Slip ring unit for a rotor of an electrically excited rotary dynamo-electric machine

What is claimed is: 1. A slip ring unit for an electrically excited rotor of a rotary dynamo-electric machine, said slip ring unit comprising: an electrical terminal protruding axially from an end face of the slip ring unit and having a contact point; a circumferential slip contact surface electrically connected to the electrical terminal; an insulation element disposed adjacent to the slip contact surface; end plates axially retaining the circumferential slip contact surface and the insulation element; an electrically insulated support element arranged on an end face of the slip ring unit and having a cross section which substantially matches a cross section of the slip ring unit, said support element disposed in axial surrounding relation to the electrical terminal and radially supporting the electrical terminal; and an insulation surrounding the electrical terminal such that the contact point remains exposed. 2. The slip ring unit of claim 1 , wherein the electrical terminal is a bolt. 3. The slip ring unit of claim 1 , wherein the support element is configured to lengthen a leakage path. 4. The slip ring unit of claim 3 , wherein the leakage path is lengthened at a radially outer circumferential surface of the support element. 5. The slip ring unit of claim 3 , wherein the support element has circumferential ribs for lengthening the leakage path. 6. A rotary dynamo-electric machine, comprising: an electrically excited rotor; and a slip ring unit disposed on an axial extension of the rotor and including an electrical terminal protruding axially from an end face of the slip ring unit and having a contact point, a circumferential slip contact surface electrically connected to the electrical terminal, an insulation element disposed adjacent to the slip contact surface, end plates axially retaining the circumferential slip contact surface and the insulation element, an electrically insulated support element arranged on an end face of the slip ring unit and having a cross section which substantially matches a cross section of the slip ring unit, said support element disposed in axial surrounding relation to the electrical terminal and radially supporting the electrical terminal, and an insulation surrounding the electrical terminal such that the contact point remains exposed. 7. The dynamo-electric machine of claim 6 , wherein the rotor and the slip ring unit rotate about a same axis. 8. The dynamo-electric machine of claim 6 , wherein the electrical terminal is a bolt. 9. The dynamo-electric machine of claim 6 , wherein the support element is configured to lengthen a leakage path. 10. The dynamo-electric machine of claim 6 , wherein the leakage path is lengthened at a radially outer circumferential surface of the support element. 11. The dynamo-electric machine of claim 6 , wherein the support element has circumferential ribs for lengthening the leakage path. 12. A wind power generator, comprising a rotary dynamo-electric machine, said rotary dynamo-electric machine comprising an electrically excited rotor, and a slip ring unit disposed on an axial extension of the rotor and including an electrical terminal protruding axially from an end face of the slip ring unit and having a contact point, a circumferential slip contact surface electrically connected to the electrical terminal, an insulation element disposed adjacent to the slip contact surface, end plates axially retaining the circumferential slip contact surface and the insulation element, an electrically insulated support element arranged on an end face of the slip ring unit and having a cross section which substantially matches a cross section of the slip ring unit, said support element disposed in axial surrounding relation to the electrical terminal and radially supporting the electrical terminal, and an insulation surrounding the electrical terminal such that the contact point remains exposed. 13. The wind power generator of claim 12 , wherein the rotor and the slip ring unit rotate about a same axis. 14. The wind power generator of claim 12 , wherein the electrical terminal is a bolt. 15. The wind power generator of claim 12 , wherein the support element is configured to lengthen a leakage path. 16. The wind power generator of claim 12 , wherein the leakage path is lengthened at a radially outer circumferential surface of the support element. 17. The wind power generator of claim 12 , wherein the support element has circumferential ribs for lengthening the leakage path. 18. A wind power installation, comprising a wind power generator, said wind power generator comprising a rotary dynamo-electric machine, said rotary dynamo-electric machine comprising an electrically excited rotor, and a slip ring unit disposed on an axial extension of the rotor and including an electrical terminal protruding axially from an end face of the slip ring unit and having a contact point, a circumferential slip contact surface electrically connected to the electrical terminal, an insulation element disposed adjacent to the slip contact surface, end plates axially retaining the circumferential slip contact surface and the insulation element, an electrically insulated support element arranged on an end face of the slip ring unit and having a cross section which substantially matches a cross section of the slip ring unit, said support element disposed in axial surrounding relation to the electrical terminal and radially supporting the electrical terminal, and an insulation surrounding the terminal such that the contact point remains exposed.