Actuator

The invention claimed is: 1. An actuator ( 1 ), having a housing ( 8 ), a coil ( 29 ), an armature ( 2 ) which interacts with a magnetostrictive tappet ( 30 ), and of which an armature plate ( 3 ) is arranged opposite an armature counterpiece ( 16 ), characterized in that the actuator ( 1 ) is additionally a solenoid and the magnetostrictive tappet and the solenoid share a magnetic circuit. 2. The actuator ( 1 ) as claimed in claim 1 , characterized in that the tappet ( 30 ) is arranged between the armature ( 2 ) and, on an opposite side, a sliding piece ( 31 ). 3. The actuator ( 1 ) as claimed in claim 2 , characterized in that the armature ( 2 ) and the sliding piece ( 31 ) are connected to one another by a spring which surrounds the tappet ( 30 ). 4. The actuator ( 1 ) as claimed in claim 3 , characterized in that the spring is a sleeve spring ( 32 ). 5. The actuator ( 1 ) as claimed in claim 3 , characterized in that the spring is a tension spring which exerts a pretension onto the tappet ( 30 ). 6. The actuator ( 1 ) as claimed in claim 2 , characterized in that the sliding piece ( 31 ) is cylindrical and is guided in a recess ( 33 ) in the housing ( 8 ). 7. The actuator ( 1 ) as claimed in claim 1 , characterized in that the coil ( 29 ) is arranged in the housing ( 8 ) so as to surround at least the tappet ( 30 ) and the spring. 8. The actuator ( 1 ) as claimed in claim 1 , characterized in that the armature ( 2 ) interacts with a coupler rod ( 21 ) opposite the tappet ( 30 ). 9. The actuator ( 1 ) as claimed in claim 8 , characterized in that the coupler rod ( 21 ) is guided through an opening in the armature counterpiece ( 16 ). 10. A fuel injector ( 5 ) comprising an actuator ( 1 ) as claimed in claim 1 . 11. A method for operating an actuator, having a housing ( 8 ), a coil ( 29 ), an armature ( 2 ) which interacts with a tappet ( 30 ) and a spring and of which an armature plate ( 3 ) is arranged opposite an armature counterpiece ( 16 ), wherein the tappet is magnetostrictive, wherein, when current is applied to the coil ( 29 ), a magnetic flux forms across the armature ( 2 ), the tappet ( 30 ), a sliding piece ( 31 ) and the housing ( 8 ), the magnetostrictive tappet ( 30 ) being extended by said magnetic flux, and wherein, after a limit extension is reached, an attraction force between the armature plate ( 3 ) and the armature counterpiece ( 16 ) is large enough to move the armature ( 2 ), together with the tappet ( 30 ) and the sliding piece ( 31 ), to bear against the armature counterpiece ( 16 ) in the manner of a solenoid. 12. An actuator having a housing, a single coil, an armature which interacts with a magnetostrictive tappet, and a spring, and of which an armature plate is arranged opposite an armature counterpiece, and wherein the coil is configured to act on both the magnetostrictive tappet and the armature. 13. The actuator of claim 12 , wherein the actuator is configured such that when current is applied to the coil, a magnetic flux forms across the armature, the magnetostrictive tappet, and the housing, the magnetostrictive tappet being extendable by said magnetic flux, and wherein the actuator is further configured such that after a limit extension is reached, the attraction force between the armature plate and the armature counterpiece is sufficient to move the armature, together with the magnetostrictive tappet, to bear against the armature counterpiece.