Rare earth sintered magnet fastening jig

The invention claimed is: 1. A fastening jig for securing a magnet block suitable for a method for multiple cutoff machining a rare earth sintered magnet block by using a multiple blade assembly comprising a plurality of cutoff abrasive blades coaxially mounted on a rotating shaft at axially spaced apart positions, rotating and feeding the cutoff abrasive blades to cutoff machine the magnet block into a multiplicity of pieces, the fastening jig comprising a first clamp on which the magnet block is rested, a second clamp disposed on the magnet block, and a press unit for pressing the first and second clamps to apply a pressing force to the magnet block from one or both of its upper and lower surfaces, wherein a portion of at least one clamp which is disposed adjacent to the magnet block is provided with a generally horizontal channel extending inward from a position corresponding to a work surface of the magnet block, to define a resilient cantilever, whereby the magnet block is held between the first and second clamps by the repulsion force created by vertical movement of the resilient cantilever. 2. The fastening jig of claim 1 wherein the portion of at least one clamp which is disposed adjacent to the magnet block is partially raised to form pads near positions corresponding to opposite work surfaces of the magnet block so that the clamp contacts only at its pads with the opposing surface of the magnet block. 3. The fastening jig of claim 1 wherein the portion of at least one clamp which is disposed adjacent to the magnet block is provided with rims at positions corresponding to opposite work surfaces of the magnet block, the rims being engaged with the magnet block for preventing the magnet block from separating apart. 4. The fastening jig of claim 1 wherein only the first clamp is provided with the resilient cantilever, and the surface of the second clamp which is disposed adjacent to the magnet block is flat so that the second clamp is in plane contact with the entire opposing surface of the magnet block.