Apparatus and method for manufacturing field-pole magnet

The invention claimed is: 1. A field-pole magnet manufacturing apparatus for fracturing a magnet, the magnet being provided with a cutout groove on one surface thereof, the field-pole magnet manufacturing apparatus comprising: a pair of dies defining a lower tool on which the magnet is fixed when fracturing the magnet, the pair of dies being spaced from each other; a punch of an upper tool configured to move toward the magnet fixed on the pair of dies in contact with the magnet; a projection provided on a bottom surface of the punch facing the magnet, the projection being provided only at a position facing a central position of the magnet in a width direction of the magnet, the width direction of the magnet being perpendicular to a direction from one die of the pair of dies to the other die of the pair of dies and equal to a direction of the cutout groove, wherein the projection is structured in relation with a movement of the punch to press a surface of the magnet opposite to the one surface of the magnet in a state in which the magnet is fixed on the pair of dies such that the one surface of the magnet faces the pair of dies defining the lower tool, and the cutout groove is located between the pair of dies, and wherein only the projection comes into contact with the magnet, without any portion of the punch other than the projection coming into contact with the magnet. 2. The field-pole magnet manufacturing apparatus according to claim 1 , wherein the projection comprises two projections that are symmetric with respect to the central position of the magnet in the width direction, and the punch is supported swingably with respect to the upper tool around a midpoint between the two projections. 3. The field-pole magnet manufacturing apparatus according to claim 2 , wherein the two projections are arranged at central positions of sections obtained by bisecting a width of the magnet. 4. The field-pole magnet manufacturing apparatus according to claim 1 , wherein the punch has a punch support member and a pair of punches, the punch support member being swingable with respect to the upper tool around a central position in the width direction of the magnet, and the pair of punches being swingable with respect to the punch support member around central positions of sections obtained by bisecting a width of the magnet, and the projection comprises two projections provided in each of the pair of punches, each of the two projections being arranged at central positions of sections obtained by quadrisecting the width of the magnet. 5. A field-pole magnet manufacturing method for fracturing a magnet fixed on a pair of dies serving as a lower tool by causing a punch of an upper tool to press the magnet while the punch is in contact with the magnet, the magnet being provided with a cutout groove on one surface thereof, the method comprising: arranging the pair of dies so as to be spaced from each other; providing a punch of an upper tool having a bottom surface facing the magnet and comprising a projection provided only at a position facing a central position of the magnet in a width direction of the magnet, the width direction of the magnet being perpendicular to a direction from one die of the pair of dies to the other die of the pair of dies and equal to a direction of the cutout groove; fixing the magnet on the pair of dies such that the one surface thereof faces the pair of dies and the cutout groove is located between the pair of dies; causing the projection of the punch to come into contact with an upper surface of the magnet while causing any portion of the punch other than the projection to be out of contact with the upper surface of the magnet, the upper surface of the magnet being opposite from the one surface of the magnet; driving the punch to press the projection against the magnet so as to form a crack at a site of the magnet that is in contact with the projection; and fracturing the magnet by propagation of the formed crack in the width direction. 6. The field-pole magnet manufacturing method according to claim 5 , wherein the punch, which is provided with the projection that is symmetric with respect to the central position of the magnet in the width direction and which comprises a plurality of projections, is supported swingably with respect to the upper tool around a midpoint between projections located at both ends. 7. A field-pole magnet manufacturing apparatus for fracturing a magnet, the magnet being provided with a cutout groove on one surface thereof, the field-pole magnet manufacturing apparatus comprising: a pair of dies on which the magnet is fixed, the pair of dies being spaced from each other; a punch configured to move toward the magnet fixed on the pair of dies; and a projection provided on a bottom surface of the punch facing the magnet, wherein the projection is provided only at a position facing a central position of the magnet in a width direction of the magnet, wherein the width direction is horizontally perpendicular to a direction from one die of the pair of dies to the other die of the pair of dies and equal to a direction of the cutout groove, and wherein the projection is structured to, in relation with movement of the punch, press a surface of the magnet opposite to the one surface of the magnet in a state where the magnet is fixed on the pair of dies such that the cutout groove faces a space between the pair of dies, and wherein only the projection comes into contact with the magnet, without any portion of the punch other than the projection coming into contact with the magnet. 8. A field-pole magnet manufacturing method for fracturing a magnet, the magnet being provided with a cutout groove on one surface thereof, the method comprising: arranging a pair of dies so as to be spaced from each other; fixing the magnet on the pair of dies such that the one surface thereof faces the pair of dies and the cutout groove is located between the pair of dies; moving a punch toward the magnet, the punch having a bottom surface facing the magnet on which a projection is provided; driving the punch to press the projection against the magnet so as to form a crack at a site of the magnet that is in contact with the projection; and fracturing the magnet by propagation of the formed crack in a width direction, wherein the width direction of the magnet is horizontally perpendicular to a direction from one die of the pair of dies to the other die of the pair of dies and equal to a direction of the cutout groove, wherein the projection is provided only at a position facing a central position of the magnet in the width direction of the magnet, and wherein only the projection comes into contact with the magnet, without any portion of the punch other than the projection coming into contact with the magnet.