dial indicator 를 이용한 shaft alignment 의 이해와 절차. 2 introductions what exactly is...
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Dial Indicator 를 이용한 Shaft Alignment 의 이해와 절차
Dial Indicator 를 이용한 Shaft Alignment 의 이해와 절차
![Page 2: Dial Indicator 를 이용한 Shaft Alignment 의 이해와 절차. 2 Introductions What exactly is shaft alignment? Rotating axes must be colinear during operation](https://reader036.vdocuments.net/reader036/viewer/2022062300/56649d815503460f94a660f8/html5/thumbnails/2.jpg)
2
Introductions
What exactly is shaft alignment?
Rotating axes must be colinear during operation.
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3
Introductions
Type of misalignment
Parallel Misalignment Vertical & Horizontal offset
Angular Misalignment Vertical & Horizontal Angularity
Combined Misalignment Parallel Misalignment + Angular Misalignment
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Introductions
What is the objective of accurate alignment? To increase the operating lifespan of rotating machinery.
Reduce excessive vibration
Reduce bearing, coupling & seal failure.
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Introductions
What are the symptoms of misalignment? Premature bearing, seal, shaft, or coupling
failures.
Excessive radial and axial vibration.
High casing temperatures at or near the
bearings.
Excessive amount of oil leakage at the
bearing seals.
Loose foundation bolts or broken coupling
bolts.
The shafts are breaking (or cracking) at or
close to the inboard bearings or coupling
hubs.
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Introductions
Alignment Methods & Resolution
Laser
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Introductions
Alignment Tolerance
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Alignment Procedure
What does take to do each step in the alignment procedure?
1. Preparation - tools, people, training.
2. Obtain information on the machine being aligned.
3. Preliminary checks : Runout, soft foot, coupling, bearings, foundation, base plate, and piping
strain on the machines.
4. Measure the shaft positions.
5. Decide who needs to be moved (which way and how much) and then
physically reposition the machine(s) vertically, laterally and axially.
6. Install coupling and check for rotational freedom of drive train if
possible.
7. Run and check the machinery.
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Alignment Procedure
Preliminary checks : Foundation & Baseplate Pads
Piping Strain Vertical & Horizontal Limit = 0.05 mm
Runout
Shim-pack
Soft Foot Limit = 0.05 mm
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Alignment Procedure
Soft Foot checks Dial Gage
Feeler Gage
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Alignment Procedure
Runout Shaft & Coupling
Rolling Element BearingACCEPTABLE RACE RUNOUT, MILS/IN. (REFERENCED TO ROTATING CENTER)
Bearings mils/in.
Ball bearings 2.0
Cylindrical roller bearings 1.0
Plain bearings 1.0
Plain thrust bearings 0.5
Outer Race
Inner Race
TURBOLINK
TURBOLINK
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Alignment Procedure
Dial Indicator Plus & Minus Sign
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Alignment Procedure
Indicator Readings Amount of Offset = TIR/2, TIR: Total Indicator Readings
Top + Bottom = Right + Left
“B”1/100 mm
0
+20 +20
+40
0.20 mm
“B”
“A” α
α
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Alignment Procedure
Bar SAG
SAG =
TURBOLINK
TURBOLINK
0.05 mm
TURBOLINK
0.05 mm
TURBOLINK
TURBOLINK
Amount of SAG
TIR
2
Mandrel
( - )
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Alignment Procedure
Corrected Indicator Readings
True Indicator Readings = Measured Readings – Sag Readings
-
0.05 mmMachine “A”
0.15 mm
Machine “B”
of “A”CL
of “B”CL0.20 mmTRUE OFFSET
Measured
Readings
“B”
0
+15 +15
+30
SAG
Readings
0
-5 -5
-10
Corrected
Indicator
Readings
0
20 20
40
=
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Alignment Procedure
Alignment Methods Using Indicator Rim & Face Shaft Alignment
Reverse Shaft Alignment
Applications Rim & Face Shaft Alignment
Trains where one shaft can’t be rotated during the alignment process.
Machines with coupling hubs that are axially close to each other.
Machines that have large diameter couplings.
Small general purpose machines
Reverse Shaft Alignment Long span machines
Machines that require precision alignment.
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Rim & Face Shaft Alignment
Disadvantages Coupling hub runout will induce an error into the readings.
Radial runout up to 0.05 mm
Face runout up to 0.01 mm
Machines with sleeve bearings can have a face reading error. It is necessary to locate the rotor in a fixed axial position for each sweep.
On machines with a large axial floats,
– such as motor with sleeve bearings.
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Rim & Face Shaft Alignment
Typical Set-up
Moveable Machine
Fixed Machine
Rim Indicator
Face Indicator
NearFoot
FarFoot
Diameter at Face Indicator [ A ]
Distance to Near Foot [ B ]
Distance to Far Foot [ C ]
View from Fixed to Moveable
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Rim & Face Shaft Alignment
Offset Misalignment
0.09 mm
Moveable Machine
Vertical Offset (Side View)
0
+7 +5
+12
-4 -2
-6
0
0
-3 -3
-6
0 0
0
0
0
+10 +8
+18
-4 -2
-6
0
Fixed Machine
Rim ReadingsRim Readings
MeasuredReadings
SAGReadings
CorrectedReadings
Vertical
Horizontal
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Rim & Face Shaft Alignment
Angular Misalignment
α
Moveable Machine
Vertical Angular Misalignment (Side View)
0
+10 +8
+18
-4 -2
-6
0
Fixed Machine
CorrectedReadings
α
Face
A = 8Face : ANGnf = A : B
ANGnf = Face x {B/A}
B = 21 C = 40
ANGnf = -6 x {21/8} = -15.75
Face : ANGff = A : C
ANGff = Face x {C/A}
ANGnf = -30
α
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Reverse Shaft Alignment
Typical Set-up
Moveable Machine
Fixed Machine
NearFoot
FarFoot
Distance of face to face [ D ]
Distance to Near Foot [ B ]
Distance to Far Foot [ C ]
View from Fixed to Moveable
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Reverse Shaft Alignment
Graphic Expression (Vertical Movements)
Fixed
Machine
0
+5 -15
-10
Fixed
Machine
0
+14 +6
+20
-5 +10 12.5 20-
+
+
-
Vertical Misalignment (Side View)
Up
Dow
nVo=(T-B)/2
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Reverse Shaft Alignment
Graphic Expression (Horizontal Movements)
Fixed
Machine
0
+5 -15
-10
Fixed
Machine
0
+14 +6
+20
Horizontal Misalignment (Top View)
-10-4
11 32
-
+
+
-
LeftR
ight
Ho=(R-L)/2
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Movement
Vertical Movement
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Movement
Horizontal Movement