Blade ring rollout roller

A roller structure for a rotary machine has a plate that is removably engagable with the outer casing of such rotary machines, a shaft portion attached to the plate and insertable through the outer casing, a bearing mounted for rotation upon the shaft portion, and a selected plurality of shims having different thicknesses engagable upon the shaft portion to adjust the position of the bearing with respect to an inner casing of the rotary machine.

BACKGROUND OF THE INVENTION 
1. Field of the Invention 
This invention relates generally to turbines and compressors having inner 
and outer casings which encompass the rotors and that are divided along a 
horizontal plane into upper and lower semi-cylindrical halves, and more 
particularly to an improved method and apparatus for "rolling out" the 
lower half of the outer casing without the necessity for removing the 
rotor. 
2. Statement of the Prior Art 
Axial flow turbines and compressors are typically provided with an inner 
casing that contains the rows of stationary nozzles for directing the 
motive fluid past the rotor blading. Such conventional inner casings are 
disposed within an outer casing structure for many well known reasons. 
Since turbines and compressors must, from time-to-time, be disassembled for 
servicing and/or repairs, the inner and outer casings are divided into 
upper and lower halves that are removably joined to each other by bolts at 
suitable horizontal flanges. In a similar manner, the nozzle rows are also 
divided into upper and lower semi-circular halves so that they may be 
removed with the associated inner casing half as a unit, and then 
subsequently removed from the casing for repair or replacement. 
Although the upper half of the inner casing is readily accessible for 
removal by first removing the upper half of the outer casing, the lower 
half of the inner casing has not been so easily removable. This problem is 
primarily due to the rotor's being supported in the lower half of the 
outer casing which interferes with such removal. It would, therefore, be 
desirable to provide methods and apparatus which facilitate repairs to or 
replacement of turbines and compressors having inner and outer casings 
which encompass the rotors and that are divided along a horizontal plane 
into upper and lower semi-cylindrical halves. 
One known means which facilitates such repairs and replacement is disclosed 
and claimed in U.S. Pat. No. 3,493,212--Scalzo et al., which is assigned 
to the assignee of the present invention, and is incorporated herein by 
reference. Scalzo et al. teach an arrangement which not only permits ready 
removal of the lower half of the inner casing, together with the lower 
halves of the stationary nozzle rows, but also permits the removal without 
any preliminary removal of the rotor. 
The above arrangement is attained by providing a roller structure that is 
insertable into the lower half of the outer casing and extends into 
rollable supporting relation with the inner casing. In such a manner, the 
inner casing is permitted to be rolled about its central longitudinal axis 
to an uppermost position in which it is free of the rotor, at which time 
it may be readily lifted clear of the lower half of the outer casing for 
repairs or replacement. One problem with the roller structure that is 
shown and claimed in Scalzo et al. is that it requires a number of 
precision machined parts which unnecessarily complicate its manufacturing 
process and increase the cost therefor. 
SUMMARY OF THE INVENTION 
It is a general object of the present invention to provide methods and 
apparatus which facilitate repairs to or replacement of turbines and 
compressors having inner and outer casings which encompass the rotors and 
that are divided along a horizontal plane into upper and lower 
semi-cylindrical halves. 
More specifically, it is an object of the present invention to provide an 
improved roller structure for such turbines and compressors. 
Briefly, these and other objects according to the present invention are 
accomplished by a roller structure have a plate that is removably 
engagable with the outer casing of such turbines or compressors, a shaft 
portion attached to the plate and insertable through the outer casing, a 
bearing mounted for rotation upon the shaft portion, and a selected 
plurality of shims having different thicknesses engagable upon the shaft 
portion to adjust the position of the bearing with respect to the inner 
casing of the turbine or compressor. 
Other objects, advantages and novel features according to the present 
invention will become more apparent from the following detailed 
description thereof when considered in conjunction with the accompanying 
drawings wherein:

DETAILED DESCRIPTION OF THE INVENTION 
Referring now to the drawings, wherein like numbers designate like or 
corresponding parts throughout the several views, there is shown in FIGS. 
1 and 2, an axial flow power plant or machine 10 of a known type which 
illustrates prior art roller structures 38 for "rolling out" an inner 
casing 12 thereof. As is conventional, the turbine rotor 14 is provided 
with one or more annular rows of radially extending blades 20 extending 
past and cooperatively associated with a like number of annular rows of 
stationary nozzle blades 22. 
The stationary nozzle blades 22 are carried by suitable outer shroud rings 
24 received in a tubular inner "bade ring" or casing 26. As is 
conventional, the shroud rings 24 are divided into upper and lower halves 
(not shown), and in a like manner, the inner casing 26 is divided into 
upper and lower halves 26a and 26b which are joined together along 
horizontal flanges 28 by suitable bolts 30. In a typical manner, the inner 
casing 12 is maintained in concentric spaced relation with the outer 
casing 16 by a plurality of flanges, such as flange 32, which are keyed 
thereto by a suitable dowel pin 34. 
The lower outer turbine casing 16 is provided with two apertures 36 
disposed in radial alignment with the flange 32 on the inner casing 12. 
The apertures 36 are angularly displaced with the vertical centerline 
passing through the center C of the inner casing 12, for example on the 
order of about 30. However, this angle is not critical and may be 
considerably greater or less as desired. 
A roller structure 38 for insertion in each aperture is provided for 
attachment to the lower half of the outer casing 16. As is best shown in 
the enlarged detail of FIG. 2, when viewed in conjunction with FIG. 1, the 
roller structure 38 includes a mounting plate 40 having a tubular-shaped 
roller housing 42 attached thereto. The roller housing 42 is of about the 
same diameter as that of its mating aperture 36 in the outer casing 16. 
Received within the roller housing 42 is the roller 44 which is suitably 
supported for rotation by a journal and journal bearings (shown in 
phantom) within a cylindrical yoke 46. 
The cylindrical yoke 46 is held captive by the roller housing 42 and guided 
thereby for longitudinal movement therein as adjusted by a jack screw 48 
within a range of adjustment controlled by a pin 49 engaged to the 
cylindrical yoke 46. The plate 40 is bolted to the lower half of the outer 
casing 16 by conventional means such as a plurality of bolts 50 (FIG. 1), 
and a proper orientation of the roller 44 is assured through means of an 
indexing pin 52 which is engageable at a preselected point of the outer 
casing 16. 
As was previously explained herein above, the upper half 26a of the inner 
casing 26 is readily removed only after the upper half of the outer casing 
16 is first removed. Thereafter, however, the jack screws 48 must be 
screwed in a radially inward direction to urge the rollers 44 into 
forcible abutment with the peripheral flange 32. Such jacking movement is 
continued until the flange 32 is lifted clear of the inner surface 54 so 
that the inner casing 26 is rollably supported by the rollers 44 and 
freely rotatable relative to the lower half of the outer casing 16. 
Since the inner casing 26 is substantially balanced, only a small torque is 
required to rotate the lower half 26b thereof to the position occupied 
normally by the upper half 26a. This torque may, if desired, be applied by 
hand by the servicemen and after the lower half 26b of the inner casing 26 
is so positioned, it may be disassembled from the other half by removing 
the flange retaining bolts 30, and then lifted clear and removed entirely 
for service and required repairs as previously described. The thus 
repaired lower half 26b of the inner casing 26 and its nozzles blades 22 
may then be reinstalled and returned to its original position by reversing 
the above procedure. 
However, a more preferable and precise manner of rolling the lower half 26b 
of the inner casing 26 to the upper position, in view of its large 
inertia, is by employment of a pair of chain hoists 56. The chain hoists 
56 are anchored to the opposing outer lower half casing flanges by 
suitable eye bolts 58 and connected to suitable means 60 on the upper half 
of the inner casing 26. By manipulating the handle 62 of each hoist 56 in 
a manner to pull up chain from one hoist 56 while letting out chain from 
the other hoist 56, the inner casing 26 may be rotated with a high degree 
of precision and control in either direction. 
As was noted herein above with respect to the roller structures 38, 
however, the roller structures 38 such as hat which is illustrated in FIG. 
2 are not only expensive, but also are comprised primarily of precision 
machined parts. Therefore, and referring now to FIG. 3, an improved roller 
structure 63 according to the present invention will be described. 
In accordance with a first important aspect of the present invention, the 
improved roller structure 63 has a minimum of component parts, none of 
which require a great deal of precise machining. A conventional, 
"off-the-shelf" Camrol bearing 66 (e.g., Part No. CYR-1-S or Part No. 
CCYR-1-S of McGill Mfg. Co., Inc.) is supported within a shaft portion 68 
by a conventional, "off-the-shelf" dowel pin 70 (e.g., Part No. 98381AS85 
at page 1791 of McMaster-Carr Catalog No. 84) that is press-fitted within 
a bore 72 through the arm portions formed on either side of a 
bearing-receiving cavity 74 that is formed in the shaft portion 68. 
Like the prior art roller structure 38 shown in FIG. 2, the improved roller 
structure 63 of FIG. 3 includes a plate 40 with an indexing pin 52 and a 
plurality of bolt-receiving holes 64 bore therethrough to mount the roller 
structure 63 in position within the apertures 36. However, the improved 
roller structure 63 unlike the prior art roller structure 38 does not have 
a jacking screw or a yoke which complicate the machining processes 
required to manufacture such prior art roller structures. 
In lieu of the jacking screws, the improved roller structure 63 utilizes a 
plurality of shims 76 of various thicknesses which are formed in a manner 
similar to the formation of the plates 40 to adjustably position the 
bearing 66 into abutment with the inner casing 26. That is, each of the 
shims 76 includes a plurality of bolt-receiving holes 78 at points 
corresponding to the positions of the bolt-receiving holes 64 formed in 
the plate 40. Moreover, each of the shims 76 include a hole 80 through 
which the indexing pin 52 is fitted to the outer casing 16, and a central 
large hole 82 for engagement of the shim 76 upon the shaft portion 68 of 
the improved roller structure 63. 
Since the amount of radially inward adjustment of the bearing 66 necessary 
to lift the inner casing 26 clear of the inner surface 54 is of a small 
magnitude that is substantially invariant within a small range of error, 
all that is necessary for the servicemen to "roll out" the inner casing 26 
is to select one or more shims 76 of suitable thickness, place those shims 
76 upon the shaft portion 68 of the improved roller structure 63, and bolt 
such improved roller structure 63 to the outer casing 12. Further 
adjustments necessitated either by wear and tear of the turbine or 
compressor or by the site variations experienced during the erection of 
the turbine or compressor can be accomplished easily through the placement 
of additional shims 76 as necessary. 
Obviously, many modifications and variations are possible in light of the 
above teachings. It is to be understood, therefore, that within the scope 
of the appended claims the invention may be practiced otherwise than as is 
specifically described herein.