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A rotor blade of a wind power plant in which the rotor blade has a longitudinal extension that extends from a rotor blade root substantially to a rotor blade tip. At least in one region of the rotor blade, an aerodynamic cross-sectional profile is provided, which has a leading edge (nose) and a trai

A rotor blade of a wind power plant in which the rotor blade has a longitudinal extension that extends from a rotor blade root substantially to a rotor blade tip. At least in one region of the rotor blade, an aerodynamic cross-sectional profile is provided, which has a leading edge (nose) and a trailing edge, which are connected via a suction side and a pressure side of the cross-sectional profile. The rotor blade is subdivided at least in a longitudinally extended section into a front rotor blade section with the leading edge and a rear rotor blade section with the trailing edge. The rear region of the front rotor blade section and the adjacent front region of the rear rotor blade section are connected through an I-beam.

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1. A rotor blade (10) of a wind power plant, wherein the rotor blade (10) comprises: a longitudinal extension (11), which extends from a rotor blade root (12) substantially to a rotor blade tip (13),wherein, at least in one region of the rotor blade (10), an aerodynamic cross-sectional profile (15)

1. A rotor blade (10) of a wind power plant, wherein the rotor blade (10) comprises: a longitudinal extension (11), which extends from a rotor blade root (12) substantially to a rotor blade tip (13),wherein, at least in one region of the rotor blade (10), an aerodynamic cross-sectional profile (15) is provided, which has a leading edge (16) and a trailing edge (17), which are connected via a suction side (18) and a pressure side (19) of the cross-sectional profile (15),wherein the rotor blade (10) is subdivided at least in a longitudinally extended section (20) into a front rotor blade section (21) with the leading edge (16) and a rear rotor blade section (22) with the trailing edge (17),wherein the rear region (23) of the front rotor blade section (21) and the adjacent front region (24) of the rear rotor blade section (22) are connected by an I-beam (25), andwherein a belt (28-31) divided in the longitudinal extension (11) of the rotor blade (10) is provided, the belt parts (28, 29; 30, 31) of which have a distance (50, 51) from each other, which is smaller than the extension (52, 52′, 53, 53′) of a belt part (28, 29; 30, 31) in the direction from the leading edge (16) to the trailing edge (17). 2. The rotor blade (10) according to claim 1, wherein the I-beam (25) has a web (26, 27, 90, 91, 96, 99), which extends within the rotor blade (10) from the pressure side (19) to the suction side (18), and the belt (28, 29) on the pressure side (19) as well as the belt (30, 31) on the suction side (18). 3. The rotor blade (10) according to claim 2, wherein the web (26, 27, 90, 91, 96, 99) comprises web feet (64-67, 92, 93, 97, 98, 100, 101), which form with the web (26, 27, 90, 91, 96, 99) a shape of a square bracket or a shape of a Z. 4. The rotor blade (10) according to claim 1, wherein the I-beam (25) has I-beam parts (26-31), which comprise a web (26, 27, 90, 91, 96, 99), wherein the I-beam (25) is divided in the longitudinal extension (11) and two-dimensionally, in a plane, which is defined by the web (26, 27, 90, 91, 96, 99). 5. The rotor blade (10) according to claim 4, wherein the I-beam parts (26, 27) are connected with each other. 6. The rotor blade (10) according to claim 1, wherein the belts (28-31) respectively close the I-beam (25) to the suction side (18) and to the pressure side (19), which have a distance from each other, which is smaller than the extension of the belts (28-31) in the direction from the leading edge (16) to the trailing edge (17). 7. The rotor blade (10) according to claim 1, wherein the rotor blade (10) is divided additionally at the leading edge (16) and/or the trailing edge (17). 8. The rotor blade (10) according to claim 1, wherein a web (26, 27, 90, 91, 96, 99) is connected with the belt parts (28, 29; 30, 31), which extends from the suction side (18) to the pressure side (19) so that the web (26, 27, 90, 91, 96, 99) forms an I-beam (25) with the belt parts (28, 29; 30, 31). 9. A method for fabricating a rotor blade (10) of a wind power plant, wherein the fabricated rotor blade (10) in its longitudinal extension (11), which extends from a rotor blade root (12) substantially to a rotor blade tip (13), has at least one region (14), in which the rotor blade (10) has an aerodynamic cross-sectional profile (15), which has a leading edge (16) and a trailing edge (17), which are connected via a suction side (18) and a pressure side (19) of the cross-sectional profile (15), comprising the following method steps: providing at least two rotor blade sections (21, 22) fabricated and divided in the longitudinal direction (11) of the rotor blade (10), wherein the division is arranged between the leading edge (16) and the trailing edge (17),applying or inserting of a first web part (26) extending substantially from the pressure side (19) to the suction side (18) into a first divided rotor blade section (21) and a second web part (27) extending substantially from the pressure side (19) to the suction side (18) into a second divided rotor blade section (22) andconnecting the first web part (26) with the second web part (27) so that a double web (47) forms. 10. The method according to claim 9, wherein the application or insertion of the first and of the second web part (26, 27) comprises a connection of the first and second web part (26, 27) to one belt (28, 29) respectively on the pressure side (19) and one belt (30, 31) on the suction side (18) per rotor blade section (21, 22). 11. The method according to claim 10, wherein an I-beam (25), comprising four belts (28-31) and a double web (47), forms through the connection of the first web part (26) with the second web part (27). 12. The method according to claim 9, wherein for the provision of two rotor blade sections (21, 22) fabricated and divided in the longitudinal extension (11) of the rotor blade (10) at least for one rotor blade section (21, 22), a suction side section (32, 33) and a pressure side section (34, 35) are connected with each other. 13. The method according to claim 9, wherein the two rotor blade sections (32-35) form a nose box (21) and/or an end box (22). 14. The method according to claim 9, wherein for the provision of two rotor blade sections (21, 22) fabricated and divided in the longitudinal extension (11) of the rotor blade (10), one belt (28-31) is respectively connected with a suction side (18) and a pressure side (19) of each rotor blade section (21, 22).