Three-level converter arrangement and connecting arrangement for same

What is claimed is: 1. A connecting arrangement for a three-level converter arrangement, comprising: a first, second, and third primary connection rail ( 10 , 30 , 50 ) which are each in the form of a shaped metal body; a first, second, and third cooperative connecting rail ( 20 , 40 , 60 ) which are each in the form of a shaped metal body; wherein respective said respective primary connection rails ( 10 , 30 , 50 ), further comprise: respectively a first, second, and third primary line sections ( 12 , 32 , 52 ) and respectively a first, second, and third primary connection section ( 14 , 34 , 54 ) which, for their parts, have respectively a primary connection means ( 16 , 36 , 56 ); wherein respective said cooperative connecting rails ( 20 , 40 , 60 ) further comprise: respectively a first, second, and third cooperative line section ( 22 , 42 , 62 ) and respectively a first, second, and third cooperative connecting section ( 24 , 44 , 64 ) which fir their parts, have respectively an associated first, second, and third cooperative connecting means ( 26 , 46 , 66 ); wherein each respective primary connection sections ( 14 , 34 , 54 ) forms, with the respective cooperative connecting means ( 26 , 46 , 66 ), an electrically conductive connection between each of the respectively associated primary connection sections ( 14 , 34 , 54 ) to the respectively associated cooperative connecting section ( 24 , 44 , 64 ); wherein the respective primary line sections of the connection rails ( 10 , 30 , 50 ) and the cooperative connecting rails ( 20 , 40 , 60 ) are situated one above the other forming a stack; wherein the first cooperative connecting section ( 24 ), covers the first primary connection section ( 14 ) in projection in a normal direction (N) of the first primary connection section ( 14 ); wherein the second cooperative connecting section ( 44 ), covers the first primary connection section ( 14 ) and the second primary connection section ( 34 ) in projection in the normal direction (N) of the second primary connection section ( 34 ), and wherein the third cooperative connecting section ( 64 ), covers the second primary connection section ( 34 ) and the third primary connection section ( 54 ) in projection in the normal direction (N) of the third primary connection section ( 54 ). 2. The connecting arrangement, according to claim 1 , wherein: each of the respective primary connection means ( 16 , 36 , 56 ) is in the form of a threaded pin, and each of the respective cooperative connecting means ( 26 , 46 , 66 ) is in a form of a screw nut which fits each respective said threaded pin. 3. The connecting arrangement, according to claim 2 , wherein: each of the primary connection rails ( 10 , 30 , 50 ) are each in the form of a flat and unbent shaped metal body. 4. The connecting arrangement, according to claim 3 , wherein: each of the cooperative connecting rails ( 20 , 40 , 60 ) are each in the form of a flat and unbent shaped metal body. 5. The connecting arrangement, according to claim 2 , wherein: each of the primary connection sections ( 14 , 34 , 54 ) is arranged in alignment with the primary line section ( 12 , 32 , 52 ) of the respective primary connection rail ( 10 , 30 , 50 ). 6. The connecting arrangement, according to claim 5 , wherein: the second primary connection section ( 34 ) is recessed in relation to the first primary connection section ( 14 ) in the direction of the associated second primary line section ( 32 ), and wherein the third primary connection section ( 54 ) is recessed in relation to the second primary connection section ( 54 ) in the direction of the associated primary line section ( 52 ). 7. The connecting arrangement, according to claim 5 , wherein: the each said cooperative connecting section ( 24 , 44 , 64 ) is arranged to project away from each said respective primary line section ( 12 , 32 , 52 ) of each respective said primary connection rail ( 10 , 30 , 50 ) at a right angle. 8. The connecting arrangement, according to claim 7 , wherein: the second cooperative connecting section ( 44 ) has a second recess ( 442 ), for arrangement of the first primary connecting means ( 26 ), in alignment with the first primary connection means ( 16 ), and wherein the third cooperative contact section ( 64 ) has a second recess ( 642 ), for arrangement of the second cooperative contact means ( 46 ), in alignment with the second primary connection means ( 36 ). 9. The connecting arrangement, according to claim 8 , wherein: the respective primary connection rails ( 10 , 30 , 50 ) and associated cooperative connecting rails ( 20 , 40 , 60 ) are respectively electrically insulated from one another by respective interspaced insulating means ( 100 , 300 ); and each said interspaced insulating means ( 100 , 300 ) is in a firm of one of an insulating film and an insulating sheathing. 10. The connecting arrangement, according to claim 9 , wherein: each cooperative connecting rail ( 20 , 40 , 60 ), for its part, has a cooperative connection section ( 25 , 45 , 65 ) with a respective cooperative connection means ( 27 , 47 , 67 ). 11. The connecting arrangement, according to claim 2 , wherein: the first primary connection rail ( 10 ) and therefore also the first cooperative connecting rail ( 20 ) carry one of a negative and a positive potential; the third primary connection rail ( 50 ) and therefore also the third cooperative connecting rail ( 60 ) carry the other of said positive and said negative potential; and the second primary connection rail ( 30 ) and therefore also the second cooperative connecting rail ( 40 ) carry a neutral potential. 12. The converter arrangement, according to claim 1 , further comprising: a three-level power semiconductor system ( 70 ). 13. The converter arrangement, according to claim 12 , wherein: the three-level power semiconductor system ( 70 ), further comprises: a three-level power semiconductor module. 14. The converter arrangement, according to claim 13 , wherein: the three-level power semiconductor system ( 70 ), further comprises: at least one of a capacitor device and a driver device.