Anisotropic bonded magnet and preparation method thereof

What is claimed is: 1. An anisotropic bonded magnet, comprising an R-T-B permanent magnetic powder and an SmFeN permanent magnetic powder, wherein in the R-T-B permanent magnetic powder, the content of R is 28-31 wt. %, the content of B is 0.9-1.1 wt. %, and the balance is T; R is selected from one and more rare earth elements, T comprises Fe or FeCo and a small amount of transitional metal, and B is boron; the content of the SmFeN permanent magnetic powder is 5%-30% of the weight content of the R-T-B permanent magnetic powder; and the anisotropic bonded magnet is formed by pressing a plurality of different preforms, wherein the plurality of different preforms comprises preforms which are different in density and/or content of SmFeN permanent magnetic powder, and the plurality of different preforms comprises a first preform and a second preform, wherein a mass percentage content of SmFeN in the composite magnetic powder of the first preform is 5-13%, and a mass percentage content of SmFeN in the composite magnetic powder of the second preform is 15-30%; and a ratio of the density of the first preform and the second preform is 1:1.1 to 1:1.5; and in the magnet, the densities and/or SmFeN contents of the preforms arranged from the middle to two ends gradually decrease; or the densities and/or SmFeN contents of the preforms arranged from the center to the periphery gradually decrease; and the resulting anisotropic bonded magnet has a density deviation of less than 2% in a pressing direction; wherein the bonded magnet is a bonded magnetic ring having an aspect ratio of 2 to 8. 2. The anisotropic bonded magnet according to claim 1 , wherein R is one element or two or more elements selected from the group consisting of Y, Pr, Nd, Pm, Sm, Eu, Gd, Tb, Ho, Er, Tm, Yb and Lu. 3. The anisotropic bonded magnet according to claim 2 , wherein R is Nd, or Pr and Nd. 4. The anisotropic bonded magnet according to claim 1 , wherein the bonded magnetic ring having a wall thickness of greater than 1 mm. 5. The anisotropic bonded magnet according to claim 4 , wherein the bonded magnet is a bonded magnetic ring having a wall thickness of 1-20 mm. 6. The anisotropic bonded magnet according to claim 1 , wherein the SmFeN permanent magnetic powder has a particle size of 1-30 μm. 7. The anisotropic bonded magnet according to claim 6 , wherein the SmFeN permanent magnetic powder has a particle size of 3-10 μm.