Compression-molding method and device for permanent magnet

What is claimed is: 1. A compression-molding device for a permanent magnet, comprising a drive coil, a compression tool, a mold, and an orientation coil, wherein a groove configured to be filled with magnetic powder under compression is provided at a center of the mold, and a bottom of the compression tool contacts the magnetic powder under compression, a top of the compression tool contacts an end of the drive coil, and the compression tool coincides with a central axis of the groove, wherein the drive coil is configured to generate an electromagnetic force, so as to drive the compression tool to apply a molding compression force to the magnetic powder under compression, the orientation coil is sleeved on an outer periphery of the mold to generate an orientation magnetic field, wherein the drive coil generates the electromagnetic force when a transient current is passed into the drive coil, so as to apply a molding compression force to the magnetic powder under compression, and the orientation coil generates the orientation magnetic field when the transient current is passed into the orientation coil, thereby providing the magnetic powder under compression with an anisotropic property, and wherein the transient currents synchronously pass to the drive coil and the orientation coil to synchronously generate the electromagnetic force and the orientation magnetic field, thereby completing compression-molding of the permanent magnet, wherein a magnitude of the electromagnetic force and an intensity of the orientation magnetic field are respectively changed by changing peak values of the transient currents. 2. The compression-molding device as claimed in claim 1 , wherein the drive coil comprises two drive coil sets, in a compression process, transient currents passed into the two drive coil sets are in opposite directions, so that an electromagnetic repulsive force is generated between the two drive coil sets, and the repulsive force drives one of the drive coil sets to drive the compression tool to apply the molding compression force to the magnetic powder under compression. 3. The compression-molding device as claimed in claim 1 , wherein the drive coil is a drive coil set, in a compression process, the transient currents synchronously passed into the drive coil set and the orientation coil are in a same direction, an electromagnetic attractive force is generated between the drive coil and the orientation coil, and the attractive force drives the drive coil set to drive the compression tool to apply the molding compression force to the magnetic powder under compression. 4. The compression-molding device as claimed in claim 1 , wherein the drive coil is a drive coil set, a drive plate is provided on a side of the drive coil, in a compression process, when the transient current is passed into the drive coil set, an eddy current is generated in the drive plate, so that an electromagnetic repulsive force is generated between the drive coil set and the drive plate, thereby driving the compression tool to apply the molding compression force to the magnetic powder under compression. 5. The compression-molding device as claimed in claim 4 , wherein the repulsive force drives the drive plate to drive the compression tool to apply the molding compression force to the magnetic powder under compression. 6. The compression-molding device as claimed in claim 4 , wherein the repulsive force drives the drive coil set to drive the compression tool to apply the molding compression force to the magnetic powder under compression. 7. The compression-molding device as claimed in claim 6 , wherein the transient currents synchronously passed into the drive coil set and the orientation coil are in a same direction, so that an attractive force is generated between the drive coil and the orientation coil, wherein the attractive force and the repulsive force jointly drive the drive coil set to drive the compression tool to provide the compression force to the magnetic powder under compression. 8. The compression-molding device as claimed in claim 2 , wherein a cross-section of the compression tool in an axial direction is in a T shape, and a bottom of the T shape contacts the magnetic powder under compression. 9. The compression-molding device as claimed in claim 8 , wherein the drive coil and the orientation coil are both hollow spiral coils and are arranged on a same central axis, wherein the orientation coil is sleeved on an outer periphery of the magnetic powder under compression.