| CPC F16D 1/04 (2013.01) [F03D 15/00 (2016.05); F05B 2260/402 (2013.01)] | 15 Claims |
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1. A torque transmitting coupling assembly for a wind turbine configured to rotatably couple a first coupling part to a second coupling part, wherein the first coupling part and the second coupling part are configured to rotate about a longitudinal axis of the torque transmitting coupling assembly, the torque transmitting coupling assembly comprising:
a torque transmitting ring and a compression ring, wherein a first coupling surface of the first coupling part abuts against a third coupling surface of the torque transmitting ring, and a second coupling surface of the second coupling part abuts against a fourth coupling surface of the torque transmitting ring;
wherein a torque is transferred in a torque transmitting region of the torque transmitting coupling assembly from the first coupling surface of the first coupling part to the third coupling surface of the torque transmitting ring and from the fourth coupling surface of the torque transmitting ring to the second coupling surface of the second coupling part;
wherein the torque transmitting ring and the compression ring are located in the torque transmitting region, and
wherein the torque transmitting ring includes an axially-extending ring portion that defines a fifth surface that extends along the longitudinal axis between the first coupling part and the second coupling part,
wherein the axially-extending ring portion is configured with a thinner cross-sectional profile relative to portions of the torque transmitting ring respectively spanned by the third coupling surface and the fourth coupling surface of the torque transmitting ring,
wherein the axially-extending ring portion defines an axial spacing between 1) the first coupling surface of the first coupling part to the third coupling surface of the torque transmitting ring and 2) the second coupling surface of the second coupling part to the fourth coupling surface of the torque transmitting ring,
wherein the axial spacing is chosen to provide a degree of flexibility by way of the axially-extending ring portion to absorb bending moments and/or misalignments,
wherein the compression ring is formed by a first compression ring part arranged to press against the first coupling part and is further formed by a second compression ring part arranged to press against the second coupling part,
wherein the first compression ring part and the second compression ring part are spaced apart from one another over the axial spacing.
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14. A method for assembling a torque transmitting coupling assembly for coupling a first coupling part to a second coupling part, wherein the first coupling part and the second coupling part are configured to rotate about a longitudinal axis of the torque transmitting coupling assembly, wherein the first coupling part comprises a first coupling surface at an outer circumferential surface of the first coupling part, the second coupling part comprises a second coupling surface at an outer circumferential surface of the second coupling part, wherein the torque transmitting coupling assembly comprises a torque transmitting ring and a compression ring, wherein the torque transmitting ring comprises a third coupling surface and a fourth coupling surface at an inner circumferential surface of the torque transmitting ring, wherein the first coupling surface of the first coupling part is configured to be coupled to the third coupling surface of the torque transmitting ring by means of a first form-fitted coupling, wherein the second coupling surface of the second coupling part is configured to be coupled to the fourth coupling surface of the torque transmitting ring by means of a second form-fitted coupling, the method comprising:
aligning the first coupling part and the second coupling part;
fixing the first coupling part and the second coupling part together by way of a fastener;
mounting the torque transmitting ring on the outer surface of the first coupling part and the second coupling part in such a way that the first coupling surface of the first coupling part engages with the third coupling surface of the torque transmitting ring by means of the first form-fitted coupling and that the second coupling surface of the second coupling part engages with the fourth coupling surface of the torque transmitting ring by means of the second form-fitted coupling; and
in the torque transmitting ring, providing an axially-extending ring portion that defines a fifth surface that extends along the longitudinal axis between the first coupling part and the second coupling part,
configuring the axially-extending ring portion of the torque transmitting ring with a thinner cross-sectional profile relative to portions of the torque transmitting ring respectively spanned by the third coupling surface and the fourth coupling surface of the torque transmitting ring,
the axially-extending ring portion of the torque transmitting ring, defining an axial spacing between 1) the first coupling surface of the first coupling part to the third coupling surface of the torque transmitting ring and 2) the second coupling surface of the second coupling part to the fourth coupling surface of the torque transmitting ring,
choosing the axial spacing to provide a degree of flexibility by way of the axially-extending ring portion of the torque transmitting ring to absorb bending moments and/or misalignments, and
forming the compression ring by a first compression ring part arranged to press against the first coupling part, and by a second compression ring part arranged to press against the second coupling part, wherein the first compression ring part and the second compression ring part are spaced apart from one another over the axial spacing.
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