Wind turbine tower transition piece

The invention claimed is: 1. A transition piece for a wind turbine tower, the transition piece being configured to be installed on a tower foundation and to carry a tower piece, the transition piece comprising a high voltage joint, the high voltage joint comprising: a grid input terminal for receiving and connecting to an array cable from a power grid, a WTG connecting output terminal, operatively connected to the grid input terminal, for receiving and connecting to an input cable leading to a switchgear, a WTG connecting input terminal for receiving and connecting to an output cable from the switchgear, and a grid output terminal, operatively connected to the WTG connecting input terminal, for receiving and connecting to an array cable leading to the power grid. 2. The transition piece as claimed in claim 1 , wherein the high voltage joint further comprises a detachable jumper, connecting the WTG connecting output terminal to the WTG connecting input terminal. 3. The transition piece as claimed in claim 1 , wherein the transition piece is free of a switchgear. 4. The transition piece as claimed in claim 1 , further comprising a platform with a tower piece support section, the tower piece support section comprising a wall with a doorway connecting an inside of the tower piece support section with an outside of the tower piece support section, the high voltage joint being provided inside the tower piece support section. 5. The transition piece as claimed in claim 4 , further comprising a stairway, provided inside the tower piece support section, for allowing a person to climb from a platform level to a first level of the tower piece, when the tower piece is installed on the tower piece support section. 6. A wind turbine tower comprising a tower foundation, a transition piece as claimed in claim 1 , and a tower piece, wherein the transition piece is provided on the tower foundation and the tower piece is installed on top of the transition piece. 7. The wind turbine tower as claimed in claim 6 , wherein the tower piece comprises one or more lower sections with electronic equipment for electrically connecting a wind turbine generator to a power grid and wherein the electronic equipment comprises at least one of a transformer, a switchgear and a tower controller. 8. The wind turbine tower as claimed in claim 6 , wherein at least one of the lower sections of the tower piece comprises a bottom part of a lift system. 9. The wind turbine tower as claimed in claim 8 , wherein the at least one of the lower sections comprising the bottom part of the lift system has an outer wall that is free of doorways. 10. The wind turbine comprising a wind turbine tower as claimed in claim 6 and a nacelle with a rotor. 11. A method of installing a wind turbine, the method comprising: installing a transition piece according to claim 1 on a tower foundation, then connecting a first array cable from a power grid to the grid input terminal of the high voltage joint, and connecting a second array cable leading to the power grid to the grid output terminal of the high voltage joint, then, installing a tower piece on top of the transition piece, and thereafter connecting an output cable between the WTG connecting output terminal of the high voltage joint and a high voltage input terminal of a switchgear, and connecting an input cable between a high voltage output terminal of the switchgear and the WTG connecting input terminal of the high voltage joint. 12. The method of installing a wind turbine according to claim 11 , wherein the switchgear is provided together with the tower piece. 13. The method of installing a wind turbine according to claim 12 , further comprising energizing the first array cable after connecting of the output cable between the WTG connecting output terminal of the high voltage joint and the high voltage input terminal of the switchgear. 14. The method of installing a wind turbine according to claim 13 , further comprising energizing the second array cable after connecting of the input cable between the high voltage output terminal of the switchgear and the WTG connecting input terminal of the high voltage joint. 15. The method of installing a wind turbine according to claim 11 , the method further comprising: before connecting the output cable and the input cable between the high voltage joint and the switchgear, applying a jumper to the WTG connecting output terminal and the WTG connecting input terminal of the high voltage joint and thereby establishing an electrical connection therebetween, keeping the jumper attached during a subsequent phase of the installation process, and at the end of said subsequent phase, removing the jumper and thereafter connecting the output cable and the input cable between the high voltage joint and the switchgear. 16. The method of installing a wind turbine according to claim 15 , further comprising, during said subsequent phase of the installation process, testing the power grid. 17. The method of installing a wind turbine according to claim 15 , further comprising, during said subsequent phase of the installation process, operating a wind turbine connected to the first and/or second array cable. 18. The method of installing a wind turbine according to claim 11 , further comprising covering the WTG connecting output terminal and/or the WTG connecting input terminal of the high voltage joint by a protective cover during at least some of the period before connecting the output cable and the input cable between the high voltage joint and the switchgear. 19. A method of testing a power grid for connecting a plurality of wind turbines, at least one of the wind turbines comprising a transition piece as claimed in claim 1 , the method comprising: connecting a first array cable from the power grid to the grid input terminal of the high voltage joint of said transition piece, connecting a second array cable, leading to the power grid, to the grid output terminal of the high voltage joint, applying a jumper to the WTG connecting output terminal and the WTG connecting input terminal of the high voltage joint and thereby establishing an electrical connection therebetween, and testing the power grid. 20. The method of testing a power grid as claimed in claim 19 , wherein at least a second one of the wind turbines comprises a transition piece, the method further comprising attaching a test plug to the WTG connecting output terminal of the high voltage joint of the second one of the wind turbines. 21. A method of connecting at least two wind turbines to the same power grid, the power grid comprising at least one transition piece as claimed in claim 1 , the at least one transition piece not being part of any of the at least two wind turbines, the method comprising: connecting a first array cable, from a first one of the at least two wind turbines, to the grid input terminal of the high voltage joint of said transition piece, connecting a second array cable, leading to a second one of the at least two wind turbines, to the grid output terminal of the high voltage joint, and applying a jumper to the WTG connecting output terminal and the WTG connecting input terminal of the high voltage joint and thereby establishing an electrical connection therebetween. 22. The method of connecting at least two wind turbines to the same power grid as claimed in claim 21 , wherein the step of applying the jumper is performed before connecting the first and the se