Electromagnetic actuator

The invention claimed is: 1. An electromagnetic actuator comprising: multiple solenoid units each including: a case which is a magnetic body; a core provided in the case, the core being a magnetic body; a boss provided for the case and facing the core in an axis direction of the core, the boss being a magnetic body; a coil provided around an outer periphery of the core; and a plunger provided along an inner periphery of the core and to move by receiving a magnetic attraction force in the axis direction, the magnetic attraction force acting between the plunger and the boss by a magnetic flux generated by passage of a current through the coil; and a magnetic sensor circuit including: a sensor magnet provided for each of the solenoid units; a sensor core through which a magnetic flux of the sensor magnet flows, the sensor core being a magnetic body; and a single magnetic sensor to detect a magnetic flux flowing through the sensor core and changing dependently on a position of the plunger, wherein the sensor core is arranged in a plane which is positioned on a side of an opposite end of the plunger from the boss and which is perpendicular to a direction of movement of the plunger, and the magnetic sensor is arranged at a position in the plane, the position being apart from a magnetic path of a leakage flux which is generated by the passage of a current through the coil and flows through the sensor core. 2. The electromagnetic actuator according to claim 1 , wherein the sensor magnet is fixed to the sensor core on the side of the opposite end of the plunger from the boss. 3. The electromagnetic actuator according to claim 1 , wherein the sensor magnet is attached to the opposite end of the plunger from the boss, and moves together with the plunger. 4. The electromagnetic actuator according to claim 2 , wherein the sensor magnet has a cylindrical shape. 5. The electromagnetic actuator according to claim 2 , wherein the sensor magnet has a prismatic shape. 6. The electromagnetic actuator according to claim 4 , wherein a diameter with respect to an end surface of the sensor magnet is larger than a width of a surface of the sensor core, the surface facing an outer peripheral part of the sensor magnet. 7. The electromagnetic actuator according to claim 1 , wherein the sensor core includes: a first sensor core unit having three or more legs; and a second sensor core unit having three or more legs and arranged with respect to the first sensor core unit in such a way that one leg out of the three or more legs of the first sensor core unit and one leg out of the three or more legs of the second sensor core unit are made to face each other with the magnetic sensor being sandwiched between the legs facing each other, and a remaining leg out of the legs of the first sensor core unit and a remaining leg out of the legs of the second sensor core unit are made to face each other with the sensor magnet being sandwiched between the remaining legs facing each other. 8. The electromagnetic actuator according to claim 7 , wherein a facing area between the legs facing each other is smaller than that between outer the remaining legs facing each other. 9. The electromagnetic actuator according to claim 7 , wherein the sensor core is formed of a laminated steel plate. 10. The electromagnetic actuator according to claim 3 , wherein the sensor magnet has a cylindrical shape. 11. The electromagnetic actuator according to claim 3 , wherein the sensor magnet has a prismatic shape. 12. The electromagnetic actuator according to claim 3 , wherein the sensor magnet is a multipole magnet, and a direction of a magnetic flux flowing through the sensor core changes by the multipole magnet moving together with the plunger.