Wind turbine rotor blade trailing edge segment

The invention claimed is: 1. A trailing-edge segment of a wind-turbine rotor blade for increasing a profile depth of the rotor blade of a wind turbine, the trailing-edge segment comprising: at least one inner blade segment having an inner blade shell, and at least one middle blade segment having a middle blade shell, the at least one middle blade segment and the at least one inner blade segment being configured to be coupled to each other via a coupling means, the coupling means having at least one shell element having two inner sides that are parallel to each other and form a receiving space, the receiving space being configured to receive at least one of: the inner blade shell and the middle blade shell, and each of the two inner sides of the at least one shell element of the coupling means being configured to be coupled to at least one of: the inner blade shell and the middle blade shell in such a manner that a force acting upon the trailing-edge segment is introduced centrically into the coupling means. 2. The trailing-edge segment of a wind-turbine rotor blade according to claim 1 , wherein the at least one shell element has a recess for receiving a first coupling element. 3. The trailing-edge segment of a wind-turbine rotor blade according to claim 2 , wherein the first coupling element has an opening for receiving a second coupling element, wherein the first coupling element and the second coupling element are configured to couple the at least one inner blade segment to the at least one middle blade segment. 4. The trailing-edge segment of a wind-turbine rotor blade according to claim 3 , wherein the second coupling element is an elongate body that is inserted in the respective opening of a plurality of first coupling elements such that the inner blade shell is coupled to the middle blade shell. 5. The trailing-edge segment of a wind-turbine rotor blade according to claim 2 , wherein the first coupling element is a plastic material. 6. The trailing-edge segment of a wind-turbine rotor blade according to claim 2 , wherein the first coupling element is latched into the recess of the at least one shell element. 7. The trailing-edge segment of a wind-turbine rotor blade according to claim 2 , wherein the first coupling element has at least one indentation for receiving a sealing element, the sealing element being provided between the first coupling element and at least one of the inner blade shell and the middle blade shell. 8. The trailing-edge segment of a wind-turbine rotor blade according to claim 1 , wherein the at least one shell element is produced from a fibrous composite material. 9. The trailing-edge segment of a wind-turbine rotor blade according to claim 8 , wherein the fibrous composite material is glass-fiber-reinforced plastic. 10. The trailing-edge segment of a wind-turbine rotor blade according to claim 1 , wherein the at least one shell element is U-shaped and/or forms a parallel loop. 11. The trailing-edge segment of a wind-turbine rotor blade according to claim 1 , wherein the at least one inner blade segment and the at least one middle blade segment are configured to be coupled to each other in a form-fitting manner. 12. A wind-turbine rotor blade, comprising: at least one outer blade segment that extends over an entire length of the wind-turbine rotor blade, and at least one trailing-edge segment according to claim 1 , wherein the at least one trailing-edge segment is coupled to the at least one outer blade segment. 13. The wind-turbine rotor blade according to claim 12 , wherein the middle blade segment is connected to the at least one outer blade segment by a connecting side and configured to be coupled to the at least one inner blade segment by the coupling means. 14. A wind turbine, comprising: a tower, a nacelle, a rotor, and the at least one wind-turbine rotor blade according to claim 12 coupled to the rotor. 15. A coupling component for coupling at least one inner blade segment of a trailing-edge segment of a rotor blade of a wind turbine to at least one middle blade segment of a trailing-edge segment of a rotor blade of a wind turbine, the coupling component comprising: at least first and second shell elements having a recess, the first shell element configured to be connected to an inner blade shell of the at least one inner blade segment, and the second shell segment configured to be connected to a middle blade shell of the at least one middle blade segment, the first and second shell elements having, respectively: a first coupling element for inserting in the recess, the first coupling element having an opening, and a second coupling element for inserting in the respective openings of the respectively first coupling element, such that the at least one inner blade segment and the at least one middle blade segment are configured to be coupled to each other, and the first and second shell elements, each having two inner sides that are parallel to each other and are each prepared to introduce centrically into the coupling component a force acting upon the trailing-edge segment.