Magnetic force sensor

The invention claimed is: 1. A force sensor for obtaining a force applied to an action portion comprising: the action portion supported by a supporting member; a first magneto-electric transducer and a second magneto-electric transducer fixed to the action portion; a magnetic flux generating source disposed so as to face the first magneto-electric transducer and the second magneto-electric transducer; a third magneto-electric transducer disposed at a fixed position with respect to the magnetic flux generating source for obtaining a change in a magnetic field, wherein the force sensor obtains forces applied to the action portion in at least two different axes directions simultaneously, from changes in output values of the first magneto-electric transducer, the second magneto-electric transducer and the third magneto-electric transducer, and wherein a relative position of the first magneto-electric transducer and the second magneto-electric transducer with respect to the magnetic flux generating source and the third magneto-electric transducer is changed by the force applied to the action portion. 2. The force sensor according to claim 1 , further comprising an adjustor that feeds back an operational result of the operational processing section to the first magneto-electric transducer, wherein a feedback from the adjuster that cancels an offset of the first magneto-electric transducer is performed on the output of the first magneto-electric transducer, the offset of the first magneto-electric transducer being calculated on the basis of a difference between a previously set reference voltage value and a voltage value of the output of the third magneto-electric transducer for when an external force is not applied to the action portion. 3. The force sensor according to claim 1 , further comprising an adjuster that feeds back an operational result of the operational processing section to the first magneto-electric transducer, wherein, when a magnetic field that is generated by the magnetic flux generating source is B, and a variation of the magnetic field, generated by the magnetic flux generating source, calculated on the basis of the output of the third magneto-electric transducer is ΔB, a feedback from the adjuster for causing the output of the first magneto-electric transducer to be a (B−ΔB)/B-fold output is performed. 4. The force sensor according to claim 1 , wherein the third magneto-electric transducer is disposed near one of magnetic poles of the magnetic flux generating source, and the first magneto-electric transducer and the second magneto-electric transducer are provided near the other magnetic pole of the magnetic flux generating source. 5. The force sensor according to claim 1 , wherein the first magneto-electric transducer is fixed together with a first substrate for mounting the first magneto-electric transducer to the action portion at a position facing a face of one of magnetic poles of the magnetic flux generating source, the second magneto-electric transducer is fixed together with a second substrate for mounting the second magneto-electric transducer to the supporting member at a position facing a face of the other magnetic pole of the magnetic flux generating source, and the magnetic flux generating source is fixed to the supporting member via the second substrate.