Technical Field

The present invention relates to an inlet guide vane assembly, in particular to an inlet guide vane assembly of a gas turbine, and a gas turbine having the above- mentioned inlet guide vane assembly.

Background Art

In existing gas turbines, inlet guide vanes are usually installed on an inlet cover of a compressor of the gas turbine to facilitate installation and maintenance. When the inlet guide vanes are to be installed, it is required to insert the inlet guide vanes into an outer casing of the inlet cover of the compressor in a radial direction, so it is necessary to cut an inner casing of the inlet cover to provide installation space. After the inlet guide vanes are installed, there is no support from the inlet casing, so that the part of the inlet guide vanes which is inserted into the outer inlet casing of the compressor is easily deformed and damaged due to bearing all the support force. Summary of the Invention

The object of the present invention is to solve the above-mentioned and/or other technical problems and provide an inlet guide vane assembly of a gas turbine, which can support the inlet guide vanes at an inlet cover to prevent the inlet guide vanes from being deformed and damaged.

Another object of the present invention is to solve the above-mentioned and/or other technical problems and provide a gas turbine capable of supporting inlet guide vanes at an inlet cover to prevent the inlet guide vanes from being deformed and damaged.

According to the inlet guide vane assembly of a gas turbine of the present invention, the gas turbine comprises an inner inlet casing and an outer inlet casing, the outer inlet casing is sheathed outside the inner inlet casing, the outer inlet casing comprises a cylindrical fixing part, and the inlet guide vane assembly comprises a plurality of inlet guide vanes and a fixing assembly. One end of each of the inlet guide vanes is rotatably connected to a first fixing part, each of the inlet guide vanes is rotatable in a radial direction of the fixing part, and each of the inlet guide vanes comprises a fixing shaft which is disposed at the end away from fixing part. The fixing assembly comprises a support ring, a fixing ring and an abutting member. The support ring can be coaxially fixed to the inner inlet casing with the fixing part, wherein the support ring comprises a support part formed by radially extending from an outer surface of the support ring, and the support part comprises a support wall facing towards the inner inlet casing. The fixing ring is sheathed on the outer surface of the support ring and located between the inner inlet casing and the support part, wherein the fixing ring comprises a fixing wall facing towards the support part, the fixing wall can form, in cooperation with the support wall, a plurality of

accommodating cavities corresponding to the plurality of inlet guide vanes after making contact with the support wall, and the fixing shafts are rotatably inserted into the accommodating cavities. The abutting member is disposed between the inner inlet casing and the fixing ring in an axial direction of the support ring, and the abutting member is in interference fit with the inner inlet casing and the fixing ring.

The inlet guide vane assembly provided by the present invention has a detachable fixing assembly, implements support for two ends of each inlet guide vane by cooperating with the fixing shafts of the inlet guide vanes without affecting installation of the inlet guide vanes, and prevents the inlet guide vanes from deformation and damage.

In a further exemplary embodiment of the inlet guide vane assembly, the support ring and the fixing ring are respectively assembled by two semi-rings.

In another exemplary embodiment of the inlet guide vane assembly, the abutting member is a metal strip wound around the support ring.

In another exemplary embodiment of the inlet guide vane assembly, a raised edge extending towards the inner inlet casing is formed on the abutting member, and the raised edge can be embedded into the inner inlet casing, so as to further fix the abutting member and prevent the abutting member from being disengaged from a support member. In another exemplary embodiment of the inlet guide vane assembly, the support wall comprises a plurality of first grooves, and the fixing wall comprises a plurality of second grooves corresponding to the plurality of first grooves, the first grooves and the second grooves cooperating to form the accommodating cavities.

In another exemplary embodiment of the inlet guide vane assembly, a sleeve is disposed within the accommodating cavity, and the fixing shaft extends through the sleeve, so as to facilitate the rotation of the fixing shaft inside the accommodating cavity.

In another exemplary embodiment of the inlet guide vane assembly, the support ring is fixed to the inner inlet casing by means of a bolt.

The present invention further provides a gas turbine, comprising an inner inlet casing, an outer inlet casing and an inlet guide vane assembly as described above. The outer inlet casing is sheathed outside the inner inlet casing and comprises a cylindrical fixing part. One end of each of the inlet guide vanes is rotatably connected to the first fixing part, each of the inlet guide vanes is rotatable in a radial direction of fixing part, and the support ring is fixed to the inner inlet casing.

In the following, preferred embodiments will be described in a clear and understandable manner with reference to the accompanying drawings, which further describe the above characteristics, technical features, advantages and

implementations of the inlet guide vane assembly and the gas turbine.

Brief Description of the Drawings

The following drawings are only to schematically describe and explain the present invention, and do not limit the scope of the present invention.

Fig. 1 is a cross-sectional structural schematic diagram for illustrating an exemplary embodiment of an inlet guide vane assembly.

Fig. 2 is a partially enlarged schematic diagram for illustrating an exemplary embodiment of an inlet guide vane assembly.

Fig. 3 is an exploded structural schematic diagram for illustrating an exemplary embodiment of an inlet guide vane assembly.

Fig. 4 is an assembly schematic diagram for illustrating an exemplary embodiment of an inlet guide vane assembly. Fig. 5 is an assembly schematic diagram for illustrating another state of an exemplary embodiment of an inlet guide vane assembly.

Fig. 6 is an assembly schematic diagram for illustrating another state of an exemplary embodiment of an inlet guide vane assembly.

List of reference signs

10 Inlet guide vane

12 Fixing shaft

20 Fixing assembly

21 Accommodating cavity

22 Support ring

24 Support part

25 Support wall

252 First groove

26 Fixing ring

27 Fixing wall

272 Second groove

28 Abutting member

29 Raised edge

30 Inner inlet casing

40 Outer inlet casing

42 Fixing part

50 Bolt Detailed Description of Embodiments

In order to facilitate clearer understanding of the technical features, objectives and effects of the present invention, particular embodiments of the present invention are now described with reference to the drawings. The same reference signs in the drawings denote components having the same structure, or similar structure but having the same function. Herein, "exemplary" means "serving as an example, instance or illustration", and any illustration or embodiment described herein as "exemplary" should not be interpreted as a more preferred or more advantageous technical solution.

Fig. 1 is a cross-sectional structural schematic diagram for illustrating an exemplary embodiment of an inlet guide vane assembly. With reference to Fig. 1 , a gas turbine comprises an inner inlet casing 30 and an outer inlet casing 40, the outer inlet casing 40 is sheathed outside the inner inlet casing 30, and the outer inlet casing 40 comprises a cylindrical fixing part 42. The inlet guide vane assembly comprises a plurality of inlet guide vanes 10 and a fixing assembly 20.

Fig. 2 is a partially enlarged diagram of Fig. 1 . Fig. 3 is an exploded structural schematic diagram for illustrating an exemplary embodiment of an inlet guide vane assembly. With reference to Figs. 2 and 3 and in conjunction with Fig. 1 , one end of each of the inlet guide vanes 10 is rotatably connected to a first fixing part, each of the inlet guide vanes 10 is rotatable in a radial direction of the fixing part 42, each of the inlet guide vanes 10 comprises a fixing shaft 12 which is disposed at the end away from fixing part 42. The fixing assembly 20 comprises a support ring 22, a fixing ring 26 and an abutting member 28. The support ring 22 can be coaxially fixed to the inner inlet casing 30 with the fixing part 42, wherein the support ring 22 comprises a support part 24 formed by radially extending from an outer surface of the support ring 22, and the support part 24 comprises a support wall 25 facing towards the inner inlet casing 30. The fixing ring 26 is sheathed on the outer surface of the support ring 22 and located between the inner inlet casing 30 and the support part 24, wherein the fixing ring 26 comprises a fixing wall 27 facing towards the support part 24, the fixing wall 27 can form, in cooperation with the support wall 25, a plurality of

accommodating cavities 21 corresponding to the plurality of inlet guide vanes 10 after making contact with the support wall 25, and the fixing shafts 12 are rotatably inserted into the accommodating cavities 21 . The abutting member 28 is disposed between the inner inlet casing 30 and the fixing ring 26 in an axial direction of the support ring, and the abutting member 28 is in interference fit with the inner inlet casing 30 and the fixing ring 26.

Figs. 3 to 5 are assembly schematic diagrams of the inlet guide vane assembly. With reference to Fig. 4, when the inlet guide vane assembly is to be mounted, the inlet guide vanes 10 (only one of which is shown in the figure) are firstly installed in a radial direction of the fixing part 42, as indicated by the arrow in the figure. Then, the support ring 22 is installed, with reference to Fig. 5. After the support ring 22 is installed in place, the fixing ring 24 is installed on the surface of the support ring. In an exemplary embodiment, the support ring 22 and the fixing ring 26 are assembled by two semi-rings. Firstly, the two semi-rings forming the support ring 22 are fixed to the inner inlet casing 40 by a bolt 50 as shown in the figure. Then, the two semi-rings forming the fixing ring 26 are installed in the surface of the support ring 22. After the fixing ring 26 is installed, the fixing ring 26 is pushed along the arrow in Fig. 5, such that the fixing wall 27 of the fixing ring 26 abuts against the support wall 25 of the support ring 22. At this time, the fixing shafts 12 of the inlet guide vanes 10 are rotatably fixed in the accommodating cavities 21 under

cooperation between the support wall 25 and the fixing wall 27. With reference to Fig. 6, the abutting member 28 is installed after the fixing shafts 12 of the inlet guide vanes 10 are fixed. In an exemplary embodiment, The abutting member 28 is a metal strip which is inserted between the inner inlet casing 30 and the fixing ring 26 in the direction shown by the arrow in Fig. 6 after contraction caused by cold treatment, surrounds the outer surface of the support ring 22, and is in interference fit with the inner inlet casing 30 and the fixing ring 26, so as to fix the fixing ring 26.

In an exemplary embodiment, with reference to Fig. 6, a raised edge 29 extending towards the inner inlet casing 40 is formed on the abutting member 28, and the raised edge 29 is embedded into the inner inlet casing 40. The raised edge further fixes the abutting member and prevents the abutting member from being disengaged from the support member.

In an exemplary embodiment, with reference to Fig. 2, the support wall 24 comprises a plurality of first grooves 252 (only one of which is shown in the figure), the fixing wall 27 comprises a plurality of second grooves 272 (only one of which is shown in the figure) corresponding to the plurality of first grooves 252, the first grooves 252 and the second grooves 272 cooperating to form the accommodating cavities 21 . In an exemplary embodiment, the first groove 252 and the second groove 272 are semi-cylindrical grooves, respectively, and are aligned to form a cylindrical accommodating cavity 21 , but not limited thereto. In other exemplary embodiments, the first groove 252 and the second groove 272 may also be other shapes that facilitate the insertion of the fixing shaft 12.

In an exemplary embodiment, a sleeve is disposed within the accommodating cavity 21 , and the fixing shaft 12 extends through the sleeve. The sleeve facilitates the rotation of the fixing shaft inside the accommodating cavity.

In an exemplary embodiment, with reference to Fig. 5, the support ring 22 is fixed to the inner inlet casing 30 by means of a bolt 50.

The present invention further provides a gas turbine, comprising an inner inlet casing 30, an outer inlet casing 40 and an inlet guide vane assembly as described above. The outer inlet casing 40 is sheathed outside the inner inlet casing 30, and the outer inlet casing 40 comprises a cylindrical fixing part 42. One end of each of the inlet guide vanes 10 is rotatably connected to the first fixing part, each of the inlet guide vanes 10 is rotatable in a radial direction of the fixing part 42, and the support ring 22 is fixed to the inner inlet casing 30.

It should be understood that, although the description is given according to the embodiments, each embodiment does not merely comprise one independent technical solution, and this narrative manner of the description is merely for clarity. A person skilled in the art should take the description as a whole, and technical solutions in the embodiments can also be appropriately combined to form other implementations that can be understood by a person skilled in the art.

The detailed descriptions set forth above are merely specific descriptions directed to the feasible embodiments of the present invention, and they are not intended to limit the scope of protection of the present invention. Any equivalent implementation or change, such as combination, division or repetition of features, made without departing from the technical spirit of the present invention shall be included within the scope of protection of the present invention.