Lifting Magnets Price List
The permanent lifting magnetics is designed based on the continuity principle of magnetic flux and the superposition principle of magnetic field. The magnetic circuit of the permanent magnetic lifter is designed into multiple magnetic systems. Through the relative motion of the magnetic systems, the magnetic field intensity on the working magnetic pole surface is added or eliminated, so as to achieve the purpose of holding and unloading.
Working principle of lifting magnetics
The diagram shows the working principle of the permanent lifting magnetics. When the magnetic pole of the permanent magnet lifter is in the state shown in figure (a), the magnetic field lines come out from the N pole of the magnet, pass through the ferromagnetic workpiece, and then return to the magnetic yoke and enter the S pole of the magnet. In this way, the workpiece can be firmly attached to the working surface of the permanent lifting magnets. When the magnetic pole is in the state shown in figure (b), the magnetic field line is not accessible to the working pole of the permanent magnet chuck, and a closed loop of magnetic circuit is formed inside the permanent lifting magnets.Permanent lifting magnets price list
ATO offers you industrial permanent lifting magnets with capacity range of 100kg, 200kg, ..., 1 ton, 2 ton, 3 ton and 5 ton. With a V-style design at the bottom of lifter, it can lift both steel plate and round steel. With high quality, easy operation and compact desigh, it is an ideal solution for lifting and unloading workpieces safely. Now the below table is a price list of ATO lifting magnets for your reference.
|Permanent Lifting Magnets||ATO-YS-100||100kg||$192.30|
Note: The prices in the table are just for your reference. If you want to get the latest quotation, please contact us now.
Using the permanent lifting magnetics
1. Place the workpiece on the table and insert the handle into the shaft hole of lifting magnet to hold the workpiece for loading.
2. To prevent any possible accidental rotation of the handle in the magnetized state, the handle should be removed before loading.
3. After the workpiece finishes loading, insert the handle into the shaft hole and rotate 180 degree to "OFF" counterclockwise, demagnetization can be completed and the workpiece can be safely unloaded.