Electromagnetic actuator with intermediate position

The invention claimed is: 1. An electromagnetic actuator ( 10 ) comprising energizable stationary spool elements ( 1 ) having a stationary core area ( 2 ) assigned thereto, an anchor unit ( 3 ) which is moveable relative to the spool elements ( 1 ) and the core area ( 2 ) and has permanent magnet elements ( 4 ) and a pestle ( 5 ), the anchor unit ( 3 ) being moveable along a longitudinal movement axis (L) into at least two actuating positions (A,B), and the actuator ( 10 ) comprising retaining elements ( 7 ) which are spaced apart from the core area, are permanent-magnetically flux-conductive and are formed in such a manner-that, in a third actuating position (C) between the first and second actuating position (A,B) for interacting with the permanent magnet elements ( 4 ) of the anchor unit ( 3 ), the anchor unit ( 3 ) is retained in the third actuating position (C) between the first and second actuating position (A,B) and/or exerts a predefined force potential towards the actuating partner, and wherein the pestle ( 5 ) is disposed on one end of the anchor unit ( 3 ) and has a free end section ( 5 a ) for engaging in an actuating partner comprising a guide groove ( 11 a , 11 b ) of a cam shaft ( 11 ). 2. The device according to claim 1 , the anchor unit ( 3 ) being formed in such a manner for interacting with the spool elements ( 1 ) and the core area ( 2 ) that the anchor unit ( 3 ) is moved from the first actuating position (A) to the second or third actuating position (B,C), by choosing a corresponding duration of energization, as a reaction to a selective energization of the spool element ( 1 ). 3. The device according to claim 1 , the third actuating position (C) being kept stable without energy in an unenergized state of the spool elements ( 1 ) via an interaction between the permanent magnet element ( 4 ) and the retaining elements ( 4 ). 4. The device according to claim 1 , the retaining elements ( 7 ) being disposed between the first and second actuating position (A,B) and coaxially to the permanent magnet elements ( 4 ) along a movement section of the permanent magnet elements ( 4 ) along the longitudinal movement axis (L). 5. The device according to claim 1 , the retaining elements ( 7 ) interacting with the permanent magnet elements ( 4 ) in such a manner that a movement of the anchor unit ( 3 ) along the longitudinal movement axis (L) from the first retracted actuating position (A) to the second extracted actuating position (B) when nearing or passing through the third actuating position (C) is dampened and/or stopped. 6. The device according to claim 1 , the retaining elements ( 7 ) for interacting with the permanent magnet elements ( 4 ) of the anchor unit ( 3 ) being realized in such a manner that the anchor unit ( 3 ) exerts an essentially homogeneous force potential toward the actuating partner ( 11 ) via a predefined stroke section (H 3 ) between the first and second actuating positions (A,B). 7. The device according to claim 6 , the third actuating position (C) being located in the predefined stroke section (H 3 ) and being defined by the engagement of the pestle ( 5 ) in a groove bottom ( 11 b ) of the actuating partner ( 11 ). 8. The device according to claim 6 , the exerted force potential ranging from 0.5 N to 5 N. 9. The device according to claim 6 , the predefined stroke section (H 3 ) has a hub of 0.5 mm to 2.5 mm. 10. The device according to claim 1 , the retaining elements ( 7 ) comprising an essentially cylindrical flux-conductive element having a constant inner diameter and outer diameter, which surrounds the permanent magnet elements ( 4 ) circumferentially in the third actuating position (C). 11. The device according to claim 1 , the retaining elements ( 7 ) comprising an essentially cylindrical flux-conductive element having a constant outer diameter and varying inner contour, having an inner diameter becoming reduced in the direction of movement toward the second actuating position (B). 12. The device according to claim 1 , the retaining elements ( 7 ) having an extension (h 1 ) along the longitudinal movement axis (L) which is essentially the same or greater than the extension of the permanent magnet elements ( 4 ) towards the longitudinal movement axis (L). 13. The device according to claim 1 , the radial distance (r) between an outer circumference surface of the permanent magnet elements ( 4 ) and an inner circumference surface of the retaining elements ( 7 ) being between 0.2 mm and 1.4 mm. 14. The device according to claim 1 , the retaining elements ( 7 ) interacting in such a manner with the permanent magnet elements ( 4 ) that a movement of the anchor unit ( 3 ) along the longitudinal movement axis (L) from the first retracted actuating position (A) to the third intermediate actuating position (C) is supported and/or accelerated at least partially and along a predefined stroke section (H 1 ) of the anchor unit ( 3 ). 15. The device according to claim 1 , the device ( 10 ) not comprising energy storage means or spring elements between the anchor unit ( 3 ) and the core area ( 2 ). 16. The device according to claim 1 , the device ( 10 ) comprising a guide element ( 6 ) which is disposed essentially opposite the core area ( 2 ), which is made of flux-conductive material and in which the anchor unit is guided by means of the pestle ( 5 ). 17. The device according to claim 16 , the retaining elements ( 7 ) being at a distance to or adjacent to the guide element ( 6 ). 18. The device according to claim 1 , the first retracted actuating position (A) being kept stable without energy via an interaction between the permanent magnet elements ( 4 ) and the core area ( 2 ) in the unenergized state of the spool element ( 1 ) and/or, the second extracted actuating position (B) being kept stable without energy via an interaction between the permanent magnet element ( 4 ) and a guide element ( 6 ) of the device ( 10 ) in the unenergized state of the spool element ( 1 ). 19. The device according to claim 1 , the permanent magnet elements ( 4 ) having disc-shaped permanent magnets. 20. A system comprising an electromagnetic actuator according to claim 1 and an assigned actuating partner ( 11 ), comprising a sliding cam, comprising at least one first guide groove ( 11 a ), wherein the first guide groove ( 11 a ) is an S-groove, and a guide groove ( 11 b ), wherein the guide groove ( 11 b ) is an X-groove, which is positioned radially higher on the actuating partner in relation thereto. 21. The device according to claim 1 , wherein the free end section ( 5 a ) is for engaging in an actuating partner comprising a guide groove ( 11 a , 11 b ) of a cam shaft ( 11 ), and wherein the anchor unit ( 3 ) is movable along the longitudinal movement axis (L) into a first retracted actuating position (A) and a second extended actuating position (B).