US
Valid from program version 1.200460 227 187 US 110503
Caddy
TA34 AC/DC
Instruction manual
- 2 -TOCa
Rights reserved to alter specifications without notice.
1 INTRODUCTION 3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.1 Useful information about the welding equipment
The power source is equipped with the function True AC rating (GTAW). 3. . . . . . . . . .
1.2 Control panel 4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2 GTAW WELDING 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.1 Settings 5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.2 Symbol and Function explanations 6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2.3 Hidden GTAW functions 12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3 SMAW WELDING 13. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.1 Settings 13. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3.2 Symbol and Function explanations 14. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3.3 Hidden SMAW functions 15. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4 WELDING DATA MEMORY 16. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5 FAULT CODES 16. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5.1 List of fault codes 16. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5.2 Fault code descriptions 17. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
6 ORDERING SPARE PARTS 19. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
ORDERING NUMBER 20. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
© ESAB AB2007- 3 -
bi18d1aa
1 INTRODUCTION
The manual describes the use of TA34 AC/DC control panel.
For general information about operation see instruction manual for the power source.
When mains power is supplied the unit runs a self diagnosis of theLEDs and the display, the program version is displayed and in thisexample the program version is 0.18.
NOTE! Differences in the panel function may occur, depending on which product isinstalled.
Instruction manuals in other languages can be downloaded from the website,www.esab.com.
1.1 Useful information about the welding equipment
The power source is equipped with the function True AC rating (GTAW).
“True AC rating” means the average current can be maintained in the event of
variations in inductance and resistance in the welding circuit. This is the result of
active process control, which compensates for the inductance present in the
welding circuit.
The process is optimised so that the energy in the arc will correspond to the set
welding current selected for AC (alternating current). Process optimisation normally
leads to welding being possible at a lower set current value (than with previous
power sources) thanks to reduced losses in the welding circuit.
For the best possible oxide break-up and a long tungsten electrode life for AC TIG,
we recommend a negative AC balance (-70%), which is also the basic setting on
delivery. It is possible to reduce the weld pool penetration for AC GTAW by
reducing the heat exchange by lowering the AC balance. The minimum AC balance
value is -50%, see tables 1-3 on page 9 for recommended current ranges. This
primarily facilitates welding of weaker/thinner material dimensions.
Measured value in the display for arc voltage V, and welding current A, is arithmetic
average value = rectified average value.
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1.2 Control panel
Knob for setting data (current, voltage, percentage, seconds, or frequency)
Display
Choice of welding method GTAW or SMAW
Pushbutton for selection of GTAW-welding with:
� Alternating current AC
� Direct current DC -
� Direct current DC - with pulsing
Pushbutton for selection of SMAW-welding with:
� Alternating current AC
� Direct current DC -
� Direct current DC +
Choice of HF start or LiftArc�
Choice of 2-stroke or 4-stroke
Setting from panel , program change with torch trigger switch or
connecting remote control unit
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Display of VRD function (reduced open-circuit voltage) is active or inactive.
(NOTE! This function works for power sources where it is implemented.)
Indication of which parameter is shown in the display (current, voltage,
percentage, seconds or frequency)
Choice of current indication (A) or voltage indication (V) during welding, in the
display
Indication of selected setting parameter, see page 7. The right-hand button is
also used for hidden functions
Buttons for weld data memory settings. See page 16.
2 GTAW WELDING
2.1 Settings
GTAW without pulsing AC/DC and GTAW with pulsing DC
Function Setting range In steps of: Default value
HF / LiftArc � 1) HF or LiftArc� - LiftArc�
2/4-stroke 1) 2 stroke or 4 stroke - 2 stroke
Gas pre flow time 2) 0 - 5 s 0.1 s 0.5 s
Slope up-time 0 - 10 s 0.1 s 0.0 s
Slope down time 0 - 10 s 0.1 s 1.0 s
Gas post flow time 0 - 25 s 0.1 s 10.0 s
Current 4 A - max 3) 1 A 60 A
Active panel OFF or ON - ON
Changing trigger data OFF or ON - OFF
Remote control unit OFF or ON - OFF
Min current 2) 0-99% - 30%
VRD - - -
1) These functions cannot be changed while welding is in progress.2) These functions are hidden TIG functions, see description in point 2.3.3) The setting range is dependent on the power source used.
GTAW with AC
Function Setting range In steps of: Default value
Balance setting 50 - 98 %* 1 % 50 %
Frequency setting 10 - 152 Hz 1 - 3 Hz 65 Hz
Electrode preheatingautomaticmanual
80 - 120 ms15 - 100 ms
11
--
*) Depending on frequency setting.
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GTAW with pulsing DC
Function Setting range In steps of: Default value
Pulse current 4 A - max 3) 1 A 60 A
Pulse time
Micro pulse 2)
0.01 - 2.5 s
0.001 - 0.250 s
0.01 s
0.001 s
1.0 s
Background current 4 A - max 3) 1 A 20 A
Background time
Micro pulse 2)
0.01 - 2.5 s
0.001 - 0.250 s
0.01 s
0,001 s
1.0 s
2) These functions are hidden TIG functions, see description in point 2.3.3) The setting range is dependent on the power source used.
2.2 Symbol and Function explanations
GTAW welding
GTAW welding melts the metal of the workpiece, using an arc struck from a tungstenelectrode, which does not melt itself. The weld pool and the electrode are protectedby shielding gas.
Alternating current
The advantage of an alternating current is good oxide break-up capacity whenwelding light metals (aluminium, magnesium and their alloys).
The advantages of alternating current are reduced risk of magnetic arc blow andgood oxide break-up capacity when welding aluminium.
Direct current
A higher current produces a wider weld pool, with better penetration into the workpiece.
Pulsed current
Pulsing is used for improved control of the weld pool and the solidification process.The pulse frequency is set so slow that the weld pool has time to solidify at leastpartially between each pulse. In order to set pulsing, four parameters are required:pulse current, pulse time, background current and background time.
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Parameter settings
1. Slope up
2. Welding current
3. Pulse time
4. Background current
5. Background time
6. Slope down
7. Gas post flow time
8. Balance
9. Frequency
10. Electrode preheating
Slope up
The slope up function means that, when the GTAW arc strikes, the current risesslowly to the set value. This provides `gentler' heating of the electrode, and gives thewelder a chance to position the electrode properly before the set welding current isreached.
Pulse current
The higher of the two current values in the event of pulsed current.
Current
Background time
Pulse current
Background current
Pulse time
Time
GTAW welding with pulsing.
Pulse time
The time the pulse current is on during a pulse period.
Background current
The lower of the two current values in the event of pulsed current.
Background time
Time for background current which, along with the time for pulse current, gives thepulse period.
Slope down
TIG welding uses “slope down”, by which the current falls 'slowly' over a controlledtime, to avoid craters and/or cracks. when a weld is finished.
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Slope down
GTAW welding uses “slope down”, by which the current falls 'slowly' over acontrolled time, to avoid craters and/or cracks. when a weld is finished.
Gas post-flow
This controls the time during which shielding gas flows after the arc is extinguished.
Balance
Setting the balance between the positive (+) electrode and negative (-) electrodehalf period during alternating current welding (AC).
Lower balance value produces more heat on the electrode and better oxidebreak-up on the workpiece.
Higher balance value produces more heat to the workpiece and better penetration.
Frequency
Lower frequency (alternating current) transfers more heat to the workpiece andproduces a wider weld pool.
Higher frequency produces a narrower arc with higher arc force (narrower weldpool).
HF
The HF function strikes the arc by means of a spark from the electrode to theworkpiece as the electrode is brought closer to the workpiece.
Automatic preheating of electrode with AC
The preheating function is designed to provide a stable arc and a safe start in abalanced manner. The electrode preheating time is controlled by a preprogrammedtime in relation to the set welding current. It is possible to set (finetune) the automaticpreheating when on the outer area of the electrode's current range, seerecommended current range below.
The setting range for preheating is 80 - 120 ms, where 100 ms is equal to the basicvalue (value on delivery).
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Welding current A
Current ranges for electrode WP (pure tungsten)
Max A AC - 50% Balance
Max A AC - 70% Balance
Electrode diameter (mm)
Table 1 – Recommended current ranges for electrode selection WP = GreenColour coding and classification names as per ISO 6848:2004
Current ranges for electrode WC20 (WCe2)
Welding current A
Max A AC - 50% Balance
Max A AC - 70% Balance
Electrode diameter (mm)
Table 2 – Recommended current ranges for electrode selection WC20 = GreyColour coding and classification names as per ISO 6848:2004
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Welding current A
Current ranges for electrode WLa 15/Gold Plus (70% AC Balance)
l max A AC
Electrode diameter (mm)
Table 3 – Recommended current ranges for electrode selection WLa15 = GoldColour coding and classification names as per ISO 6848:2004
Deactivation of automatic preheating of electrode
In hidden GTAW functions (see point 2.3) automatic preheating can be deactivatedfor a manual setting from 15 - 100 ms for adjustment in specific instances. Whenswitching from an automatic to a manual setting, the previous autogenerated valuefor preheating is used and a preferred value is selected using the knob.
LiftArc�
The LiftArc� function strikes the arc when the electrode is brought into contact withthe workpiece and then lifted away from it.
Striking the arc with the LiftArc function�. Step 1: the electrode is touched on to the workpiece.Step 2: the trigger switch is pressed, and a low current starts to flow. Step 3: the welder lifts theelectrode from the workpiece: the arc strikes, and the current rises automatically to the set value.
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2 stroke
Gas pre-flow Slopeup
Slope down Gas post-flow
Functions when using 2 stroke control of the welding torch.
In the 2 stroke control mode, pressing the GTAW torch trigger switch (1) starts gaspre-flow (if used) and strikes the arc. The current rises to the set value (as controlledby the slope up function, if in operation). Releasing the trigger switch (2) reduces thecurrent (or starts slope down if in operation) and extinguishes the arc. Gas post-flowfollows if it is in operation.
4 stroke
Gas pre-flow Slopeup
Slope down Gas post-flow
Functions when using 4 stroke control of the welding torch.
In the 4 stroke control mode, pressing the trigger switch (1) starts gas pre-flow (ifused). At the end of the gas pre-flow time, the current rises to the pilot current (a fewampere), and the arc is struck. Releasing the trigger switch (2) increases the currentto the set value (with slope up, if in use). When the trigger switch is pressed in (3)the current returns to the set pilot current (with ”slope down” if in use). When the trigger switch is released again (4) the arc is extinguished and any gaspost flow occurs.
Active panel
Settings are made from the control panel.
Changing trigger data
This function permits changing between different welding data memories by a doublepress on the trigger of the welding gun. Only applies for GTAW welding.
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Remote control unit
Settings are made from the remote control unit.
The remote control unit must be connected to the remote control unit socket on themachine before activation. When the remote control unit is activated the panel isinactive.
VRD (Voltage Reducing Device)
The VRD function ensures that the open-circuit voltage does not exceed 35 V whenwelding is not being carried out. This is indicated by a lit VRD LED.
The VRD function is blocked when the system senses that welding has started.
If the VRD function is activated and the open-circuit voltage exceeds the 35 V limit,this is indicated by an error message (16) appearing in the display and weldingcannot be started whilst the error message is displayed.
2.3 Hidden GTAW functions
There are hidden functions in the control panel.
To access the functions, press for 5 seconds. The display shows a letter anda value. Select function by pressing the right arrow. The knob is used to change thevalue of the selected function.
To exit hidden functions, press for 5 seconds.
Function Settings
A = gas pre-flow 0 - 5 s
l = min current 0 - 99%
L = automatic start pulse/electrode preheating 0 = OFF; 1 = ON
P = start pulse value on delivery 70A at setting 60A
b = micro pulse (only in DC) 0 = OFF; 1 = ON
Gas pre-flow
This controls the time during which shielding gas flows before the arc is struck.
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Min current
Used to set the minimum current for the remote control T1 Foot CAN.
If the max current is 100 A and the min current is to be 50 A, set the concealedfunction min current to 50%.
If the max current is 100 A and the min current is to be 90 A, set the min current to 90%.
This function also applies when setting background current with pulsed GTAW.
Electrode preheating
In the function automatic start pulse/electrode preheating (L), electrode preheating isonly activated in AC. This function is used to achieve a stable arc rapidly, andpreheating extends the service life of the electrode.
Start pulse
NOTE! To activate manual start pulse (P), the function (L) must first be deactivatedin the hidden function, select (0 = OFF).
Start pulse produces a safe, controlled start and is balanced and adapted to theelectrode diameter and set welding current.
Micro pulse
In order to select micro pulse, the machine must be in the pulsed current function .The value for pulse time and background current is normally 0.01 – 2.50 seconds. Byusing the micro pulse, the time can go down to 0.001 seconds. When the micro pulsefunction is active, times that are shorter than 0.25 seconds are shown in the displaywithout decimal points.
3 SMAW WELDING
3.1 Settings
Function Setting range In steps of: Default value
Current 16 - max. A 3) 1 A 100 A
Hotstart 2) 0 - 99 1 0
Arc force 2) 0 - 99 1 5
Drop welding 2) 0=OFF or 1=ON - OFF
Weld regulator ArcPlus� 2) 1=OFF or 0=ON - ON
Active panel OFF or ON - ON
Remote control unit OFF or ON - OFF
Min current 2) 0-99% - 30%
VRD - - -
2) These functions are hidden TIG functions, see description in point 2.3.3) The setting range is dependent on the power source used.
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3.2 Symbol and Function explanations
SMAW welding
SMAW welding may also be referred to as welding with coated electrodes. Striking thearc melts the electrode, and its coating forms protective slag.
During SMAW welding, it is possible to weld with reversed polarity without reconnectionof welding cables on the power source.
Select SMAW welding and then press
� AC, for alternating current
� DC (-) for direct current with negative polarity on the electrode
� Non LED is on, for direct current with positive polarity on the electrode
Active panel
Settings are made from the control panel.
Remote control unit
Settings are made from the remote control unit.
The remote control unit must be connected to the remote control unit socket on themachine before activation. When the remote control unit is activated the panel isinactive.
VRD (Voltage Reducing Device)
The VRD function ensures that the open-circuit voltage does not exceed 35 V whenwelding is not being carried out. This is indicated by a lit VRD LED.
The VRD function is blocked when the system senses that welding has started.
If the VRD function is activated and the open-circuit voltage exceeds the 35 V limit,this is indicated by an error message (16) appearing in the display and weldingcannot be started whilst the error message is displayed.
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3.3 Hidden SMAW functions
There are hidden functions in the control panel.
To access the functions, press for 5 seconds. The display shows a letter anda value. Select function by pressing the right arrow. The knob is used to change thevalue of the selected function.
To exit hidden functions, press for 5 seconds.
Function Settings
C = Arc Force 0 - 99
d = drop welding 0 = OFF; 1 = ON
F = regulator type ArcPlus� 0 = OFF; 1 = ON
H = Hotstart 0 - 99
I = min current 0 - 99%
Arc force
The arc force is important in determining how the current changes in response to achange in the arc length. A lower value gives a calmer arc with less spatter.
Drop welding
Drop welding can be used when welding with stainless electrodes. The functioninvolves alternately striking and extinguishing the arc in order to achieve bettercontrol of the supply of heat. The electrode needs only to be raised slightly toextinguish the arc.
Welding regulator ArcPlus™
A welding regulator is a type of control that produces a more intense, moreconcentrated and calmer arc. It recovers more quickly after a spot short-circuit,which reduces the risk of the electrode becoming stuck.
� ArcPlus� (0) is recommended for a basic electrode
� ArcPlus�ll (1) is recommended for a rutile and cellulose electrode
Hot start
Hot start increases the weld current for an adjustable time at the start of welding,thus reducing the risk of poor fusion at the beginning of the joint.
Min current
Used to set the minimum current for the remote control unit T1 Foot CAN.
If the max current is 100 A and the min current is to be 50 A, set the hidden functionmin current to 50%.
If the max current is 100 A and the min current is to be 90 A, set the min current to 90%.
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4 WELDING DATA MEMORY
Two different welding data programs can be stored in the control panel memory.
Press button or for 5 seconds to store the welding data in thememory. The welding data is stored when the green indicator lamp starts to flash.
To switch between the different welding data memories press button or
.
The welding data memory has a back-up battery so that the settings remain even ifthe machine has been switched off.
5 FAULT CODES
The fault code is used to indicate that a fault has occurred in the equipment. It isindicated in the display by an E followed by a fault code number.
A unit number is displayed to indicate which unit has generated the fault.
Fault code numbers and unit numbers are shown alternately.
If several faults have been detected only the code for the last occurring fault isdisplayed. Press any function button or turn the knob to remove the fault indicationfrom the display.
NOTE! If the remote control is activated, deactivate the remote control by pressing
to remove the fault indication.
5.1 List of fault codes
U 0 = welding data unit U 2 = power source U 5 = AC-unit
U 1 = cooling unit U 4 = remote control unit
Fault code Description U 0 U 1 U 2 U 4 U 5
4 Power supply 5 V x x
6 High temperature x x x
7 High temperature x
8 Supply voltage 24V/15V x x
9 Supply voltage -11V x x
12 Communication error (warning) x x x x
14 Communication error (bus off) x
15 Messages lost x
16 High open-circuit voltage VRD x
19 Memory error x
20 High inductance in the welding circuit x
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Fault code U 5U 4U 2U 1U 0Description
25 Lost contact with AC-unit x
26 Program operating fault x
29 No cooling water flow x x
41 Lost contact with the cooling unit x
5.2 Fault code descriptions
Faultcode
Description
E 4
U 0
U 5
5 V power supply low
The power supply voltage is too low.
The current welding process is stopped and starting is prevented.
Action: Turn off the mains power supply to reset the unit. Send for a service technician ifthe fault persists.
E 6
U 1
U 2
U 5
High temperature
The thermal overload cut-out has tripped.
The current welding process is stopped and cannot be restarted until the temperature hasfallen.
Action: Check that the cooling air inlets or outlets are not blocked or clogged with dirt.Check the duty cycle being used, to make sure that the equipment is not being overloaded.
E 7
U 5
High temperature
The thermal overload cut-out has tripped.
The current welding process is stopped and cannot be restarted until the temperature hasfallen.
Action: Check that the cooling air inlets or outlets are not blocked or clogged with dirt.Check the duty cycle being used, to make sure that the equipment is not being overloaded.
E 8
U 1
U 5
Faulty 24 V/15 V supply voltage
The supply voltage is too high or too low.
The current welding process is stopped and starting is prevented.
Action: Turn off the mains power supply to reset the unit. Send for a service technician ifthe fault persists.
E 9
U 1
U 5
Faulty 24 V/15 V supply voltage
The supply voltage is too high or too low.
The current welding process is stopped and starting is prevented.
Action: Turn off the mains power supply to reset the unit. Send for a service technician ifthe fault persists.
E 12
U 0
U 1
U 4
U 5
Communication error (warning)
Less serious interference on the CAN bus.
Action: Check that there are no faulty units connected on the CAN bus. Check the cables.Send for a service technician if the fault persists.
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Faultcode
Description
E 14
U 0
Communication error (bus off)
Serious interference on the CAN bus.
Action: Check that there are no faulty units connected on the CAN bus. Check the cables.Send for a service technician if the fault persists.
E 15
U 0
Communication problems (lost message)
The system's CAN bus has been overloaded.
Action: Send for a service technician if the fault persists.
E 16
U 2
High open-circuit voltage VRD
Open circuit voltage has been too high.
Action: Turn off the mains power supply to reset the unit. Send for a service technician ifthe fault persists.
E 19
U 0
Memory error
Content of existing memory is incorrect. Basic data will be used.
Action: Turn off the mains power supply to reset the unit. Send for a service technician ifthe fault persists.
E 20
U 2
High inductance in the welding circuit
The power source cannot produce the desired current because the measured inductancein the welding circuit is too high. The fault indication is reset if the inductance readingreceives a sufficiently low value at weld start. Resetting can also be achieved by turning offthe power.
Action: Use shorter welding cables and ensure that the cables are not coiled up. Place thewelding cable and connector cable next to each other. If possible, the inductance can bereduced by welding with a shorter arc
Send for a service technician if the fault persists.
E 25
U 0
Lost contact with AC-unit
The control panel has lost contact with the AC unit.
The current welding process stops.
Action: Send for a service technician if the fault persists.
E 26
U 0
Program operating fault
Something has prevented the processor from performing its normal tasks in the program.
The program restarts automatically. The current welding process will be stopped. This faultdoes not disable any functions.
Action: Send for a service technician if the fault persists.
E 29
U 0
U 1
No cooling water flow
The flow monitor switch has tripped.
The current welding process is stopped and starting is prevented.
Action: Check the cooling water circuit and the pump.
E 41
U 0
Lost contact with the cooling unit
The welding data unit has lost contact with the cooling unit. The welding process stops.
Action: Check the wiring. If the fault persists, send for a service technician.
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© ESAB AB2007- 19 -
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6 ORDERING SPARE PARTS
When ordering replacement parts, order by part number and part name, asillustrated on the figure. Always provide the series or serial number on the unit onwhich the parts will be used. The serial number is stamped on the rating plate.
US
TA34 AC/DC
© ESAB AB2007
Ordering number
- 20 -bi18o
Ordering no. Denomination
0460 250 880 Control panel Caddy� TA34 AC/DC
0460 227 170 Instruction manual SE
0460 227 171 Instruction manual DK
0460 227 172 Instruction manual NO
0460 227 173 Instruction manual FI
0460 227 174 Instruction manual GB
0460 227 175 Instruction manual DE
0460 227 176 Instruction manual FR
0460 227 177 Instruction manual NL
0460 227 178 Instruction manual ES
0460 227 179 Instruction manual IT
0460 227 180 Instruction manual PT
0460 227 181 Instruction manual GR
0460 227 182 Instruction manual PL
0460 227 183 Instruction manual HU
0460 227 184 Instruction manual CZ
0460 227 185 Instruction manual SK
0460 227 186 Instruction manual RU
0460 227 187 Instruction manual US
0460 227 189 Instruction manual EE
0460 227 190 Instruction manual LV
0460 227 191 Instruction manual SL
0460 227 192 Instruction manual LT
0460 227 193 Instruction manual CN
Instruction manuals and the spare parts list are available on the Internet at www.esab.com
- 21 -notes
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- 24 -backp3us
ESAB Welding & Cutting Products, Florence, SC Welding EquipmentCOMMUNICATION GUIDE - CUSTOMER SERVICES
A CUSTOMER SERVICE QUESTIONS:
Telephone: (800) 362-7080 / Fax: (800) 634-7548 Hours: 8.00 AM to 7:00 PM EST
Order Entry Product Availability Pricing Order Information Returns
B ENGINEERING SERVICE:
Telephone: (834) 664-4416 / Fax: (800) 446-5693 Hours: 7.30 AM to 5:00 PM EST
Warranty Returns Authorized Repair Stations Welding Equipment Troubleshooting
C TECHNICAL SERVICE:
Telephone: (800) ESAB-123 / Fax: (843) 664-4452 Hours: 8.00 AM to 5:00 PM EST
Part Numbers Technical Applications Specifications Equipment Recommendations
D LITERATURE REQUESTS:
Telephone: (843) 664-5562 / Fax: (843) 664-5548 Hours: 7.30 AM to 4:00 PM EST
E WELDING EQUIPMENT REPAIRS:
Telephone: (843) 664-4487 / Fax: (843) 664-5557 Hours: 7.30 AM to 3:30 PM EST
Repair Estimates Repair Status
F WELDING EQUIPMENT TRAINING:
Telephone: (843) 664-4428 / Fax: (843) 679-5864 Hours: 7.30 AM to 4:00 PM EST
Training School Information and Registrations
G WELDING PROCESS ASSISTANCE:
Telephone: (800) ESAB-123 Hours: 7.30 AM to 4:00 PM EST
H TECHNICAL ASST. CONSUMABLES:
Telephone: (800) 933-7070 Hours: 7.30 AM to 5:00 PM EST
IF YOU DO NOT KNOW WHOM TO CALL
Telephone: (800) ESAB-123Fax: (843) 664-4452
Hours: 7:30 AM to 5:00 PM EST
or
visit us on the web at http://www.esabna.comThe ESAB web site offers:
Comprehensive Product InformationMaterial Safety Data Sheets
Warranty RegistrationInstruction Literature Download Library
Distributor LocatorGlobal Company Information
Press ReleasesCustomer Feedback & Support
110503ESAB Welding & Cutting ProductsPO BOX 100545, Florence SC 29501-0545