Method for removing rare earth impurities from nickel-electroplating solution

What is claimed is: 1. A method for removing rare earth impurities from a nickel-electroplating solution, consisting essentially of the steps of keeping a nickel-electroplating solution containing rare earth impurities at a temperature of 60° C. or higher for a predetermined period of time such that some components in the nickel-electroplating solution are not precipitated, and then removing precipitate of the rare earth impurities generated by heating from said nickel-electroplating solution by sedimentation and/or filtration. 2. The method for removing rare earth impurities from a nickel-electroplating solution according to claim 1 , wherein said nickel-electroplating solution is stirred during heating. 3. The method for removing rare earth impurities from a nickel-electroplating solution according to claim 2 , wherein said stirring is conducted by air stirring, the rotation of a stirring blade or circulation by a pump. 4. A method for removing rare earth impurities from a nickel-electroplating solution, wherein the operation recited in claim 1 for removing rare earth impurities from a nickel-electroplating solution is repeated plural times, the heating of the nickel-electroplating solution being conducted with precipitate generated by the previous operation existing in the nickel-electroplating solution. 5. The method for removing rare earth impurities from a nickel-electroplating solution according to claim 1 , wherein said nickel-electroplating solution is concentrated by heating. 6. The method for removing rare earth impurities from a nickel-electroplating solution according to claim 5 , wherein said nickel-electroplating solution from which rare earth impurities are removed is up to 3 times as concentrated as a nickel-electroplating solution in which plating is conducted. 7. A method for producing a sintered rare earth magnet having a plating layer, consisting essentially of the steps of preparing a nickel-electroplating solution containing rare earth impurities, keeping said plating solution at 60° C. or higher for a predetermined period of time such that some components in the nickel-electroplating solution are not precipitated, removing precipitate of the rare earth impurities by sedimentation and/or filtration from said nickel-electroplating solution heated for a predetermined period of time, and electroplating the sintered rare earth magnet with nickel in said precipitate-removed nickel-electroplating solution.