Technical Specification Stationary Flashbutt welding plant T-49-2019

 भारत सरकार

Government of India

रेल मंत्रालय

MINISTRY OF RAILWAYS

TECHNICAL SPECIFICATION

FOR

STATIONARY FLASH BUTT WELDING PLANT

AND

CONNECTED MACHINES & ACCESSORIES

(NO. IRS-T-49-2019)

अनुसंधान, अिभक􀃣प एवंमानक संगठन, लखनऊ -11

Research, Designs and Standards Organisation, Lucknow-11

i

INDEX

CLAUSE

NO.

SUBJECT PAGE

NO.

0 General 1

1 Description/Scope of work 2

2 Automatic Flash Butt Welding Machine 2

3 Programmable Logic Control (PLC) 7

4 Computer based Weld Data Recording and Monitoring Equipment 7

5 Smoke Trapping Device/ Fume Extraction Equipment 9

6 Automatic Cooling Device 9

7 Post Weld Heat Treatment 9

8 Stand by Diesel Generator 10

9 Automatic Rail End Brushing Machine 10

10 Weld Grinding Machine 11

11 Rail Straightening Machine (Pre and Post Weld) 11

12 Maintenance Spares 12

13 Consumable Stores 13

14 Installation of Plant 13

15 Training of Staff 13

16 Layout 14

17 Instruction Manuals 14

18 Inspection of the Equipments/ Welding Plant 14

19 Additional Information 15

20 Equipment Environment 15

21 Warranty Clause 16

22 Annual Maintenance Contract (AMC) 16

ANNEXURE

Annexure

No.

Description Page

No.

I INSPECTION CERTIFICATE 17

ii

CORRECTION SLIPS

S.No. Correction

Slip No.

Date of

Issue

Subject Clause No(s)

affected

Remarks

1

Technical Specification for Stationary Flash Butt Welding Plant and

connected machines & accessories

0.0 General:

0.1 Stationary Flash Butt Welding Plants working in Indian Railways are of old vintage.

These plants are to be replaced with plants of state of art technology prevailing at

present. The old plant may have to be continued in service as per discretion of

Railway administration. It is intended that suitable layout keeping available

infrastructure viz. Rail handling system, Rail loading and unloading system etc. in

view is decided by the supplier of plant.

The capability of plants and equipments will have to physically demonstrate for

prevalent rail sections on Indian Railways. For Rail sections and UTS, which is not

in use at present, theoretical calculations shall be furnished to demonstrate the

capabilities.

0.2 This technical specification has been drafted to reflect the performance and quality

requirements of the Stationary Flash Butt Welding Plants. Bidders are requested to

carefully study the specification and ensure that their equipment fully complies with

these specifications. Thereafter, if a bidder feels that his equipment can

substantially meet the performance and quality requirements laid down herein but

does not fully satisfy a particular item of this specification, he shall mention the

deviations, if any, in the statement of deviation from the specifications, giving the

details how the functional requirements of this specification are going to be met

with.

0.3 The bidder shall specify the model of Flash Butt Welding Unit and related

equipments offered and furnish a detailed Technical Description of the same.

System/sub-systems and working mechanisms of the machine shall be described

in the “Technical Description” in detail along with the sketches to show the manner

in which the requirements of the specifications are accomplished by the offered

model of flash butt welding machine.

0.4 The tenderer shall furnish video showing the working of each machine in real time

under field conditions on compact disc/USB stick/any other means. In case, the

tenderer intends to offer the improved version of Automatic Flash Butt Welding

machine for welding of rails, for which video is not available, he can submit the

video of his existing working plant with description of changes proposed and a walk

through 3-D simulation model of proposed plant. Photographs of the machines

offered and technical literature shall also be enclosed with the offer. The

photographs shall also show close-ups of various working assemblies/systems of

the full Plant.

0.5 All machines including flash butt welding machine should be well synchronized,

durable, easy to maintain and of robust design. Machines should be able to cope

up the forces coming during the operation.

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The tenderer shall be either manufacturer of the Automatic Flash Butt Welding

Plant for welding of Rails or accredited agent of manufacturer. It shall be clearly

specified whether other equipments are manufactured for tenderer or are bought

out item. In case of bought out item, the model name and name of manufacturer

shall be clearly indicated.

1.0 Description/Scope of Work:

1.1 Flash Butt Welding Plant normally consisting of following machines/

equipments/components:

(i) Automatic Flash Butt Welding Unit (hereinafter called FBW machine) with

(a) Automatic stripping/ trimming unit.

(b)Programmable Logic Control (PLC)

(c) Weld data recorder

(d) Smoke trapping device

(e) Automatic cooling device

(ii) Equipment for post weld heat treatment

(iii) Standby Diesel generator

(iv) Rail end brushing/ cleaning machine

(v) Fully automatic weld profile grinding machine

(vi) Rail straightening machine

(a) Pre-straightening machine

(b) Post weld straightening machine

(vii) Automatic punching machine capable for punching weld identification

number as per Para 9 of the Manual for Flash Butt Welding of Rails-Revised

2012.

All above plant and equipments shall be capable of welding/ handling rails of

section upto 68kg/m with ultimate tensile strength upto 130 kg/mm2.

1.2 This specification broadly covers the Working Mechanism & Functional

Requirements. The scope of work under this specification also covers installation

of the plant, Training of the staff, Layout, Foundation of the machines, Instruction

manuals, Inspection, Additional information, Equipment Environment, Warranty,

Annual Maintenance Contract (AMC)etc.

2.0 Automatic Flash Butt Welding Machine:

2.1 Weldability and range of application :

The FBW Machine should be designed for welding rails up to 68 Kg/m having

ultimate tensile strength up to 130 Kg/mm².

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The plant shall be capable to weld new rails/ released but serviceable rails of

various sections and metallurgies specified in Indian Railway’s Standard

Specification for Flat Bottom Rails(IRS-T-12-2009) with up to date Addendum and

Corrigendum slips (hereinafter called Specification of Rails) viz. 52/60/68Kg/m of

grades 880(C-Mn, Cu-Mo, Ni-Cr-Cu, Niobium, Vanadium), 1080(HH, Cr). Plant

would also be capable of welding of 60/68 Kg/m rails having mechanical &

chemical properties of R350HT of BS EN 13674-1:2011+A1:2017.

The machine should have facility for traversing by at least 500mm to facilitate

central positioning of the ends of long welded rails.

2.2 Machine Body:

The Machine body should be preferably of a frame type construction capable of

taking clamping and upset force to their axes of action. The machine frame should

have large openings in front of the welder to facilitate quick removal and

replacement of welder dies and clamps and to provide maximum visibility for

operation and maintenance. The machine frame assembly should be sturdy, all

welded steel fabrication suitably braced and stiffened at points of stresses to

minimize deflection and thermally stress relieved. The machine frame top should

have a single continuous beam structure to minimize welded joints, so that

deflection/ distortion/ cracks may be avoided. The weld zone should be fully

covered with spatter guards to trap the flash and a fume extractor to be provided to

exhaust this chamber. Guides should be provided at entry, and within the machine,

to enable free passage for rails during entry and transport. The welding standard

followed for manufacturing of machine should conform to latest Indian Standard or

equivalent International Standard. The manufacturer should specify the standard

followed and certify that it meets the welding standard.

2.3 Production Capacity:

The hourly output in terms of number of welded joints should not be less than 20

for 60 kg 90UTS, 13m rails including insertion of rails, clamping and aligning rail

ends, matching rail ends through power adjustment, welding cycle, stripping of

upset, unclamping and resetting of machine. The plant should be capable of

welding 260m long rail panels by continuous welding of 13/26/65m rail lengths.

The time in seconds for various operations per joint like positioning of welding

machine, clamping and aligning the rail ends, matching rail ends through powered

adjustments, welding cycle, placing stripper in position, stripping of upset metal,

unclamping and resetting of machine etc. shall be indicated.

Total rail usage per weld should be within 30mm.

2.4 Quality of Weld:

The welded joint produced by the machine should meet the various test standards

and geometrical tolerances specified in the Manual for Flash Butt Welding of Rails-

Revised -2012 with up to date Addendum and Corrigendum slips (hereinafter

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called FBW Manual). The machine offered shall be capable of producing

consistently and fully automatically weld to meet these stipulations.

The machine should be controlled by a PLC of latest version of a reputed

manufacturer which monitors all the vital parameters of the process such as

Voltage, Current, Displacement, Pressure, Time intervals, Velocity and Duration of

flashing etc. The parameters are also recorded and displayed on a Weld Data

Recorder as required. The PLC should also have a self diagnostic arrangement. If

the rail weld does not meet the preset values, suitable error indication shall be

shown whether the weld joint is “Good” or “Bad” and the operation should stop

automatically.

The software deciding the acceptance of welds based on different weld parameters

should be tailor made. Bandwidth for different rail sections and chemistry should

be specific and narrow one.

2.5 Clamping Units:

The clamping unit should be capable of applying a load suitable for different

section of rails i.e. upto 68 Kg/m. Multiple clamps to be provided for holding the

rails to prevent slippage during butting operation and to prevent abnormal

indentation of the rails. The bidder should specify the details of clamping cylinders

and ratio of clamping and forging force.

2.6 Forging Unit:

Forging unit should be of air/oil intensified type capable of applying forging force

suitable for welding rails up to 68 Kg/m. The rams of forging unit shall be so placed

so as to ensure equal distribution of the forging load across the interfaces. The

control includes a servo system, which should be controlled by the PLC for fine

control on the velocity of flashing. The forging action, which has to be as fast as

possible, should be accomplished with the help of a gas charged accumulator. The

accumulator system must be connected to filled/charged Nitrogen cylinder with

required pressure gauge and other necessary fixture. If any deficiency of nitrogen

gas is observed in accumulator, then it must be easily recouped by nitrogen

cylinder. The unit should be capable of delivering suitable force for welding 68

Kg/m rails with UTS of 130Kg/mm2.

In view of the heavy force involved, certain interlocks should be incorporated in the

system. The weld initiation should not be done without clamping. Similarly, the

machine should not retract after welding unless de-clamped. This is to avoid

application of tensile force on the still plastic joint inadvertently after welding.

2.7 Welding Electrodes:

These are to be of copper alloy with high abrasion with relatively good conductivity

and water cooled with quick release facilities for maintenance and replacement.

Metallurgical composition of copper alloy electrodes to be specified to take care of

replacement of electrodes in case manufacturers do not support servicing of FBW

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unit after certain period. Suitable welding electrodes should be provided for the rail

sections upto 68 Kg/m to be welded. Arrangement should be provided to blow off

scale and flash from the electrodes. Electrodes supplied with machine shall be the

part of welding machine.

The codal life of the electrodes in terms of number of welds should not be less than

25000. The number of spare electrodes supplied with the machine shall be two

sets. The electrode holders shall have a provision for vertical adjustment to

compensate the wear up to 25 mm.

The equipment to cool the water circulated in electrode should be included with the

machine.

2.8 Breaking & Inching Mechanism:

The welding machine should be provided with an independent breaking and

inching mechanism on each side so as to permit the welding operator to correct

position of the rails without any impact.

2.9 Rail Alignment & Twist Correction:

Flash Butt Welding Machine should be equipped with automatic rail ends

alignment facility. Rail alignment (lateral and vertical) and de-twist facility should be

incorporated in the fixed and moving heads of the machine for execution of the

weld in perfect geometric alignment fully automatically over a length of 1 m. There

should be no need of any manual adjustment while welding the new rails.

Arrangement through sensors which reads and records maximum mismatch in

alignment between gauge faces should be provided. Automatic selection of gauge

face should be possible.The aligning force and detwisting force shall be sufficient

for maximum rail section to be welded. Visual display should be available for

correct alignment. Automatic rail alignment setup should be capable to perform

alignment as per stipulations of Manual for Flash Butt Welding of Rails-2012.

There should be provision of manual adjustment in case cross section of two rail

ends being welded have major mismatch for welding of released rails.

Adequate lighting arrangement should be available inside the machine to enable

visual check of alignment and matching of rail ends.

2.10 Automatic Stripping Unit:

The welding unit should have a trimming arrangement as an integral part of the

unit so that it can trim the excess upset immediately after welding. The action of

stripping should be controlled completely by the welder automatic sequence panel.

The trimmer should have the capability to trim excess hot upset metal all round the

rail section in such a way that minimum grinding is required to achieve final

finished profile at weld as prescribed in FBW Manual. The maximum thickness of

trimmed surface shall be in accordance with provisions of item (v) of Part ‘A’ & ‘B’

of Annexure-IV of FBW Manual.

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Suitable trimming dies should be provided for the rail sections to be welded.

Sufficient force shall be available for stripper for upset removal from any rail

section/ Metallurgy which the machine is capable of welding.

There should be a well designed weld chips collection trolley which shall be

capable to dispose the burn chips away from trench of welding machine.

2.11 Hydraulic Power Pack:

The machine shall have a Hydraulic power packs consisting of suitable units for

the servo valve system and other requirements of the welding machine.

The servo system should be sensitive to contamination, isolated and maintained

with greater care. The unit should include oil reservoir, oil cooler, motor pump

assemblies, associated filters, gauges, sensors, pressure relief valves, etc. for

protection and long life of the hydraulic system. The equipment should be capable

of operation at an ambient temperature up to 550 C. On board system for filtration

and monitoring the quality of hydraulic oil in hydraulic circuit should be provided.

The gauge should clearly indicate that the hydraulic oil is contaminated beyond the

permissible limits and requires immediate replacement.

The Hydraulic oil used shall be of commercially available specification.

The manifolds of valve system should preferably be placed and fixed outside the

machine frame to avoid damage due to constant vibration and should be placed at

convenient height. The hydraulic parts should be of renowned brand and its spare

parts and service facilities should be available in India.

A separate filtering unit to be provided for hydraulic oil used in circuits before it

enters hydraulic oil cooling system.

2.12 Electrical power Pack:

The Electrical equipments should be fully tropicalized. The equipment should suit

connection to 400/440 volts 3 phase 50 cycle (HZ) supply. The machine shall be

capable of adjusting/withstanding to a voltage fluctuation up to +10% while in

operation. A voltage stabilizer of 440 volt shall be provided in mains supply of

welding machine to minimize the voltage fluctuation and provide appropriate

voltage to mains of electrical power pack.

The welding process will be based on Direct Current for a uniform and fast heat

accumulation in the work piece. The three phase mains connection shall have a

uniform power load possible and has a power factor better than 0.85.

The secondary circuits of the transformers should be cooled to prevent overheating.

A wide range of secondary voltages should be available to allow for the

correct heating conditions to be selected for individual rail sizes.

The energy consumption per weld in KWH should be indicated for different rail

sections.

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The manufacturer needs to stipulate the specifications of the transformers required

for functioning of FBW plant.

2.13 Centralized Lubrication:

Automatic Lubrication is to be provided for the machine. The frequency of

lubrication shall be programmable.

2.14 Cooling System of Machine:

The cooling system shall be efficient and designed for maximum ambient

temperature of 55°C. Supplier may note that the machine shall be working under

extreme dusty conditions and the cooling mechanism should be maintainable

under these conditions for all prime movers. Adequate heat transfer arrangement

for the hydraulic system shall be designed and provided so that under extreme

heat conditions, the temperature of system oil does not go beyond limit

recommended by Oil Company.

The installation of requisite device/system for temperature control of machine/

welding electrodes will be part of this item.

3.0 Programmable Logic Control (PLC):

Flash Butt Welding of rails involves accurate and dependable control of current of

the order of 70,000 Amps. PLC, AD/DA conversions, sensor-actuator links etc.

enables accurate performance. The bidder should specify the details of PLC

incorporating with the machine.

The PLC Software listing shall be issued in the form of a Ladder Diagram along

with the Operating Manual.

4.0 Computer based Weld Data Recording and Monitoring Equipment:

This equipment should be capable of being wired/ connected directly to the FBW

machine and give an immediate read out which in comparison with pre-fed master

data should automatically identify any inconsistency in welding machine operation.

Automatic microprocessors weld control recorder should be provided to record

data pertaining to each weld such as voltage, current, upset pressure and total

welding time and temperature of cooling water and servo oil. It should be of the

digital print out type in which the various values are printed in one colour (say blue)

when they are within limits. Otherwise these are printed in other colour (say red).

For every red print there should be a small audible beep. The weld data recorder

must be capable for online monitoring of weld sequence and quality of weld joints.

The recording system should be a computer based data acquisition system

specifically designed to record entire weld process in detail for complete weld

process analysis. The data logger will have a minimum capacity to store one lakh

welds data for retrieval and study.

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In order to minimize intervention to alter standardized input parameters, the

software should have the facility of password protection for modification of these

parameters.

The hardware consists of a single processing unit, a processor unit (PC type) with

hard memory, disk drive, a touch screen video display unit and Keyboard. The

second remote monitoring unit will consist of a basic computer with laser/ink jet

printer.

The weld parameters sensed and operated upon by the machine control are to be

communicated to the recorder through a suitable communication port. All these

signals are to be recorded in coded form in the memory in the recorder for further

retrieval, if desired.

Parameters to be recorded for each weld:

 Date & time of welding

 Joint serial number

 Section and UTS of the rail

 Pre weld alignment

 Welding current (Primary, amps)

 Line voltage in Volts

 Primary voltage (Volts)

 Clamping pressure Kg/cm2

 Butting pressure Kg/cm2

 Number of Pre-Heats

 Pre Heat time On - Off in sec.

 Burn off time in sec.

 Flashing time in sec.

 Total stroke in mm.

 Butting stroke in mm.

 Total time in sec.

 Upset length i.e. rail consumed per weld (mm)

 Heat soak back duration

 Post heat delay

 Post Heat ON Time

 Post Heat OFF Time

 Number of post Heats

 Duration of Butting

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 Slippage of Rail (Yes or No)

 Weld Analysis (GOOD or BAD)

The system offered should be capable of building upto 99 sets of parameters.

The supplier shall describe the elements employed in the system with the details of

the manufacturer. It should be ensured that consumable spares and repair facilities

of the system are available in India.

It should be possible to locate the system in a separate room situated upto 40

meters away from the welding machine.

The system shall be compatible with other machines supplied with plant for

automatic feeding and maintaining the data base of complete weld from Prestraightening

to final finishing phase.

5.0 Smoke Trapping Device/ Fume Extraction Equipment:

All smoke and spark material shall be trapped by device and deposited in the

receptacle.

Fumes and dust must be sucked out from the welding chamber and passes

through a cyclone separator and exhausted to the atmosphere though a chimney

of suitable height. The particulate matter must be collected in a bin at the bottom of

the separator. The bin shall have adequate capacity for atleast day’s production to

avoid frequent removal. It must ensure that there is no discomfort to operator due

to welding fumes and dust and operator is fully protected from the spatter.

The cyclone separator should be mounted outside the shed which houses the flash

butt welder. Only the suction ducting should be brought in and connected through

suitable flexible ducting to permit the machine traverse for rail panel positioning.

The motor control should be mounted inside the shed for easy access to the flash

butt welding operator. The fume extractor should be interlocked with the Flash butt

welder to ensure that it is in operation before welding commences.

6.0 Automatic Cooling Device:

Adequate cooling arrangements (Air/water/liquid) for cooling of welded rails to

normal temperature should be provided at such suitable distance from the welding

machine where temperature of the weld is not more than 3500 C. The cooling

arrangement for all rail sections and rail steel should be quick enough so as not to

reduce the capacity of plant i.e. 20 joints per hour. The arrangement shall be

specified by the bidder.

7.0 Post Weld Heat Treatment:

Alloy steel rails and heat treated/head hardened rails need post weld heat

treatment to ensure variation in hardness within acceptable limits in heat affected

zone. Suitable equipment should be provided for post heat treatment facilities with

necessary control features. This device among other thing shall enable the post

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heating sequence being set to pre-determine temperature and cooling time with a

selector switch to bring in the automatic post heat cycle whenever required. The

facility should preferably be in-built with the welding machine.

The facilities, if proposed to be provided separately on the welding line at the

adjustable distance from the machine, should have proper interlock with main

welding machine to be incorporated in welding cycle.

8.0 Stand by Diesel Generator:

8.1 A suitable diesel operated generating set with adequate capacity to feed welding

transformer, compressor, electric hoists, Goliath crane and motorized line etc. to

be supplied with the welding plant as standby for welding operation. The basis for

deciding capacity should be clearly brought out in the offer.

The generator shall be powered by indigenous diesel engine and shall have

proven record of service in tropical conditions.The detailed technical literature and

specifications along with manufacturer’s literature should accompany the offer.

8.2 The engine should have Electronic Control Module (ECM) or similar arrangement

for taking out operating parameters on real time basis such as RPM, load,

temperature, pressure and diagnostic data as well as trip and historical data.

These data should be displayed and stored on a centralized computer and

monitoring system. It should also be possible to transfer these data on USB

device through the centralized computer based control.

8.3 In order to adhere to pollution control norms, the diesel engine should be

electronically controlled emmissionized engine with minimum compliance of tier 2

stage.

8.4 The engine should be enclosed in a weather protective, sound and dust resistant

enclosure to minimize engine noise and to prevent oozing out of oil spills etc. from

engine area to the adjacent components like alternator, hoses, electrical cables,

fittings as a protection against fire. All doors on the enclosure shall be strategically

located in areas as to allow ease of maintenance of the engine and allow good

access to and visibility of instruments, controls, engine gauges, etc. Sufficient

louvers shall be provided to allow the total engine cooling air requirements used in

this application.

9.0 Automatic Rail End Brushing Machine:

9.1 Brushing Machine shall be so designed that it will automatically clean the specified

area of railalong with dust evacuation before welding in order to establish uniform

contact on running surface. The machine shall be capable to remove the scale,

rust and other grit from the rails using steel wire brushes. The brushing process

should ensure optimal contact resistance between the rails and the welding

electrodes. The operation shall meet the provisions of the Manual for flash butt

welding of rails-2012 issued by RDSO.

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Suction and dust collection system shall be available in machine. It should be

provided with a powerful dust exhausting system.

9.2 Clamping Unit : Clamping units shall be provided for centering of the rails while

brushing. The system preferably to be hydraulically operated for the movements of

the brushing units and electric motors for continuous control torque for the

brushing, thus ensuring efficient cleaning of the rails.

9.3 The area to be cleaned: The rails end faces and the adjoining surface of the rail

profile to a width of about 25mm all round and electrode contact locations of rails.

9.4 Operation: The operation should be automatic and sensors are to be provided to

detect rail ends and position them inside the machine. Once rail end is positioned,

the brushing cycle to be executed by the pre-programmed logic control sequence.

The cleaning shall be accomplished within the weld cycle time, so that productivity

of plant is not adversely affected.

9.5 Safety: The machine will be equipped with all safety features commensurate with

good engineering practice and industrial standards as expected. The machine

should disable and indicate in case of system failure. Fail safe interlocks should

be provided to prevent faulty operation. The supplier should indicate the safety

features provided in the machine.

10.0 Weld Grinding Machine:

The machine should be capable of running on 440V 3 phase AC Electrical supply.

The machine shall be so designed as to complete the grinding operation on all

sides of the rail in not more than 5 minutes.

In order to maximize the output of the welding plant as a whole, more than one

automatic grinding machine may be planned in the same welding line or an

alternative line, as per layout of the plant.

The machine should have powered movement on its own wheels for positioning

and use large high speed grinding wheels. The grinding operation shall be

automatic. The weld finish tolerance on rail profile as specified in the FBW Manual

should be achieved after grinding.

It shall be ensured that indigenously available grinding stones can be used on this

machine.

Machine should have PLC control, dust exhausting system, internal laser

measuring and recording system.

11.0 Rail Straightening Machine (Pre and Post Weld):

11.1 The Pre Straightening machine is required to correct rail end of rails to be welded

and this machine shall be stationary with suitable inching movement for placement

of rails in the press. The Post Straightening machine is required to correct the weld

alignment and this machine should be self propelled to adjust itself to correct weld

location without affecting the welding line. Both the machines should be capable of

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correcting both vertical and lateral alignment for all the rail sections to be welded

i.e. rails upto 68 kg/m.

11.2 The post straightening machine should be capable of removing the bad alignment

in the welded flash butt joints and should suit various rail sections. The machine

should provide alignment correction in vertical and lateral direction and should

have powered travelling arrangement for adjusting to different lengths of rails being

welded. The machine should have misalignment measuring device and also visual

indicator to point out the location and extent of misalignment. The alignment

correction supports should be moveable so as to handle short and long kinks.

11.3 The pre-straightening press should be provided as a stationary press. A

straightness measuring device should be provided to measure and record the

straightness of the rail.

11.4 The frame of presses must be of robust design. Adequate stiffeners and gusseting

is to be provided for structural strength. All welded structures must be suitably

stress relieved by heat treatment. The horizontal and vertical cylinders should not

be integral with the main machine body to facilitate maintenance of the cylinders as

modular units.

11.5 The laser measurement system should measure the straightness of the welded

joint and display it in a graphical form and data should be stored in the tabular

form. The laser measurement device must measure the head of the rail on the

three surfaces, namely; top side, front gauge face and rear gauge face.

The measurement should be done with the help of laser displacement sensor and

the final straightness data should be stored in memory for later retrieval and

analysis. If the rail is within the acceptable tolerance band the operation is

complete or else the operator will have to repeat the cycle till the required

straightness is achieved.

11.6 The Rail Straightening Machines should have a control system with PLC, key

board and other required devices. It should also have software to visualize the

straightness of the rails, force supplied on the rails, the deformation process

induced by straightening force and shall be displayed on the screen. The final

alignment achieved shall automatically get recorded and stored for further analysis.

This should be compatible with weld data recorder so that the data of press is fed

to recorder for comprehensive record.

11.7 The design shall be such that the manual verification of alignment is easily

possible and area is well illuminated. The control panel should have provision for

emergency stop for emergency and interlock to stop machine if deflection beyond

pre-specified limit is exceeded to prevent breakage of rail.

12.0 Maintenance Spares:

12.1 The tenderers are required to furnish a detailed list of essential spare parts along

with detailed drawings and specifications/metallurgical specifications required for

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operation of entire plant for a period of two years. These spares should be included

with the price of each equipment.

12.2 It should be necessary for the tenderer to indicate as to which of the parts listed

can be procured indigenously and identifying the remaining items which are

required to be necessarily imported.

12.3 The tenderer should provide the itemized list of spare parts giving full particulars of

the parts indicating part number, description, name of manufacturer, unit price,

recommended quantity etc. The sketches/ drawings wherever required should also

be furnished.

13.0 Consumable Stores:

The tenderer should furnish detailed specification of all consumable stores except

fuel required for the smooth running and operation of all the machinery & plants

offered under the contract, clearly indentifying whether all such items are

indigenously available or any item is required to be imported on continuing basis.

The unit price and quantity of all such items should be quoted. The consumable

stores except fuel for a period of two years should be included in the tendered offer

for the welding plant.

14.0 Installation of Plant:

14.1 The installation of the plant should be undertaken by the manufacturers of the plant

or their agents in India, who should commission the same. The services of firm’s

engineers should be made available to install and operate the same for at least two

months. Railway staff will also be trained by the supplier of the plant for 02 months

in regular operation of the plant, as part of the contract.

14.2 The installation includes the making foundation for machines as per requirement

and design finalized by manufacturer or his authorized agent in India, supply and

providing all the installation materials like bolts and nuts, brackets etc complete in

all respect. Special tools required for installation/maintenance shall be provided by

the tenderer.

15.0 Training of Staff:

15.1 Two persons from the Railway will be trained, as part of this contract for a period of

one month each in manufacturer’s country or any other country where similar

machines are working. The cost of training includes lodging, boarding, air fare etc.

and training material shall be borne by the tenderer.

15.2 In addition to above, the operating staff will be trained for day to day operation and

maintenance during the two months period the plant is under operation of the

supplier.

15.3 The audio visual material like films, videos, slides etc. will also be made available

by the suppliers which may facilitate general training of the staff.

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16.0 Layout:

16.1 The tenderer should furnish the overall layout of their proposed plant together with

sketches or drawing pertaining to the same to appreciate the inter-se- position of

various units and infrastructural requirements to be provided by the Railways. The

location of the plant vis-à-vis essential accessories is to be furnished in the form of

block diagram.

16.2 The proposed layout shall consider the existing facilities available in the existing

plants. It is desirable that tenderer visits the plant to have details of existing layout

themselves. The overall dimensions of the layout including length, breath, height

and structure/shed required for accommodating the equipment, specification of

essential elements etc. should be indicated.

17.0 Instruction Manuals:

All manuals (installation, operation and service) shall be supplied in English.

Detailed installation documents complete with typical layout, list of special tools

and accessories etc. should be supplied in six sets, well in time to enable

coordination with order to installation activities. Equipment description including

installation, testing, schematic wiring, physical location, drawings, etc. shall be

supplied.

18.0 Inspection of the Equipments/ Welding Plant:

18.1 All the equipment will be tested before dispatch by the technical inspection officers

of Indian Embassy or authorized representative of Indian Railways. While

inspecting the machine before dispatch from the supplier’s premises, the

inspecting officer shall verify the conformity of the machine with respect to

individual specification as above. The machine’s conformity/non-conformity issue

in respect to each item shall be jointly recorded before issue of the inspection

certificate and approval for dispatch of the machine as per Annexure –I enclosed.

18.2 The following documents shall be provided to the Inspecting Officer at least 4

weeks in advance of the date of inspection.

i) One copy of complete technical literature of machines/tools/equipments

including installation, operation and service manuals/instructions and

complete electrical & hydraulic, trouble shooting charts, component drawings/

description and other relevant technical details as a reference documents in

soft & hard copies in English language.

ii) Clause by clause comments of the manufacturer to be sent to Inspecting

Officer (IO) in advance for his review. Comments should state manufacturer’s

conformity of compliance of each of the requirement stated in each clause,

elaborating where necessary the details/manner in which the requirement has

been complied. The proforma for the clause-wise comments is given below:

15

iii) Manufacturer’s Internal Quality Inspection Report of the machine.

iv) Manufacturer’s quality certificate and/or test reports for bought out

assemblies/sub-assemblies to be provided to IO, containing serial number

wherever applicable.

v) Draft Inspection Report to be prepared by the manufacturer, containing all

Annexure mentioned at clause 18.3

18.3 List of documents to be annexed in the draft Inspection Report should include:

i. Maker’s Test Certificate.

ii. Manufacturer’s Internal Quality Inspection Report

iii. Quality Certificates of Bought out assemblies/sub-assemblies

iv. List of spare parts to be dispatched along with the machine

v. List of tools to be dispatched along with the machine

vi. List of Manuals, Drawings, Spare Parts Catalogues, etc. to be dispatched

along with the machine, duly indicating the number of sets of each.

19.0 Additional Information:

19.1 Names and address of the administration to which the equipment quoted has

already been supplied by the tenderer should also be indicated.

19.2 The supply of drawing will in no way absolve the tenderer of his responsibilities of

supplying the equipments strictly according to the specifications.

19.3 Four copies of test and inspection certificates for each equipment should be

supplied along with the equipment.

19.4 Any updation of plant with the upgradation of technology or as per requirement of

railway in future upto 10 years which is possible with minor alteration/addition etc

should be acceptable to OEM through agency. Most of the upgradation would be

based on changes/modification in software of control panels of machine(s) in this

regard.

20.0 Equipment Environment:

20.1 Equipment shall be capable of continuous operation during the varying

atmospheric and climatic conditions prevailing throughout the year in India. The

range of climatic conditions is as follows: -

a. Ambient temperature : -100 to 550 C

b. Altitude: : Sea level to 1800 m above mean sea level

Clause no. Clause Comments of

manufacturer

Comments of Inspecting

Officer

16

c. Humidity: : 40% to 100%

d. Rail temperature : (-) 10° C to (+) 75° C

20.2 The entire equipment should be thoroughly tropicalised for working in Indian

conditions.

20.3 All the machines including generators should be environment friendly.

Various parameters regarding sound and air pollution should be provided by

manufacturer with machine so that the same may be addressed rightly in case the

plants are situated at built up area.

21.0 Warranty Clause:

In addition to the special conditions of contract dealing with warranty, the following

will apply:

Should any design modification be made in any part of the equipment offered, the

period of Warranty (24 months) would commence from the date the modified part

is commissioned in service for the purpose of that part and those parts which may

get damaged due to defects in the new replaced part, the cost of such modification

should be borne by the supplier.

22.0 Annual Maintenance Contract (AMC):

22.1 The Plant and connected machines will be required to be maintained for a period

of Five (5) years after the expiry of warranty period.

22.2 For above, tenderers are required compulsorily to quote for comprehensive annual

maintenance contract per year for all machines for a period of 5 years. The

duration of AMC shall be of five years from the date of expiry of the warranty. The

AMC will be inclusive of preventive maintenance services, supply of all spares,

maintenance material required and labour cost. All consumables except fuel,

lubricating oils, hydraulic oil, toolings, drills and tapes shall form part of the scope

of comprehensive AMC.

22.3 Technical audit for every 20000 joints by OEM or his authorized representative

during AMC period shall be part of AMC.

*******

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ANNEXURE –I

INSPECTION CERTIFECATE

Certificate of Inspection of………………………………………… (Model No.…………..) by

Inspecting Official and Approval for dispatch of Machine.

(Strike out whichever not applicable)

This is to certify that I have inspected the …………….……………. ………… bearing Sl. No.

…………………………..from (date)……………...to ……………..at

(place)……………………….for its conformity / non –conformity with respect to the laid down

Technical Specification on contract agreement

No.……………………..…………….dated………………..between the President of India through

…………………………………………………………. and M/s. (Name of

Contractor) ………………………………….…………

The detailed inspection note regarding its conformity / non conformity to the laid down

specification is enclosed along with Annexure ‘A”. It is observed that:

(Strike out whichever is not applicable)

• The ……………………………… ……..conforms to all the laid down Specifications.

• The …………………………………… conforms to all the laid downSpecifications except those

at Sl.No…………………………………………...

• The above deviations are minor / major affecting / not affecting the performance of the

equipment/machine in substantial way.

The following T & P, manuals, drawings are to be supplied along with the machine.

1……………………………….

2……………………………….

3……………………………….

Based on the above the ………………………………………………is certified/not certified to be

conforming to the specifications.

The ………………………………………………… is approved/ not approved for dispatch to

………………………………………......( consignee) Indian Railway.

SIGNATURE AND DATE

For M/s …………………. INSPECTING OFFICIAL

(NAME AND DESIGNAQTION)

……………………………. for and on Behalf of President of India

…………………………..