In the heavy handling of numerous workpieces, the use of corrugated boards is relatively rare. Generally used in the box of iron houses or bridge structures in petroleum exploration. The characteristic of corrugated boards is that they have certain bends and unevenness, and each time they are transported, they need to be sucked onto the peaks or valleys before being transported. The thickness of corrugated boards is relatively thin, about 4mm. So how does the electric permanent magnet crane achieve transportation?
Firstly, when designing and transporting corrugated boards, Zhuzhou Humvee Magnetoelectronic Technology Co., Ltd. will design the placement position of each magnet based on the size of the welded corrugated board by the customer. If there are different locations for each placement, our company can design a linear guide rail for manual movement. Before the customer welds the box, the corrugated board needs to be sucked and placed on the side of the box. Previously, clamps were used to clamp and transport the corrugated board. This transportation method requires several manual workers to hold down the corrugated board to the designated location for welding work, otherwise, it cannot be fully aligned. After using an electric permanent magnet for transportation, customers can directly weld by pulling the electric permanent magnet laterally onto one side of the steel plate and aligning it with the weld position of the entire box, saving labor and improving work efficiency. Another point is that when using pliers for transportation, the corrugated board is also side suction, which can easily lead to the risk of falling off the corrugated board. The electric permanent magnet suspension designed by Zhuzhou Humvee Magnetoelectronics combines lateral friction during transportation to ensure the safety performance of the workpiece during transportation. Enable workers to confidently carry out welding work at their workstations.