ASSEMBLY OR DISASSEMBLY METHOD FOR STEAM TURBINE CASING
[Technical Field]
The present invention relates to an assembly or disassembly method for a casing of a steam turbine, and more particularly, to a preferred assembly or disassembly method for a casing of a steam turbine where an inner casing is assembled in or disassembled from an outer casing of the steam turbine.
[Background Art]
In the steam turbine, the inner casing is normally installed in the outer casing, and the outer casing and the inner casing have their respectively formed seats locked to each other with bolt or the like. It is a common practice to assemble components such as rotor in the above-described inner casing.
Japanese Patent Application Laid-Open No. 1994-55385 is cited as one of the prior art documents related to the assembly of the steam turbine casing.
[Summary of Invention] [Technical Problem]
In the above-described prior art, if an interlocking

part (seat) between the inner casing and the outer casing to which the inner casing is mounted and a gravity center of the inner casing do not coincide with each other at the time of assembly or disassembly of these casings, the inner casing may lose balance and tilt.
Once the inner casing tilts, it is difficult to correct the tilt of the inner casing so that galling occurs at the interlocking part between the outer casing and the inner casing. This may result in a problem that the inner casing cannot be disassembled from the outer casing at the time of disassembly.
Accordingly, the present invention has been made in view of the foregoing, and an object of the present invention is to provide an assembly or disassembly method for a steam turbine casing, the method adapted to prevent the tilt of the inner casing even though a fixing position (interlocking part between the inner casing and the outer casing) to lock the inner casing in place and the gravity center of the inner casing do not coincide with each other at the time of casing assembly or disassembly, and to permit the inner casing to be assembled in or disassembled from the outer casing without mutual interference. [Solution to Problem]
According to an aspect of the present invention for achieving the above object, an assembly or disassembly

method for a casing of a steam turbine in which an inner casing is installed in an outer casing and the inner casing and the outer casing are fixed at a fixing position, wherein when the inner casing is assembled or disassembled in a state where the fixing position and a gravity center of the inner casing are at different positions in an axial direction of the inner casing, a tilt adjusting jig is interposed between the outer casing and the inner casing, and the assembly or disassembly of the casing is performed while maintaining a tilt of the inner casing with the tilt adjusting jig. [Advantageous Effects of Invention]
According to the present invention, even though the fixing position (interlocking part between the inner casing and the outer casing) to fix the inner casing in position and the gravity center of the inner casing do not coincide with each other at the time of assembly or disassembly of the casing, the tilt of the inner casing can be prevented, and the inner casing can be assembled in or disassembled from the outer casing without mutual interference.
[Brief Description of Drawings]
Fig. 1 illustrates a built-up sectional view of an inner casing and an outer casing of a steam turbine to which an assembly or disassembly method for steam turbine

casing according to the present invention is applied,
Fig. 2 illustrates a perspective view of the inner casing of Fig. 1,
Fig. 3 illustrates a plan view of the inner casing and outer casing of Fig. 1 at the time of assembly as omitting an upper half of the outer casing,
Fig. 4 illustrates an enlarged view of an A portion of Fig. 3, and
Fig. 5 illustrates a diagram of a tilt adjusting jig which is applied to the assembly or disassembly method for steam turbine casing of the present invention, as viewed from the left side of Fig. 4.
[Description of Embodiments]
The assembly or disassembly method for a casing of a steam turbine according to the present invention is explained as follows on the basis of the illustrated embodiment. In the drawings, the same reference signs are used for the same components.
Fig. 1 illustrates a built-up sectional view of an inner casing and an outer casing of a steam turbine to which an assembly or disassembly method for steam turbine casing according to the present invention is applied.
As illustrated in Fig. 1, an inner casing 6 is assembled in an outer casing 5. The inner casing 6 and the

outer casing 5 are interlocked with each other at a fixing position (e.g., seat) 1 (not shown in the sectional view of Fig. 1 but refer to Fig. 4 (to be described hereinafter)).
Fig. 2 illustrates a perspective view of the inner casing 6 illustrated in Fig. 1.
In a state before some components (a rotor and the like) are assembled in the inner casing 6, a gravity center 2 of the inner casing 6 is normally located at a position axially shifted from a fixing position 1 of the inner casing 6 and the outer casing 5, as illustrated in Fig. 2. If the inner casing 6 is in this state, therefore, the inner casing 6 is liable to tilt from the fixing position 1 toward the gravity center 2 (direction of an arrow 3).
When the inner casing 6 tilts, galling may occur at an interlocking part 4 between concavity and convexity of the inner casing 6 and the outer casing 5.
Fig. 3 illustrates a plan view of the inner casing 6 and the outer casing 5 of Fig. 1 at the time of assembly as omitting an upper half of the outer casing 5.
In a case where the inner casing 6 is liable to tilt in the direction of the arrow 3, as illustrated in Fig. 2, a tilt adjusting jig 7 is interposed between the outer casing 5 and the inner casing 6 according to the embodiment so that the tilt of the inner casing 6 is maintained by the tilt adjusting jig 7. Otherwise, in a case where the inner

casing 6 tilts further in the direction of the arrow 3, such a tilt is corrected by means of the tilt adjusting jig 7.
The above-described tilt adjusting jig 7 includes a bolt 7a as a first bolt, a block 7b and a fixing bolt (a hexagon socket head cap bolt) 7c as a second bolt. A through screw hole is formed at one end side of the block 7b, and the bolt 7a is screwed into the screw hole of the block 7b. The bolt 7a goes through the block 7b, and the tip of the bolt 7a is pressed against the outer casing 5. If necessary, a patch plate is placed between the tip of the bolt 7a and the outer casing 5. A through hole into which the fixing bolt 7c is inserted is formed on the other end side of the block 7b. The fixing bolt 7c goes through the block 7b and is screwed into a screw hole formed in the inner casing 6 to fix the block 7b to the inner casing 6. The inner casing 6 is pushed up via the fixing bolt 7c by tightening the bolt 7a so that the tilt of the inner casing 6 can be adjusted.
Fig. 4 illustrates an enlarged view of an A portion of Fig. 3. Fig. 5 illustrates a diagram of the tilt adjusting jig, as viewed from the left side of Fig. 4, which is applied to the assembly or disassembly method for steam turbine casing according to the embodiment.
As illustrated in Fig. 4 and Fig. 5, the tilt

adjusting jig 7 of the embodiment is fixed as follows. The block 7b is fastened to the inner casing 6 by inserting the fixing bolt 7c through the block 7b. Subsequently, the tilt adjusting jig 7 is pressed against the outer casing 5 with the bolt 7a.
The fixing bolt 7c is disposed between inner casing fastening portions 9 for fastening together an upper half 6a and a lower half 6b of the inner casing 6.
A V-shaped portion illustrated by a dashed line in vicinity of the fixing bolt 7c is a notched portion 8 (see Fig. 2 for more specific position thereof) which is provided at a part (where the fixing bolt 7c is located) of the upper half 6a of the inner casing 6. This notched portion 8 permits the use of the tilt adjusting jig 7 to despite the existence of the upper half 6a of the inner casing 6.
Specifically, the notched portion (space area) 8 permits the fixing bolt 7c to be tightened when the tilt adjusting jig 7 is mounted to the lower half 6b of the inner casing 6 by means of the fixing bolt 7c. Thus, the tilt adjusting jig 7 can be mounted to the lower half 6b of the inner casing 6.
The tilt adjustment of the inner casing 6 is accomplished by using the tilt adjusting jig 7 according to the embodiment. Referring to Fig. 5, tightening the bolt

7a produces a force for the block 7b to push up the inner casing 6. The force acts to correct the tilt of the inner casing 6 for adjustment of the tilt of the inner casing 6.
Specifically, in conjunction with tightening the bolt 7a, the force pushing up the inner casing 6 fastened to the other end of the block 7b by means of the fixing bolt 7c is produced in the block 7b, one end of which is fixed in place by means of the bolt 7a. This force acts to correct the tilt of the inner casing 6 for tilt adjustment of the inner casing 6.
A lower base surface of the block 7b has a structure (step structure) where an inner casing side surface 7bl of the block and an outer casing side surface 7b2 of block are varied in height so that the outer casing side surface 7b2 of the block 7b and a top side 5bl of the lower half 5b of the outer casing 5 are in non-contact relation.
This relation permits the tilt adjusting jig 7 to be assembled in even in a state where the inner casing 6 is tilted.
The vertical line immediately to the right of the tilt adjusting jig 7 as seen in Fig. 5 is a wall surface 6al of the inner casing 6 when the notched portion 8 illustrated in Fig. 4 is formed.
The inner casing 6 is formed with the notched portion 8, via which the tilt adjusting jig 7 is fastened to the

inner casing 6 by means of the fixing bolt 7c. The tilt adjusting jig 7 supports the lower half 6b of the inner casing 6 when the outer casing 5 and the inner casing 6 are interlocked at the fixing position 1. Subsequently, the tilt adjusting jig is used till an assembly step of the upper half 6a of the inner casing 6.
Just as described, the tightening of the bolt 7a causes the block 7b to apply the force pushing up the inner casing 6 so that the tilt of the inner casing 6 is adjusted. Therefore, a correct assembly of the components (the rotor and the like) inside the inner casing 6 can be ensured by installing the tilt adjusting jig 7 to correct the tilt of the inner casing 6 and then to maintain the inner casing 6 in the correct position.
According to the embodiment, even though the fixing position (interlocking part 4) of the inner casing 6 and the gravity center 2 of the inner casing 6 do not coincide with each other at the time of disassembly or assembly of the casings of the steam turbine, the tilt of the inner casing 6 can be adjusted by means of the adjusting jig 7. This permits the inner casing 6 to be assembled to the outer casing 5 or to be disassembled from the outer casing 5 without mutual interference. When the assembly of the inner casing 6 is completed, the tilt adjusting jig 7 is removed to be ready for mounting an upper half of the outer

casing 5.
The embodiment illustrates the example where the tilt adjusting jig 7 is used when the inner casing 6 is assembled to the outer casing 5. Further, the tilt adjusting jig 7 is also usable when the inner casing 6 is disassembled from the outer casing 5 so long as the adjusting jig 7 is used the same way.
It is noted that the present invention is not limited to the above-described embodiment but can include a variety of modifications. The foregoing embodiment, for example, is the detailed illustration to clarify the present invention. The embodiment is not necessarily limited to those including all the components described above. Some component of one embodiment can be replaced by some component of another embodiment. Further, some component of one embodiment can be added to the arrangement of another embodiment. A part of the arrangement of each embodiment permits addition of some component of another embodiment, the omission thereof or replacement thereof.
[Reference Signs List]
1: fixing position of inner casing and outer casing
2: gravity center of inner casing
3: tilt direction of inner casing
4: interlocking part between concavity and convexity of

inner casing and outer casing
5: outer casing
5b: lower half of outer casing
5bl: top side of lower half of outer casing
6: inner casing
6a: upper half of inner casing
6b: lower half of inner casing
6al: wall surface of inner casing
7: tilt adjusting jig
7a: bolt of tilt adjusting jig
7b: block of tilt adjusting jig
7bl: inner casing side surface of block
7b2: outer casing side surface of block
7c: fixing bolt of tilt adjusting jig
8: notched portion
9: inner casing fastening portion

[Claims] We claim
1. An assembly or disassembly method for a casing of a
steam turbine in which an inner casing (6) is installed in
an outer casing (5), and the inner casing (6) and the outer
casing (5) are fixed at a fixing position (1),
the method is characterized in that when the inner casing (6) is assembled or disassembled in a state where the fixing position (1) and a gravity center (2) of the inner casing (6) are at different positions in an axial direction of the inner casing (6), a tilt adjusting jig (7) is interposed between the outer casing (5) and the inner casing (6), and the assembly or disassembly of the casing is performed while maintaining a tilt of the inner casing (6) with the tilt adjusting jig (7) .
2. The assembly or disassembly method for a casing of a
steam turbine as claimed in Claim 1,
the tilt adjusting jig (7) is fastened to the inner casing (6), and the assembly or disassembly of the casing is performed while maintaining the tilt of the inner casing (6) with the tilt adjusting jig (7).
3. The assembly or disassembly method for a casing of a

steam turbine as claimed in Claim 2,
the tilt adjusting jig (7) includes: a block (7b); a first bolt (7a); and a second bolt (7c), the block (7b) provided with a through screw hole at one end side and a through hole at the other end side, the first bolt (7a) screwed into the through screw hole and the tip of the first bolt (7a) pressed against the outer casing (5), and the second bolt (7c) inserted into the though hole and screwed into a screw hole formed in the inner casing (6), and
the inner casing (6) is pushed up via the second bolt (7c) by tightening the first bolt (7a) so that the tilt of the inner casing (6) is adjusted.
4. The assembly or disassembly method for a casing of a
steam turbine as claimed in Claim 3,
fixing the tilt adjusting jig (7) to the inner casing (6) is performed by inserting the second bolt (7c) through the block (7b) so as to fasten the block (7c) to the inner casing (6), followed by pressing the tilt adjusting jig (7) against the outer casing (5) with the first bolt (7a) so as to fix the tilt adjusting jig (7) in position.
5. The assembly or disassembly method for a casing of a
steam turbine as claimed in Claim 3 or 4,

the inner casing (6) includes an upper half (6a) and a lower half (6b), and
the inner casing (6) is formed with a notched portion (8) at place where the second bolt (7c) is located, and the tilt adjusting jig (7) is mounted to the lower half (6b) of the inner casing (6) by tightening the second bolt (7c) via the notched portion (8).
6. The assembly or disassembly method for a casing of a
steam turbine as claimed in any one of Claims 3 to 5,
the inner casing (6) and the outer casing (5) each include an upper half and a lower half, and
the tilt of the inner casing (6) is adjusted by: tightening the first bolt (7a) to bring a tip of the first bolt (7a) into abutment against a top side (5bl) of the lower half (5b) of the outer casing (5); and further tightening the first bolt (7a) to produce, in the block
(7b) having the one end side fixed in position by the first bolt (7a), a force pushing up the inner casing (6) secured to the other end side of the block (7b) by the second bolt
(7c), so that the force acts to correct the tilt of the inner casing (6).
7. The assembly or disassembly method for a casing of a
steam turbine as claimed in Claim 6,

a lower base surface (7bl, 7b2) of the block (7b) has a step structure where an inner casing side surface (7bl) and an outer casing side surface (7b2) are varied in height, and
when the tilt of the inner casing (6) is adjusted, the step structure permits the assembly of the tilt adjusting jig (7) even in a state where the inner casing (6) is tilted.