Electrical switching system for a three-phase network

The invention claimed is: 1. An electrical system for a three-phase alternating current network having first, second, and third phases, the electrical system comprising first, second, and third transformers each with a primary side and a secondary side for the respective phases of the alternating current network, each primary side or secondary side of each transformer having a main winding and a regulating winding for the respective phase; respective separate first, second and third transformer housings holding the first, second, and third transformers; and a switching assembly connected to the transformers and designed to connect each regulating winding with the main winding of the respective transformer, the switching assembly being in one of the transformer housings or in its own switch housing; a respective first, second, or third subassembly for the first, second and third phases to be switched, each subassembly having respective movable and fixed contacts that are selectively switchable by the respective movable switch contacts, each movable switch contact being mounted on a switching mechanism; and a first electric line, a second electric line, and a third electric line conductively connecting the contacts in each subassembly such that the fixed and movable contacts of the various subassemblies are each contacted once by the first, second, and third electric line and at least one of the regulating windings is switched to a respective one of the main windings during operation of the electrical system. 2. The electrical system according to claim 1 , further comprising: an insulation medium filling at least one of the transformer housings or the switch housing. 3. The switching assembly defined in claim 1 for switching one of the regulating windings during transformer operation to a respective one of the three main windings of a phase, the switching assembly further comprising: a respective first, second, or third subassembly for each phase to be switched, each subassembly having respective movable and fixed contacts; a switching mechanism carrying the movable switch contacts and engageable with the fixed contacts for electively switching same; and a first electric line, a second electric line, and a third electric line conductively connecting the fixed and movable contacts in each subassembly such that the fixed and movable contacts of the subassemblies are each contacted once by the first, second, and third electric line. 4. The switching assembly according to claim 1 , further comprising: a first wiring connecting the first main winding of the first phase with the first subassembly; a second wiring connecting the second main winding with the second subassembly; and a third wiring connecting the third main winding with the third subassembly, the first winding or the second winding or the third winding being conductively connectable with the switching mechanism of the first main winding or of the second main winding or of the third main winding. 5. The switching assembly according to claim 1 , wherein each of the three subassemblies has a conductive selector bridge connected with the respective main winding via the wiring. 6. The switching assembly according to claim 1 , wherein the first electric line connects a respective contact of each of the subassemblies, the second electric line connects a respective contact of each of the subassemblies, and the third electric line connects a respective contact of each of the subassemblies. 7. The switching assembly according to claim 1 , further comprising: a common structure of insulation material of a plurality of contact bars in all of the subassemblies and at least some of the contact bars carry the fixed contacts. 8. The switching assembly according to claim 1 , wherein the switching mechanism is or comprises a rotatable switching shaft on which the corresponding subassemblies are centrally arranged. 9. The switching assembly according to claim 5 , wherein each selector bridge is an internal selector bridge that has a first arm, a second arm, and a third arm that are each arranged at an angle to each other; and the first arm is connected with the respective main winding via the respective wiring. 10. The switching assembly according to claim 8 , wherein the subassemblies are arranged one above the other in the direction of an axis of the switching shaft. 11. The switching assembly according to claim 1 , wherein each movable switch contact is arc-shaped. 12. The switching assembly according to claim 1 , wherein at least one of the switch contacts forms a circular arc such that the one switch contact contacts three consecutive contacts of the respective subassembly via contact fingers of the contacts. 13. The switching assembly according to claim 8 , further comprising: a contact support at least one of the switch contacts is fastened to one contact support of insulation material that is in turn non-rotatably connected with the switching shaft. 14. An electrical system for a three-phase alternating current network having first, second, and third phases, the electrical system comprising first, second, and third transformers each with a primary side and a secondary side for the respective phases of the alternating current network, each primary side or secondary side of each transformer having a main winding and a regulating winding for the respective phase; respective separate first, second and third transformer housings holding the first, second, and third transformers; a switching assembly connected to the transformers and designed to connect each regulating winding with the main winding of the respective transformer, the switching assembly being in one of the transformer housings or in its own switch housing; a respective first, second, or third subassembly for the first, second and third phases to be switched, each subassembly having respective movable and fixed contacts that are selectively switchable by the respective movable switch contacts, each movable switch contact being mounted on a switching mechanism; and a first electric line, a second electric line, and a third electric line conductively connecting the contacts in each subassembly such that the fixed and movable contacts of the various subassemblies are each contacted once by the first, second, and third electric line and at least one of the regulating windings is switched to a respective one of the main windings during operation of the electrical system, at least one of the switch contacts forming a circular arc such that the one switch contact contacts three consecutive contacts of the respective subassembly via contact fingers of the contacts, the switch contact of the first subassembly being offset angularly by 120° to the switch contact of the second subassembly and the switch contact of the second subassembly being also offset angularly by 120° to the switch contact of the third subassembly. 15. A method of operating a switching assembly comprising the steps of: moving a switching mechanism of a first subassembly, of a second subassembly, and of a third subassembly; positioning a movable switch contact in each subassembly between two different and consecutive arms of a selector bridge of each of the subassemblies by moving the switching mechanism in each subassembly; and orienting the switch contacts such that the respective main winding is electrically conductively contacted in two subassemblies via an arm of the selector bridge and via a wiring by moving the switching mechanism in connection with the switch contacts, the switching mechanism is a switc