Spar cap assembly for a wind turbine rotor blade

What is claimed is: 1. A spar cap assembly for a wind turbine rotor blade, the spar cap assembly comprising: a spar cap reinforced with carbon fibers; a lightning conductor arranged so as to run along said spar cap; at least one potential-equalizing element configured to establish an electrical connection between said spar cap and said lightning conductor; and, said carbon fibers of said spar cap, said lightning conductor and said at least one potential-equalizing element being embedded in a common polymer matrix and being configured as a prefabricated assembly for integration into a wind turbine rotor blade half-shell after a curing of the polymer matrix. 2. The spar cap assembly of claim 1 , wherein: said spar cap defines a longitudinal direction; and, said at least one potential-equalizing element is arranged obliquely with respect to said longitudinal direction. 3. The spar cap assembly of claim 1 , wherein: said carbon fibers define a first and a second layer thereof; said at least one potential-equalizing element has a portion lying against said first layer; and, said second layer covers said portion. 4. The spar cap assembly of claim 1 further comprising: a layer of further carbon fibers; said carbon fibers defining a first layer thereof; said at least one potential-equalizing element having a portion lying against said first layer; and, said layer of further carbon fibers covering said portion. 5. The spar cap assembly of claim 1 , wherein said lightning conductor has a solid connecting body of metal configured to connect to an element of a lightning protection device. 6. The spar cap assembly of claim 5 , wherein said solid connecting body has an internal thread. 7. The spar cap assembly of claim 5 , wherein said solid connecting body interconnects said lightning conductor and said at least one potential-equalizing element. 8. The spar cap assembly of claim 5 , wherein: the spar cap assembly is configured to be integrated into said rotor blade half-shell; said rotor blade half-shell defining an interior space; the spar cap assembly has an inner side configured to face the interior space of the wind turbine rotor blade half-shell after integration; and, said solid connecting body is arranged on said inner side. 9. The spar cap assembly of claim 1 further comprising: an inlay of a core material arranged laterally of said carbon fibers and defining a groove; and, said lightning conductor being arranged in said groove. 10. The spar cap assembly of claim 9 further comprising: a metal body electrically connected to said lightning conductor; said inlay defining a through-opening leading from said groove to the opposite lying side of said inlay; and, said metal body being arranged in said through-opening. 11. The spar cap assembly of claim 10 , wherein: the spar cap assembly has an inner side and an outer side disposed opposite said inner side; said inlay has an insert in the region of said through-opening; said insert is of a first material having a greater mechanical strength than said core material; and, said through-opening is arranged in said insert. 12. The spar cap assembly of claim 1 further comprising: a layer of fiber material; the spar cap assembly having an inner side and an outer side disposed opposite said inner side; and, said layer of fiber material being arranged on said outer side of said spar cap assembly and adjoining said carbon fibers of said spar cap. 13. A spar cap assembly for a wind turbine rotor blade having a lightning protection device, the spar cap assembly comprising: a spar cap reinforced with carbon fibers; a lightning conductor arranged so as to run along said spar cap; at least one potential-equalizing element configured to establish an electrical connection between said spar cap and said lightning conductor; said carbon fibers of said spar cap, said lightning conductor and said at least one potential-equalizing element being embedded in a common polymer matrix and being configured as a prefabricated assembly for integration into a wind turbine rotor blade half-shell after a curing of the polymer matrix; an inlay of a core material arranged laterally of said carbon fibers and defining a groove; said lightning conductor being arranged in said groove; a metal body electrically connected to said lightning conductor; said inlay defining a through-opening leading from said groove to the opposite lying side of said inlay; said metal body being arranged in said through-opening; the spar cap assembly having an inner side and an outer side disposed opposite said inner side; said lightning conductor having a solid connecting body of metal configured to connect to an element of the lightning protection device; said solid connecting body having an internal thread; and, said metal body being a metal bush threadably engaged in said internal thread of said connecting body and having a continuous threaded bore running from said inner side of the spar cap assembly to said outer side of the spar cap assembly. 14. A spar cap assembly for a wind turbine rotor blade, the spar cap assembly comprising: a spar cap reinforced with carbon fibers; a lightning conductor arranged so as to run along said spar cap; at least one potential-equalizing element configured to establish an electrical connection between said spar cap and said lightning conductor; said carbon fibers of said spar cap, said lightning conductor and said at least one potential-equalizing element being embedded in a common polymer matrix and being configured as a prefabricated assembly for integration into a wind turbine rotor blade half-shell after a curing of the polymer matrix; an inlay of a core material arranged laterally of said carbon fibers and defining a groove; said lightning conductor being arranged in said groove; and, said inlay of core material adjoining said spar cap in a complementary manner.