What is a magnetic conveyor?
Magnetic conveyor is a mechanism of transmission of material used to move iron metal objects using a combination of conventional transport technology and electromagnetic force. These conveyors are usually used to transport parts, scrap or metal clippings from one point in an industrial or manufacturing process to another. There are two basic types of magnetic transport system, namely moving belt and static bed sliders. However, both use electromagnets to hold metal load on the conveyor surface during transit. This adhesion to the transport surface makes the magnetic conveyor an ideal solution for applications requiring steep tendencies on the traffic route.
Most conventional transport systems have one basic weakness - spilling, especially around steep turns and inclinations. The magnetic conveyor deals with this problem by holding the load firmly in place on the transport bed using solenoids located below its surface. It is obvious that the same thing that the systemThe ias are only effective in the transport of iron metals that attract the magnetic field. These materials are usually free production parts, grinding stamp or metal scrap. Swarf or cuttings from extensive metal machining are also commonly removed using a magnetic transport system.
There are two basic types of magnetic conveyors in general use. The first is the type of movable belt, which is a conventional conveyor with a continuous amount of powerful electromagnets located under the load part of the belt. When the metal objects are placed on the conveyor, they are attracted by the magnetic field and tightly held to the surface of the belt. The magnet field ends just before the discharge point of the conveyor, which means that the items are then freely falling down the belt into the drain slip or hopper.
The second type of magnetic Conveyor is a variant of a static bed slider. These devices have a smooth surface of staticTransport, while the magnet field moves below it. When the items are loaded onto the bed, they are attracted to the magnetic field and attracted along the smooth transport surface. The magnetic field is located in a continuous loop and reaches the end of its travel point, allowing the material to leave the transport bed. Since the escape with these systems is minimal, the magnetic conveyor is the ideal choice for processes that require conveyors with tight curves and steep or even vertical tendencies.