AMP IG/
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LSE
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ACD MMA
Protect yourself and others by observing all safety information, warnings, and cautions. Failure to
comply with instructions could result in personal injury and/or damage to product or property.
Please retain instructions for future reference!
ROSSWELDING
RXT180ACDC
IMPORTANT
PLEASE read all of the safety and operating instructions carefully before using this product. Please
pay particular attention to all sections of this manual that carry warning symbols and notices.
WARNING!
THIS is a Warning symbol. This symbol is used throughout the manual whenever there is a risk of personal injury. Ensure that these warnings are read and understood at all times.
CAUTION!
THIS is a Caution symbol. This symbol is used throughout the user guide whenever there is a risk of
damaging your product. Ensure that these warnings are read and understood at all times.
GENERAL DESCRIPTION
A versatile single phase AC /DC Pulse TIG / MMA inverter welder.
PRODUCT SPECIFICATION
General
Input Voltage Frequency
Phase No.
Maximum input current
Rated Input Current Power Plug 230V~
50Hz
1
36 A
21.3 A
15 A
TIG
Rated output Rated duty cycle
Output Range Modes START
180 A
50%@ 180A
15-180 A
AC Tig, DC Tig, AC Tig + Pulse, DC Tig + Pulse.
HF
MMA (Stick)
Rated output Rated Duty Cycle
Output Range 180 A
35% @ 180 A
15-180 A
Note: This welder has been fitted with a 15 Amp plug for test and commissioning purposes. It should be changed to suit to electrical installation at hand.
WARNING!
SAFETY INSTRUCTIONS
The user of this welder is responsible for his own and the safety of others. It is most important to
read, learn and respect the rules in this user guide.
When using this welder, basic safety precautions, including the following, should be followed
to reduce the risk of fire, electric shock and personal injury. Make sure that you have read all of
these instructions before using this welder. Keep this booklet in a safe place for future reference.
Persons who are not familiar with this booklet should not use the welder.
TRAINING
The operator should be properly trained to use the welding machine safely and should be informed about the risks relating to arc welding procedures. This manual does not attempt to cover
welding technique. Training should be sought from qualified/experienced personnel on this aspect especially for any welds requiring high integrity for safety.
SERIOUS FIRE RISK
The welding process produces sparks, droplets of fused metal, metal projectiles and fumes. This
constitutes a serious fire risk. Make sure that the area around the work piece is clear of all inflammable materials. It is advisable to have a fire extinguisher to hand.
WORK AREA
Ensure a clear work area with unrestricted movement for the operator. Always maintain easy access to the On/Off switch and the mains supply.
THE WORK PIECE
The work piece will remain at a high temperature for a relatively long period. Do not touch the
weld or the work piece unless you are wearing welding gloves. Always use pliers or tongs. Never
touch the welded material with bare hands until it has been allowed to cool.
WELDING SURFACES
Do not weld on containers or pipes that hold, or have held, flammable liquids or combustible
gases.
Do not weld coated, painted or varnished surfaces as the coatings may ignite and or can give off
dangerous fumes.
VENTILATE THE WORK AREA
Arc welding (especially using fluxed core wire) emits fumes which can be dangerous. Make sure
that the work area is well ventilated.
AVOID ELECTRICAL CONTACT
Use adequate electrical insulation with regard to the electrode, the work piece and any accessible) earthed metal parts in the vicinity. Avoid direct contact with the welding circuit. The no load
voltage between the earth clamp and the torch can be dangerous under certain circumstances.
FOR ADDITIONAL PROTECTION FROM ELECTRIC SHOCK
It is recommended that this tool be used in conjunction with a residual current device (RCD)
with a rated residual current of 30mA or less.
CONSIDER WORK AREA ENVIRONMENT
Do not expose the welder to rain. Do not use it in damp, or wet locations. Keep the work area
well lit.
SAFETY INSTRUCTIONS … cont
DRESS PROPERLY
Use protective gloves and fire resistant protective clothing when using the welder. Avoid exposing
skin to the ultraviolet rays produced by the arc.
ALWAYS USE THE WELDING MASK
Under no circumstances should the welder be operated unless the welding mask is protecting
the eyes and face. There is a serious risk of eye damage if the mask is not used. The sparks and
metal projectiles can cause serious damage to the eyes and face. The light radiation produced
by the arc can cause damage to eyesight and burns on the skin. Never remove the welding mask
whilst welding. Move the torch away from the work piece and release the trigger switch before
removing the welding mask.
SAFETY GLASSES
After welding use safety glasses when brushing, chipping grinding the slag from the weld.
OTHER PERSONS
Ensure that other persons are screened from the welding arc and are at least 15 metres away
from the work piece. Always ensure that the welding arc is screened from onlookers, or people
just passing by. Use screens if necessary, or non reflecting curtains.
KEEP CHILDREN AND ANIMALS AWAY
Do not let children or animals have access to the welding equipment or to the work area.
SWITCHING OFF
When you have finished welding switch off the welder. Do not put the torch down with the welder
switch On and with the wire fitted. When leaving the welder unattended, move the On/Off switch
to the Off position and disconnect the welder from the mains supply. Do not leave hot material
unattended after welding.
WELDING CABLES
Keep the welding cables, earth clamp and torch in good condition. Failure to can result in poor
welding quality and could be dangerous in structural situations.
CHECK DAMAGED PARTS
Before further use of the welder, any part that is damaged should be carefully checked to determine that it will operate properly and perform its intended function. Check for breakage of parts
and any other conditions that may affect its operation. Any part that is damaged should be properly repaired, or replaced, by an authorised service centre.
IMPROPER USE
Do not use this welder for pipe thawing.
HANDLING
Ensure the handle is correctly fitted and always use safe lifting practices when lifting.
CAUTION! - VENTILATE THE WELDER
THERE must always be a sufficient air passage around the welder to allow for the cooling
of the transformer. If the cooling process is obstructed the welder will overheat and the overload
cut out protector will activate and cut off the welding current. If the overload cut out protector activates leave
the welder for at least 15 minutes to cool down before further use.
ADDITIONAL PRECAUTIONS
WELDING OPERATIONS:
In environments with increased risk of electric shock;
In confined spaces; In the presence of flammable or explosive materials;
MUST BE evaluated in advance by an “expert supervisor” and must always be carried
out in the presence of other people trained to intervene in emergencies.
POSITION and HANDLING
Position the welding machine on a horizontal surface that is able to support the weight:
otherwise (e.g. inclined or uneven floors etc.) there is danger of overturning.
The welder MUST NOT be supported by the operator (e.g using belts).
The operator MUST NOT BE ALLOWED to weld in raised positions unless safety platforms are used.
VOLTAGE BETWEEN ELECTRODE HOLDERS OR TORCHES:
Working with more than one welding machine on a single piece or on pieces that are
connected may generate a dangerous accumulation of no-load voltage between two
different electrode holders or torches, the value of which may reach double the allowed
limit.
IMPROPER USE:
It is hazardous to use the welding machine for any work other than that for which it was
designed. Example do not use this welder for pipe thawing. The safety guards and
moving parts of the covering of the welding machine and of the wire feeder should be in
their proper positions before connecting the welding machine to the power supply.
WARNING!
Any manual operation carried out on the moving parts of the wire feeder, for example:
Replacing rollers and/or the wire guide; Inserting wire in the rollers; Loading the wire reel;
Cleaning the rollers and the area underneath them.
Should be carried out with the welding machine switched off and disconnected from the
power supply outlet . Never lift the welding machine when connected to the mains
supply.
WARNING!
When using this welder, provide adequate ventilation or facilities for the removal of welding fumes near the arc; a systematic approach is needed in evaluating the exposure
limits for the welding fumes, which will depend on their composition, concentration and
the length of the exposure itself. Do not operate on materials cleaned with chlorinated
solvents or near such substances. Remove all flammable materials (e.g. wood, paper,
rags etc.) from the working area.
WARNING!
Do not weld on containers or piping that contains or has contained flammable liquids or
gaseous products. Do not weld on containers under pressure.
WARNING!
This welding machine complies with the requirements of the technical standard for the
product for use only and exclusively in industrial environments and for professional
purposes. It is not guaranteed to meet electromagnetic compatibility requirements in the
home.
WARNING!
When using this welder, always use a welding helmet . Use special fire resistant protective clothing and do not allow the skin to be exposed to the ultra violet and infrared
rays produced by the arc; other people in the vicinity of the arc should be protected by
shields of non-reflecting curtains.
WARNING! Do not use in rain or store in locations affected by rain.
WARNING SYMBOLS
The following warning symbols are to remind you of the safety precautions you should take when
using the welder.
WARNING!
Read this User Guide carefully before using the welder and keep it in a safe
place for future reference.
WARNING!
When using this welder, avoid direct contact with the welding circuit. The noload voltage supplied by the welding machine can be dangerous in certain
circumstances.
THE RATING PLATE
The rating plate is fitted to the welder and displays the following symbols and information.
X
I1max
I1eff
U1
Mains supply, single phase
A.C. 50/60Hz
Regulatory compliance mark.
Welding Modes
TIG/MMA
Single phase input, frequency
conversion, rectifier
Duty Cycle
Maximum Input current
Rated input current
Rated input voltage
I2
U2
U0
IP21S
Welding Current
Welding Voltage
Open circuit output voltage
Protection class
...A/...V ~ ...A/...V : Output Range, Minimum and Maximum welding current and
related welding voltage.
KNOW YOUR WELDER
2
1
3
4
5
6
7
8
Front Panel
9
22
21
10
11
20
12
13
19
18
14
17
16
15
[1] OVER CURRENT ALARM (Active in all modes) This lamp will illuminate and welding will stop
when instantaneous current too high or there is an internal error.
[2] OVERHEAT. (Active ALL MODES) This lamp will illuminate when the duty cycle has been exceeded. The unit will stop welding. Wait at least 15 minutes before resuming.
[3] PRE-FLOW (Active in TIG) Provides a pre-flow of gas to purge the circuit prior to the starting of
the arc. Adjustment range 0-1sec.
[4] WELDING CURRENT (Active in ALL MODES) main welding current adjustment
Adjustment range 5 - 100%
[5] BASE CURRENT (Active in TIG PULSE MODE) Provides adjustment of the base welding current during pulse welding as a percentage of the welding current. Adjustment range 20 - 90%.
[6] DOWN SLOPE (Active in TIG) Adjusts time at the end of the welding. The welding current will
reduce gradually over time set. This alleviates craters and pin holes forming in the weld. Adjustment range 0-10sec.
Note: When using the remote foot control set the dial to “0”.
[7] TIG MODE SWITCH (Active in TIG MODE) ie AC welding current or DC welding current.
[8] 2-STEP/4-STEP (Active in TIG MODE ) This switch controls how the machine reacts to the trigger switch on the welding torch.
• 2 STEP mode - Squeeze the trigger to start welding and release it to stop.
• 4 STEP mode - Squeeze the trigger and release to start welding. To Stop, Squeeze the trigger and release
again
[9] TIG /MMA Mode selection switch. Selects the MODE of operation.
[10] PULSE or CONSTANT CURRENT mode selection switch. (Active in TIG MODE)
• CC- The output current will remain constant at the valve set by [4] the welding current control
• PULSE - The output current will cycle between [4] the welding current and [5] the base current.
See [14) Ratio control also.
[11] POST FLOW (Active in TIG Mode), Adjusts length of time gas flows when the welding arc is
extinguished. Post flow gas prevents contamination of the weld pool during its cool down period.
Adjustment range 0-10sec.
[12] Cleaning width (Active in AC TIG Mode) AC TIG welding is primarily for Aluminium welding.
For clean welding any surface oxidation must be removed. This control provides a balance between cleaning and penetration.
Adjustment range ±30%
NOTE: Too much cleaning will cause the electrode to over heat and will result in poor penetration.
[13] Positive output terminal.
• TIG welding connect the ground cable and clamp here.
• MMA (STICK) connect the electrode holder.
•
[14] Ratio (Active in Pulse TIG Mode) Adjusts the Pulse width between the welding current and
the base currents. Adjustment range 10 - 90% example. If this control is set to 60% then the
output will be 60% of time at “welding current” setting and 40% of the time at the “base current”
setting.
[15] Frequency (Active in AC Pulse TIG and DC Pulse TIG mode) . Adjusts frequency of the pulse.
[16] Foot switch (Active in TIG Mode) Allows remote control of the welding current from a foot
peddle
[17] GUN SWITCH (Active in TIG mode) Connects to the switch on the TIG torch.
[18]) GAS OUTLET (Active in TIG mode) Connect to the gas line of the TIG torch to supply welding gas to the TIG torch.
[19] Negative output terminal
• TIG welding connect the TIG torch .
• MMA (STICK) connect the ground cable and clamp.
[20] ARC FORCE (Active in MMA mode) Arc force control helps prevent the electrode sticking to
the work by sensing a drop in arc voltage and compensates by increasing the arc voltage.
[21] Main Power switch to turn the welder ON and OFF
[22] Digital LED display. (Active all modes) displays welding current.
REAR PANEL
A
A
D
B
C
[A] Cooling Fans
[B] Rating Plate - Contains information on the specifications and ratings of the welder.
[C] GAS INPUT - Incoming welding gas from the regulator - gas bottle.
[D] Mains input cable.
TYPICAL TIG SETUP
[C]
ON
OFF
Mains Supply
[D]
[18] [17]
[19]
[13] Ground cable
and clamp
Welding Cable
Gas Line
Control Cable
WARNING! - Secure the gas bottle
CAUTION!
When fitting the welding leads to the unit, twist the plugs
clockwise and ensure that they are tight in the sockets. Loose
connectors will overheat, damage the unit and void warranty.
TIG AC SETUP PROCEDURE
1. Select “2-STEP”, [8] “TIG” [9] and “AC” [7] modes.
2. Switch on the power source [21], the machine will turn on and fan will operate.
3. Set the gas flow at the regulator
4. Set the “cleaning width” [12] according to the degree of oxidization of work piece or preference
of arc characteristic.
5. Set the main “welding current” [4] as required.
6. Press the switch of the welding torch, the gas valve will activate and release gas and you will
hear the static of the HF points working.
Note: Please press the switch of the welding torch for several seconds to allow the gas to purge the
gas line of any impurities.
7. Adjust the time of “pre-flow” [3] ,”post flow”[11] and “down slope“ [6] time according to the
application.
8. The machine is now ready for welding in AC standard mode.
The following steps are to set “Pulse” Mode when required.
9. Select “Pulse” [10] . Set main “welding current” [4] as required,
set “Base” [5] current as required (suggest 40%), Set “Frequency” [15] (suggest 1-2Hz), set
“RATIO” [14] (Suggest 50%)
10. Re-Adjust the time of “pre-flow” [3] ,”post flow”[11] and “down slope“ [6] time according to
the application.
11. The machine is now ready for welding in AC pulse mode.
TIG DC SETUP PROCEDURE
1. Select “2-STEP”, [8] “TIG” [9] and “DC” [7]mode.
2. Switch on the power source [21], the machine will turn on and fan will operate.
3. Set the gas flow at the regulator
7. The machine is now ready for welding in DC standard mode
4. Set the “cleaning width” [12] according to the degree of oxidization of work piece or preference
of arc characteristic.
5. Set the main “welding current” [4] as required.
6. Press the switch of the welding torch, the gas valve will activate and release gas and you will
hear the static of the HF points working.
Note: Please press the switch of the welding torch for several seconds to allow the gas to purge the
gas line of any impurities.
7. Adjust the time of “pre-flow” [3] ,”post flow”[11] and “down slope“ [6] time according to the
application.
The following steps are to set “Pulse” Mode when required.
9. Select “Pulse” [10] . Set main “welding current” [4] as required,
set “Base” [5] current as required (suggest 40%), Set “Frequency” [15] (suggest 1-2Hz), set
“RATIO” [14] (Suggest 50%)
10. Re-Adjust the time of “pre-flow” [3] ,”post flow”[11] and “down slope“ [6] time according to
the application.
11. The machine is now ready for welding in DC pulse mode.
TYPICAL MMA (STICK) SETUP
ON
ON
Mains Supply
[D]
[19]
[13]
Electrode Holder
Welding Cable
Ground cable
and clamp
CAUTION!
When fitting the welding leads to the unit, twist the plugs clockwise and ensure that they are tight in the sockets. Loose connectors will overheat, damage the unit and void warranty.
ARC WELDING PROCEDURE
1) Select MMA mode [9]
2) Set welding current [4] to suit the job at hand.
Before commencing, make sure that your hand held welding mask or welding helmet is in position to
protect your eyes. It is also advisable to wear gloves and clothing, which cover the hands and arms to
prevent flash burns.
Striking Arc. This is done by bringing the electrode into contact with the work piece using a light tapping action and withdrawing to create a gap of (1.5 mm – 3.00 mm.).
Maintaining Arc. Having created an arc, all that is necessary to maintain it is to proceed steadily in one
direction keeping the gap between the electrode and the work piece constant. The electric current
will flow through the electrode, across the arc gap, and in doing so will melt the electrode core wire
and protective flux. The electrode length will gradually decrease as the metal is transferred to the work
piece under a protective slag formed by the flux. This slag can then be removed when cooled by lightly
tapping with a pointed tool or a welders chipping hammer.
To stop welding, all that is required is to withdraw the electrode from the work piece - thus breaking the circuit. Be careful with the end of the electrode, as it will be hot! Provided the current setting
is correct, the surface of the work piece will also melt by the intensity of the electric arc. A degree of
“penetration” is thereby obtained and a complete “fusion” of the work piece and the deposited electrodes met
Selection of electrode. There is no hard and fast rule by which a particular gauge of electrode is selected. Usually this is determined by, the type of weld required and the thickness of the work piece. E.g. a
butt weld in (1.5mm.) sheet metal can be done by a 1.6mm or 2.5mm electrode, the difference being
that the 2.5mm electrode will do the job quicker. The table below Gives guidance as to which electrode is most suitable according to the material thickness. This table is only a guide, and values given
are an indication only.
Tip! Keep the welding current as low as possible for the job at hand to maintain the best duty cycle
from you welding machine, prevent the flux from burning and make removal of slag easier.
Amperage Selection Guide
Rod Size
Welding Current
1.6mm
40 - 50 Amps
2.0mm
50 - 75 Amps
2.5mm
75 - 105 Amps
3.2mm
105 - 135 Amps
4.0mm
135 - 190 Amps
TROUBLESHOOTING GUIDE TIG WELDING
PROBLEM
CHECK
HF but no welding current
Welding circuit
Check earth lead is connected. Check all cable connections.
No gas
Check the gas is connected and cylinder valve open, check hoses,
gas valve and torch are not restricted. Set the gas flow between
10 - 15 l/min flow rate
Arc wanders during DC welding
Poor gas flow
Check and set the gas flow between 10 - 15 l/min flow rate
Incorrect arc length
Lower torch so that the tungsten is off of the work piece 2 - 5mm
Tungsten incorrect or in poor condition
Check that correct type of tungsten is being used. Remove 10mm
from the weld end of the tungsten and re sharpen the tungsten
Poorly prepared tungsten
Grind marks should run lengthwise with tungsten, not circular. Use
proper grinding method and wheel.
Contaminated base metal
Remove contaminating materials like paint, grease, oil, and dirt,
including mill scale from base metal.
Contaminated filler wire
Remove all grease, oil, or moisture from filler metal.
Incorrect filler wire
Check the filler wire and change if necessary
Arc wanders during AC welding
Inadequate gas flow
Set the gas flow between 10 - 15 l/min flow rate
Incorrect arc length
Set the torch so that the tungsten is off of the work piece 2 5mm
Tungsten is contaminated
Remove 10mm of contaminated tungsten and re grind the tungsten. Use a pointed tungsten with AC Squarewave and inverter
machines. The point will round off after welding
Incorrect tungsten size and or tungsten
being used
Check and change the size and or the tungsten if required
Excessive rectification in the base metal
Increase balance control. Increase travel speed. Add filler wire during welding
Contaminated base metal
Remove contaminating materials like paint, grease, oil, and dirt,
including mill scale from base metal.
Arc difficult to start or will not start
DC welding
Incorrect machine set up
Check machine set up is correct
No gas, incorrect gas flow
Check the gas is connected and cylinder valve open, check hoses,
gas valve and torch are not restricted. Set the gas flow between
10 - 15 l/min flow rate
Tungsten is contaminated
Remove 10mm of contaminated tungsten and re grind the tungsten
Incorrect tungsten size and or tungsten
being used
Check and change the size and or the tungsten if required
Loose connection
Check all connectors and tighten
Loss of high frequency
Check torch and cables for cracked insulation or bad connections.
Check spark gaps and adjust if necessary
Arc difficult to start or will not start AC
welding
Incorrect machine set up
Check machine set up is correct
No gas, incorrect gas flow
Check the gas is connected and cylinder valve open, check hoses,
gas valve and torch are not restricted. Set the gas flow between
10 - 15 l/min flow rate
Incorrect tungsten size and or tungsten
being used
Check and change the size and or the tungsten if required
Tungsten is contaminated
Remove 10mm of contaminated tungsten and re grind the tungsten. Use a pointed tungsten with AC Square wave and inverter
machines. The point will round off after welding
Loose connection
Check all connectors and tighten
Earth clamp not connected to work
Connect the earth clamp directly to the work piece wherever possible
Loss of high frequency
Check torch and cables for cracked insulation or bad connections.
Check spark gaps and adjust if necessary
Tungsten burning away quickly
Incorrect Gas
Check that pure Argon is being used
No gas
Check the gas cylinder contains gas and is connected
Inadequate gas flow
Check the gas is connected, check hoses, gas valve and torch are
not restricted. Setthe gas flow between 10 - 15 l/min flow rate
Back cap not fitted correctly
Make sure the torch back cap is fitted so that the o-ring is inside
the torch body
Torch connected to DC +
Connect the torch to the DC- output terminal
Incorrect tungsten being used
Check and change the tungsten type if necessary
Tungsten being oxidised after weld is
finished
Keep gas flowing 10-15 seconds after arc stops. Tungsten melting back into the nozzle on
AC welding
Check that correct type of tungsten is being used. Check the
Cleaning width[12] controi not set too high.
Contaminated tungsten
Touching tungsten into the weld pool
Keep tungsten from contacting weld puddle. Raise the torch so
that the tungsten is off of the work piece 2 - 5mm
Touching the filler wire to the tungsten
Keep the filler wire away from the tungsten during welding, feed
the filler wire into the leading edge of the weld pool.
Porosity in weld
Incorrect Gas
Check that pure Argon is being used
Inadequate gas flow / gas leaks
Check the gas is connected, check hoses, gas valve and torch are
not restricted. Set the gas flow between 10 - 15 l/min flow rate.
Check hoses and fittings for holes, leaks etc.,
Moisture on the base metal
Remove all moisture from base metal before welding
Contaminated base metal
Remove materials like paint, grease, oil, and dirt, including mill
scale from base metal. Check composition of base metal.
Contaminated filler wire
Remove all grease, oil, or moisture from filler metal.
Incorrect filler wire
Check the filler wire and change if necessary
Yellowish residue / smoke from alumina nozzle & discoloured tungsten
Incorrect Gas
Use pure Argon gas
Inadequate gas flow
Set the gas flow between 10 - 15 l/min flow rate
Inadequate post flow gas
Increase the post flow gas time
Alumina gas nozzle too small for size of
tungsten being used
Increase the size of the alumina gas nozzle
Unstable Arc during DC welding
Torch connected to DC +
Connect the torch to the DC- output terminal
Contaminated base metal
Remove materials like paint, grease, oil, and dirt, including mill
scale from base metal.
Tungsten is contaminated
Remove 10mm of contaminated tungsten and re grind the tungsten
Arc length too long
Lower torch so that the tungsten is off of the work piece 2 - 5mm
Unstable Arc during AC welding
Incorrect gas or inadequate gas flow
Check that pure Argon is being used. Check the gas is connected,
check hoses, gas valve and torch are not restricted. Set the gas
flow between 10 - 15 l/min flow rate
Incorrect tungsten being used
Check and change the tungsten type if necessary
Tungsten is contaminated
Remove 10mm of contaminated tungsten.
Improperly prepared tungsten
Do not sharpen. The point will round off to a ball when welding.
WARRANTY
Our goods come with guarantees that cannot be excluded under the Australian Consumer Law.
You are entitled to a replacement or refund for a major failure and for compensation for any other
reasonably foreseeable loss or damage. You are also entitled to have the goods repaired or replaced if the goods fail to be of acceptable quality and the failure does not amount to a major
failure.
This product is guaranteed against faulty materials and workmanship for 12 months from the date
of purchase.
Please retain your receipt as proof of purchase.
This warranty does not cover defects caused by or resulting from:
(a) misuse, abuse or neglect;
(b) trade, professional or hire use;
(c) repairs attempted by anyone other than our authorised repair centres; or
(d) damage caused by foreign objects, substances or accident.
WARRANTY EXCLUSIONS
Wear parts or service related parts required when performing normal and regular maintenance
of this product are not covered by warranty unless it is found to be defective by an Authorised
Service Centre.
Consumable items such as swan necks, nozzles, contacts tips, wire liners etc are not covered by
warranty.
Distributed in Australia by WHITE INTERNATIONAL
PO Box 304 Milperra LPO, NSW, Australia, 2214
Inquiries phone 1800 251 338
THE WHITE INTERNATIONAL policy is one of continuous improvement and the company
reserves the right to the alter designs, colours and specifications without notice.
For information on all ROSS products
please visit: www.rosstools.com.au
The ROSS logo and Bull device are trademarks of WHITE INTERNATIONAL Pty Ltd.