How does the PMC Magnetic drum sewage processor remove metal iron chips through magnetism?

1. Working principle of the PMC Magnetic drum sewage processor
The PMC Magnetic drum sewage processor uses magnetic separation technology to remove metal iron chips from the coolant. It consists of a magnetic drum, a reducer, a transmission motor, and a magnetic field generator. Its working principle can be divided into the following steps:

During the metal processing process, the coolant will carry a large amount of metal iron chips and other impurities into the processing system. The PMC Magnetic drum sewage processor uses a strong magnetic field to absorb the iron chips from the coolant through the rotation of the magnetic drum. When the coolant passes through the magnetic drum, the metal iron chips carried in the coolant will be attracted by the magnetic force of the drum due to its magnetic properties and gradually adhere to the surface of the drum, while the coolant without iron chips will be separated and returned to the processing system.

After the metal iron chips are adsorbed by the magnetic drum, the drum will continue to rotate, and these attached iron chips will be completely separated from the liquid through mechanical movement. As the drum rotates, the iron chips are moved to the designated cleaning area, and then they are separated from the drum surface and automatically fall into the collection container under the action of centrifugal force and other mechanical forces.

The core of the PMC Magnetic drum sewage processor lies in its powerful magnetic field generator. The magnetic field generator generates a strong magnetic field to ensure that all magnetic metal iron chips can be fully adsorbed when the coolant flows through the drum, and no fine iron chips are missed. The strength and distribution of the magnetic field are optimized to ensure that the drum surface can effectively adsorb iron chips of different sizes, thereby improving the purification efficiency.

2. The magnetic separation advantages of PMC Magnetic drum sewage processor
The traditional coolant filtration method is difficult to completely remove tiny iron chips, while the PMC Magnetic drum sewage processor uses the physical properties of the magnetic field to achieve excellent adsorption of iron chips. Through magnetic separation, the coolant can be highly purified, ensuring the stable quality of the coolant during the processing process, thereby effectively avoiding scratches and contamination of the workpiece surface by iron chips and improving the processing quality.

Iron chips in the coolant will not only affect the processed workpiece, but also accelerate the wear of equipment and tools. Iron chips accumulate continuously during the processing process, which will increase the friction between the tool and the workpiece, causing increased tool wear and even equipment failure. By using the PMC Magnetic drum sewage processor, the iron chips content in the coolant can be reduced, thereby reducing the loss of equipment and tools and extending their service life.

The PMC Magnetic drum sewage processor not only has efficient purification capabilities, but also can realize the automatic separation and collection of iron chips. Through the automated drum transmission design, the iron chips attached to the magnetic drum can automatically fall off and be collected in a special container, greatly reducing the necessity of manual intervention.

The PMC Magnetic drum sewage processor has a compact structure and a small footprint, making it easy to integrate and use in various processing equipment. Whether it is used for coolant purification of grinders, wire drawing machines or precision processing equipment, the installation of this equipment can achieve efficient purification of coolant and automatic separation of metal iron chips.

3. Application scenarios of PMC Magnetic drum sewage processor
PMC Magnetic drum sewage processor is mainly suitable for various metal processing equipment that require coolant purification, such as grinders, wire drawing machines, and EDM machines. Especially in areas that require precision machining, such as aerospace, automobile manufacturing, and electronic equipment production, the purity of the coolant is directly related to the accuracy and surface quality of the machined parts.