Slip ring unit with cooling fan insulating segment

What is claimed is: 1. A slip ring unit for an electrical machine, said slip ring unit comprising: slip rings disposed on supports having axial boreholes for guiding cooling air therethrough; and at least one electrically insulating segment arranged between adjacent ones of the slip rings, with at least axially outer-lying ones of the electrically insulating segments having sections shaped as a fanwheel operating as a fan distributing the cooling air as a twin air flow through the boreholes to parts of the electrical machine requiring cooling. 2. The slip ring unit of claim 1 , wherein the boreholes are configured to conduct the cooling air flow to a carbon brush unit interacting with the slip ring unit. 3. The slip ring unit of claim 1 , wherein the shaped sections of the insulating segments are configured such that the fanwheel interacts with the boreholes of the slip rings. 4. The slip ring unit of claim 1 , wherein the boreholes are provided for enlarging a cooling surface of the slip ring unit. 5. An electrical machine, comprising: a carbon brush system; and a slip ring unit for accommodating the carbon brush system, said slip ring unit comprising slip rings disposed on supports having axial boreholes for guiding cooling air therethrough; and at least one electrically insulating segment arranged between adjacent ones of the slip rings, with at least axially outer-lying ones of the electrically insulating segments having sections shaped as a fanwheel operating as a fan distributing the cooling air as a twin air flow through the boreholes to parts of the electrical machine requiring cooling. 6. The electrical machine of claim 5 , wherein the carbon brush system includes a carbon brush unit interacting with the slip ring unit, said boreholes of the slip rings being configured to conduct the cooling air flow to the carbon brush unit of the carbon brush system. 7. The electrical machine of claim 5 , wherein the shaped sections of the insulating segments are configured such that the fanwheel interacts with the boreholes of the slip rings. 8. The electrical machine of claim 5 , wherein the boreholes are provided for enlarging a cooling surface of the slip ring unit. 9. A wind turbine, comprising an electrical machine, said electrical machine slip rings disposed on supports having axial boreholes for guiding cooling air therethrough; and at least one electrically insulating segment arranged between adjacent ones of the slip rings, with at least axially outer-lying ones of the electrically insulating segments having sections shaped as a fanwheel operating as a fan distributing the cooling air as a twin air flow through the boreholes to parts of the electrical machine requiring cooling. 10. The wind turbine of claim 9 , wherein the carbon brush system includes a carbon brush unit interacting with the slip ring unit, said boreholes of the slip rings being configured to conduct the cooling air flow to the carbon brush unit of the carbon brush system. 11. The wind turbine of claim 9 , wherein the shaped sections of the insulating segments are configured such that the fanwheel interacts with the boreholes of the slip rings. 12. The wind turbine of claim 9 , wherein the boreholes are provided for enlarging a cooling surface of the slip ring unit.