CnW Maintenance Manual PDF

Summary

This document provides a detailed overview of draw and buffing gear, specifically focusing on center buffer couplers. It discusses various aspects, including general information, parts of the coupler assembly, inspection procedures, maintenance, and removal of the coupler and draft gear from a wagon.

Full Transcript

CHAPTER 8-DRAW AND BUFFING GEAR Page 1 of 38

CHAPTER 8

DRAW AND BUFFING GEAR
801. GENERAL
There are two main arrangements of draft and buffing gear in use on Broad
Gauge. The older arrangement, which is found on few wagons, consists of a screw
coupling with side buffers. In this design the draft load is transmitted through the
screw coupling, draw hook and draw hook springs while the buffing force is borne by
the side buffers. The conventional screw coupling (WA/BD-125) has a working load
of 22.5t. The restrictions of size and weight limit the extent to which the draft
capacity of this coupling can be improved. Recognizing this fact, the other
arrangement on BG wagons is that of a Centre Buffer Coupler (CBC) which transmits
both draft and buffing loads. The knuckle type centre buffer coupler was adopted for
BOX, BOXN and other new design of wagons. Later on, a smaller knuckle type
coupler, known as the Alliance-II coupler, was introduced for four wheeler wagons.
The working strength of CBC and Alliance-II coupler is 120 tonnes and 54 tonnes
respectively. CBC also has a transition version called “Transition Coupler” which
incorporates a screw coupling and a pair of side buffers to permit attachment with
wagons fitted with screw coupling.

The conventional Draw and Buffing gear have been phased out hence details of these
have not been included in this manual. Since now-a-days, high capacity Centre Buffer
Coupler (CBC) and Draft Gear are used on BG freight stock, paras 802 to 810 have
been deleted. For maintenance of draw and buffing gear 2002 version of this manual
should be referred.

802. CENTRE BUFFER COUPLER & DRAFT GEAR
A) Indian Railway uses AAR type centre buffer couplers having E-type head and
F-type shank for freight stock on Broad Gauge system. These couplers are
generally as per requirements of AAR specifications M-201, M-205 and M-
211. The upgraded indigenous CBCs(UHTE) as per RDSO specs. No. WD-
70-BD-10 are also being fitted in the wagons.

B) The draft capacity of the AAR coupler depends on the strength of knuckle,
which is weakest link in the assembly. The yield strength of knuckle of
material AAR M-201 Grade `C' & Grade `E' is 132 t and 180 t respectively.

C) ADVANTAGES OF AAR CENTRE BUFFER COUPLER

 Coupler and buffing gear are both located together at the centre of the
wagon.
 Centre buffer coupler is identical at either end of the wagon and hence
wagon direction is immaterial.
 Coupling action between wagons is automatic.
 With transition arrangement, coupling with screw coupling is possible.

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803. PARTS OF CENTRE BUFFER COUPLER ASSEMBLY
The main parts of Centre Buffer Coupler are as under:-

i) Coupler body
ii) Knuckle
iii) Knuckle pivot pin with washer
iv) Lock
v) Knuckle thrower
vi) Toggle
vii) Universal lock lift lever connector
viii) Lock lift lever hook
ix) Lock lift rivet
x) Lock lift lever rivet
xi) Top lifter hole cap
xii) Yoke pin
xiii) Yoke
xiv) Yoke pin support.
xv) Striker casting
xvi) Striker casting wear plate
xvii) Shank wear plate
xviii) Yoke support plate
xix) Draft Gear arrangement with front follower
xx) Safety bracket with anchor plate
xxi) Uncoupling gear arrangement
xxii) Back stop
xxiii) Clevis for Transition type coupler only
xxiv) Screw coupling for Transition type coupler only
xxv) Clevis pin for transition type coupler only

All parts of non-transition coupler are identical and therefore inter-
changeable with those of the transition type coupler except striker casting with
wear plate and coupler body with shank. In transition CBC coupler body with
shank is longer and is provided with an arrangement to fit clevis with the help
of clevis pin.

804. INSPECTION OF CBC
A) Coupler and operating mechanism: When inspection of coupler and coupler
operating mechanism is made, it is important to check when the coupler
operating mechanism is operated to fully open the knuckle, and the knuckle is
slowly closed, the lock drops freely and the mechanism returns to fully locked
position. The lock position is indicated by the toggle, which is clearly visible
below the coupler head.

B) Only dry lubricant shall be applied to the coupler head or the coupler head
fittings. This lubricant may be applied using water, alcohol, or other non-
petroleum based carrier.

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C) Only exposed surfaces of Coupler and Yoke shall be painted with Black quick
drying paint in accordance with IRS R6. Paint must be applied to the inside of
the Coupler or internal fittings. Painting shall be done after the completion of
inspection of Coupler & Yoke of acceptable casting lot.
D) When in the transition Centre Buffer Coupler, the knuckle does not move
freely, grind the top face of "top pulling lug" and "lock face" of
knuckle in position. If still not free, remove knuckle and clean "pin
protector guides" on coupler head. If, after attending to knuckle, the lock
still does not fall, remove the lock and grind “locking face knuckle side” on
lock so that the lock falls freely.
E) Inspection of couplers, whilst fitted to wagons, should be made to ensure
proper coupling any position which it can assume during train operation.
The procedure is as follows:-

a. Check correct operation in order to ascertain that full knuckle throw,
lock set, lock-to-lock (anti-creep) and locking is obtained. If any of
these functions be unsatisfactory, they should be corrected by replacing
the defective components.
b. Check that the shank is not bent out of alignment with the head. If
defective, the coupler shall be removed for straightening of shank.
c. Examine shank wear plates (when fitted) and if worn through, the
couplers shall be removed for fitting of new plates. Examine wear on
shank (when wear plates not fitted) and if wear is approaching 6.5
mm (1/4"), the coupler shall be removed for building up of shank by
welding.
d. Examine head for cracks in the knuckle side wall. If cracked, the
coupler shall be removed.
e. Check the distance between the nose of the knuckle and the guard arm
with gauge No. 1. If it passes (which is 5.5/16" long), it indicates that
the coupler has its condemning limit. In such a case the knuckle pivot
pin, lock etc. should be replaced so that gauge No.2 does not pass. If
this gauge passes, then the coupler should be removed.
f. Examine the operating mechanism. If defective or deficient, the
defective or deficient components should be replaced to ensure free
movement.
g. Check knuckle pin & clevis pin to ensure that pin of correct size has
been used. Check fastening arrangement of knuckle pin and
clevis pin. The former has a welded washer while the later has a
riveted head over a washer in position.
h. Coupler height should be checked in accordance with IRCA Part III
Rule No. 2.13.7.
i. All defective/deficient components shall be replaced in CBC, clevis
and screw coupling (in case of transition couplers).

805. INSPECTION OF DRAFT GEARS (MK-50 & RF-361)
A. Excessive slack in draft gears is not permitted and this should be either
reduced or eliminated. The maximum permissible free slack in the draft gear is
25 mm(1") after which, it shall be removed and reclaimed or condemned. The
free slack can be determined by first sledging the coupler back solid and
then measuring the clearance between the coupler horn and the striker face.
Next by inserting a long bar between the horn and striker face, pry coupler out
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as far as possible and again measure the space between the horn and the striker.
The difference between these two measurements is the amount of free slack.
B. Visual examination of the rubber pads & coil springs when the draft gear is in
place in the wagon can be misleading and the draft gears shall therefore be
inspected at every POH of the wagon, irrespective of the amount of free slack
existing.

C. BOXN-HL and BCN-HL wagons are equipped with high capacity draft gears like
“MINER SL-76 Draft Gears” etc. to RDSO specification No. WD-665-BD-06.

806. REMOVAL OF COUPLER AND DRAFT GEAR FROM WAGON
A) Remove yoke pin support plate by conventional methods. Then remove
the yoke pin. If necessary by inserting two chisels where the front follower
bears hard against striker casting at the draft lugs.

B) The coupler will now be loose and can be pulled out. Care must be taken to
avoid personal injury as the coupler weighs over 200 Kg. and its head is
heavier than the shank.

C) Remove the yoke support plate by conventional means When the gear is
loose in the wagon pocket, the gear and yoke assembly must be supported
by jacks or other means to avoid personal injury.

D) To remove the gear and yoke assembly when the gear is tight in the wagon
pocket, first apply cross key through front of yoke and position in yoke
pinhole. Then apply screw B in cross key A and turn until contact is made
with front follower of draft gear. With wrench C, turn screw with the aid of a
piece of 38 mm (1 1/2") pipe until gear is loose in the wagon pocket. Remove
wrench and lower the gear and yoke assembly on supports from the wagon
pocket.

B

C
CROSS KEY 'A'

FIG. 8.39.3
Fig.
REMOVAL OF DRAFT GEAR FROM WAGONS
REMOVAL OF DRAFT GEAR FROM WAGONS
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E) To remove the draft gear from the yoke, compress the gear by means of screw
and insert two pre-shortners as done during assembly. Then release the screw
and remove draft gear.

807. CBC MEASURING GAUGES AND THEIR APPLICATIONS

Contour Gauge No. 01 is used for checking of wear in guard arm and
knuckle face of CBC. All wagons coming for ROH or POH are checked by this “not go” gauge

A CHECKING OF GUARD ARM EXPANSION

GAUGE NO. 1

 Apply the gauge no. 1 as shown.
 If gauge no. 1 passes, renew
1) Knuckle 2) Knuckle pin 3) Lock

GAUGE NO. 2

 After replacing the above, if gauge no. 2 passes,
renew the coupler body.
 Reason - Guard arm expanded.

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 CHAPTER 8-DRAW AND BUFFING GEAR Page 7 of 38. Contour Gauge No.02 is used at outgoing wagon after repair in CBC
unit. This gauge should not pass while putting between guard arm & knuckle.

B CHECKING OF GUARD ARM DISTORTION

 Guard
Arm Gauge No.3

A C

 Apply the gauge no. 3 as shown above.
When „A‟ is in contact, if „B‟ or „C‟ touches, renew the coupler body.
 Reason : Guard arm distorted.
 Note: If guard arm distortion is more than 4.8 mm, it should be closed into normal.


 Contour gauge-3 “Go and No Go type” for inspection in assembled condition

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C CHECKING OF STRETCHED KNUCKLE

KNUCKLE
D
A B

C

 Apply the gauge no. 4 as shown above.
 When A,B,C are in contact, there must be a clear gap at „D‟

 Application of Knuckle stretch and Nose wear gauge

KNUCKLE

D
A B

C

 If „D” touches, renew the knuckle.
 Reason – Knuckle is stretched.

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D CHECKING THE KNUCKLE NOSE WEAR

KNUCKLE

H
F E

G

 Apply the gauge no. 4 as shown above.
 When E, F, G are in contact, „E‟ must not pass.

KNUC KLE

H
F E

G

 If „E‟ passes, renew the knuckle.
 Reason – Excessive knuckle nose wear.

 Application of Knuckle pivot gauge _GO Drg No.- 84073-47-RC

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E CHECKING THE KNUCKLE LOCKING FACE

Gauge
No.5




Locking
 Face

 Apply the gauge no. 5 as shown above.
 The gauge must not pass through vertically.
 If passes, renew the knuckle.
 Reason : Excessive wear at locking face of the Knuckle.\

 Application of Knuckle Profile gauge Gauge No. 05

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F CHECKING OF ANTI-CREEP LEDGE OF BOTTOM LIFTER

 Apply the gauge no. 6 as shown above.
 There should not be any clearance between gauge and bottom lifter.
 If there is a gap, renew the bottom lifter.
 Reason : Ineffective anti –creep

 Application of Bottom anti-creep horizontal location gauge
Drg no.- WD-84073-S- 3-RC

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G CHECKING OF ANTI-CREEP LUG OF ROTARY LEVER


Gauge

No.7

 Apply the gauge no. 7 as shown above.
 If gauge is not mating properly with the anti –creep lug
(bridge) of rotary lever , renew the rotary lever.
 Reason : Ineffective anti -creep

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H CHECKING OF LOCK WEAR

CHECKING OF LOCK WEAR


Gauge No.8


A

 
Contacting
 
Engagement
surface
with 
surface with
knuckle coupler body



 Apply the gauge no. 8 as shown above.
 When the surface „A‟ is in contact, if the gap is more than 3.2
mm at „B‟ , renew the lock.
 Reason : There is a combined wear of lock at knuckle
contacting surface & engagement surface with coupler body.

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I. CHECKING OF SHANK LENGTH

Shank length gauge Drg. No. WD-84073-S-22 –RC: Shank length is checked by this gauge

J.CHECKING OF SHANK HEIGHT WITH WEAR PLATE GAUGE

Shank height with wear plate gauge “Go” Drg No.-84073-S-21-RC:

Shank height with wear plate gauge No Go Drg No.-84073-S-21-RC: Shank height is checked
with the help of this gauge

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K.CHECKING OF SHANK HEIGHT WITH WEAR PLATE GAUGE

Shank wear gauge: wear in the plate is checked with this gauge

L.CHECKING OF KNUCKLE PIN HOLE

Knuckle pin hole gauge Drg. No.WD-84073-S-47-RC “No Go type”: Pin hole is checked by
this gauge for wear limit

Knuckle pin hole gauge Drg. No. WD-84073-S-47-RC “No Go type”

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M. CHECKING OF PIVOT LUG

Pivot Lug gauge No Go

Pivot Lug gauge Go
N.CHECKING OF PIVOT PIN

Pivot pin gauge Drg No.- 84073-S-8-RC

Pivot pin gauge Drg No.- 84073-S-8-RC
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O.CHECKING OF KNUCKLE PIN PROTECTION

Pin protector gauge- Drg. No. WD-84073 S-21-RC

Knuckle pin hole protection limit is checked with the help of this gauge to avoid breakage of

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808. DEVELOPMENT OF HIGH TENSILE COUPLER & HIGH
CAPACITY DRAFT GEAR
On BG system, to minimize the maintenance problem and to run heavy
hauled freight train, the existing grade `C' type coupler have been replaced to grade
`E' type coupler known as high tensile coupler. A comparative chart of grade `C' and
grade `E' coupler is given below:

Material Ultimate Yield strength
AAR M-201 & Tensile strength ( in tonnes)
AAR M-211 (in tonnes)

STD. HT. STD. HT. STD. HT.
Coupler body Gr.B Gr.E 290 408 169 205
Knuckle. Gr.C Gr.E 251 295 132 180

Standard CBC and high tensile CBC are identical in dimension hence no
problem to couple each other. Draft capacity of the high tensile coupler also
depends on the weakest link i.e. knuckle. The yield strength of the knuckle is 180t
compared to 132t in standard coupler. The draft capacity of HT coupler is 36%
higher.

The standard draft gears are to be replaced by high capacity draft gears
vide Rly. Board`s letter No.84/M(N)/172/3 Vol. I dt. 11.1.90 and 84/M(N)/172/3 dt.
5.7.90. And new freight stocks would be fitted with high capacity draft gears. At
present three types of high capacity draft gears are in service

 MK-50
 RF-361
 MINER SL-76 to RDSO specification No. WD-665-BD-06.

A. COUPLER

i. All bogie wagons manufactured prior to 1984-85 were fitted with HR-40-I
or MF-400-I - IR draft gears but during shop schedules these are being
replaced with high capacity draft gears progressively.

ii. At present new freight stock are fitted with high capacity draft gear i.e.
RF-361 , MK-50 & MINER SL-76.

B. DESIGN FEATURES OF HIGH CAPACITY DRAFT GEARS

Type Wt. Capacity Travel Reaction Performance Energy
of Draft (kg) (kg.m.) (mm) force efficiency absorption
Gear (tonnes) (%) (%)
MK-50 170.3 5385 81.5 269.0 23.7 86
RF-361 138.0 5725 67.8 232.3 36.6 79.6

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809. RF-361 DRAFT GEAR
This type of draft gear is a fully enclosed, self-contained unit assembled with pre-
compression force of rubber pads, so that all parts are tight in relation to one another.
Under normal service condition the draft gear is tightly fitted in yoke with front
follower plate.

Note :- All the drawing no., part no. and gauge no. mentioned here under are as per literature
of Burn Standard Co. Ltd., Howrah Works, titled “INSPECTION AND
MAINTENANCE MANUAL FOR HIGH CAPACITY DRAFT GEAR RF-361”

A. COMPONENTS OF RF-361 DRAFT GEAR
 Housing (cylinder)
 Wedge
 Shoes 3 nos
 Bore inserts
 Top follower
 Rubber pads (Elastomer unit)
 Rear wall plate

FIG. 8.5:: RF-
Fig. 9.6 RF - 361
361DRAFT GEAR
DRAFT GEAR

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B. LIST OF GAUGES FOR RF-361 DRAFT GEAR

a. Gauges for housing:

 Gauge - 27200 Profile gauge.
 Gauge _ 27706
 Gauge _ 27257 Flatness gauge.
 Gauge _ 27244 Height gauge ( GO & NO-GO)

b. Gauges for Shoes

 Gauge - 27253
 Gauge _ 27254
 Gauge _ 27298
 Gauge _ 27716

c. Gauges for Wedge

 Gauge - 27215
 Gauge _ 27216
 Gauge _ 27266
 Gauge _ 27267

d. Final Inspection gauges

 Gauge - 27207 - Pre-shortened assembled gauge
 Gauge - 27739 - Box gauge

C. MAINTENANCE

a. The RF-361 draft gear will require complete reconditioning, i.e.
removal and replacement of the rear wall plate only if the gear has
loosed clutch components (shoes & wedges), a broken housing, or a
cracked weld at the rear wall.

I. A loose clutch will normally mean that there is either a
defective rubber springs package or excessive wear has
taken place on the cylinder bore friction surfaces. With a
loose clutch, the steel components will usually be moved by
hand.

II. A cracked weld indicates poor welding practice during
initial assembly causing a fatigue crack, or brittle weld which
can fail under extremely high shocks loading etc.

III. If a loose clutch, broken housing, or a cracked weld are not
present then only removal and replacement of clutch
components is necessary. Normally, clutch disassembly and
replacement is the only reconditioning needed in the RF-361
draft gear.

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b. DISASSEMBLY PROCEDURE FOR RF-361 DRAFT GEAR

If either the shoes or wedge are broken and clutch is not loose, the
following disassembly procedure can be used to replace the broken
components.

(I) The following equipment & special tools will be required to
remove the shoes and wedge from the draft gear;

i. 200 tonnes vertical open gap press
ii. Assembly block Drg. No.27051
iii. Assembly Ring
iv. A wooden taper wedge plug for the old style hollow
wedge or a 76 mm or 3" diameter industrial strength
magnet with special long handle for the new solid
wedge.

(II) The press should be equipped with an appropriate ram press head to
drg. no 27800 to facilitate removal operations.

III. Place the assembly ring over the top outside of the friction bore of the
cylinder. Put the assembly block inside the assembly ring so that its
three slegs evenly contact the three shoes. Place the magnet on top of
the solid wedge, its handle protruding through the hole in the assembly
block.

IV. Press down the assembly block compressing the shoes slowly into the
gear. While continuing to press on the shoes grasps the magnet or
wooden plug handle and rotate the wedge clockwise until the wedge
lugs are completely clear of the housing lugs. The top of the shoes
need to be almost even with the bottom of the housing lugs before
the rotation can be accomplished. Once the lugs are clear to each
other compression can be released and wedge and shoes can be
removed.

c. INSPECTION OF COMPONENTS

I. SHOES

The shoe, which have to be reused must be free from the following
defects.

 No concave wear on any friction surface
 No cracks or spalls
 No wear more than 0.8 mm or 1/32" on any friction surface

II. WEDGE

The wedges which have to be re-used must be free from the
following defects.

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 No crack or spall of the carburized case on the friction
faces or the top of the wedge.
 No wear more than 0.8 mm or 1/32" on the friction surface.
 No indication of broken or any cracks on any of the locking
lugs.

III. HOUSING OR CYLINDERS

 The inside friction bore walls must be worn symmetrical
and the wall thickness must not be less than 20.6 mm or
13/16"
 There must not be any bottom ridging in the bore.
 Bore taper should be smooth and any concavity must not be
exceed 0.8 mm or 1/32". There should not be broken lugs or
cracks in the housing.
 The housing should not be bulged outside.
 The housing must pass through profile gauges No. 27706
and 27200.
 Housing base flatness must meet gauge No. 27257.

IV. To function properly, every part of the assembly must be free of oil,
grease and moisture. The parts should be kept properly during storage,
handling and re-assembly.

V. Wedge and shoes are to be shot-peened to remove rust and dirt before
assembly. Shot-peening also allows better visual examination. No
sharp edges are to be permitted on these parts, since they could cause
cutting and gouging.

VI. For re-assembly, the assembly ring is first placed over the housing.
The three shoes are put into position in the bore, and the wedge (with
magnet placed over the shoes) with each wedge lug resting on the
angled shoulder of a shoe. Next, the assembly block is put over the
wedge carefully, pushing the shoes into the housing. When the top of
the wedge lug has cleared the bottom of the housing lug, clockwise, the
wedge will fall into place and the compression can be released,
completing the assembly.

D. COMPLETE RECONDITIONING
a. If complete reconditioning of the gear is required either because of a loose
clutch or a broken weld, the shoes and wedge must be removed from the
gear in the manner that has been described above. This reduces the internal
spring force of the gear stated above.

b. The rear wall plate must be removed from the gear housing for complete
dis-assembly. The gear should be mounted in a holding fixture
incorporating a hydraulic press acting axially on the housing ends. Lock
the hydraulic ram about ¼” (6 mm) longer than the housing length so that
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the rear plate will be able to separate from the housing during cutting. The
press ram must be capable of resisting a force of 10 tons exerted by the
rubber pad spring stack.

c. Cutting of the rear wall plate can be done by an abrasive cut-off wheel,
sawing or flame cutting. Make the cut just less than the 1 ¼” (32 mm)
thickness of the rear wall plate.

NOTE

If the flame cutting is used, adequate ventilation and air movement during
the cutting must be provided. If there is a shortage of air during rubber
burning, the rubber pyrolysis could create an explosive mixture.

d. Release the hydraulic ram to free the gear. Remove the rubber pads and
internal follower from the housing.

e. Inspect the housing and also the housing wall thickness at the bottom
which must not be less than 11.9mm (or 15/32") and 19.8mm ( or
25/32") respectively.

f. Inspection of Rubber pads

I. Reject pads which show tears, large material chunks, large
bond failures, or extreme wear into the steel plate edges.

II. Pads are gauged and must not be less than 2 1/8” (54 mm) as
measured by a gap gauge at the middle of each side.

III. Bent (but not broken or cracked) steel plates are acceptable as
these will straighten during assembly.

IV. Creases and folds are normal and are acceptable for
reconditioned gears.

V. VISUAL INSPECTION OF RUBBER PADS

i. Full bonding to each of the metal is required.
ii. Top and bottom surfaces of plates must be free of
elastomer films or drops.
iii. Inspection sprues must be 3.18 mm or 1/8" min. below
the steel plate surface.
iv. Pad must be free from cracks.
v. Parting line flash should not exceed 0.78mm or 1/16".
vi. Elastomeric material should be free from foreign
material i.e., trapped air etc.
vii. Check for proper markings.

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VI. STATIC TEST

i. Rubber pads must be inspected carefully. Hundred
percent pads are inspected visually. Squeeze each pad
to a height of 37 mm and check for bond failure,
chunks cracks and bubbles. These defects are causes
for rejection.
ii. Check pads for bulge. Elastomer should not extend
beyond the steel plates when squeezed to solid height.
iii. Pad must be returned to minimum free height of 61 mm
within one minute after load is released.
iv. Pads must not be skewed after the load is released.

g. INSPECTION OF INTERNAL FOLLOWER

I. Outside profile dimension must be at least 111/4” x 7”
(286mmx178 mm).
II. Base must be flat within 1/16” (1.6mm) across the diagonals.
III. Base and show support boss must be parallel within 1/16”
(1.6mm).
IV. Shoe wear indentations on the boss must not exceed 1/16” (1.6
mm).

h. INSPECTION OF FORGED ITEMS

I. Parts will be visually inspected for seams laps, scale pits,
improper grinding and other defects.
II. All items should be checked for proper and distinct markings
which should be legible.
III. Parts are to be gauged for dimensional checking.
IV. Some dimensions are checked with calipers scales or other
measuring instruments as required if gauges do not exist or
not available.

i. INSPECTION OF HOUSINGS (CYLINDERS)

I. Housings or cylinders must not have excessive porosity,
surface discontinues shrinkage and inclusions.
II. proper gauges should be used to ensure sufficient yoke
clearance and for checking rear wall flatness.

j. PREPARATION OF HOUSING PRIOR TO RE-ASSEMBLY

I. The housing is placed bore end down on a flat metal work table
next to a flame cutting fixture. An accurate flame cut may be
achieved by using either a guided torch nozzle which moves
along the stationary housing length at a fixed height, or by
moving the housing past a fixed torch nozzle.

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II. The housing is to be cut to a length of 463.6 mm  1.6 mm (18
¼”  1/16”). It is important to regularly clean the torch tip to
help ensure a clean and accurate cut.
III. After each side is cut, the housing is hit with a hammer to
remove slag. The work table and guides should be swept clean
of slag after each cut to ensure a level cutting surface and
proper height position for the following cuts. The housing can
be rotated by hand before cutting on a new side.

IV. Check the finished housing (cylinder) height using gage no
27244.

V. Grind after cutting with a hand grinder to;
Remove flame cutting marks back to clean steel
Remove slag deposits on the housing
Bring correct size to the finished length.

E. RE-ASSEMBLY OF RE-CONDITIONED RF-361 DRAFT GEAR

a. Tools required

 50 t vertical press
 Draft Gear assembly ring support fixture.

b. For re-assembly, the assembly ring is first placed over the housing.
The three shoes are put in position in the bore and the wedge is placed
over the shoes, with each wedge lugs resting on the angled shoulder
of the shoes. Next, the assembly block to drg. No.27051 is put over
the wedge, so the legs of the assembly block contact the top of the
shoes. Press down very slowly and carefully, pushing the shoes
into the housings. When the top of the wedge has cleared the bottom
of the housing lugs either by tapping the handle or slightly
rotating it clock- wise, the wedge will take its position in place and
the compression can be released.

F. INSPECTION OF RECONDITIONED DRAFT GEARS RF-361

Draft gear shall be visually inspected for the following characteristics:-

 Inserts - one insert per lug properly located and intact in
position.
 Shoes - must be properly positioned with respect to the
wedge.
 Housing - must be free from cracks lumps and other defects.
Components must be properly seated. Clutch components must be
tight.

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G. WELDING OF REAR PLATE AFTER ASSEMBLY

a. After the weld zones of the housing and rear wall plate have been
suitably preheated, the heating gas is to be turned off, and the heating
ring is to be removed from the housing.
b. Place the remaining two RF-8 rubber pads on the pad stack These
pads will be projecting above the rear of the housing.
c. Place the preheated rear wall plate on top of the rubber stack and
position it as closely as possible so the edges of the plate align with
the edges of the housing.
d. Position on draft gear assembly so that it is centered directly under
the ram of the press (50 tonne vertical press). This is done to ensure
even loading and square closure.
e. Compress the rear wall plate down until it is firmly and squarely in
contact with the housing base. Check the alignment of the rear wall
plate sides in relation to the housing base sides. If necessary, release
the press pressure, reposition the plate and compress again until the
sides of the two pieces are aligned. It may be necessary to do this a
number of times, depending on the skill and experience of the
operator, till the proper alignment is obtained.

H. ROOT RUN WELDING
a. With the rear wall plate firmly held in place under the press, a root run,
approximately 6.4 mm-7.9 mm (1/4"-5/16") in depth is made completely
around all four sides. It is very important to obtain complete fusion and
penetration into the full depth of the weld preparation.
b. MIG welding with AWS A5.18-69 class E70S-1B, 1.14 mm (0.45”)
diameter, 100,000 psi tensile wire is used. Preferable shielding is a 75%
Argon and 25% CO2 gas. Wire feed speed is 45.7-50.8 cm (18-20 inches)
per minute and the welding machine to be set for 250 - 280 amps. 26-32
volts.
c. When the root run has been completed, the gear is removed from the press
and moved aside. Inspect, to be sure that it is free of any visible defects.
A total of three to four gears can be accumulated in this manner before
filler pass welding is done.

I. FILLER PASS WELDING
a. The accumulated root run welded gears are placed side by side on a
holding table, which is either flat or slightly tilted up to permit down
hand welding of the filler pass.
b. Use MIG welding with the same wire as used in the root run. 100%
CO2 shielding gas is used in the fill pass. The wire feed is 2300mm-
3540mm (90-100 inches) per minute, at 250-280 Amp and 26-32
Volts.
c. Weld one side of each of the accumulated gears.
d. Turn each of the gears 90 degree and weld the second side of each
gear. Continue this process till all 4 sides have been welded. The

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fill pass should leave a weld bead that protrudes just above the
housing surface.
e. All welds are to be ground flush. The finished gear assemblies are
then box gauged with Gage 27200 for dimensional acceptability.

J. PRE-SHORTENING & PAINTING

The assembled RF-361 draft gear must be pre-shortened to facilitate
installation into the yoke and draft pocket.

a. Place the gear under a 200 ton open gap press, position the pre-shortening
block (Drg. no 25658) on the shoes and apply a load. Compress the gear
until there is sufficient vertical clearance between the housing and wedge
lugs to insert standard powdered metal. Attach tap to 3 inserts (cube)
using taps lower inserts through openings.
b. Check the pre shortened length (using gauge 27207)
c. After pre-shortening the external surfaces of the draft gear is to be painted
with black or blue paint.

810. MAINTENANCE OF MARK-50 DRAFT GEAR
Note: - All the drawing no., part no. and gauge no. mentioned hereunder are as per
literature of M/s BESCO.

A. INSPECTION

a. The draft gear shall be inspected whenever wagons are coming in ROH
depot. The following instructions shall be followed to determine whether
draft gear is in normal released condition or in stuck condition.

b. A normally released draft gear would appear as shown in Fig 8.6, where the
follower plate is against the front lugs, the housing is against the rear lugs
and the components of the friction clutch are fully returned to their neutral
position. The internal spring forces in a normal fully released Mark 50 draft
gear will be from 7,000 kg to 10,000 kg.

c. It is possible for a slight gap to be seen at either the front or rear draft lugs
when the draft gear is in a normal fully released position, e.g. in an enlarged
draft gear pocket.

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B. REMOVAL OF DRAFT GEAR FROM WAGON POCKET

When a draft gear with follower plate is installed into the pocket of a
wagon, it has ample initial spring load to provide a tight fit into the draft gear
pocket. While removing the draft gear from the wagon pocket, it is necessary
to compress the draft gear approximately 6.35 mm (1/4”). In order to clear the
front and rear stops, a suitable device can be used to compress the draft gear so
that the draft gear and Yoke assembly may be free to be lowered from the
wagon.
a. NORMAL CONDITION

I. Remove yoke pin support. Drop yoke pin down and draw
coupler out of wagon.
II. Place suitable lifting/lowering jack under yoke support plate.
Holding yoke support in position with centre-sill, cut and take
out rivets.
III. Insert nut (Ref: RDSO manual G-80) in the yoke pin hole.
Apply screw from the mouth and compress by rotating screw
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by means of wrench so that the draft gear with follower is clear
of the pocket length by about 6 to 8 mm.
IV. Lower support at yoke support plate and take out yoke with
draft gear and screw.
V. Unscrew and remove nut. Now draft gear, follower is loose in
yoke and they can be taken out separately.
b. FOLLOWER BROKEN
A broken follower will remain within pocket only if it is
cracked at centre and split in two at centre vertically or horizontally.

When cracked and split jerk by hammer or by pulling yoke
forward to loosen the follower in the pocket.
c. PARTIALLY STUCK GEAR
In a partially stuck draft gear, the draft gear is loose in the
pocket and the draft gear travel will be less than 82.55 mm (3-1/4”).
d. FULLY STUCK DRAFT GEAR
A fully stuck draft gear is one where the components of the
friction clutch are jammed and flush with the open end of the housing.
A large gap would appear at the front or rear stops or at both stops.

The internal spring forces between 11,000 kg and 23,000 kg
would propel the friction parts outward if the gear was to suddenly
release.
e. REMOVAL OF STUCK OR DAMAGED DRAFT GEAR
WARNING:
WEAR SAFETY EQUIPMENT INCLUDING HARD HAT,
SAFETYGLASSES, SAFETY SHOES, GLOVES AND BODY
PROTECTION
I. When follower is not missing.
DO NOT STAND OR WORK DIRECTLY IN FRONT OF
COUPLER

i. First move another wagon against the couple, forcing follower
and draft gear against rear stops. Do not remove the yoke
support plate. Securely weld draft gear housing and follower.

ii. Cut gear housing in spring area to expose coil springs and cut
each coil of every spring to eliminate the compressive force
or the springs.

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II. Where yoke is broken and follower is missing

i. First move another wagon against coupler forcing draft towards the
stops as for as possible.
ii. Remove a section of the yoke straps with the torch to permit
installation of a follower and bracket

IMPORTANT: The follower with the bracket must be installed with a lift table or
fork truck to eliminate any one putting their hands near the open end of
this stuck draft gear. Once fitted into place,

i. Securely weld the bracket to the draft gear housing.
ii. Remove coupler.
iii. Position lift table or other lowering means under the support plate,
yoke and draft gear.
iv. Remove rivets from yoke support plate. Slowly lower down the
assembly unit on the ground.
v. Scrap draft gear, yoke and follower.

C. REMOVAL OF STUCK DRAFT GEAR SO AS TO REUSE

In case it is desired not to gas cut and scrap stuck draft gear as above, the
following procedure may be adopted:-

a. Place the stuck draft gear in front of a wall or 50 to 75 mm facing another
working draft gear with follower. Force compressed air to clean any dust
or mud from draft gear.

b. Give sledge hammer blows with 8-10 kg hammer on the top front, side
fronts, edges and rear wall. The inside components will be forced out. Re-
examine this draft gear for any broken or unserviceable part. Re-use or
reclaim the draft gear for use.

D. INSPECTION OF MARK-50 DRAFT GEAR FOR RECONDITIONING

Mark-50 draft gears have a built in wear life gauge. This is known as
"plate clearance" and can be observed by looking up at the gear while it is in
the wagon When the draft gear is out of the wagon a straight edge can be
placed on the centre wedge of draft gear. Both movable plates should be
driven or forced down until solid before measurement is made. The plate
clearance is an indicator of the total surface wear of the friction components.
When the plate clearance reduces to zero, the draft gear loses its effectiveness
to cushion. Once the draft gear reaches this stage, some of the parts will
start wearing on the housing and cause considerable damage, rendering it
impossible to recondition. Cardwell recommended that Mark-50 draft gear
should be inspected whenever wagon is in shop or under repair or when the
draft gears are removed from the wagon.

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E. SUMMARIZED GUIDE TO DISMANTLE MARK-50 DRAFT GEAR
 A press of 40 tonnes is required.
 Press down with fixture D and insert the two pins.
 Remove movable plate one side.
 Remove wedge shoe same side.
 Remove movable plate other side.
 Remove wedge, shoe other side.
 Turn and remove centre wedge.
 Remove release spring.
 Remove both tapered stationary plates.
 Remove both outer stationary plates.
 Apply fixture C and press to remove pins.
 Remove spring seat.
 Remove all coil springs and corner spring seats.
 Reverse procedure for assembly.

F. List of Gauges For Mk-50 Draft Gear
a. Housing Gauges For Initial Inspection

I. Housing reconditioned gauge No. BE-91/62-2 (No-Go Gauge to check
minimum length of housing)
II. Housing reconditioned Gauge No. BE-91/62-1 (GO Gauge to check
maximum housing for Yoke and Sill clearance).
III. Housing reconditioned Gauge No. BE-92/62-6 (No GO Gauge to
check minimum housing wall thickness)
IV. Housing reconditioned bottom flatness check
b. Housing Weld Repair Gauges
I. Reconditioned gauge No. BE-91/62-5 (No-Go Gauge to check to
centre wedge stop area)
II. Reconditioned gauge No. BE-91/62-3 (Go, No-Go Gauge to check
movable plate area)
III. Reconditioned gauge No. BE-91/62-4 & 5 (Go, No-Go Gauge to check
on the wedge area)
IV. Centre wedge gauging gauge No. BE-91/61-1
V. Spring seat gauging gauge No. BE-91/61-5
VI. Gauging centre wedge and spring seat for sorting gauge No. BE-
91/72-1.
VII. Tapered stationary plate gauge No. BE-91/61-4
VIII. Outer stationary plate gauge No. BE-91/61-3
IX. Wedge shoe gauge No.BE-91/61-2.
X. Gauging springs inner coil, corner coil & release gauge No. BE-91/61-
7&8
XI. Outer coil gauge No. BE-91/61-6
XII. Corner spring seat reclamation.
XIII. Movable plate gauging gauge No. BE-91/61-10
Note: There are two maintenance publications i.e. G-76 for lines staff and G-80 for
workshop staff issued by RDSO on “Inspection and Maintenance of Centre Buffer
Couplers BG stock”. For Alliance-II CBC, RDSO has issued G-62 for inspection
and maintenance by Train Examining and Workshop staff.

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811. Action plan to reduce Train Partings:
A report on analysis of train parting was circulated by Railway Board vide letter No.
2012/m(n)/951/35 dated 14.09.2012 to Zonal Railways. This report highlighted that
approx. 62% cases of train parting were due to uncoupling and approx. 38% due to
breakages of components. The uncoupling cases were mainly due to lock
defective/broken, lock lifting arrangement defective, knuckle worn out/defective and
operating handle/bearing bracket defective. The components breaking were knuckle,
CBC body/Shank and Yoke.

This Report had the following recommendations –

1. Zonal Railways should strictly check and enhance replacement of knuckles,
knuckle pivot pin, lock , lock lifter with toggle, yoke pin, operating handle and
bearing piece during POH, ROH, Sick line and Yard maintenance.

2. DPT Test of knuckles during ROH.

3. Improve maintenance standard of CBC and Draft gear components.

Vide Railway Board’s letter No. 2003/M(N)/951/22 dated 16.01.2013, List of must
change items have been recommended during POH and ROH.

A. During POH: Knuckle, CBC lock, Rotary lock lift assembly, bearing piece ,
yoke pin support plate liner and shank wear plate etc.

B. During POH & ROH: Striker casting wear plate

4. Railway should send Report of every train parting to RDSO as per RDSO
Proforma (Ref : RDSO letters Nos. MW/CPL/VG/D dated 11.05.2010 &
05.04.2013).

5. RDSO should also put up their analysis for train partings on Rail net every month
(similar to hot axles) for a feed back to work shops, ROH depots and examination
points.

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VENDOR LIST
(As on 01.01.2013)
(CENTRE BUFFER COUPLER)
1. HIGH TENSILE CBC COUPLER & ITS COMPONENTS FOR FREIGHT
STOCK (SPEC-48-BD-08)

1. BESCO Ltd.
7B & C Poonam, 5/2 Russel Street, Calcutta-700001
2. Bhilai Engg. Corp. Ltd.
Post Box No. 31, Industrial Area, Hathkhoj Village, Bhilai-490001
3. Braithwaite & Co.Ltd.
Angus works, P.O. Angus Distt-Hoogly-712221
4. Burn Standard Co. Ltd.
Nityadhan Mukharjee Road, Howrah-711101
5. Hindustan Engg. & Industries Ltd..
27, Sir R.N. Mukharjee Road, Calcutta-700002
6. Raneka Industries Ltd.
Plot No. 17, Sector III, Sagore, Pithanm pur, Distt. Dhar M.P.
7. Texmaco Rail and Engineering Ltd.(Steel foundary)
Belgharia , 24 Paragana, Calcutta-700 056
8. Titagarh Wagon Ltd. (Unit: Titagarh steel)
113, Park Street, Calcutta-700 016.
9. Jupiter alloys & Steel
(India)Ltd.
10. Fronteir alloy & Steel Ltd.,
11. Titagarh Wagon Ltd.
Heavy Engineering Division (TWL)
12. Siena Engg. PVT. Ltd.
13. Rine Engg. Pvt. Ltd.
14. Chittaranjan Locomotive Works, steel foundary, Chittaranjan
15. Rausheena Udhog Limited, Engineering Division
2. HIGH TENSILE CBC COUPLER & ITS COMPONENTS FOR LOCOMOTIVE
(SPEC-56-BD-07) with amend No.1 of 10 & drawing no. SKDL-3430
1. BESCO Ltd.
7B &C Poonam, 5/2 Russel Street, Calcutta-700001
2. Chittaranjan Locomotive Works, steel foundary, Chittaranjan
3. Hindustan Engg. & Industries Ltd.
27, Sir R.N. Mukharjee Road, Calcutta-700002
4. Orient Steel Industries Ltd.
2, Brabourne Road, Calcutta-700001
5. Raneka Industries Ltd.
Plot No. 17, Sector III, Sagore, Pithanm pur, Distt. Dhar M.P.
6. Texmaco Rail and Engineering Ltd.(Steel foundary)
Belgharia , 24 Paragana, Calcutta-700 056
7. Titagarh Wagon Ltd.
113, Park Street, Calcutta-700 016.
8. Jupiter alloys & Steel
(India) Ltd.
9. Frontier alloys & Steel Ltd.
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10.Titagarh Wagon Ltd.
(Heavy Engg.)
11. Siena Engg. Pvt. Ltd.
Plot No. 5-3/3 & 22, Sector (iii), Pithampur, Distt. Dhar. M.P.
3. ALLIANCE II COUPLER & ITS COMPONENTS (SPEC-24-BD-79)
1. BESCO Ltd.
7B &C Poonam, 5/2 Russel Street, Calcutta-700001
2. Raneka Industries Ltd.
Plot No. 17, Sector III, Sagore, Pithanm pur, Distt. Dhar M.P.
3. Titagarh wagon Ltd.(unit titagarh steel)
113, Park Street, Calcutta-700 016.
4. Siena Engg. Pvt.
Plot No. 5-3/3 & 22, Sector (iii), Pithampur, Distt. Dhar. M.P.
4. HIGH CAPACITY DRAFT GEAR (SPEC-49-BD-08) & drawing no. WD-81010-S-
03(Alt-9)
1. BESCO Ltd. MK 50
7B &C Poonam, 5/2 Russel Street, Cardwell design
Calcutta-700001
2. Burn Standard Co. Ltd. RF-361
Nityadhan Mukharjee Road, Miner design
Howrah-711101
3. Hindustan Engg. & Industries Ltd.. RF-361
27, Sir R.N. Mukharjee Road, Miner design
Calcutta-700002
4. Titagarh Wagon Ltd. RF-361
113, Park Street, Calcutta-700 016. Miner design
5. Texmaco Rail and Engineering ltd RF-361
steel foundary kolkata. Miner design
6. Braithwaite RF-361
& Co. Miner design
7. Frontier alloys RF-361
Steel Ltd. Miner design
8. Jupiter alloys & steel (India Ltd)
9. Raneka Steel Ltd.
10. Bhilai Engg. Company Ltd.

5. TOP LOCK LIFT HOLE CAP (SPEC 48-BD-08)
1. Annpurna Engg. Works,
89/1, Deshprn, Sasmai Road, Howrah-711 101
2. Comet Technocom (P) Ltd.
37, Bhagwan Ganguly Lane, 3rd floor, Howrah-1
3. Decon India,
9 Duffer Street, Liluah, Howrah-4
4. Krishna Engg. Works,
57/9, Q Road, Netajigarh, (Belgachia) Howrah
5. Shiv Engg. Woprks,
64/4, G.T. Road, Liluah, Howrah
6. AD. Electro Steel Co-Pvt Ltd.
Balti kuri (Surki mill) Howrah
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7. Him Teknoforge Ltd.
Village-Bhillanwali, Industries Area, Baddi (H.P.)
8. Devvrat Industries Co.
Jalan Complex, Junglepur NH-6 Mouza Baniara, P.O. Donjur, Howrah,

6. KNUCKLE PIN WITH WASHER (SPEC 48-BD-08)

1. Anand Sales Corporation
6 Poonam chand Bagaria Belly, Howrah-711005
2. Annpurna Engg. Works,
89/1, Deshprn, Sasmai Road, Howrah-711 101
3. Comet Technocom (P) Ltd.
37, Bhagwan Ganguly Lane, 3rd floor, Howrah-1
4. Cosmic Engineers,
2, Duffer Road, Liluah, Howrah-711202
5 Krishna Engg. Works,
57/9, Q Road, Netajigarh, (Belgachia) Howrah
6 Lal Baba Industrial Corporation
78, Lalababu Shir Road, Belur, Howrah- 711 202
7 Melbro Engineering Works Pvt.Ltd.,
1/1, “X” Road, Belgachia, Howrah
8 NF Forging Pvt Ltd. 72, Lalababu
Shire Road, Belur, Howrah 711202
9. Royal Industries, 8, Kali Mazumdar Road,
Ghusuri, Howrah 711107
10. Aglow Engg. Howrah-Amta Road
Salap, Howrah 911409.
11. S.K. Industries, Ichapur,P.o.Santragachi,
Howrah-4
12. Shree Engineers Ichapur H.I.T. Road,
Santragachi Hawrah-4
13. AD. Electro Steel Co.Pvt. Ltd. Balti kuri
(Surkimill) Howrah
14. Devvrat Industries Co. Jalan Complexm, Junglepur, NH-6
Mouza: Baniara, P.o-Donjur Howrah-711411.

8. YOKE PIN (SPEC 48-BD-08)

1. Anand Sales Corporation
6 Poonamchand Bagaria Belly, Howrah-711005
2. Annpurna Engg. Works,
89/1, Deshprn, Sasmai Road, Howrah-711 101
3. Comet Technocom (P) Ltd.
37, Bhagwan Ganguly Lane, 3rd floor, Howrah-1
4. Cosmic Engineers,
2, Duffer Road, Liluah, Howrah-711202
5. Krishna Engg. Works,
57/9, Q Road, Netajigarh, (Belgachia) Howrah

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6. Lal Baba Industrial Corporation
78, Lalababu Shir Road, Belur, Howrah- 711 202
7. Melbro Engineering Works Pvt.Ltd.,
1/1, “X” Road, Belgachia, Howrah
8. N.F. Forging Pvt. Ltd.,
72, Lalbabu Shiv Road, Brlur, Howrah- 711 202
9. India Tools Craft Pvt Ltd.Hawrah Industries Estate, dhed No.34835
(L type) Dasnagar Howrah.
10. Devvrat Industries Co. Jalan Complex, Junglepur-NH6, Mouza=
Baniara, P.o. Donjur Howrah.
11. AD Electro steel Co. Pvt. Ltd.
12. Aglow Engg. Howrah-Amta Road
Salap, Howrah 911409.
13. Royal Industries, 8, Kali Mazumdar Road,
Ghusuri, Howrah 711107

9. KNUCKLE THROWER (SPEC 48-BD-08)

1. Annpurna Engg. Works,
89/1, Deshprn, Sasmai Road, Howrah-711 101
2. Krishna Engg. Works,
57/9, Q Road, Netajigarh, (Belgachia) Howrah
3. Lal Baba Industrial Corporation
78, Lalababu Shir Road, Belur, Howrah- 711 202
4. AD. Electro Steel Co-Pvt Ltd.
Balti kuri (Surki mill) Howrah
5. Him Technoforge
6. East India Steel Pvt.Ltd. Industrial Aria, Roulkela-769004.

Note: the above vendor list is only indicative and updated by RDSO after every
Six Months. The current status of the vendors may be taken from vendor
directory available on the RDSO website.

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MARKING ON CBC (MANUFACTURERS INITIAL)

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FIG. 8.14: MARKING OF PARTS

WAGON MAINTENANCE MANUAL