Composite rare earth anisotropic bonded magnet and a preparation method thereof

What the claimed is: 1. A composite rare earth anisotropic bonded magnet, wherein it comprises a Nd—Fe—B magnetic powder, a Sm—Fe—N magnetic powder, a binder and an inorganic nano-dispersant; wherein, the content of the Sm—Fe—N magnetic powder is 5-30 wt. %, the content of the binder is 1-10 wt. %, the content of the inorganic nano-dispersant is 0.1-2 wt. %, and the balance is the Nd—Fe—B magnetic powder, the circularity of the Nd—Fe—B magnetic powder is 0.6-0.8. 2. The composite rare earth anisotropic bonded magnet according to claim 1 , wherein the inorganic nano-dispersant is any one or more of Al 2 O 3 , SiO 2 or TiO 2 , with a particle size of 30-100 nm. 3. The composite rare earth anisotropic bonded magnet according to claim 1 , wherein the Sm—Fe—N magnetic powder has an average particle size of 1-12 microns. 4. The composite rare earth anisotropic bonded magnet according to claim 3 , wherein the square degree of the anisotropic bonded magnet is greater than 30%. 5. The composite rare earth anisotropic bonded magnet according to claim 4 , wherein the surface of the Sm—Fe—N magnetic powder is coated with an F-containing organic substance. 6. The composite rare earth anisotropic bonded magnet according to claim 5 , wherein the F-containing organic substance is a fluorine-containing alkane or a fluorine-containing olefin. 7. A preparation method of the composite rare earth anisotropic bonded magnet according to claim 1 , wherein it comprises the following steps: preparing a Nd—Fe—B magnetic powder by a HDDR method; preparing a Sm—Fe—N magnetic powder by a powder metallurgy method; mixing the Nd—Fe—B magnetic powder, the Sm—Fe—N magnetic powder, the binder and the inorganic nano-dispersant at a specific ratio to prepare a mixed rubber powder; subjecting the mixed rubber powder to molding, injection, calendering or extrusion to obtain the composite rare earth anisotropic bonded magnet. 8. The method of claim 7 , wherein the step of mixing the Nd—Fe—B magnetic powder, the Sm—Fe—N magnetic powder, the binder and the inorganic nano-dispersant at a specific ratio to obtain a mixed rubber powder comprises: dissolving the binder in an organic solvent to prepare a first organic solution; adding the inorganic nano-dispersant to the first organic solution to prepare a second organic solution; adding the Sm—Fe—N magnetic powder to the second organic solution, and uniformly dispersing it with ultrasound to prepare a third organic solution; adding the Nd—Fe—B magnetic powder to the third organic solution and fully stirring to completely volatilize the organic solvent in the third organic solution to obtain the mixed rubber powder. 9. The method according to claim 8 , wherein the step of preparing the Sm—Fe—N magnetic powder further comprises: coating the surface of the Sm—Fe—N magnetic powder with an F-containing organic substance; adding the Sm—Fe—N magnetic powder to an organic solution of the F-containing organic substance and fully stirring to prepare a fully stirred organic solution; completely volatilizing the organic solvent in the fully stirred organic solution, rendering the F-containing organic substance coated on the surface of the Sm—Fe—N magnetic powder. 10. The method according to claim 7 , wherein the inorganic nano-dispersant is any one or more of Al 2 O 3 , SiO 2 or TiO 2 , with a particle size of 30-100 nm. 11. The method according to claim 7 , wherein the Sm—Fe—N magnetic powder has an average particle size of 1-12 microns. 12. The method according to claim 11 , wherein the square degree of the anisotropic bonded magnet is greater than 30%. 13. The method according to claim 12 , wherein the surface of the Sm—Fe—N magnetic powder is coated with an F-containing organic substance. 14. The method according to claim 13 , wherein the F-containing organic substance is a fluorine-containing alkane or a fluorine-containing olefin.