Magnetic lifting is the easiest, fastest and most economical method of handling coiled strip steel. Traditional mechanical lifting devices can damage several layers of in the process of gripping the coil, and damage can also take place when the coil is released. Properly designed lift magnets virtually eliminate the possibility of damage.
below are the Traditional mechanical lifting devices .
Much less storage space is required for magnetic handling, since a magnet lifts the coil from directly above the load, eliminating the need for aisle space required by mechanical lifting devices. One crane or truck operator can usually load, transport and unload coils without assistance from the floor, freeing up manpower to be used elsewhere.
Various magnet designs can be utilized for lifting coiled steel, depending on the orientation (eye vertical, or eye horizontal), the gage of the steel, the size and weight of the coil, it's temperature, and whether it is banded or loosely wound.
below are the pics of HVR magnetic lifer for lifting steel coil .
Electropermanent magnets utilize permanent magnetic material surrounded by an electrically powered coil. To energize an electropermanent magnet, a momentary pulse of D. C. power is applied to the magnet's coil in order to charge the permanent magnetic material within. Once energized, the electropermanent magnet does not require a constant source of power to retain the lifted steel coil. To release the steel coil, a reverse pulse of D. C. power is applied to the magnet's coil. The Electropermanent magnet design tends to excel when the steel coil's edge stagger is kept to a minimum.
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