same or even lower moisture content.

3. Fully automated, with low labor costs: The entire process from pressing, feeding, pressing, to discharging is automatically controlled by PLC, enabling “one-button” operation. This significantly reduces labor intensity and human error.

4. Stable operation, high reliability: The advanced hydraulic system and electronic control system ensure the stability and reliability of the equipment operation, with a low failure rate.

Main components

Frame part: It includes the front plate, rear plate and main beam, which form the main structure of the equipment.

Filtering section: Composed of multiple diaphragm plates and box-type filter plates arranged alternately, it is the core working unit.

Hydraulic system: Provides the power for pressing and releasing the filter plates, ensuring the sealing of the filter chamber.

Electrical control system: The PLC (Programmable Logic Controller) serves as the core, controlling the entire process (including feeding, pressing, pulling the plate, and discharging) in a fully automated manner.

Automatic plate-lowering mechanism: Controlled by mechanical, electrical or photoelectric sensors, it enables the automatic sequential lowering of the filter plates without human intervention.

Filter cloth rinsing system (optional): Automatically rinses the filter cloth after discharging to maintain its filtering performance and prevent clogging.

How to choose the right model?

1. What is the liquid that needs filtering?
   2. What is the flow rate?
   3. Temperature/PH value?
   4. What are the main solid impurities that need to be filtered from the liquid? What is their content?

We can make recommendations based on this information.