KR101438911B1 - Equipment for testing assemblability of vane segment - Google Patents

Abstract

The present invention relates to an apparatus capable of inspecting whether a vane segment that has been serviced or repaired has an actually specified standard and has a shape such that a vane can easily be installed on a turbine or the like. According to a preferred embodiment of the present invention The apparatus for inspecting the assemblability of the vane segment includes a vane guide block to which the vane segment can be mounted, a base for supporting the load of the vane guide block and the vane segment, and a support bracket for connecting the vane guide block and the base. The present invention is not only compact, but also has the advantage of being able to maintain both the upper and lower sides of the vane segment.

Description

Technical Field [0001] The present invention relates to an apparatus for inspecting assemblies of a vane segment,

The present invention relates to an apparatus for inspecting the assemblability of a vane segment, and more particularly, to an apparatus for inspecting whether a vane segment that has been serviced or repaired has an actually specified standard and has a shape, To a device that is capable of performing this function.

 A gas turbine for producing electric power is mainly composed of an air compressor, a combustor and a turbine, and a process of producing electric power will be briefly described as follows.

First, the fuel injected through the fuel nozzle is mixed with the air of the compressor in the combustor, and the combustion gas of high temperature and high pressure generated by the combustion is introduced into the turbine through the guide pipe. Here, the turbine includes a plurality of rows of stator vane assemblies for guiding the combustion gas and a plurality of rotating blades for generating power by receiving the combustion gases, and the rotor blades are connected to the generator . Therefore, when the combustion gas flows into the rotor blades through the stationary vane assembly, the rotor blades rotate at high speed to drive the generator to produce electric power.

The fixed vane assembly described above includes a circumferential turbine blade ring and dozens of vane segments 10 mounted to the inner diameter portion of the turbine blade ring.

FIG. 1 is a perspective view of a vane segment 10, and the construction of the vane segment 10 will be described with reference to FIG.

The vane segment 10 includes an outer wall 14 disposed on the inner diameter side of the turbine blade ring and an inner wall 24 spaced from the outer wall 14 toward the center of the circle of the turbine blade ring, And an airfoil vane (12) connecting the inner wall (24). The upper side mounting hook 18 and the lower side mounting hook 22 formed on the outer side wall 14 are coupled to the turbine blade ring and the inner side wall 24 blocks the inflow of the combustion gas into the rotor side. The airfoil vane 12 serves to guide the combustion gas so that the combustion gas can flow into the rotor blades at an accurate angle. Since the airfoil vane 12 directly contacts with the combustion gas, it needs to be cooled, and a cooling hole 28 through which the cooling air can pass is formed inside the airfoil vane 12.

The outer side wall 14 is formed with an elongated outer slot 16 along the up and down direction and the inner side wall 24 is formed with an elongated inner slot 26 along the up and down direction. The outer slots 16 of the vane segments 10 disposed adjacent to each other in the turbine blade ring are opposed to each other and the inner slots 26 are also opposed to each other. The outer vane sealer is inserted into the space defined by the facing outer slots 16 and the inner vane sealer is inserted into the space defined by the inner slots 26 facing each other, It is possible to prevent a leak in the gap of the inner wall 24 adjacent to the gap between the inner wall 14 and the inner wall 14 adjacent to each other.

It is preferable that the vane segment 10 maintains its initial state without being deformed since the combustion gas can flow into the rotor blades without leaking while passing through the stationary vane assembly and the power production efficiency can be increased. However, since the vane segment 10 must be exposed to the high-temperature and high-pressure combustion gas for a long time, creep deformation may occur and the vane segment 10 may be damaged due to welding and heat treatment performed during the process of manufacturing the vane segment 10 Deformation may occur due to internal stress, and fatigue cracks may occur due to repeated operation and stoppage of the fixed vane assembly. The vane segment 10 should be detached from the fixed vane assembly to check for and check for deformation and breakage. If deformation or breakage occurs, the vane segment 10 must be repaired and fixed, and then connected to the turbine blade ring .

However, even if the vane segment 10 that is serviced and repaired seems to be normal in appearance, due to a very small deformation or size error of the vane segment 10 that is not detected, There is a problem that is not often combined.

In addition, although the vane segment 10 can be coupled to the turbine blade ring, it is possible to provide a space in the space partitioned by the adjacent outer slots 16 or in the space defined by the adjacent inner slots 26, There is a case where the vane sealer is not inserted.

In addition, since the vane segment 10 is continuously exposed to the high-temperature and high-pressure combustion gas, the outer wall 14 and the inner wall 24 of the adjacent vane segments 10 form a constant arc surface, It is also necessary to check whether the intervals of the segments 10 are equal to each other or the like.

As described above, the vane segment 10 needs to be repaired and repaired very precisely, but maintenance and repair are performed depending on the skill and feeling of the operator. Therefore, if there is a problem in assembling the vane segment 10 that has been repaired or repaired to the turbine, it is necessary to re-repair and re-repair it again, which may delay the operation of the power plant beyond merely requiring additional working time and labor , There is a problem that it can have a very bad influence on the supply of sufficient electricity when viewed from the national point of view.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an apparatus for inspecting the assemblability of a vane segment, which is conceived to solve the above-described problems and which can check whether a vane segment has a predetermined size and shape.

Another object of the present invention is to provide an apparatus for inspecting assemblability of a vane segment, which is compact compared to the size of an actual turbine, while being capable of checking the assemblability of the vane segment.

It is a further object of the present invention to provide a vane segment assembly which can be maintained and repaired not only on the upper side but also on the lower side of the vane segment, And to provide a device.

In order to achieve the above object, according to a preferred embodiment of the present invention, an apparatus for inspecting the assemblability of a vane segment is formed in an arc shape having a radius of curvature equal to a radius of curvature of a turbine blade ring on which a vane segment is mounted, A vane guide block to which the vane guide block can be mounted; A base disposed below the vane guide block and positioned on the ground to support a load of the vane guide block and the vane segment; And a support bracket connecting the vane guide block to the base and transmitting a load of the vane guide block and the vane segment to the base.

Preferably, an end of the vane guide block is rotatably coupled to one end of the support bracket, and the other end of the support bracket is fixed to the base.

Advantageously, the vane guide block has a guide rail coupled with mounting hooks (18, 22) formed in the vane segment to couple the vane segment to the turbine blade ring.

Preferably, the guide rail includes an upper guide rail 55 coupled with the upper mounting hook 18 of the mounting segment of the vane segment, a lower guide rail 55 coupled with the lower mounting hook 22 of the mounting segment of the vane segment, (56).

Preferably, the upper guide rail 55 or the lower guide rail 56 has pin insertion holes into which a vane fixing pin for fixing the vane segment to the vane guide block is inserted.

Preferably, the turbine blade ring has coupling holes into which the vane fixing pins can be inserted, the coupling holes and the pin insertion holes are the same size, and the interval between the coupling holes is the same as the pin insertion hole Lt; / RTI >

Preferably, the base has a fixing hole for fixation to the ground.

Preferably, the apparatus for inspecting the assemblability of the vane segment further includes a comparator that is mounted on the vane guide block and compares the comparison result with a comparison target to determine whether the vane segment satisfies a specification for mounting the turbine blade ring, And a dummy vane which becomes a dummy vane.

Preferably, the dummy vane comprises: an outer wall (34) disposed at an inner diameter portion of the vane guide block; An inner wall (44) spaced from the outer wall (34) toward the center of the arc of the vane guide block; And a vane member connecting the outer side wall (34) and the inner side wall (44), the dummy vane being attachable to and detachable from the vane guide block.

Advantageously, the vane guide block has a guide rail coupled with mounting hooks (18, 22) formed in the vane segment to couple the vane segment to the turbine blade ring, the dummy vane being mounted on the mounting hook (38, 42) having the same shape as the guide rails (18, 22) and formed on the outer wall (34) and coupled to the guide rails.

The guide rails 55 and the lower guide rails 56 may be provided on the guide rails 55 and 55. The guide rails 55 and the lower guide rails 56 may be provided on the guide rails 55 and 55, And a lower mounting hook 42 coupled to the hook 38 and the lower guide rail 56.

Preferably, the apparatus for inspecting the assemblability of the vane segment further includes a vane fixing pin for fixing the dummy vane to the vane guide block.

The upper guide rail 55 or the lower guide rail 56 may have pin insertion holes and the upper installation hook 38 or the lower installation hook 42 may be formed in a shape corresponding to the pin insertion holes And the dummy vane is fixed to the vane guide block by the vane fixing pin inserted into the pin insertion holes through the through hole.

The outer wall 34 of the dummy vane may be vertically arranged so as to correspond to the outer slot 16 formed along the vertical direction on the outer wall 14 of the vane segment provided in the vane guide block adjacent to the dummy vane And an outer slot 36 formed therethrough.

Preferably, the inner side wall 44 of the dummy vane is provided with an inner slot 26 formed in the inner side wall 24 of the vane segment provided in the vane guide block adjacent to the dummy vane, And has an inner slot 46 formed along the direction.

The apparatus for inspecting the assemblability of the vane segment according to the preferred embodiment of the present invention has the following effects.

First, it is possible to provide an apparatus for inspecting the assemblability of a vane segment, which can check whether a vane segment has a predetermined size and shape.

Secondly, it is possible to provide a vane segment assembly inspecting apparatus that is compact compared to the actual turbine size while being capable of checking the assemblability of the vane segment.

Third, it is possible to repair and repair not only the upper side of the vane segment but also the lower side, and it is not necessary to detach and reattach the vane segment in order to repair and repair the lower side of the vane segment.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate preferred embodiments of the invention and, together with the description of the invention given above, serve to further the understanding of the technical idea of the invention, And should not be construed as interpretation.
1 is a perspective view of a vane segment;
FIG. 2 is a perspective view of an apparatus for inspecting the assemblability of a vane segment according to a preferred embodiment of the present invention, in which a dummy vane is detached from a vane guide block.
3 is a plan view of the dummy vane.
4 is a right side view of the dummy vane.
FIG. 5 is a perspective view of an apparatus for inspecting the assemblability of a vane segment according to a preferred embodiment of the present invention, in which a dummy vane is coupled to a vane guide block.
6 is a perspective view showing a state in which a vane segment is coupled to the apparatus for inspecting the assemblability of the vane segment shown in Fig.
7 is a partial enlarged view of an outer wall of a vane segment coupled to an assemblage inspection apparatus according to a preferred embodiment of the present invention.
8 is a partial enlarged view of an inner wall of a vane segment coupled to an assemblage inspection apparatus according to a preferred embodiment of the present invention.
9 is a view illustrating a state in which an outer wall of a vane segment is calibrated using an assemblage inspection apparatus according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus for inspecting the assemblability of a vane segment according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention. Therefore, the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

In the drawings, the size of each element or a specific part constituting the element is exaggerated, omitted or schematically shown for convenience and clarity of description. Therefore, the size of each component does not entirely reflect the actual size. In the following description, it is to be understood that the detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 2 is a perspective view of an apparatus for inspecting the assemblability of a vane segment according to a preferred embodiment of the present invention, in which a dummy vane is detached from a vane guide block.

Referring to FIG. 2, an apparatus for inspecting the assemblability of a vane segment 10 according to a preferred embodiment of the present invention includes a vane guide block 54 A base 52 capable of supporting the load of the vane guide block 54 and the vane segment 10 and a load transmitting portion 52 for transmitting the load of the vane guide block 54 and the vane segment 10 to the base 52 And a support bracket (62).

The vane guide block 54 is formed in an arc shape having the same radius of curvature as the radius of curvature of the turbine blade ring provided in the fixed vane assembly of the turbine. In other words, the vane guide block 54 has a shape corresponding to a circular section, which is a part of the entire circumference of the turbine blade ring. As already described, since the vane segment 10 is mounted on the inner diameter portion of the turbine blade ring, the vane segment 10 can be mounted on the vane guide block 54 as well.

The vane guide block 54 has guide rails 55, 56. 1, an upper installation hook 18 and a lower installation hook 22 for coupling the vane segment 10 to the turbine blade ring are respectively formed at the upper and lower ends of the outer slot 16, respectively. The guide rails 55 and 56 of the vane guide block 54 include an upper guide rail 55 coupled with the upper mounting hook 18 and a lower guide rail 55 coupled with the lower mounting hook 22, 56). The upper mounting hook (18) and the lower mounting hook (22) of the vane segment (10) can be inserted into a vane fixing pin (58) for fastening the vane segment (10) (18) is formed with a through hole (19). In addition to fixing the vane segment 10 firmly to the turbine blade ring, the vane pin 58 may also be used to securely fix the vane segment 10 to the vane guide block 54 Is used. Therefore, the upper guide rail 55 has the pin insertion holes 57 into which the vane fixing pin 58 is inserted. In order to fix the vane segment 10 to the turbine blade ring, coupling holes (not shown) are formed in the turbine blade ring, and a vane fixing pin 58 is inserted into the coupling holes. The pin insertion holes 57 are formed in the same size as the coupling holes (not shown) formed in the turbine blade ring, and the interval between the coupling holes is the same as the interval between the pin insertion holes 57 .

However, the pin insertion holes 57 are not necessarily formed only in the upper guide rail 55, but may be formed in the lower guide rail 56. Of course, in this case, the vane fixing pin 58 may be fitted and fixed in the pin insertion holes 57 formed in the lower guide rail 56. [ It is preferable that the vane fixing pin 58 is formed of a male screw and the pin insertion holes 57 are formed of a female screw so that the vane fixing pin 58 can be freely inserted and removed a plurality of times in the pin insertion holes 57 .

The base 52 is positioned below the vane guide block 54 and rests on the ground. Herein, it is clear that the paper is used not only in the dictionary meaning but also in the meaning including a work table, a table, etc. in which the inspection apparatus 100 can be stably placed. Since the vane guide block 54 is located at the upper portion of the inspection apparatus 100, when the vane segment 10 is mounted on the vane guide block 54, the center of gravity of the inspection apparatus 100 is raised. Therefore, in order to prevent the inspection apparatus 100 from being rolled over and to be able to work safely, the base 52 has fixing holes 53 for fixation on the ground. The base 52 can be fixed to the ground by inserting bolts or fixing pegs into the fixing holes 53. Further, a ring bolt may be inserted into the fixing hole 53 to carry or salvage the inspection apparatus 100.

The support bracket 62 connects the vane guide block 54 and the base 52 and allows the load of the vane guide block 54, the vane segment 10 coupled thereto and the dummy vane 30, 52). The support bracket 62 should have a strength sufficient to support the load of the vane guide block 54.

The joint pin 64 passes through the upper end of the support bracket 62 and is fitted to the end of the vane guide block 54. The end of the vane guide block 54 is fixed to the support bracket 62 by the joint pin 64, As shown in Fig. The lower end of the support bracket 62 is fixed to the base 52.

5 is a perspective view of a device for inspecting the assemblability of a vane segment according to a preferred embodiment of the present invention, in which a dummy vane is coupled to a vane guide block FIG.

Referring to Figs. 3, 4, and 5, the dummy vane 30 will be described.

The dummy vane 30 is a component constituting the inspection apparatus 100 together with the vane guide block 54 and the base 52 and the support bracket 62. Like the vane segment 10, Can be mounted on the vane guide block (54).

It is possible to mount the vane segment 10 that has undergone maintenance and repair to the vane guide block 54 to inspect the size and shape even if the dummy vane 30 is not present. If only the completed vane segments 10 are combined, it may be difficult to ascertain whether the correct maintenance / repair has been performed on these vane segments 10. Thus, the dummy vane 30 serves as a reference for determining whether the vane segment 10 meets specifications that can be mounted on the turbine blade ring and whether the vane segment 10 has been deformed.

The dummy vane 30 includes an outer wall 34 disposed at the inner diameter portion of the vane guide block 54 and an inner wall 44 spaced from the outer wall 34 toward the center of the arc of the vane guide block 54, And a vane member 32 connecting the outer side wall 34 and the inner side wall 44. Then, the dummy vane 30 can be mounted on or removed from the vane guide block 54. [ Since the dummy vane 30 serves as a reference for comparison with the vane segment 10, it is preferable that the dummy vane 30 is made of a material more resistant to deformation and breakage than the vane segment 10. In addition, the vane member 32 of the dummy vane 30 may be configured to be more vane than the airfoil vane 12 of the vane segment 10 to minimize the relative position of the outer wall 34 and the inner wall 44 to a minimum. It may be formed thick. On the other hand, the weight of the dummy vane 30 may be larger than that of the airfoil vane 12 due to the vane member 32 that is thicker than the airfoil vane 12 to increase the strength. Therefore, the vane member 32 may be pierced to reduce the weight of the dummy vane 30.

Mounting hooks 38 and 42 are formed on the outer side wall 34 of the dummy vane 30 so as to be overlapped with the guide rail. More specifically, the installation hooks 38 and 42 include an upper installation hook 38 having the same shape as the upper installation hook 18 of the vane segment 10 and a lower installation hook 38 of the vane segment 10 The upper mounting hook 38 is coupled to the upper guide rail 55 and the lower mounting hook 42 is coupled to the lower guide rail 56 .

A vane fixing pin 58 is used to firmly fix the dummy vane 30 to the vane guide block 54 while the installation hooks 38 and 42 are coupled to the guide rails 55 and 56. [ A pin insertion hole 57 is formed in the upper guide rail 55 and a pin insertion hole 57 is formed in the upper side guide hook 55 of the upper installation hook 38 so that the vane fixing pin 58 can be inserted. A through hole 39 is formed at a position corresponding to the insertion hole 57. The dummy vane 30 is fixed to the vane guide block 54 by the vane fixing pin 58 inserted into the pin insertion hole 57 through the through hole 39. [

The outer wall 34 of the dummy vane 30 is formed on the outer wall 14 of the vane segment 10 installed in the vane guide block 54 adjacent to the dummy vane 30 in a vertical direction And an outer slot 36 formed along the vertical direction to correspond to the outer slot 16. The inner wall 44 of the dummy vane 30 is vertically provided on the inner wall 24 of the vane segment 10 installed in the vane guide block 54 adjacent to the dummy vane 30 And an inner slot 46 formed along the vertical direction so as to correspond to the inner slot 26 formed along the inner slot.

FIG. 6 is a perspective view illustrating a state in which a vane segment is coupled to the assemblage inspection apparatus of the vane segment shown in FIG. 5, and FIG. 7 is a perspective view of a vane segment, FIG. 8 is a partial enlarged view of an inner wall of a vane segment coupled to the assemblage inspection apparatus according to the preferred embodiment of the present invention, and FIG. 9 is a partial enlarged view Thereby correcting the outer wall of the vane segment.

The process of inspecting the assemblability of the vane segment 10 that has been repaired and repaired will be described with reference to FIGS.

The mounting hooks 38 and 39 of the dummy vane 30 are inserted into the guide rails 55 and 56 of the vane guide block 54 and then the dummy vane 30 is inserted into the vane guide block 54 ). It is confirmed that the mounting hooks 18 and 22 of the vane segment 10 are inserted smoothly and smoothly when they are inserted into the guide rails 55 and 56. If it is not smoothly inserted, the installation hooks 18 and 22 of the vane segment 10 are twisted or deformed, so that the installation hooks 18 and 22 must be repaired and repaired.

After the installation hooks 18 and 22 are smoothly inserted and the vane segment 10 is securely fixed to the vane guide block 54 by the vane retaining pin 58, Confirm that the specified reference value is met. Then, it is checked whether the outer side walls 14 of the vane segments 10 have a certain curvature and whether the inner side walls 24 have a constant curvature.

It is also checked whether or not the outer vane sealer 2 is smoothly inserted into the space defined by the outer slots 16A and 16B formed on the outer side walls 14A and 14B of the adjacent vane segments 10 (See Fig. 7), the inner vane sealer 4 is smoothly inserted into the space defined by the outer slots 26A, 26B formed in the inner walls 24A, 24B of the vane segments 10 adjacent to each other (See FIG. 8). At the same time, it is checked whether adjacent airfoil vanes 12A and 12B are arranged naturally with each other (see Figs. 7 and 8).

The above inspection process is performed on several tens of vane segments 10, and correction and correction should be performed on the vane segments 10 having a problem in the inspection process. 9 shows an exemplary process of calibrating the outer wall 14 of the vane segment 10. [ If the outer wall 14 of the vane segment 10 is curved toward the inner wall 24 as shown in Fig. 9, the frame 72 of the calibrating device 70 is fixed to the outer wall 14 to be calibrated And the vane guide block 54 and rotate the handle 74 to unfold the outer wall 14 again. The calibrating device 70 is merely an example, and a hydraulic device or a tool utilizing a striking force may be used to calibrate the vane segment 10, for example.

9 shows an example of calibrating the upper end of the outer wall 14 of the vane segment 10 but since the vane guide block 54 is rotatable around the joint pin 64, When inspecting or calibrating the lower end, inspection and calibration can be performed by rotating the vane guide block 54. Therefore, according to the inspection apparatus 100 of the present invention, there is an advantage that a troublesome procedure such as removing and reattaching the vane segment 10 is unnecessary in order to repair and repair the lower side of the vane segment 10. In addition, since the vane guide block 54 has an arc shape, which is a part of the circumference, not the circumference, the size of the inspection apparatus 100 is very compact compared to the size of the actual turbine.

The large hole located at the center of the base 52 out of the fixing holes 53 formed in the base 52 allows the vane guide block 54 to be rotated about the joint pin 64, 54 of the inspection apparatus 100. The fixing holes 53 improve the stability of the inspection and calibration work.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not to be limited to the details thereof and that various changes and modifications will be apparent to those skilled in the art. And various modifications and variations are possible within the scope of the appended claims.

2: outer vane sealer 4: inner vane sealer
10: Vane segment 12: Airfoil vane
14, 34: outer side wall 16, 36: outer slot
18, 38: upper side mounting hook 19, 39: through hole
22, 42: lower installation hook 24, 44: inner side wall
26, 46: inner slot 28: cooling hole
30: Dummy vane 32: Vane member
52: base 53: fixing hole
54: Vane guide block 55: Upper guide rail
56: lower guide rail 57: pin insertion hole
58: Vane fixing pin 62: Support bracket
64: joint pin 70: correcting device
100: Vane segment assemblability inspection device

Claims (15)

A vane guide block formed in an arc shape having a radius of curvature equal to the radius of curvature of the turbine blade ring to which the vane segment is mounted and on which the vane segment can be mounted;
A base disposed below the vane guide block and positioned on the ground to support a load of the vane guide block and the vane segment; And
And a support bracket connecting the vane guide block to the base and transmitting a load of the vane guide block and the vane segment to the base,
The vane guide block includes:
A guide rail coupled to the mounting hooks (18, 22) formed in the vane segment to couple the vane segment to the turbine blade ring,
The guide rails
An upper guide rail 55 which is engaged with the upper installation hook 18 of the installation segment of the vane segment and a lower guide rail 56 which is engaged with the lower installation hook 22 of the installation segment of the vane segment,
The upper guide rail (55) or the lower guide rail (56)
And a pin insertion hole into which a vane fixing pin for fixing the vane segment to the vane guide block is inserted. The method according to claim 1,
An end of the vane guide block is rotatably coupled to one end of the support bracket,
And the other end of the support bracket is fixed to the base. delete delete delete The method according to claim 1,
Wherein the turbine blade ring has coupling holes into which the vane fixing pin can be inserted,
Wherein the coupling holes and the pin insertion holes are the same in size and the interval between the coupling holes is the same as the interval between the pin insertion holes. The method according to claim 1,
Characterized in that the base has a fixing hole for fixing to the ground. The method according to claim 1,
And a dummy vane mounted on the vane guide block, the dummy vane being a comparison object for determining whether the vane segment satisfies a specification for mounting the turbine blade ring and whether or not the vane segment is deformed. , A device for inspecting the assemblability of the vane segment. 9. The method of claim 8,
The dummy vane,
An outer wall (34) disposed at an inner diameter portion of the vane guide block;
An inner wall (44) spaced from the outer wall (34) toward the center of the arc of the vane guide block; And
And a vane member connecting the outer side wall (34) and the inner side wall (44)
Wherein the dummy vane is attachable to and detachable from the vane guide block. 10. The method of claim 9,
Characterized in that the dummy vane has mounting hooks (38, 42) which are identical in shape to the mounting hooks (18, 22) and are formed on the outer wall (34) Gender checking device. 11. The method of claim 10,
The installation hooks 38 and 42 of the dummy vane are composed of an upper installation hook 38 coupled to the upper guide rail 55 and a lower installation hook 42 connected to the lower guide rail 56 Of the vane segment. 12. The method of claim 11,
Further comprising a vane pin for fixing the dummy vane to the vane guide block. 13. The method of claim 12,
The upper installation hook 38 or the lower installation hook 42 has a through hole formed at a position corresponding to the pin insertion holes,
Wherein the dummy vane is fixed to the vane guide block by the vane fixing pin inserted into the pin insertion holes through the through hole. 10. The method of claim 9,
The outer wall 34 of the dummy vane is formed in the outer side wall 14 formed on the vane segment adjacent to the dummy vane and formed in the up and down direction, And a slot (36). 10. The method of claim 9,
The inner side wall 44 of the dummy vane is disposed in the inner side wall 24 of the vane segment provided in the vane guide block adjacent to the dummy vane so as to correspond to the inner side slot 26 formed along the up- And an inner slot (46) formed therein.

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