Abstract: A connecting arrangement for connecting, for example, two components of a jointed shaft via a securing ring, and a jointed shaft including a connecting arrangement of this type.
Abstract: A coupling assembly for connecting a drive shaft in axial alignment with a motor shaft includes a coupling sleeve configured to engage an end portion of each of the motor shaft and the drive shaft. The coupling sleeve extends in the axial direction from a forward end proximate to the motor to a distal rearward end which is remote therefrom. A central bore extends through the coupling sleeve and includes a first end portion extending into the forward end of the sleeve having a size complementary to that of the end portion of the motor shaft. A second other end portion of the bore extends axially into the rearward end of the sleeve and has a size which is complementary to that of an end portion of the drive shaft. The sleeve is secured to the motor shaft and a jack or lifting ring is coupled to the drive shaft adjacent to the sleeve. The lifting ring includes an aperture sized to receive therein a connector which is movable into engagement with the coupling sleeve.
Abstract: A system and method for maintaining an axial compression load associated with a tie bolt assembly. A tie bolt couples a compressor to a turbine. A sleeve is supported on the tie bolt. The tie bolt compresses the compressor and sleeve against the turbine during operation thereby causing an axial compressive force. At least a portion of the sleeve is made of a less thermally sensitive material such that during rotation of the tie bolt assembly, the sleeve resists deformation and maintains the axial compressive load.