What is the principle of high temperature resistance of crane electromagnetic chuck?
In the cast iron industry, machinery and mining and many other industrial processing places, various high-temperature processing situations will occur, and special electromagnetic equipment cannot withstand high temperature and cannot be used normally in these places.
In this case, people need to suffer A high-temperature-resistant electromagnetic chuck, then what is the high-temperature resistance principle of the device? Next, we invite the lifting electromagnetic chuck manufacturer to introduce the application principle of the equipment to you: The high temperature resistant lifting electromagnetic sucker adopts the push-pull principle structure. After the power is turned on, the sliding rod is pulled in and the ejector rod is pushed out to achieve the function of pushing the object. Furnace, etc., its temperature resistance is far more than the general lifting electromagnetic chuck.
There is a heat-dissipating layer on the surface of the high-temperature-resistant electromagnet, and the heat-dissipating layer can circulate the air to take away the surface temperature of the electromagnet. Stir back and forth into the molten aluminum, the bottom of the high-temperature electromagnet generates a strong magnetic field, the magnetic field can penetrate through the stainless steel protective layer, heat insulation layer, and antipyretic layer, absorb the required steel workpiece, and can be energized to generate a magnetic field, and power off. That is to remove the sucked iron parts, the bottom of the electromagnet is flat, and after each use, the power-off iron will fall off, which is very flexible and convenient.
In summary, the above-mentioned contents are related matters shared by the lifting electromagnetic sucker manufacturers for you. For more lifting electromagnetic sucker information, please lock our website for more details