Vacuum pump

The invention claimed is: 1. A vacuum pump comprising: a rotor shaft that is rotatably supported by a bearing and driven by a motor to rotate at a high speed; a rotor that is fastened to one end of the rotor shaft in axial direction thereof and is provided with an evacuating function portion which comprises a plurality of rotor vanes and a cylindrical threaded rotor; an engagement portion being provided in a fastening portion of the rotor shaft and the rotor, including an engagement hole formed on one of the rotor shaft and the rotor and an engagement shaft formed on the other of the rotor shaft and the rotor to be inserted into the engagement hole; and a filling member provided in a gap between the engagement hole and the engagement shaft, having shear strength lower than respective shear strengths of the rotor and the rotor shaft, wherein: the gap is formed between an entirety of an outer periphery of the engagement shaft and an entirety of an inner periphery of the engagement hole, so that a fit between the engagement shaft and the engagement hole is a clearance fit; and when the rotor and the rotor shaft are disassembled, the filling member undergoes fracture. 2. The vacuum pump according to claim 1 , wherein the filling member comprises an adhesive that bonds an inner circumferential surface of the engagement hole and an outer circumferential surface of the engagement shaft. 3. The vacuum pump according to claim 2 , wherein a groove for retaining the adhesive is formed on at least one of the engagement hole and the engagement shaft, the groove being ditched on the inner circumferential surface of the engagement hole or on the outer circumferential surface of the engagement shaft. 4. The vacuum pump according to claim 3 , wherein the rotor shaft is provided with the engagement shaft, the rotor is provided with the engagement hole, and the groove for retaining the adhesive is provided in the engagement shaft of the rotor shaft. 5. The vacuum pump according to claim 3 , wherein the rotor shaft is provided with the engagement hole, the rotor is provided with the engagement shaft, and the groove for retaining the adhesive is provided in the engagement hole for the rotor shaft. 6. The vacuum pump according to claim 3 , wherein the groove for retaining the adhesive is provided annularly along the inner circumferential surface of the engagement hole or along the outer circumferential surface of the engagement shaft in a circumferential direction thereof. 7. The vacuum pump according to claim 3 , wherein a plurality of the grooves for retaining the adhesive are provided annularly along the inner circumferential surface of the engagement hole or along the outer circumferential surface of the engagement shaft in a circumferential direction thereof. 8. The vacuum pump according to claim 3 , wherein the groove for retaining the adhesive is provided on both the inner circumferential surface of the engagement hole and the outer circumferential surface of the engagement shaft. 9. The vacuum pump according to claim 2 , wherein an escape for receiving the adhesive is provided on a foot portion of the engagement shaft. 10. The vacuum pump according to claim 1 , wherein the filling member comprises a ring-shaped thin plate. 11. The vacuum pump according to claim 1 , wherein the filling member has shear strength that is equal to or less than ⅕ of shear strength of the rotor. 12. The vacuum pump according to claim 1 , wherein the filling member is formed in a uniform thickness all around an outer periphery of the engagement shaft, so that a center of the engagement shaft and a central axis of the engagement hole are coaxial. 13. The vacuum pump according to claim 1 , wherein the filling member covers the outer periphery of the engagement shaft for an entire circumference of the engagement shaft, and wherein the filling members covers the entire inner periphery of the engagement hole for an entire circumference of the engagement hole.