A rotor blade arrangement (20), especially for a gas turbine, which can be fastened on a blade carrier (19) and includes in each case a blade aerofoil element (10) and a platform element (14), wherein the platform elements (14) of a blade row form a continuous inner shroud. With such a blade arrange
A rotor blade arrangement (20), especially for a gas turbine, which can be fastened on a blade carrier (19) and includes in each case a blade aerofoil element (10) and a platform element (14), wherein the platform elements (14) of a blade row form a continuous inner shroud. With such a blade arrangement, a mechanical decoupling, which extends the service life, is achieved by the blade aerofoil element (10) and the platform element (14) being formed as separate elements and by being able to be fastened in each case separately on the blade carrier (19).
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1. A rotor blade arrangement comprising: a first blade aerofoil element;a platform element, wherein the platform element is configured and arranged to form a part of a blade row continuous inner shroud;wherein the first blade aerofoil element and the platform element are separate elements and are ea
1. A rotor blade arrangement comprising: a first blade aerofoil element;a platform element, wherein the platform element is configured and arranged to form a part of a blade row continuous inner shroud;wherein the first blade aerofoil element and the platform element are separate elements and are each configured and arranged to be separately fastened on a rotor;wherein the first blade aerofoil element and the platform element are configured and arranged to be mechanically decoupled during operation of the rotor blade arrangement;a second blade aerofoil element adjacent to the first blade aerofoil element;wherein the platform element is arranged between the first and second adjacent blade aerofoil elements;the rotor having an axial slot for receiving and fastening the first blade aerofoil element and separate circumferential slots configured to receive and fasten the platform element to the rotor;wherein the platform element comprises downwardly projecting vertically extending legs that extend transversely to a longitudinal direction of a blade root, each leg having a hook formed on an end of the leg that extends upward vertically to engage in a respective one of the circumferential slots of the rotor to fasten the platform element to the rotor without any intervening parts; andwherein the first blade aerofoil element is formed in one piece and the platform element is formed in one piece. 2. The rotor blade arrangement as claimed in claim 1, wherein the platform element includes a concavity through which the first blade aerofoil element extends. 3. The rotor blade arrangement as claimed in claim 1, further comprising: a common platform element comprising said platform element, the common platform element being configured and arranged to extend across the first and second blade aerofoil elements. 4. The rotor blade arrangement as claimed in claim 1, further comprising: a heat accumulation axial extension on the platform element. 5. The rotor blade arrangement as claimed in claim 1, comprising: a shoulder over which the platform element fits that is formed on the first blade aerofoil element. 6. The rotor blade arrangement as claimed in claim 1, wherein the first blade aerofoil element has regions of a-different material that extend downwardly into a region of the first blade aerofoil element which is shrouded by the platform element. 7. The rotor blade arrangement as claimed in claim 1, wherein the first blade aerofoil element comprises a suction side and a pressure side, and a top of the platform element comprises a concavity for adapting the platform element to the first blade aerofoil element suction side and a convexity for adapting to the first blade aerofoil element pressure side. 8. The rotor blade arrangement as claimed in claim 1, wherein the first blade aerofoil element is formed of materials which are different in different areas of the blade aerofoil element. 9. The rotor blade arrangement as claimed in claim 8, wherein the first blade aerofoil element comprises a leading edge and a trailing edge, and the first blade aerofoil element in the regions of the leading edge and of the trailing edge is formed of a material which is different from that in remaining regions of the first blade aerofoil element. 10. The rotor blade arrangement as claimed in claim 8, wherein the first blade aerofoil element comprises a leading edge, a trailing edge, or both, and an insert in the region of the leading edge or of the trailing edge, the insert formed of a material which is different from that of remaining regions of the first blade aerofoil element. 11. The rotor blade arrangement as claimed in claim 8, wherein the first blade aerofoil element comprises a suction side, a pressure side, or both, and an insert in the region of the suction side or of the pressure side, the insert formed of a material which is different from that of remaining regions of the first blade aerofoil element. 12. The rotor blade arrangement as claimed in claim 8, wherein the regions of a different material extend downwardly into a region of the first blade aerofoil element which is shrouded by the platform element. 13. The rotor blade arrangement as claimed in claim 1, comprising: one or more seals defined between the first blade aerofoil element and the platform element, each of the seals configured and arranged to seal at least one gap between the first blade aerofoil element and the platform element, each seal being configured so that substantially no forces are transmitted between the first blade aerofoil element and the platform element via that seal.
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이 특허에 인용된 특허 (16)
Wassell Mark E. (Bloomfield CT) Mosimann John G. (Ellington CT), Bladed rotor assembly, and method of forming same.
Kurosawa Soichi (Hitachi JPX) Wada Katsuo (Hitachi JPX) Teranishi Mitsuo (Hitachi JPX), Turbine rotor with means for preventing air leaks through outward end of spacer.
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