Tool gripping mechanism

The invention claimed is: 1. A tool gripping mechanism, comprising: a tool holder to which a tool can be attached; and a shaft to which the tool holder is attached, the shaft being fixed to a rotary shaft of a spindle device, wherein the tool holder and the shaft include a first surface and a second surface, respectively, the first and second surfaces facing each other, at least two magnets are disposed in the first surface of the tool holder, and at least one of the at least two magnets has pole directions different from those of the other of the at least two magnets, magnets are disposed in the second surface of the shaft to be located at positions corresponding to the magnets disposed in the first surface and to generate magnetic forces in directions in which the magnets disposed in the first surface are attracted, less than half of the magnets disposed in the second surface of the shaft have a first magnetic pole facing the first surface of the tool holder, and more than half of the magnets disposed in the second surface of the shaft have a second magnetic pole facing the first surface of the tool holder, the second magnetic pole opposite to the first magnetic pole. 2. The tool gripping mechanism according to claim 1 , wherein the shaft is supported by the rotary shaft of the spindle device with a fluid bearing interposed therebetween. 3. The tool gripping mechanism according to claim 1 , wherein the tool holder and the shaft include paired tapered portions, respectively, such that the tool holder is coaxially attached to the shaft. 4. The tool gripping mechanism according to claim 1 , wherein the shaft includes a through hole at an end face opposite to a surface to which the tool holder is attached, the through hole axially passing through the end face toward the tool holder. 5. The tool gripping mechanism according to claim 1 , wherein the magnets disposed in the second surface of the shaft are axially symmetric with respect to the shaft. 6. The tool gripping mechanism according to claim 1 , wherein the magnets disposed in the second surface of the shaft are physically arranged symmetrically around an axis of the shaft. 7. The tool gripping mechanism according to claim 1 , wherein a magnet among the magnets disposed in the second surface of the shaft has a larger size than other magnets among the magnets disposed in the second surface of the shaft. 8. The tool gripping mechanism according to claim 7 , wherein the magnets disposed in the second surface of the shaft are physically arranged symmetrically around an axis of the shaft. 9. The tool gripping mechanism according to claim 1 , wherein a magnet among the magnets disposed in the second surface of the shaft has a stronger magnetic force than other magnets among the magnets disposed in the second surface of the shaft. 10. The tool gripping mechanism according to claim 9 , wherein the magnets disposed in the second surface of the shaft are physically arranged symmetrically around an axis of the shaft. 11. The tool gripping mechanism according to claim 1 , wherein the shaft is supported by the rotary shaft of the spindle device with an air bearing interposed therebetween, and the spindle device is an air turbine spindle. 12. The tool gripping mechanism according to claim 1 , wherein the tool holder and the shaft include paired first and second tapered portions, respectively, when the tool holder is coaxially attached to the shaft, one of the first and second tapered portions is received inside the other of the first and second tapered portions, the shaft includes an air vent extending in a radial direction of the shaft, and the air vent has an opening on an inclined surface of the second tapered portion, and configured to direct an air flow at a corresponding inclined surface of the first tapered portion when the tool holder is to be detached from the shaft.