Form measuring machine

What is claimed is: 1. A form measuring machine, comprising: a stem having a probe configured to make contact with a workpiece; a arm having one end portion joined to an end portion of the stem; a rotation fulcrum which acts as a fulcrum for a rotating motion of the stem and the arm; a detector configured to detect a displacement amount of the rotating motion of the arm; a biaser configured to impart on the stem and the arm a torque around an axis of the rotating motion in accordance with the displacement amount of the rotating motion; and a measuring force adjuster configured to impart on the stem and the arm a torque, in a reverse direction of the torque generated by the biaser, by an attraction force generated by a magnetic force between at least two magnets mutually arranged at opposite ends of the measuring force adjuster. 2. The form measuring machine according to claim 1 , wherein: the biaser is a crossed spring incorporated into the rotation fulcrum, and in a state where the crossed spring does not impart torque on the stem and the arm, the measuring force adjuster imparts on the stem and the arm a torque in a first direction such that the probe is pressed against the workpiece. 3. The form measuring machine according to claim 2 , wherein: in a case where the crossed spring imparts on the stem and the arm the torque in the first direction, the torque generated by the crossed spring is larger than the torque generated by the measuring force adjuster, and in a case where the crossed spring imparts on the stem and the arm a torque in a second direction which is opposite to the first direction, the torque generated by the crossed spring is smaller than the torque generated by the measuring force adjuster. 4. The form measuring machine according to claim 3 , wherein: the measuring force adjuster comprises: a first stabilizer joined to the arm; a second stabilizer whose relative position with respect to the rotation fulcrum is fixated; a first magnet fixed to the first stabilizer; a second magnet fixed to the second stabilizer such that an attraction force in a circumferential direction of the rotating motion is generated between the first magnet and the second magnet; a third magnet fixed to the first stabilizer; and a fourth magnet fixed to the second stabilizer such that an attraction force in the circumferential direction of the rotating motion is generated between the third magnet and the fourth magnet, and the third magnet is arranged so as to face the first magnet in the circumferential direction of the rotating motion via the first stabilizer. 5. The form measuring machine according to claim 4 , wherein: at least one of the first magnet and the second magnet has a tapered shape having a cross section which becomes smaller toward the other of the at least one of the first magnet and the second magnet, and at least one of the third magnet and the fourth magnet has a tapered shape having a cross section which becomes smaller toward the other of the at least one of the third magnet and the fourth magnet. 6. The form measuring machine according to claim 4 , wherein: at least one of the first magnet and the second magnet is a permanent magnet, and at least one of the third magnet and the fourth magnet is a permanent magnet. 7. The form measuring machine according to claim 4 , wherein at least one of a distance between the first magnet and the second magnet and a distance between the third magnet and the fourth magnet is changeable in accordance with measurement conditions and is constant when measuring the workpiece. 8. The form measuring machine according to claim 3 , wherein: the measuring force adjuster comprises: a fifth magnet joined to the arm, and a sixth magnet separated from the fifth magnet and arranged such that an attraction force in a direction intersecting with the circumferential direction of the rotating motion is generated between the fifth magnet and the sixth magnet, and whose relative position with respect to the rotation fulcrum is fixated, a distance between the fifth magnet and the sixth magnet is largest when a center portion of the sixth magnet in the circumferential direction of the rotating motion faces the fifth magnet, and the distance between the fifth magnet and the sixth magnet is smallest when a position of the sixth magnet facing the fifth magnet moves away from the fifth magnet in the circumferential direction of the rotating motion. 9. The form measuring machine according to claim 8 , further comprising magnetic fluid inserted between the fifth magnet and the sixth magnet. 10. The form measuring machine according to claim 8 , wherein at least one of the fifth magnet and the sixth magnet is a permanent magnet. 11. The form measuring machine according to claim 8 , wherein the distance between the fifth magnet and the sixth magnet is changeable in accordance with measurement conditions and is constant when measuring the workpiece. 12. The form measuring machine according to claim 8 , further comprising: a seventh magnet separated from the fifth magnet and arranged such that an attraction force in a direction intersecting with the circumferential direction of the rotating motion is generated between the fifth magnet and the seventh magnet, and whose relative position with respect to the rotation fulcrum is fixated, wherein: a distance between the fifth magnet and the seventh magnet is largest when the center portion of the seventh magnet in the circumferential direction of the rotating motion faces the fifth magnet, the distance between the fifth magnet and the seventh magnet is smallest when a position of the seventh magnet facing the fifth magnet moves away from the fifth magnet in the circumferential direction of the rotating motion, and the sixth magnet and the seventh magnet are mutually arranged on opposite ends of the measuring force adjuster with the fifth magnet therebetween. 13. The form measuring machine according to claim 12 , further comprising magnetic fluid inserted between the fifth magnet and the seventh magnet. 14. The form measuring machine according to claim 12 , wherein at least one of the fifth magnet and the seventh magnet is a permanent magnet. 15. The form measuring machine according to claim 12 , wherein the distance between the fifth magnet and the seventh magnet is changeable in accordance with measurement conditions and is constant when measuring the workpiece. 16. The form measuring machine according to claim 3 , wherein: one end of the biaser is fixed to the arm and a relative position of another end of the biaser with respect to the rotation fulcrum is fixated, and the biaser imparts on the arm a torque in a direction with which the probe is pushed against the workpiece, and the measuring force adjuster comprises: a third stabilizer joined to the arm; a fourth stabilizer whose relative position with respect to the rotation fulcrum is fixated; an eighth magnet fixed to the third stabilizer; and a ninth magnet fixed to the fourth stabilizer such that an attraction force in the circumferential direction of the rotating motion is generated between the eighth magnet and the ninth magnet. 17. The form measuring machine according to claim 16 , wherein at least one of the eighth magnet and the ninth magnet has a tapered shape having cross section which becomes smaller toward the other of the at least one of the eighth magnet and the ninth magnet. 18. The form measuring machine according to claim 16 , wherein at least one of the eighth magne