What is the structure and application status of electromagnetic chuck?
Electromagnetic chucks are mainly used in the steel and foundry industries and come in many types. So common electromagnetic chucks are round, let's take a look at the relevant introduction of electromagnetic chucks:
1. The structure of the electromagnetic chuck
The electromagnetic chuck is a hollow cylinder, the end face is circular, and the inner hole is empty. The lifting electromagnet can only suck up the torus, so the electromagnet is designed into a multi-pole shape, such as 2-pole, 4-pole, 6-pole, etc. Due to the special shape of the end face of the steel coil, most of the large steel coils use 6-pole plum blossom lifting electromagnets, each 2 poles form a magnetic field circuit, the depth of the magnetic field is deeper, and the magnetic field is evenly distributed on the end face of the steel coil, so that the steel coil is evenly stressed and not Will come apart, even if the coil is loosely bundled, the coil can be lifted safely.
2. Introduction to the application
1. The circular electromagnetic chuck utilizes the characteristics of magnets to absorb iron products to achieve the effect of removing iron within the effective range. Suitable for belt conveyors, vibrating conveyors, electromagnetic vibrating feeders, flat iron separators and grooving. Remove iron from non-magnetic materials.
2. Absorb 0.1-35kg ferromagnetic material. The surface of the magnetic absorption medium is smooth and clean, and there is no dirt accumulation on the clean surface. It is used for quick grabbing of steel workpieces in grinding machine processing. It is easy to install and easy to use and operate.
3. It is generally used for steel lifting and scrap steel recycling in large metallurgical processing sites. This type of use requires high performance of electromagnets, requires strong magnetic force, and has a long service life.
To sum up, these are some introductions to the use of electromagnetic chucks, and I hope to help you understand the industry knowledge.