Uni-Mig PRO-CRAFT210 MIG Instruction manual

MIG-TIG-STICK BUILT-IN
TECHNOLOGY
ADVANTAGE
OPERATING
MANUAL
MIG-TIG-STICK BUILT-IN
KUMJRDP210
KUMJRDP250
TECHNOLOGY
TECHNOLOGY
TECHNOLOGY
MIG-TIG-STICK
TECHNOLOGY
ADVANTAGE
MIG-TIG-STICK
Please read and understand this instruction manual carefully
before the installation and operation of this equipment.
3YEARS
Warranty
(Power Source)
1
© Welding Guns Of Australia PTY LTD 2012
Thank you for your purchase of your UNI-MIG welding machine.
We are proud of our range of welding equipment that has a proven track record of innovation,
performance and reliability.
Our product range represents the latest developments in Inverter technology put together by our
professional team of highly skilled engineers. The expertise gained from our long involvement with
inverter technology has proven to be invaluable towards the evolution and future development of
our equipment range. This experience gives us the inside knowledge on what the arc
characteristics, performance and interface between operator and machine should be.
Within our team are specialist welders that have a proven history of welding knowledge and
expertise, giving vital input towards ensuring that our machines deliver control and performance to
the utmost professional level.
We employ an expert team of professional sales, marketing and technical personnel that provide
us with market trends, market feedback and customer comments and requirements. Secondly they
provide a customer support service that is second to none, thus ensuring our customers have
confidence that they will be well satisfied both now and in the future.
UNI-MIG welders are manufactured and compliant with - AS/NZ60974.1 2006 - AS60974-6:2006
guaranteeing you electrical safety and performance.
WARRANTY
• 3 Years from date of purchase. ( on power source only )
•Welding Guns Of Australia PTY LTD Ltd warranties all goods as specified by the manufacturer of those goods.
•This Warranty does not cover freight or goods that have been interfered with.
•All goods in question must be repaired by an authorised repair agent as appointed by this
company.
•Warranty does not cover abuse, mis-use, accident, theft or general wear and tear.
•New product will not be supplied unless Welding Guns Of Australia PTY LTD has inspected
product returned for warranty and agree’s to replace product.
•Product will only be replaced if repair is not possible
• Please view full Warranty term and conditions supplied with machine or at www.unimig.com.au/
warranty.asp or at the back of this manual.
2
CONTENTSPAGE
Warranty2
Technical Data, Product Information
4-5
Safety - Cautions
6-8
Machine Layout Pictogram
9
Installation Operation Cautions
10
Installation & Operation for MMA (Stick) Welding
11
MMA (Stick) Welding Information
12-13
Installation & Operation for MIG Welding with Gas - Digital Torch set up
14-15
Wire Feed Drive Roller Selection
16
Wire Installation Set up Guide
17
Installation & Operation for MIG Welding with No Gas (Gasless Welding)
18-19
Installation Guide for Mig Torch Liner Installation
20
Mig Torch and Wire Feeder Set Up Guide for Aluminium Mig Wire
21-22
Installation & Operation for MIG Welding with Spool Gun
23-24
MIG (Metal Inert Gas) Welding
25-26
Basic MIG Welding Guide
27-30
Installation & Operation for DC TIG Welding with Lift Arc
31-32
DC TIG Welding
33-34
Tungsten Electrodes
35-36
24 Digital MIG Torch Parts Breakdown
37-38
26 Digital MIG Torch Parts Breakdown
39-40
SPG135 Spool Gun Torch Parts Breakdown
41-42
SP200II Spool Gun Torch Parts Breakdown
43-44
SR17 TIG Torch Parts Breakdown
45-46
SR26 TIG Torch Parts Breakdown
47-48
Mig Welding Trouble Shooting Guide
49-50
TIG Welding Trouble Shooting Guide
51-52
MMA Welding Trouble Shooting Guide
53
Warranty54-56
3
3YEARS Warranty
KUMJRDP210
(Power Source)
MIG/MMA/TIG - 210 Amp DC Welding Machine Lightweight & Portable
Welds: Steels, Stainless, Cast Iron, Bronze, Aluminium, Copper
Features
• Latest IGBT inverter technology
• Mig/Mag with Gas and Gasless wire function
• Stick electrode (MMA) function
• DC Tig welding with Lift Arc Start
• Industrial application
• Optional trolley
• Internal wire feeder, gear driven for up to 200mm Ø spool
• Euro mig torch connection
• IP21S rating for environmental/safety protection • Tolerant to variable power supply
• Stepless voltage and wire feed control
• Mig welding with CO2, ARGON & mixed gases
• Excellent arc stability with all GP electrodes
• Light weight and portable
Technical Data
Power Supply / Phases (V-Ph)
Duty Cycle @ 40°c as per
No Load Voltage (V)
Output Current Range MIG Output Current Range MMA Rated Power MIG
Rated Power MMA
I Max MIG
MMA
I ieff MIG
MMA
Power factor
Protection Class
Insulation Class
Wire Diameter Range (mm)
Steel /Stainless
Fluxcored
Aluminium
Dimensions Power Source (LxWxH)
Weight Power Source
Warranty
240v - 1 +/- 15%
20% @ 210 Amps MIG
20% @ 160 Amps MMA
53.0
30A/15.5V - 210/24.5V
10A/20.4V - 160A/26.4V
6.9 KVA
8.4 KVA
35.0 Amps
29 0 Amps
15.6 Amps
12.9 Amps
0.72
P 21S
F
0.6, 0.8, 0.9
0.8, 0.9, 1.0, 1.2
0.8, 0.9, 1.0, 1.2
528x250x425mm
19 Kg
3 years on power source
Overview
MULTIFUNCTION INVERTER OPTIONS
SPOOL GUN
Part No: SPG135
MACHINE TROLLEY
Part No: UMJRTROLLEY2
SR17 TIG WELDING TORCH
Part No: SR174MCP10/25
The MIG210 is a new Digital controlled inverter-based portable Mig welding machine with added MMA and TIG function. The
Digital function allows fast very accurate control of welding parameters. Seamless Digital selection of voltage and wire feed
parameters make for easy and accurate Mig welding providing excellent, professional welding results. The addition of the SB24
Digital Control mig torch allows you to adjust wire feed speed and voltage settings during real time welding providing you the
ultimate in control. The MIG function allows you to weld with both Gas Shielded and Gasless wire. Wire inch provides feeding
of the wire during set up without gas wastage. Added MMA welding capability delivers easy electrode welding with high
quality results, including cast Iron, stainless and low hydrogen. DC TIG function has gas solenoid and trigger control and with
connection of the SR17 Tig torch provides simple but professional Lift Arc DC TIG welding of steel, stain-less steel and
copper. An additional feature is the Spoolgun ready function that allows the simple connection of the SPG series Spoolgun for
the use of thin or softer wires that don’t have the column strength to feed through standard mig torches, such as aluminium wire.
A semi-industrial machine, it is lightweight and portable, an optional trolley provides off the fl oor operation and better
manoeuvrability around the workshop. Being 240v single phase gives great portability, it can be run from any 15 Amp power
socket providing more fl exible use for site and home workshop locations. Ideal for general engineers, maintenance workshop,
rural workshop, panel beaters, home workshop. Designed and built to our specifi cation. Certifi ed to - AS/NZ60974.1 2006
MACHINE PACKAGE: KUMJRDP210
4
UNI-MIG 210 Digital Multifunction Welding Inverter / SB24 Digital 4M UNI-MIG Sure Grip MIG torch with Euro connector
4M ARC lead set 10-25mm Dinse style connections / UNI-FLAME Twin Gauge Argon Regulator
2M Gas Hose Complete with fittings
3YEARS Warranty
KUMJRDP250
(Power Source)
MIG/MMA/TIG - 250 Amp DC Welding Machine Lightweight & Portable
Welds: Steels, Stainless, Cast Iron, Bronze, Aluminium, Copper
Features
• Latest IGBT inverter technology
• Mig/Mag with Gas and Gasless wire function
• Stick electrode (MMA) function
• DC Tig welding with Lift Arc Start
• Industrial application
• Optional trolley
• Internal wire feeder, gear driven for up to 200mm Ø spool
• Euro mig torch connection
• IP21S rating for environmental/safety protection • Tolerant to variable power supply
• Stepless voltage and wire feed control
• Mig welding with CO2, ARGON & mixed gases
• Excellent arc stability with all GP electrodes
• Light weight and portable
Technical Data
Power Supply / Phases (V-Ph)
Duty Cycle @ 40°c as per
Output Current Range MIG Output Current Range MMA Rated Power MIG
I Max MIG
MMA
I ieff MIG
MMA
Power factor
Protection Class
Insulation Class
Wire Feeder Type
Wire Diameter Range (mm)
Steel /Stainless
Fluxcored
Aluminium
Dimensions Power Source (LxWxH)
Weight Power Source
Dimensions Trolley (LxWxH)
Warranty
240v - 1 +/- 15%
40% @ 250 Amps MIG
40% @ 224 Amps MMA
30A/15.5V - 250A/26.5V
10A/20.4V - 350A/33.0V
10.8 KVA
45 Amps
51 Amps
26.6 Amps
28 0 Amps
0.72
P 21S
F
Gear Driven 2 Roll
0.6, 0.8, 0.9
0.8, 0.9, 1.0, 1.2
0.8, 0.9, 1.0, 1.2
585x280x440mm
35 Kg
880x430x410mm
3 years on power source
Overview
MULTIFUNCTION INVERTER OPTIONS
SPOOL GUN
Part No: SPG200II
MACHINE TROLLEY
Part No: UMJRTROLLEY3
SR26 TIG WELDING TORCH
Part No: SR264MCP35/50
The MIG250 is a new Digital controlled inverter-based portable Mig welding machine with added MMA and TIG function. The
Digital function allows fast very accurate control of welding parameters. Seamless Digital selection of voltage and wire feed
parameters make for easy and accurate Mig welding providing excellent, professional welding results. The addition of the SB24
Digital Control mig torch allows you to adjust wire feed speed and voltage settings during real time welding providing you the
ultimate in control. The MIG function allows you to weld with both Gas Shielded and Gasless wire. Wire inch provides feeding
of the wire during set up without gas wastage. Added MMA welding capability delivers easy electrode welding with high
quality results, including cast Iron, stainless and low hydrogen. DC TIG function has gas solenoid and trigger control and with
connection of the SR26 Tig torch provides simple but professional Lift Arc DC TIG welding of steel, stain-less steel and
copper. An additional feature is the Spoolgun ready function that allows the simple connection of the SPG series Spoolgun for
the use of thin or softer wires that don’t have the column strength to feed through standard mig torches, such as aluminium wire.
A semi-industrial machine, it is lightweight and portable, an optional trolley provides off the fl oor operation and better
manoeuvrability around the workshop. Being 240v single phase gives great portability, it can be run from any 15 Amp power
socket providing more fl exible use for site and home workshop locations. Ideal for general engineers, maintenance workshop,
rural workshop, panel beaters, home workshop. Designed and built to our specifi cation. Certifi ed to - AS/NZ60974.1 2006
MACHINE PACKAGE: KUMJRDP250
UNI-MIG 250 Digital Multifunction Welding Inverter / SB26 Digital 4M UNIMIG Sure Grip MIG torch with Euro connector
4M ARC lead set 35/50mm Dinse style connections / UNI-FLAME Twin Gauge Argon Regulator
2M Gas Hose Complete with fittings
5
SAFETY
Welding and cutting equipment can be dangerous to both the operator and people in or near the
surrounding working area, if the equipment is not correctly operated. Equipment must only be
used under the strict and comprehensive observance of all relevant safety regulations.
Read and understand this instruction manual carefully before the installation and operation of this
equipment.
Machine Operating Safety
•Do not switch the function modes while the machine is operating. Switching of the function modes during
welding can damage the machine. Damage caused in this manner will not be covered under warranty.
•Disconnect the electrode-holder cable from the machine before switching on the machine, to avoid arcing
should the electrode be in contact with the work piece.
•Operators should be trained and or qualified.
Electric shock: It can kill. Touching live electrical parts can cause fatal shocks or severe
burns. The electrode and work circuit is electrically live whenever the output is on. The input
power circuit and internal machine circuits are also live when power is on. In Mig/Mag welding,
the wire, drive rollers, wire feed housing, and all metal parts touching the welding wire are
electrically live. Incorrectly installed or improperly grounded equipment is dangerous.
•Connect the primary input cable according to Australian and New Zealand standards and regulations.
•Avoid all contact with live electrical parts of the welding circuit, electrodes and wires with bare hands.
The operator must wear dry welding gloves while he/she performs the welding task.
•The operator should keep the work piece insulated from himself/herself.
• Keep cords dry, free of oil and grease, and protected from hot metal and sparks.
• Frequently inspect input power cable for wear and tear, replace the cable immediately if damaged,
bare wiring is dangerous and can kill.
•Do not use damaged, under sized, or badly joined cables.
•Do not drape cables over your body.
• We recommend (RCD) safety switch is used with this equipment to detect any leakage of current to earth.
Fumes and gases are dangerous. Smoke and gas generated whilst welding or cutting can
be harmful to people’s health. Welding produces fumes and gases. Breathing these fumes and
gases can be hazardous to your health. •Do
not breathe the smoke and gas generated whilst welding or cutting, keep your head out of the fumes
•Keep the working area well ventilated, use fume extraction or ventilation to remove welding fumes and
gases.
•In confined or heavy fume environments always wear an approved air-supplied respirator.
Welding fumes and gases can displace air and lower the oxygen level causing injury or death. Be sure the
breathing air is safe.
•Do not weld in locations near de-greasing, cleaning, or spraying operations. The heat and rays of the arc
can react with vapours to form highly toxic and irritating gases.
•Materials such as galvanized, lead, or cadmium plated steel, containing elements that can give off toxic
fumes when welded. Do not weld these materials unless the area is very well ventilated, and or wearing
an air supplied respirator.
Arc rays: harmful to people’s eyes and skin. Arc rays from the welding process produce
intense visible and invisible ultraviolet and infrared rays that can burn eyes and skin.
•Always
wear a welding helmet with correct shade of filter lens and suitable protective clothing including
welding gloves whilst the welding operation is performed.
•Measures should be taken to protect people in or near the surrounding working area. Use protective
screens or barriers to protect others from flash,glare and sparks; warn others not to watch the arc.
6
Fire hazard. Welding on closed containers, such as tanks,drums, or pipes, can cause them
to explode. Flying sparks from the welding arc, hot work piece, and hot equipment can cause
fires and burns. Accidental contact of electrode to metal objects can cause sparks, explosion,
overheating, or fire. Check and be sure the area is safe before doing any welding.
•The
welding sparks & spatter may cause fire, therefore remove any flammable materials well away from the working area. Cover flammable materials and containers with approved covers if unable to be moved from the welding area.
•Do not weld on closed containers such as tanks, drums, or pipes, unless they are properly prepared
according to the required Safety Standards to insure that flammable or toxic vapors and substances are
totally removed, these can cause an explosion even though the vessel has been “cleaned”.
Vent hollow castings or containers before heating, cutting or welding. They may explode.
•Do not weld where the atmosphere may contain flammable dust, gas, or liquid vapours (such as petrol)
•Have a fire extinguisher nearby and know how to use it. Be alert that welding sparks and hot materials
from welding can easily go through small cracks and openings to adjacent areas. Be aware that welding
on a ceiling, floor, bulkhead, or partition can cause fire on the hidden side.
Gas Cylinders. Shielding gas cylinders contain gas under high pressure. If damaged, a cylinder can explode. Because gas cylinders are normally part of the welding process, be sure to
treat them carefully. CYLINDERS can explode if damaged.
•Protect
gas cylinders from excessive heat, mechanical shocks, physical damage, slag, open flames,
sparks, and arcs.
•Insure cylinders are held secure and upright to prevent tipping or falling over.
•Never allow the welding electrode or earth clamp to touch the gas cylinder, do not drape welding cables
over the cylinder.
•Never weld on a pressurised gas cylinder, it will explode and kill you.
•Open the cylinder valve slowly and turn your face away from the cylinder outlet valve and gas regulator.
Gas
build up. The build up of gas can causes a toxic environment, deplete the oxygen content
in the air resulting in death or injury. Many gases use in welding are invisible and odourless.
•Shut off shielding gas supply when not in use.
•Always ventilate confined spaces or use approved air-supplied respirator.
Electronic magnetic fields. MAGNETIC FIELDS can affect Implanted Medical Devices.
•Wearers of Pacemakers and other Implanted Medical Devices should keep away.
•Implanted Medical Device wearers should consult their doctor and the device manufacturer before going
near any electric welding, cutting or heating operation.
Noise can damage hearing. Noise from some processes or equipment can damage hearing.
Wear approved ear protection if noise level is high.
Hot parts. Items being welded generate and hold high heat and can cause severe burns.
Do not touch hot parts with bare hands. Allow a cooling period before working on the welding
gun. Use insulated welding gloves and clothing to handle hot parts and prevent burns.
7
CAUTION
1. Working Environment.
1.1 The environment in which this welding equipment is installed must be free of grinding dust, corrosive
chemicals, flammable gas or materials etc, and at no more than maximum of 80% humidity.
1.2 When using the machine outdoors protect the machine from direct sun light, rain water and snow etc;
the temperature of working environment should be maintained within -10°C to +40°C.
1.3 Keep this equipment 30cm distant from the wall.
1.4 Ensure the working environment is well ventilated.
2. Safety Tips.
2.1 Ventilation
This equipment is small-sized, compact in structure, and of excellent performance in amperage output.
The fan is used to dissipate heat generated by this equipment during the welding operation.
Important: Maintain good ventilation of the louvers of this equipment. The minimum distance between
this equipment and any other objects in or near the working area should be 30 cm. Good ventilation is
of critical importance for the normal performance and service life of this equipment.
2.2
Thermal Overload protection.
2.3
Over-Voltage Supply
Should the machine be used to an excessive level, or in high temperature environment, poorly
ventilated area or if the fan malfunctions the Thermal Overload Switch will be activated and the
machine will cease to operate. Under this circumstance, leave the machine switched on to keep the
built-in fan working to bring down the temperature inside the equipment. The machine will be ready for
use again when the internal temperature reaches safe level.
Regarding the power supply voltage range of the machine, please refer to “Main parameter” table.
This equipment is of automatic voltage compensation, which enables the maintaining of the voltage
range within the given range. In case that the voltage of input power supply amperage exceeds the
stipulated value, it is possible to cause damage to the components of this equipment. Please ensure
your primary power supply is correct.
2.4 Do not come into contact with the output terminals while the machine is in operation. An electric shock
may possibly occur.
MAINTENANCE
Exposure to extremely dusty, damp, or corrosive air is damaging to the welding machine. In order to prevent any possible failure or fault of this welding equipment, clean the dust at regular intervals with clean and
dry compressed air of required pressure.
Please note that: lack of maintenance can result in the cancellation of the guarantee; the guarantee of
this welding equipment will be void if the machine has been modified, attempt to take apart the machine or
open the factory-made sealing of the machine without the consent of an authorized representative of the
manufacturer.
TROUBLE SHOOTING
Caution: Only qualified technicians are authorized to undertake the repair of this welding equipment.
For your safety and to avoid Electrical Shock, please observe all safety notes and precautions
detailed in this manual.
Note:
Minimum Motor Generator Power Suggested:- 8KVA for Mig210 - 12KVA for MIG250
8
2
16
FRONT PANEL LAYOUT
1. Amperage Meter
2. Voltage Meter
3. VRD LED
4. Mig/MMA/Tig/Spool Gun Mode Selector Switch
5. Wire Feed Adjustment Knob (MIG/MAG)
(TIG/MMA) Amperage control
6. Voltage Adjustment Knob (MIG/MAG)
Arc force Adjustment (MMA)
7. Downslope time adjustment
8. Torch operation
9. Post flow gas time
10. Inductance adjustment knob (MIG/MAG)
11. “ ” Output terminal
12. SpoolGun/TIG Torch trigger Connection
13. “ ” Output terminal
14. Quick connector gas TIG torch
15. Euro Mig Torch Connector (MIG/MAG)
16. Thermal Overload LED
3
4
7
1
8
9
10
5
6
11
12
13
14
+
15
21
BACK PANEL LAYOUT
17. Input power cable
18. Power switch
19. Fan
20. Gas Inlet
Note: Serperate gas inlet for MIG & TIG Model 210
21. Data Plate
17
18
19
20
22
23
INTERNAL PANEL LAYOUT
22. Wire Inch Button
23. Gas Check button
24. DC Negative output terminal
25. DC Positive output terminal
26. Wire feeder mechanism
27. Spool holder assembly
24
25
26
27
9
INSTALLATION & OPERATION
Please install the machine strictly according to the following steps.
The protection class of this machine is IP21S, so avoid using it in wet areas.
Connection of Input Cables
Primary input cable is supplied with this welding equipment. Connect the primary input cable with power
supply of required input voltage. Refer to data plate on machine for Input voltage, IMAX and IEFF.
WARNING!
Before MMA (Stick)Welding:
Disconnect the cable with twist lock connector
that is attached to the wire feeder from the output
socket’s “GAS” “NO-GAS” on the backboard.
If cable is not disconnected welding voltage is
present on MIG torch and can cause arcing or
flash.
10
Installation set up for MMA (Stick) Welding with UNI-MIG-MIG210/250 DIGITAL MTS
(1) Turn the power source on and select the MMA function with the Tig/MMA/MIG/SPOOL GUN
selector switch.
(2) Connection of Output Cables
Two sockets are available on this welding machine. For MMA welding the electrode holder is shown
connected to the positive socket, while the earth lead (work piece) is connected to the negative
socket, this is known as DC+ polarity. However various electrodes require a different polarity for
optimum results and careful attention should be paid to the polarity, refer to the electrode
manufacturers information for the correct polarity.
DC+ Electrode connected to
output socket.
DC- Electrode connected to
output socket.
(3) Set the welding current relevant to the electrode type and size being used as recommended by the
electrode manufacturer.
(1) Set Tig/MMA/Mig/Spool Gun
selector switch to MMA
(2) Connect earth
lead to
(2) Connect the electrode
lead to
WARNING:
Ensure that an approved welding helmet, protective clothing and gloves are use for all welding operations
(3) Set the welding current using the amperage (4) Place the electrode into the electrode holder (5) Strike the electrode against the workpiece to
and clamp tight.
create an arc and hold the electrode steady to
control dial.
maintain the arc.
(6) Hold the electrode slightly above the work
maintaining the arc while travelling at an even
speed.
(7) To finish the weld, break the arc by quickly
snapping the electrode away from the work
piece.
(8) Wait for the weld to cool and carefully chip
away the slag to reveal the weld metal below.
11
MMA (Manual Metal Arc) Welding
One of the most common types of arc welding is manual metal arc welding (MMA) or stick welding. An electric current is used to strike an arc between the base material and a consumable electrode rod or ‘stick’. The electrode rod
is made of a material that is compatible with the base material being welded and is covered with a flux that gives off
gaseous vapours that serve as a shielding gas and providing a layer of slag, both of which protect the weld area from
atmospheric contamination. The electrode core itself acts as filler material the residue from the flux that forms a slag
covering over the weld metal must be chipped away after welding.
Core wire
+
Flux coating
Gas shield from flux melt
Power Source
Arc with core wire melt
Flux residue forms slag cover
Weld metal
▬
• The arc is initiated by momentarily touching the electrode to the base metal.
Core wire
Flux coating
Base metal
• The heat of the arc melts the surface of the base metal to form a molten pool
at the end of the electrode.
• The melted electrode metal is transferred across the arc into the molten pool
and becomes the deposited weld metal.
• The deposit is covered and protected by a slag which comes from the
electrode coating.
• The arc and the immediate area are enveloped by an atmosphere of
protective gas
Protective gas
Arc
Manual metal arc ( stick) electrodes have a solid metal wire core and a flux
coating. These electrodes are identified by the wire diameter and by
a series of letters and numbers. The letters and numbers identify the metal
alloy and the intended use of the electrode.
The Metal Wire Core works as conductor of the current that maintains the arc.
The core wire melts and is deposited into the welding pool.
Slag
Weld pool
12
The covering on a shielded metal arc welding electrode is called Flux.
The flux on the electrode performs many different functions.
These include:
● producing a protective gas around the weld area
● providing fluxing elements and deoxidizers
● creating a protective slag coating over the weld as it cools
● establishing arc characteristics
● adding alloying elements.
Covered electrodes serve many purposes in addition to adding filler metal to
the molten pool. These additional functions are provided mainly by the covering on the electrode.
MMA (Stick) Welding Fundamentals
Electrode Selection
As a general rule, the selection of an electrode is straight forward,in that it is only a matter of selecting an
electrode of similar composition to the parent metal. However, for some metals there is a choice of several
electrodes, each of which has particular properties to suit specific classes of work. It is recommend to
consult your welding supplier for the correct selection of electrode.
Electrode Size
Average Thickness
of Material
Maximum Recommended
Electrode Diameter
1.0 - 2.0mm
2.0 - 5.0mm
5.0 - 8.0mm
8.0 - > mm
2.5mm
3.2mm
4.0mm
5.0mm
The size of the electrode generally depends on the
thickness of the section being welded, and the thicker
the section the larger the electrode required. The table
gives the maximum size of electrodes that maybe used
for various thicknesses of section based on using a
general purpose type 6013 electrode.
Welding Current (Amperage)
Correct current selection for a particular job is an
important factor in arc welding. With the current set too
low, difficulty is experienced in striking and maintaining
a stable arc. The electrode tends to stick to the work,
2.5mm
60 - 100
penetration is poor and beads with a distinct rounded
3.2mm
100 - 130
profile will be deposited. Too high current is
4.0mm
130 - 165
accompanied by overheating of the electrode resulting
5.0mm
165 - 260
undercut and burning through of the base metal and
producing excessive spatter. Normal current for a particular job may be considered as the maximum, which
can be used without burning through the work, over-heating the electrode or producing a rough spattered
surface.The table shows current ranges generally recommended for a general purpose type 6013
electrode.
Electrode Size
ø mm
Current Range
(Amps)
Arc Length
To strike the arc, the electrode should be gently scraped on the work until the arc is established. There is a
simple rule for the proper arc length; it should be the shortest arc that gives a good surface to the weld. An
arc too long reduces penetration, produces spatter and gives a rough surface finish to the weld.
An excessively short arc will cause sticking of the electrode and result in poor quality welds. General rule of
thumb for down hand welding is to have an arc length no greater than the diameter of the core wire.
Electrode Angle
The angle that the electrode makes with the work is important to ensure a smooth, even transfer of metal.
When welding in down hand, fillet, horizontal or overhead the angle of the electrode is generally between 5
and 15 degrees towards the direction of travel. When vertical up welding the angle of the electrode should
be between 80 and 90 degrees to the work piece.
Travel Speed
The electrode should be moved along in the direction of the joint being welded at a speed that will give the
size of run required. At the same time, the electrode is fed downwards to keep the correct arc length at all
times. Excessive travel speeds lead to poor fusion, lack of penetration etc, while too slow a rate of travel
will frequently lead to arc instability,slag inclusions and poor mechanical properties.
Material and Joint Preparation
The material to be welded should be clean and free of any moisture, paint, oil, grease, mill scale, rust or
any other material that will hinder the arc and contaminate the weld material. Joint preparation will depend
on the method used include sawing, punching, shearing, machining, flame cutting and others. In all cases
edges should be clean and free of any contaminates. The type of joint will be determined by the chosen
application.
13
Installation set up for MIG with Gas for UNI-MIG-MIG210/250 DIGITAL MTS
(1) Connect Mig Torch
IMPORTANT : When connecting the torch be sure to tighten the connection. Additionally Digital MIG torch must be connected prior to power being turned on otherwise remote control will not work
(2) Connect the earth lead to
(3) Select the MIG function with the Tig/MMA/MIG/SPOOL GUN selector switch.
(4) Set torch operation 2T / 4T.
• When 2T operation is selected press trigger Arc starts, release trigger Arc stops.
• When 2T operation is selected with downslope time of either 2 or 3 seconds press trigger Arc starts, release trigger, after 2 or 3 seconds depending on the downslope time selected Arc stops. Crater fill operation is automatic and preset.
• When 4T operation is selected press and release trigger Arc starts, press and release trigger Arc stops.
• When 4T operation is selected with downslope time of either 2 or 3 seconds press and release trigger Arc starts. Press and hold trigger, after 2 or 3 seconds depending on the downslope time selected
Arc crater fill downslopes to factory preset level, release trigger Arc stops
NOTE: This feature is recommend for welding above 120Amps only.
(5) If required select downslope time for crater fill
(6) Select post gas flow time.
(7) Adjust inductance control, Hard or Soft Arc
(8) Connect Gas Line to Gas Regulator and connect the gas regulator to the Gas Cylinder.
(3) Set Tig/MMA/Mig/Spool Gun
selector
switch to Mig
(4) Set Torch operation 2T/4T
(8) Connect the gas line to the regulator
and connect to the gas cylinder
(5) If required select downslope time for
crater fill
(6) Select Post gas flow time.
(7) Select Inductance control.
( 2) Connect earth lead to
(1) Connect Mig torch
IMPORTANT : When connecting the torch
be sure to tighten the connection.
Additionally Digital MIG torch must be
conectedproir to power being turned on
otherwise remote control will not work
WARNING:
Ensure that an approved welding helmet, protective clothing and gloves are use for all welding operations
(9) Connect weld power lead to GAS
WARNING:
14
(10) Place wire onto spool holder - (spool
retaining nut is left hand thread ) Feed the wire
through the inlet guide tube on to the drive
roller.
(11) Feed wire over the drive roller into the
outlet guide tube, Push the wire through approx
150mm.
Disconnect the Electrode Holder cable from the machine before using MIG function. If cable is not disconnected welding
voltage is present and can cause arcing or flash.
Note: Pictures may vary from your model machine
Continued set up for MIG with Gas for UNI-MIG-MIG210/250 DIGITAL MTS
(9) Connect weld power lead to GAS
(10) Place wire onto spool holder - (spool retaining nut is left hand thread ) Feed the wire through the inlet guide tube on to the drive roller.
(11) Feed wire over the drive roller into the outlet guide tube, Push the wire through approx 150mm
(12) Align the wire into the groove of the drive roller and close down the top roller making sure the wire is in
the groove of the bottom drive roller, lock the pressure arm into place.
(13) Apply adequate pressure to the drive roller so that wire does not slip
(14) Remove the gas nozzle and contact tip from the torch neck,
(15) Press and hold the inch button to feed the wire through to the torch neck, release the inch button when
the wire exits the torch neck.
(16) Fit the correct sized contact tip and feed the wire through it, screw the contact tip into the tip holder of
the torch head and nip it up tightly.
(17) Fit the gas nozzle to the torch head.
(18) Carefully open the gas cylinder valve and set the flow rate to between 12-15 l/min.
(19) Set the welding parameters using the wire feed and voltage control knobs on power source
OR
(20) Press and hold wire speed / voltage button and hold down for approx two seconds to active
torch control. Pressing the button allows voltage display U or wire speed S to be selected, control of the
parameters can then be regulated by the + or - buttons on the torch handle. Pressing and holding down
wirespeed/ voltage button for approx 2 seconds after adjustments have been made locks these settings
that have been selected. to unlock repeat steps listed above.
(12) Close down the top roller bracket and clip
the pressure arm into place.
(13) Apply a medium amount of
pressure to the drive roller
(14) Remove the gas nozzle and contact tip
from the front end of the mig torch.
(15) Press and hold the inch wire button to
feed the wire down the torch cable through
to the torch head.
(16) Fit the correct size contact tip over
the wire and fasten tightly into the tip
holder.
(17) Fit the gas nozzle to the torch head.
Wire Speed / Voltage selection button.
NOTE: Press for 2 seconds to activate or disable
OR
Wire Speed / Voltage + & -buttons
(18) Carefully open the valve of the gas
cylinder, set the flow to 12-15 l/min
Note: Pictures may vary from your model machine
(19) Set welding parameters using
the voltage and wire feed controls on
machine
(20) Set welding parameters using the
voltage and wire feed controls on torch
15
Wire Feed Roller Selection
The importance of smooth consistent wire feeding during MIG welding cannot be emphasized enough.
Simply put the smoother the wire feed then the better the welding will be.
Feed rollers or drive rollers are used to feed the wire mechanically along the length of the welding gun.
Feed rollers are designed to be used for certain types of welding wire and they have different types of
grooves machined in them to accommodate the different types of wire. The wire is held in the groove by
the top roller of the wire drive unit and is referred to as the pressure roller, pressure is applied by a tension
arm that can be adjusted to increase or decrease the pressure as required. The type of wire will determine
how much pressure can be applied and what type of drive roller is best suited to obtain optimum wire feed.
Solid Hard Wire - like Steel, Stainless Steel require a drive roller with a V shape groove for optimum grip
and drive capability. Solid wires can have more tension applied to the wire from the top pressure roller that
holds the wire in the groove and the V shape groove is more suited for this. Solid wires are more forgiving
to feed due to their higher cross sectional column strength, they are stiffer and don’t bend so easy.
Soft Wire - like Aluminium requires a U shape groove. Aluminium wire has a lot less column strength, can
bend easily and is therefore more difficult to feed. Soft wires can easily buckle at the wire feeder where the
wire is fed into inlet guide tube of the torch. The U-shaped roller offers more surface area grip and traction
to help feed the softer wire. Softer wires also require less tension from the top pressure roller to avoid deforming the shape of the wire, too much tension will push the wire out of shape and cause it to catch in the
contact tip.
Flux Core / Gasless Wire - these wires are made up of a thin metal sheath that has fluxing and metal
compounds layered onto it and then rolled into a cylinder to form the finished wire. The wire cannot take
too much pressure from the top roller as it can be crushed and deformed if too much pressure is applied.
A knurled drive roller has been developed and it has small serrations in the groove, the serrations grip the
wire and assist to drive it without too much pressure from the top roller. The down side to the knurled wire
feed roller on flux cored wire is it will slowly over time bit by bit eat away at the surface of the welding wire,
and these small pieces will eventually go down into the liner. This will cause clogging in the liner and added
friction that will lead to welding wire feed problems. A U groove wire can also be used for flux core wire
without the wire particles coming of the wire surface. However it is considered that the knurled roller will
give a more positive feed of flux core wire without any deformation of the wire shape.
Top Pressure Roller
Top Pressure Roller
V Groove
U Groove
Wire
Wire
10mm
Drive Rollers
Top Pressure Roller
Knurled Groove
Wire
V Groove Drive Roller - Steel Wire
Part Number 0.6-0.8V30/22
0.8-1.0V30/22
0.9-1.2V30/22
1.0-1.2V30/22
1.2-1.6V30/22
Description
Drive Roll V Groove 0.6-0.8mm
Drive Roll V Groove 0.8-1.0mm
Drive Roll V Groove 0.9-1.2mm
Drive Roll V Groove 1.0-1.2mm
Drive Roll V Groove 1.2-1.6mm
30mm
U Groove Drive Roller - Soft Wire
22mm
Description
Drive Roll U Groove 1.0-1.2mm
Drive Roll U Groove 0.9-1.0mm
Drive Roll U Groove 0.9-1.2mm
Drive Roll U Groove 1.0-1.2mm
Knurled Drive Roller - Flux Core Wire
16
Part Number 0.8-1.0U30/22
0.9-1.0U30/22
0.9-1.2U30/22
1.0-1.2U30/22
Part Number 0.6-0.8F30/22
0.8-0.9F30/22
0.9-1.2F30/22
1.2-1.6F30/22
Description
Drive Roll Knurled 0.6-0.9mm
Drive Roll Knurled 0.8-0.9mm
Drive Roll Knurled 0.9-1.2mm
Drive Roll Knurled 1.2-1.6mm
Wire Installation and Set Up Guide
Again the importance of smooth consistent wire feeding during MIG welding cannot be emphasized enough.
The correct installation of the wire spool and the wire into the wire feed unit is critical to achieving an even
and consistent wire feed. A high percentage of faults with mig welders emanate from poor set up of the wire
into the wire feeder. The guide below will assist in the correct setup of your wire feeder.
(1) Remove the spool retaining nut.
(2) Note the tension spring adjuster
and spool locating pin.
(4) Snip the wire carefully, be sure to hold the
wire to prevent the spool uncoiling. Carefully
feed the wire into the inlet guide tube of the
wire feed unit.
(5) Feed the wire through the drive roller and
into the outlet guide tube of the wire feeder.
(7) Check that the wire passes through the centre
of the outlet guide tube without touching the sides.
Loosen the locking screw and then loosen the outlet
guide tube retaining nut too make adjustment if
required. Carefully retighten the locking nut and
screw to hold the new position.
adjust wire tensioner so that adequate presser is
supplied to wire so it does not slip
Note: Pictures may vary from your model machine
(3) Fit the wire spool onto the spool holder
fitting the locating pin into the location hole
on the spool. Replace the spool retaining
nut tightly
(6) Lock down the top pressure roller and
apply a medium amount of pressure using the tension adjustment knob
(8) The weight and speed of the wire spool
turning creates an inertia that can cause the
spool to run on and the wire loop over the
side of the spool and tangle. if this happens
increase the pressure on the tension spring
inside the spool holder assembly using the
tension adjustment screw.
NOTE: As wire volume reduces spool brake
tension may also require re-adjustment
17
Installation set up for MIG with Gasless for UNI-MIG-MIG210/250 DIGITAL MTS
(1) Connect Mig Torch
IMPORTANT : When connecting the torch be sure to tighten the connection. Additionally Digital MIG torch must be connected prior to power being turned on otherwise remote control will not work
(2) Connect the earth lead to
(3) Select the MIG function with the Tig/MMA/MIG/SPOOL GUN selector switch.
(4) Set torch operation 2T / 4T.
• When 2T operation is selected press trigger Arc starts, release trigger Arc stops.
• When 2T operation is selected with downslope time of either 2 or 3 seconds press trigger Arc starts, release trigger, after 2 or 3 seconds depending on the downslope time selected Arc stops. Crater fill operation is automatic and preset.
• When 4T operation is selected press and release trigger Arc starts, press and release trigger Arc stops.
• When 4T operation is selected with downslope time of either 2 or 3 seconds press and release trigger Arc starts. Press and hold trigger, after 2 or 3 seconds depending on the downslope time selected
Arc crater fill downslopes to factory preset level, release trigger Arc stops.
NOTE: This feature is recommend for welding above 120Amps only.
(5) If required select downslope time for crater fill
(6) Select post gas flow time.
(7) Adjust inductance control, Hard or Soft Arc
(5) If required select downslope time for
crater fill
(3) Set Tig/MMA/Mig/Spool Gun
selector
switch to Mig
(6) Select Post gas flow time.
(7) Select Inductance control.
(4) Set Torch operation 2T/4T
(1) Connect Mig torch
( 2) Connect earth lead to
IMPORTANT : When connecting the torch
be sure to tighten the connection.
Additionally Digital MIG torch must be
connected prior to power being turned on
otherwise remote control will not work
WARNING:
Ensure that an approved welding helmet, protective clothing and gloves are use for all welding operations
(8) Connect weld power lead to
NO GAS
WARNING:
18
(9) Fit the correct sized Knurled
Drive roller for Gas Less Flux
Cored wire
(10) Place wire onto spool holder - (spool
retaining nut is left hand thread ) Feed the wire
through the inlet guide tube on to the drive
roller.
Disconnect the Electrode Holder cable from the machine before using MIG function. If cable is not disconnected welding
voltage is present and can cause arcing or flash.
Note: Pictures may vary from your model machine
Continued set up for MIG with Gasless for UNI-MIG-MIG210/250 DIGITAL MTS
(8) Connect the weld power cable plug inside the wire feeder to the output socket NO GAS, and tighten it.
(9) Fit the correct size Knurled drive roller for Gas Less Flux Core wire.
(10) Place the Wire Spool onto the Spool Holder - Note: the spool retaining nut is Left Hand thread.
Snip the wire from the spool being sure to hold the wire to prevent rapid uncoiling. Feed the wire into
the wire feeder inlet guide tube through to the drive roller.
(11) Feed wire over the drive roller into the outlet guide tube, Push the wire through approx 150mm
(12) Align the wire into the groove of the drive roller and close down the top roller making sure the wire is in
the groove of the bottom drive roller, lock the pressure arm into place.
(13) Apply the minimum amount of pressure to the drive roller to drive the wire without slippage.
(14) Remove the gas nozzle and contact tip from the torch neck,
(15) Press and hold the inch button to feed the wire through to the torch neck, release the inch button when
the wire exits the torch neck.
(16) Fit on oversized contact tip (one size lager than wire used) and feed the wire through it, screw the contact tip into the tip holder of the torch head and nip it up tightly.
(17) Set the welding parameters using the wire feed and voltage control knobs on power source
OR
(18) Press and hold wire speed / voltage button and hold down for approx two seconds to active
torch control. Pressing the button allows voltage display U or wire speed S to be selected, control of the
parameters can then be regulated by the + or - buttons on the torch handle. Pressing and holding down
wirespeed/ voltage button for approx 2 seconds after adjustments have been made locks these settings
that have been selected. to unlock repeat steps listed above.
(11) Feed wire over the drive roller into
the outlet guide tube, Push the wire
through approx 150mm. Use a Knurled
Drive Roller of the correct size
(12) Close down the top roller bracket and clip
the pressure arm into place.
(14) Remove the gas nozzle and contact tip
from the front end of the mig torch.
(15) Press and hold the inch wire button to
feed the wire down the torch cable through
to the torch head.
(13) Apply a medium amount of
pressure to the drive roller
(16) Fit the correct size contact tip over
the wire and fasten tightly into the tip
holder.
Wire Speed / Voltage selection button.
NOTE: Press for 2 seconds to activate or disable
OR
Wire Speed / Voltage + & -buttons
(17) Set welding parameters using
the voltage and wire feed controls on
machine
Note: Pictures may vary from your model machine
(18) Set welding parameters using the
voltage and wire feed controls on torch
19
Mig Torch Liner Installation
(1)
(2) (3) (4) (5) (6) (7) (8) (9) 20
Lay the torch out straight on the ground and remove the front end parts
Remove the liner retaining nut.
Carefully pull the liner out of the torch cable assembly
Select the correct new liner they are colour codes for diferent wire sizes BLUE = 0.6 -0.8mm,
RED = 0.9-1.2 carefully unravel avoiding putting any kinks in the liner, if you kink the liner it will damage it and will require replacement.
Carefully and slowly feed the liner in short forward movements down the cable assembly all the way
through and out the torch neck end. Avoid kinking the liner, kinking liner will damage it and will
require replacement.
Fit the liner retaining nut and screw down only 1/2 way
Leaving the torch straight snip the liner approximately 3mm past the end of the torch neck
Place the tip holder over the end of the liner and screw into the torch neck nipping it up tight.
Screw down the liner nut the remaining 1/2 and nip it up tight. This method compresses the liner
inside the torch cable assembly preventing it moving during use and ensures good wire feed.
(1) Remove mig torch front end parts
(2) Remove the liner retaining nut
(3) Carefully pull out and completely
remove the liner
(4) Carefully unravel the new liner
(5) Carefully feed in the new liner down
the torch lead all the way to exit the torch
neck.
(6) Fit the liner retaining nut and screw
only 1/2 way down
(7) Snip the liner off 3mm past the end
of the torch neck.
(8) Replace the front end parts
(9) Fully screw down the liner retaining
nut and nip it up tight.
Torch & Wire Feed Set Up for Aluminium Wire
(1)
(2) (3) (4) (5) (5) (8) (9) Lay the torch out straight on the ground and remove the front end parts
Remove the liner retaining nut.
Carefully pull the liner out of the torch cable assembly
Select a Polymide or liner, fix torch neck sprint onto line carefully and slowly feed the liner in short forward movements down the cable assembly all the way through and out the torch neck end.
Avoid kinking the liner, kinking the liner will ruin it and require replacement.
Leave the liner extending out the end of the torch neck end by 3mm.
Fit the liner retaining nuttogether with the liner o-ring.
Push the liner firmly into the torch lead and tighten the liner retaining nut.
Install a U groove drive roller of the correct size to match the wire diameter being used.
(1) Remove mig torch front end parts
(2) Remove the liner retaining nut
(3) Carefully pull out and completely
remove the liner
(4) Carefully unravel the new liner
(5) Carefully feed in the new liner in short
forward movements down the torch lead
all the way to exit the torch neck. Be careful not to kink the liner
(6) Replace the front end parts
(7) Fit the liner collet, liner O-ring and
liner retaining nut.
(8) Push the liner firmly into the torch lead
and tighten the liner retaining nut
(9) Install a U groove drive roller of the
correct size for the diameter wire being
used.
Note: Pictures may vary from your model machine
21
Continued Torch & Wire Feed Set Up for Aluminium Wire
(10) Loosen off the inlet guide tube retaining screw
(11) Remove the inlet guide tube from the front end machine euro connector using long nose pliers.
(12) Carefully feed the extended Polymide liner section into the inlet guide tube hole of the machine euro
connector
(13) Feed the extended Polymide liner all the way up and over the drive roller
(14) Tighten the torch euro connection to the machine euro connector
(15) Cut the extended liner with a sharp Stanley knife just in front of the drive roller,
(16)Remove torch from machine, measure and cut support tube and fit over liner,
reconnect torch to machine
(17) Fit an Aluminium contact tip of the correct size to match the diameter of the wire being used
(18) Fit the remaining front end parts to the torch neck ready for welding
(10) Loosen the inlet guide tube retaining screw.
(11 Remove the inlet guide tube using long
nose pliers.
(12) Carefully feed the Polymide liner into
the inlet guide tube hole of the torch euro
receptacle
(13)Take the extended Polymide liner all the
way up and over the drive roller
(14 Tighten and secure the torch euro
connector to the machine euro receptacle
(15) Cut the extended liner with a sharp
Stanley knife just in front of the drive roller,
(17) Fit an Aluminium contact tip of the
correct size to match the wire diameter
being used
(18) Fit the remaining front end parts to the
torch neck ready for welding.
(16) remove torch from machine,
measure and cut support tube and fit over
liner, reconnect torch to machine
22
Note: Pictures may vary from your model machine
Installation set up of the Spool Gun with UNI-MIG-MIG210/250 DIGITAL MTS
(1) Connect the spool gun control cable and gun cable connector.
IMPORTANT : When connecting the torch be sure to tighten the connection.
(2) Connect the earth lead to
(3) Select the SPOOL GUN function with the Tig/MMA/MIG/SPOOL GUN selector switch.
(4) Set torch operation 2T / 4T.
• When 2T operation is selected press trigger Arc starts, release trigger Arc stops.
• When 2T operation is selected with downslope time of either 2 or 3 seconds press trigger Arc starts, release trigger, after 2 or 3 seconds depending on the downslope time selected Arc stops. Crater fill operation is automatic and preset.
• When 4T operation is selected press and release trigger Arc starts, press and release trigger Arc stops.
• When 4T operation is selected with downslope time of either 2 or 3 seconds press and release trigger Arc starts. Press and hold trigger, after 2 or 3 seconds depending on the downslope time selected
Arc crater fill downslopes to factory preset level, release trigger Arc stops.
NOTE: This feature is recommend for welding above 120Amps only.
(5) If required select downslope time for crater fill
(6) Select post gas flow time.
(7) Adjust inductance control, Hard or Soft Arc
(8) Connect Gas Line to Gas Regulator and connect the gas regulator to the Gas Cylinder.
(8) Connect the gas line to the regulator
and connect to the gas cylinder
(3) Set Tig/MMA/Mig/Spool Gun
selector
switch to Spool Gun
(5) If required select downslope time for
crater fill
(4) Set Torch operation 2T/4T
(6) Select Post gas flow time.
(7) Select Inductance control.
( 2) Connect earth lead to
(1) Connect Spool Gun control
cable and gun cable connector
IMPORTANT : When connecting the torch
be sure to tighten the connection.
WARNING:
Ensure that an approved welding helmet, protective clothing and gloves are use for all welding operations
(9) Connect weld power lead to GAS
WARNING:
(10) Push the cover release button to
unlock the wire feed /spool cover
(11) Place a spool of wire onto the Spool
holder. Note: the spool retaining nut is Left
Hand thread, turn it clockwise to undo it
Disconnect the Electrode Holder cable from the machine before using MIG function. If cable is not disconnected welding
voltage is present and can cause arcing or flash.
Note: Pictures may vary from your model machine
23
Continued set up of the Spool Gun with UNI-MIG-MIG210/250 DIGITAL MTS
(9) Connect weld power lead to GAS
(10) Take the Spool Gun and push the Cover Release Button to unlock the wire feed / spool cover.
(11) Place the Wire Spool onto the Spool Holder - Note: the spool retaining nut is Left Hand thread.
Hold and snip the wire from the spool being sure to hold the wire to prevent rapid uncoiling.
(12) Carefully feed the wire over the drive roller into the outlet guide tube, feed through into the torch neck. Check that the drive roller being used complies with the wire diameter, replace the roller if necessary.
(13) Align the wire into the groove of the drive roller and release the tension arm making sure the wire is
inthe groove of the drive roller.
(14) Apply a adepuate amount of pressure to the drive roller by winding in the tension adjusting knob,
(15) Adjust spool hoder tension
(16) Remove the gas nozzle and contact tip from the torch neck, Pull the trigger to drive the wire through
the neck until it exits the contact tip holder
(17) Fit the correct sized contact tip and feed the wire through it, screw the contact tip into the tip holder of
the torch neck and nip it up tightly.
(18) Fit the gas nozzle to the torch head and close the wire spool cover.
(19) Carefully open the gas cylinder valve and set the flow rate to between 12-15 l/min.
(20) Set the welding parameters using the wire feed and voltage control knobs.
(12) Carefully feed the wire through the inlet
guide tube onto the drive roller through into
the outlet guide tube. Squeezing the tension
arm adjustment knob to release the pressure
of the tension arm will allow the wire to be
guided through the drive roller easily
(15) Adjust spool hoder tension
(18) Fit the gas nozzle and close the wire feed
spool cover
24
Note: Pictures may vary from your model machine
(13) Check to make sure that the wire
passes cleanly through the drive roller into
the outlet guide tube.
(16) Remove the gas nozzle and contact tip.
Pull the trigger to drive the wire through the
neck until it exits the contact tip holder
(19) Carefully open the valve of the gas
cylinder, set the flow to 12-15 l/min
(14) Apply a medium amount of pressure
using the tension arm adjustment knob.
(17) Fit the contact tip over the wire and
screw it into the tip holder, nip it up tight.
(20) Set welding parameters using the
voltage and wire feed controls.
MIG (Metal Inert Gas) Welding
Definition of MIG Welding - MIG (metal inert gas) welding also known as GMAW (gas metal arc
welding) or MAG (metal active gas welding), is a semi-automatic or automatic arc welding process
in which a continuous and consumable wire electrode and a shielding gas are fed through a welding gun. A constant voltage, direct current power source is most commonly used with MIG welding.
There are four primary methods of metal transfer in MIG welding, called short circuit (also known as
dip transfer) globular transfer, spray transfer and pulsed-spray, each of which has distinct properties
and corresponding advantages and limitations. To perform MIG welding, the basic necessary equipment is a welding gun, a wire feed unit, a welding power supply, an electrode wire, and a shielding
gas supply. Short circuit transfer is the most common used method whereby the wire electrode is
fed continuously down the welding torch through to and exiting the contact tip. The wire touches the
work piece and causes a short circuit the wire heats up and begins to form a molten bead, the bead
separates from the end of the wire and forms a droplet that is transferred into the weld pool. This
process is repeated about 100 times per second, making the arc appear constant to the human eye.
MIG Circuit Diagram
5
6
4
1
2
3
1. Mig Torch - 2. Work Piece - 3. Power Source - 4. Wire Feeder - 5. Wire Spool - 6. Gas
25
MIG (Metal Inert Gas) Welding
Short Circuit Transfer - Short circuit transfer is the most common used method whereby the wire
electrode is fed continuously down the welding torch through to and exiting the contact tip. The
wire touches the work piece and causes a short circuit the wire heats up and begins to form a
molten bead, the bead separates from the end of the wire and forms a droplet that is transferred
into the weld pool. This process is repeated about 100 times per second, making the arc appear
constant to the human eye.
short circuit
The wire approaches the work
piece and touches the work creating a short circuit between the
wire and the base metal, because
there is no space between the wire
and the base metal there is no arc
and current flows through the wire.
droplet
separates
The pinch causes the forming
droplet to separate and fall towards the now creating weld pool.
26
wire heating
The wire cannot support all the
current flow, resistance builds
up and the wire becomes hot
and weak and begins to melt
arc flattens
the droplet
An arc is created at the separation
of the droplet and the heat and force
of the arc flattens out the droplet
into the weld pool. The heat of the
arc melts the end of the wire slightly
as it feeds towards the base metal
magnetic
field pinches
wire
The current flow creates a magnetic field that begins to pinch the
melting wire forming it into droplet
cycle
repeats
The wire feed speed overcomes
the heat of the arc and the wire
again approaches the work to
short circuit and repeat the cycle.
Basic MIG Welding .
Good weld quality and weld profile depends on gun angle, direction of travel, electrode extension
(stick out), travel speed, thickness of base metal, wire feed speed (amperage) and arc voltage.
To follow are some basic guides to assist with your setup.
Gun Position - Travel Direction, Work Angle
Gun position or technique usually refers to how the wire is directed at the base metal, the angle
and travel direction chosen. Travel speed and work angle will determine the characteristic of the
weld bead profile and degree of weld penetration.
Push Technique - The wire is located at the leading edge of the weld pool and pushed towards
the un-melted work surface. This technique offers a better view of the weld joint and direction of
the wire into the weld joint. Push technique directs the heat away from the weld puddle allowing
faster travel speeds providing a flatter weld profile with light penetration - useful for welding thin
materials. The welds are wider and flatter allowing for minimal clean up / grinding time.
Perpendicular Technique - The wire is fed directly into the weld, this technique is used primarly for automated situations or when conditions make it necessary. The weld profile is generally
higher and a deeper penetration is achieved.
Drag Technique - The gun and wire is dragged away from the weld bead. The arc and heat is
concentrated on the weld pool, the base metal receives more heat, deeper melting, more penetration and the weld profile is higher with more build up.
(A) Push Technique
(B) Gun Perpendicular
(C) Drag Technique
10°
10°
travel direction
travel direction
wire pointed ahead of bead
flat even weld profile
light penetration
travel direction
wire pointed back into bead
narrower weld profile
even penetration
narrow higher weld profile
more penetration
27
Travel Angle - Travel angle is the right to left angle relative to the direction of welding. A travel
angle of 5°- 15° is ideal and produces a good level of control over the weld pool. A travel angle
greater that 20° will give an unstable arc condition with poor weld metal transfer, less penetration,
high levels of spatter, poor gas shield and poor quality finished weld.
Not enough angle
Angle 5°- 15°
good level of control over the
weld pool, even flat weld
Angle more than 20°
less control over the weld pool
more spatter
poor control, unstable arc, less
penetration, lots of spatter
Angle to Work - The work angle is the forward back angle of the gun relative to the work piece.
The correct work angle provides good bead shape, prevents undercut, uneven penetration, poor
gas shield and poor quality finished weld.
Not enough angle
Correct angle
good level of control over the
weld pool, even flat weld
less control over the weld pool
more spatter
Too much angle
poor control, unstable arc, less
penetration, lots of spatter
Stick Out- Stick out is the length of the unmelted wire protruding from the end of the contact tip.
A constant even stick out of 5-10mm will produce a stable arc, and an even current flow providing
good penetration and even fusion. Too short stick out will cause an unstable weld pool, produce
spatter and over heat the contact tip. Too long stick out will cause an unstable arc, lack of penetration, lack of fusion and increase spatter.
Normal stick out
Too short
Too long
5-10mm
Even arc, good penetration
even fusion, good finish
28
Unstable arc, spatter, over
heat contact tip
Unstable arc, spatter, poor
penetration and fusion
Travel Speed - Travel speed is the rate that the gun is moved along the weld joint and is usually
measured in mm per minute. Travel speeds can vary depending on conditions and the welders
skill and is limited to the welders ability to control the weld pool. Push technique allows faster
travel speeds than Drag technique. Gas flow must also correspond with the travel speed, increasing with faster travel speed and decreasing with slower speed. Travel speed needs to match the
amperage and will decrease as the material thickness and amperage increase.
Too Fast Travel Speed - A too fast travel speed produces too little heat per mm of travel resulting
in less penetration and reduced weld fusion, the weld bead solidifies very quickly trapping gases
inside the weld metal causing porosity. Undercutting of the base metal can also occur and an unfilled groove in the base metal is created when the travel speed is too fast to allow molten metal to
flow into the weld crater created by the arc heat.
high narrow bead
Too Fast Travel Speed
porosity
undercut
spatter
lack of fusion
lack of joint penetration
Too Slow Travel Speed - A too slow travel speed produces a large weld with lack of penetration
and fusion. The energy from the arc dwells on top of the weld pool rather than penetrating the
base metal. This produces a wider weld bead with more deposited weld metal per mm than is
required resulting in a weld deposit of poor quality.
Too Slow Travel Speed
large wide bead
porosity
lack of fusion
cold lap
lack of joint penetration
Correct Travel Speed - The correct travel speed keeps the arc at the leading edge of the weld
pool allowing the base metal to melt sufficiently to create good penetration, fusion and wetting out
of the weld pool producing a weld deposit of good quality.
Correct Travel Speed
even shaped bead
good side wall fusion
good toe fusion
good penetration
29
Wire types and sizes - Use the correct wire type for the base metal being welded. Use stainless
steel wire for stainless steel, aluminium wires for aluminium and steel wires for steel.
Use a smaller diameter wire for thin base metals. For thicker materials use a larger wire diameter
and larger machine, check the recommended welding capability of you machine.
As a guide refer to the “Welding Wire Thickness Chart” below.
WELDING WIRE DIAMETER CHART
RECOMMENDED WIRE DIAMETERS
MATERIAL
THICKNESS
MIG SOLID WIRE
0.6mm
0.8mm
0.9mm
GASLESS FLUX CORED WIRE
1.0mm
0.8mm
0.9mm
1.2mm
24 Gauge (.60mm)
22 Gauge (.75mm)
20 Gauge (.90mm)
18 Gauge (1.0mm)
16 Gauge (1.2mm)
14 Gauge (1.9mm)
3.0mm
5.0mm
6.0mm
8.0mm
10.mm
12.0mm
For material thickness of 5.0mm and greater, multi-pass runs or a beveled joint
design may be required depending on the amperage capability of your machine.
Gas selection - The purpose of the gas in the MIG process is to protect / shield the wire, the arc
and the molten weld metal from the atmosphere. Most metals when heated to a molten state will
react with the air in the atmosphere, without the protection of the shielding gas the weld produced
would contain defects like porosity, lack of fusion and slag inclusions. Additionally some of the gas
becomes ionised (electrically charged) and helps the current flow smoothly.
The correct gas flow is also very important in protecting the welding zone from the atmosphere.
Too low flow will give inadequate coverage and result in weld defects and unstable arc conditions.
Too high flow can cause air to be drawn into the gas column and contaminate the weld zone.
Use the correct shielding gas. Co2 is good for steel and offers good penetration characteristics,
the weld profile is narrower and slightly more raised than the weld profile obtained from Argon Co2
mixed gas. Argon Co2 mix gas offers better weld ability for thin metals and has a wider range of
setting tolerance on the machine. Argon 80% Co2 20% is a good all round mix suitable for most
applications.
Argon Co2
Co2
Penetration Pattern for Steel
30
Installation and set up for DC TIG welding for UNI-MIG-MIG210/250 DIGITAL MTS
(1) Connect TIG torch to
power socket, trigger control socket and gas socket. IMPORTANT :
When connecting the torch be sure to tighten the connection.
(2) Connect earth lead to
(3) Select the TIG function with the Tig/MMA/MIG/SPOOL GUN selector switch.
(4) Set torch operation 2T / 4T.
• When 2T operation is selected press trigger Gas starts, touch and lift arc start,
release trigger Gas and Arc stops.
• When 2T operation is selected with downslope time of either 2 or 3 seconds press trigger Gas starts, touch and lift arc star, release trigger, after 2 or 3 seconds depending on the downslope time selected Gas and Arc stops. Crater fill operation is automatic to factory preset level.
• When 4T operation is selected press and release trigger Gas starts, touch and lift arc start,
press and release trigger Gas and Arc stops.
• When 4T operation is selected with downslope time of either 2 or 3 seconds press and release
trigger Gas starts, touch and lift arc start Press and hold trigger, after 2 or 3 seconds depending on
the downslope time selected Arc crater fill downslopes, crater fill operation is automatic to factory
preset level., release trigger Gas and Arc stops
NOTE: This feature is recommend for welding above 10Amps only.
(5) If required select downslope time for crater fill.
(6) Select post gas flow time.
(7) Connect the gas line of the Tig torch to regulator and connect the regulator to the gas cylinder.
(3) Set Tig/MMA/Mig/Spool Gun
selector switch to Tig
(4) Set Torch operation 2T/4T
(7) Connect the gas line to the regulator
and connect to the gas cylinder
(5) If required select downslope time for
crater fill
(6) Select Post gas flow time.
( 2) Connect earth lead to
(1) Connect TIG torch to
power socket, trigger control socket
and gas socket.
IMPORTANT : When connecting the torch
be sure to tighten the connection.
WARNING:
Ensure that an approved welding helmet, protective clothing and gloves are use for all welding operations
WARNING:
31
Disconnect the Electrode Holder cable from the machine before using MIG function. If cable is not disconnected welding
voltage is present and can cause arcing or flash.
LIFT ARC DC TIG Operation for UNI-MIG-MIG210/250 DIGITAL MTS
Lift Arc ignition allows the arc to be started easily in DC Tig by simply touching the tungsten to the
work piece and lifting it up to start the arc. This prevents the tungsten tip sticking to the work piece and
breaking the tip from the tungsten electrode. There is a particular technique called “rocking the cup” used in
the Lift Arc process that provides easy use of the Lift Arc function.
(8) Carefully open the valve of the gas cylinder, set the flow to 6-10 l/min
(9) Set the welding current using the amperage control dial
(10) Make sure the front end parts of the tig torch are correctly assembled, use the correct size and type of
tungsten electrode for the job, the tungsten electrode requires a sharpened point for DC welding.
(11) Lay the outside edge of the Gas Cup on the work piece with the Tungsten Electrode 1- 2mm from the
work piece.
(12) With a small movement rotate the Gas Cup forward so that the Tungsten Electrode touches the work
piece.
(13) Now rotate the Gas Cup in the reverse direction to lift the Tungsten electrode from the work piece to
create the arc.
(8) Carefully open the valve of the gas
cylinder, set the flow to 6-10 l/min
(10) Assemble front end parts of the TIG torch,
fitting a sharpened tungsten suitable for DC
welding.
WARNING:
(12) With a small movement rotate the Gas Cup
forward so that the Tungsten Electrode touches
the work piece.
(9) Set the welding current using
the amperage control dial
(11) Lay the outside edge of the Gas Cup on
the work piece with the Tungsten Electrode 12mm from the work piece.
(13) Now rotate the Gas Cup in the reverse
direction to lift the Tungsten electrode from the
work piece to create the arc.
Disconnect the Electrode Holder cable from the machine before using MIG function. If cable is not disconnected welding
voltage is present and can cause arcing or flash.
32
DC TIG Welding
The DC power source uses what is known as DC (direct current) in which the main electrical component known as electrons flow in only one direction from the negative pole
(terminal) to the positive pole (terminal). In the DC electrical circuit there is an electrical
principle at work which should always be taken into account when using any DC circuit.
With a DC circuit 70% of the energy (heat) is always on the positive side. This needs to
be understood because it determines what terminal the TIG torch will be connected to
(this rule applies to all the other forms of DC welding as well ).
30%
70%
argon gas
power source
nozzle
DC TIG welding is a process in which an arc is struck between a
TUNGSTEN electrode and the metal work piece. The weld area is
shielded by an inert gas flow to prevent contamination of the tungsten, molten pool and weld area.
When the TIG arc is struck the inert gas is ionized and superheated changing it’s molecular structure which converts it into a plasma
stream. This plasma stream flowing between the tungsten and the
work piece is the TIG arc and can be as hot as 19,000°C. It is a very
pure and concentrated arc which provides the controlled melting of
most metals into a weld pool. TIG welding offers the user the greatest
amount of flexibility to weld the widest range of material and thickness
and types. DC TIG welding is also the cleanest weld with no sparks
or spatter.
The intensity of the arc is proportional to the current that flows from the
tungsten. The welder regulates the welding current to adjust the power
of the arc. Typically thin material requires a less powerful arc with less
heat to melt the material so less current (amps) is required, thicker
material requires a more powerful arc with more heat so more current high
current
(amps) are necessary to melt the material.
low
current
LIFT ARC IGNITION for TIG (tungsten inert gas) Welding
Lift Arc is a form of arc ignition where the machines has low voltage on the electrode to only a few volts, with
a current limit of one or two amps (well below the limit that causes metal to transfer and contamination of the
weld or electrode). When the machine detects that the tungsten has left the surface and a spark is present,
it immediately (within microseconds) increases power, converting the spark to a full arc. It is a simple, safe
lower cost alternative arc ignition process to HF (high frequency) and a superior arc start process to scratch
start.
gas flow
tungsten off the
work
Lay the nozzle on the job
without the tungsten touching the work
tungsten touches
the work
Rock the torch sideways so
that the tungsten touches
the work & hold momentarily
arc ignition
Rock the torch back in the
opposite direction, the arc
will ignite as the tungsten
lifts off the work
established
TIG arc
Lift the torch to maintain
the arc
33
TIG Welding Fusion Technique
Manual TIG welding is often considered the most difficult of all the welding processes.
Because the welder must maintain a short arc length, great care and skill are required
to prevent contact between the electrode and the workpiece. Similar to Oxygen Acetylene torch welding, Tig welding normally requires two hands and in most instances
requires the welder to manually feed a filler wire into the weld pool with one hand
while manipulating the welding torch in the other. However, some welds combining thin
materials can be accomplished without filler metal like edge, corner, and butt joints.
This is known as Fusion welding where the edges of the metal pieces are melted together using only the
heat and arc force generated by the TIG arc. Once the arc is started the torch tungsten is held in place until
a weld pool is created, a circular movement of the tungsten will assist is creating a weld pool of the desired
size. Once the weld pool is established tilt the torch at about a 75° angle and move smoothly and evenly
along the joint while fusing the materials together.
75°
Travel direction
Form a weld pool
Angle torch
Move the torch slowly
and evenly forward
TIG Welding with Filler Wire Technique
It is necessary in many situations with TIG welding to add a filler wire into the weld
pool to build up weld reinforcement and create a strong weld. Once the arc is started
the torch tungsten is held in place until a weld pool is created, a circular movement of
the tungsten will assist is creating a weld pool of the desired size. Once the weld pool
is established tilt the torch at about a 75° angle and move smoothly and evenly
along the joint. The filler metal is introduced to the leading edge of the weld
pool. The filler wire is usually held at about a 15° angle and fed into the leading edge of the molten pool, the arc will melt the filler wire into the weld pool as the torch is moved
forward. Also a dabbing technique can be used to control the amount of filler wire added, the wire
is fed into the molten pool and retracted in a repeating sequence as the torch is moved slowly and
evenly forward. It is important during the welding to keep the molten end of the filler wire inside the
gas shield as this protects the end of the wire from being oxidised and contaminating the weld pool.
75°
Travel direction
Form a weld pool
15°
Angle torch
Add Tig filler wire
gas
shield
Retract the filler wire
34
Move the torch forward to
the front of the weld pool
Repeat the process
Tungsten Electrodes
Tungsten is a rare metallic element used for manufacturing TIG welding electrodes. The TIG process relies on tungsten’s hardness and high-temperature resistance to carry the welding current to the arc. Tungsten has the highest
melting point of any metal, 3,410 degrees Celsius.
Tungsten electrodes are nonconsumable and come in a variety of sizes, they are made from pure tungsten or an alloy of tungsten and other rare earth elements. Choosing the correct tungsten depends on the material being welded,
the amount of amps required and whether you are using AC or DC welding current.
Tungsten electrodes are colour-coded at the end for easy identification.
Below are the most commonly used tungsten electrodes found in the New Zealand and Australian market.
Thoriated
Thoriated tungsten electrodes (AWS classification EWTh-2) contain a minimum of 97.30 percent tungsten and 1.70
to 2.20 percent thorium and are called 2 percent thoriated. They are the most commonly used electrodes today and
are preferred for their longevity and ease of use. Thorium increases the electron emission qualities of the electrode,
which improves arc starts and allows for a higher current-carrying capacity. This electrode operates far below its melting temperature, which results in a considerably lower rate of consumption and eliminates arc wandering for greater
stability. Compared with other electrodes, thoriated electrodes deposit less tungsten into the weld puddle, so they
cause less weld contamination.
Thorium however is a low-level radioactive hazard and many users have switched to other alternatives. Regarding the radioactivity, thorium is an alpha emitter but when it is enclosed in a tungsten matrix the risks are negligible.
Thus holding a stick of Thoriated tungsten in your hand should not pose a great threat unless a welder has open cuts
on their skin. Thoriated tungsten should not get in contact with open cuts or wounds. The more significant danger
to welders can occur when thorium oxide gets into the lungs. This can happen from the exposure to vapours during
welding or from ingestion of material/dust in the grinding of the tungsten. Follow the manufacturer’s warnings, instructions, and the Material Safety Data Sheet (MSDS) for its use.
Ceriated (Color Code: Orange)
Ceriated tungsten electrodes (AWS classification EWCe-2) contain a minimum of 97.30 percent tungsten and 1.80 to
2.20 percent cerium and are referred to as 2 percent ceriated. Ceriated tungstens perform best in DC welding at low
current settings. They have excellent arc starts at low amperages and become popular in such applications as orbital
tube welding, thin sheet metal work. They are best used to weld carbon steel, stainless steel, nickel alloys, and
titanium, and in some cases it can replace 2 percent thoriated electrodes. Ceriated tungsten is best suited for lower
amperages it should last longer than Thoriated tungsten higher amperage applications are best left to Thoriated or
Lanthanated tungsten.
Lanthanated (Color Code: Gold)
Lanthanated tungsten electrodes (AWS classification EWLa-1.5) contain a minimum of 97.80 percent tungsten and
1.30 percent to 1.70 percent lanthanum, and are known as 1.5 percent lanthanated. These electrodes have excellent
arc starting, a low burn off rate, good arc stability, and excellent re-ignition characteristics. Lanthanated tungstens
also share the conductivity characteristics of 2 percent thoriated tungsten. Lanthanated tungsten electrodes are ideal
if you want to optimise your welding capabilities. They work well on AC or DC electrode negative with a pointed end,
or they can be balled for use with AC sine wave power sources. Lanthanated tungsten maintains a sharpened point
well, which is an advantage for welding steel and stainless steel on DC or AC from square wave power sources.
Zirconiated (Color Code: White)
Zirconiated tungsten electrodes (AWS classification EWZr-1) contain a minimum of 99.10 percent tungsten and 0.15
to 0.40 percent zirconium. Most commonly used for AC welding Zirconiated tungsten produces a very stable arc and
is resistant to tungsten spitting. It is ideal for AC welding because it retains a balled tip and has a high resistance to
contamination. Its current-carrying capacity is equal to or greater than that of thoriated tungsten. Zirconiated tungsten
is not recommended for DC welding.
Tungsten Electrodes Rating for Welding Currents
Tungsten
Diameter
mm
DC Current Amps
Torch Negative
2% Thoriated
AC Current Amps
Un-Balanced Wave
0.8% Zirconiated
AC Current Amps
Balanced Wave
0.8% Zirconiated
1.0mm
1.6mm
2.4mm
3.2mm
4.0mm
15 - 80
70 -150
150- 250
250 - 400
400 - 500
15 - 80
70 - 150
140 - 235
225 - 325
300 - 400
20 - 60
60 - 120
100 - 180
160 - 250
200 - 320
35
Tungsten Preparation
Always use DIAMOND wheels when grinding and cutting. While tungsten is a very hard material, the surface of a
diamond wheel is harder, and this makes for smooth grinding. Grinding without diamond wheels, such as aluminium
oxide wheels, can lead to jagged edges, imperfections, or poor surface finishes not visible to the eye that will contribute to weld inconsistency and weld defects.
Always ensure to grind the tungsten in a longitudinal direction on the grinding wheel. Tungsten electrodes are manufactured with the molecular structure of the grain running lengthwise and thus grinding crosswise is “grinding against
the grain.” If electrodes are ground crosswise, the electrons have to jump across the grinding marks and the arc can
start before the tip and wander. Grinding longitudinally with the grain, the electrons flow steadily and easily to the end
of the tungsten tip. The arc starts straight and remains narrow, concentrated, and stable.
grind longitudinal on the
grinding wheel
don’t grind across
the grinding wheel
Electrode Tip/Flat
The shape of the tungsten electrode tip is an important process variable in precision arc welding. A good selection
of tip/flat size will balance the need for several advantages. The bigger the flat, the more likely arc wander will occur
and the more difficult it will be to arc start. However, increasing the flat to the maximum level that still allows arc start
and eliminates arc wonder will improve the weld penetration and increase the electrode life. Some welders still grind
electrodes to a sharp point, which makes arc starting easier. However, they risk decreased welding performance from
melting at the tip and the possibility of the point falling off into the weld pool.
2.5 times tungsten diameter
pointed tip
flat tip
Electrode Included Angle/Taper - DC Welding
Tungsten electrodes for DC welding should be ground longitudinally and concentrically with diamond wheels to a
specific included angle in conjunction with the tip/flat preparation. Different angles produce different arc shapes and
offer different weld penetration capabilities. In general, blunter electrodes that have a larger included angle provide
the following benefits:
• Last Longer
flat spot diameter
• Have better weld penetration
• Have a narrower arc shape
• Can handle more amperage without eroding.
included angle
Sharper electrodes with smaller included angle provide:
• Offer less arc weld
• Have a wider arc
• Have a more consistent arc
The included angle determines weld bead shape and size. Generally, as the included angle increases, penetration
increases and bead width decreases.
36
Tungsten
Diameter
Diameter at
the Tip - mm
Constant Included
Angle - Degrees
Current Range
Amps
Current Range
Pulsed Amps
1.0mm
1.6mm
1.6mm
2.4mm
2.4mm
3.2mm
3.2mm
.250
.500
.800
.800
1.100
1.100
1.500
20
25
30
35
45
60
90
05 - 30
08 - 50
10 - 70
12 - 90
15 - 150
20 - 200
25 - 250
05 - 60
05 - 100
10 - 140
12 - 180
15 - 250
20 - 300
25 - 350
Suregrip Series
DM24 DIGITAL MIG TORCH
DM240A AIR COOLED MIG WELDING TORCH
Rating:250A CO² 220A mixed gas EN60974-7 @ 60% duty cycle. 0.8 to 1.2mm wires
*
Wear parts page next page
*
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Torch Model
Description
Part Number
3 Mt
DM24 Digital Suregrip Ergo Torch Package DM2400-JDM2-MT1-30ER
Spare Parts
1
2
3
4
5
6
7
8
9
10
Part Number
SNK24
UG1515 UB1505 UG8015 UB1521 UB1521-C UB2603-30 UB2603-40
UB2603-50
DM2514/KJ DM2516 DM2516L 4 Mt
5 Mt
DM2400-JDM2-MT1-40ER DM2400-JDM2-MT1-50ER
Description
Swan Neck Assembly 11
Ergo Handle Location Body 12
Lock Nut 13
Handle Cable Support C/W Ball Joint 14
Cable Terminal 15
Cable Terminal Cover 16
Hyperflex Cable Assembly x 3mt
17
Hyperflex Cable Assembly x 4mt
18
Hyperflex Cable Assembly x 5mt
19
Digi-Mig Handle Kit 20
Standard Trigger Assembly
21
Extended Trigger Assembly Part Number
UB2517 UB1522 UPA2041 UB1518 UB1541 UB1519/S UB1523 UC1528 UB1524 UB1525 DM2 Description
Hanger Hook Cable Terminal Male Cable Support Gun Plug Housing C/W Nut Gun Plug Screw Gun Plug Nut Gun Plug Terminal Female Hybrid Gun Plug Body C/W Spring Pins Gun Plug ‘O’ Ring Liner Nut
Digi-Mig Control Kit
37
Suregrip Series
DM24 DIGITAL MIG TORCH
Front end consumables
DM24 Contact Tips
Ø 8.0
M6 x 1.0
M6 x 1.0
M6 x 1.0
28.0
Part Number PCT0009-06 PCT0009-08
PCT0009-09
PCT0009-10
PCT0009-12
PCT0009-16
PCTZR009-09
PCTZR009-12
PCTAL0009-09
PCTAL0009-10
PCTAL0009-12
Description
Contact Tip Steel (0.6mm)
Contact Tip Steel (0.8mm)
Contact Tip Steel (0.9mm)
Contact Tip Steel (1.0mm)
Contact Tip Steel (1.2mm)
Contact Tip Steel (1.6mm)
Contact Tip Steel Long Life (0.9mm)
Contact Tip Steel Long Life (1.2mm)
Contact Tip Aluminium (0.9mm)
Contact Tip Aluminium (1.0mm)
Contact Tip Aluminium (1.2mm)
DM24 Tip Holder
Part Number PCTH24
Description
Contact Tip Holder
26.0
Ø 13.1
Ø 14.5
DM24 Gas Diffuser
Part Number PCGD24
PCGDR24
Ø 17.2
Bore
Ø 20.0
25.0
63.5
Liners
These parts are manufactured in China and are offered as
replacement parts suitable for “BINZEL®” style torches.
38
Description
Gas Diffuser (Ceramic)
Gas Diffuser (Rubber)
DM24 Gas Nozzle
Part Number PGN24CYL
PGN24CON
PGN24TAP
PGN24SPOT
Description
Cylindrical Nozzle
Conical Nozzle
Tapered Nozzle
Spot Nozzle
DM24 Liners
Part Number SLR3M
SLR4M
SLR5M
SLY3M
SLY4M
SLY5M
NKSTL
Description
Red Steel Liner 3 Metre
Red Steel Liner 4 Metre
Red Steel Liner 5 Metre
Yellow Steel Liner 3 Metre
Yellow Steel Liner 4 Metre
Yellow Steel Liner 5 Metre
Neck Spring for Aluminium
Suregrip Series
DM26 DIGITAL MIG TORCH
DM260A AIR COOLED MIG WELDING TORCH
Rating: 270A CO2 240A mixed gas, EN60974-7 @ 60% duty cycle. 0.8 to 1.2mm wires
*
Wear parts page next page
*
Wear parts page next page
Torch Model
Description
Part Number
DM26 Digital Suregrip Ergo Torch MIG
3 Mt
4 Mt
5 Mt
DM2600-JDM2-MT1-30ER DM2600-JDM2-MT1-40ER DM2600-JDM2-MT1-50ER
DM26 Digital Suregrip Ergo Torch PULSE DM2600-NMM2-MT2-30ER DM2600-NMM2-MT2-40ER DM2600-NMM2-MT2-50ER
Spare Parts
1
2
3
4
5
6
7
8
9
10
Part Number
UB2502 UG2501 UG1515 UB1505 UG8015 UB1521 UB1521-C UB2503-30
UB2503-40
UB2503-50 DM2514/KJ DM2516 Description
Shroud Spring Swan Neck Assembly Ergo Handle Location Body Lock Nut Handle Cable Support C/W Ball Joint Cable Terminal Cable Terminal Cover Hyperflex Cable Assembly x 3mt
Hyperflex Cable Assembly x 4mt
Hyperflex Cable Assembly x 5mt
Digi-Mig Handle Kit
Standard Trigger Assembly 11
12
13
14
15
16
17
18
19
20
21
22
23
Part Number
DM2516L UB2517 UB1522 UPA2041 UB1518 UB1541 UB1519/S UB1523 UC1528 UB1524 UB1525 DM2 MM2
Description
Extended Trigger Assembly Hanger Hook Cable Terminal Male Cable Support Gun Plug Housing C/W Nut Gun Plug Screw Gun Plug Nut Gun Plug Terminal Female Hybrid Gun Plug Body C/W Spring Pins Gun Plug ‘O’ Ring Liner Nut
Digi-Mig Control Kit
Logic Control Kit for Pulse Machine
39
Suregrip Series
DM26 DIGITAL MIG TORCH
Ø 8.0
M6 x 1.0
DM26 Contact Tips M6
M8 x 1.25
28.0
Ø 10.0
Front end consumables
Part Number PCT0009-06 PCT0009-08
PCT0009-09
PCT0009-10
PCT0009-12
PCT0009-16
PCTZR009-09
PCTZR009-12
PCTAL0009-09
PCTAL0009-10
PCTAL0009-12
Description
Contact Tip Steel (0.6mm)
Contact Tip Steel (0.8mm)
Contact Tip Steel (0.9mm)
Contact Tip Steel (1.0mm)
Contact Tip Steel (1.2mm)
Contact Tip Steel (1.6mm)
Contact Tip Steel Long Life (0.9mm)
Contact Tip Steel Long Life (1.2mm)
Contact Tip Aluminium (0.9mm)
Contact Tip Aluminium (1.0mm)
Contact Tip Aluminium (1.2mm)
M6 x 1.0
M8 x 1.25
30.0
DM26 Tip Holder M8
Part Number PCTH26M6S
Description
Contact Tip Holder M6 (Short)
19.5
Ø 12
Ø 14.5
DM26 Gas Diffuser
Part Number PCGD26
Description
Gas Diffuser
27.5
Ø 18.0
Bore
Ø 21.0
DM26 Gas Nozzle
74.0
Liners
These parts are manufactured in China and are offered as
replacement parts suitable for “BINZEL®” style torches.
40
Part Number PGN38CON PGN38CYL PGN38TAP Description
Gas Nozzle Conical
Gas Nozzle Cylindrical
Gas Nozzle Tappered
DM26 Liners
Part Number SLR3M
SLR4M
SLR5M
SLY3M
SLY4M
SLY5M
NKSTL
Description
Red Steel Liner 3 Metre
Red Steel Liner 4 Metre
Red Steel Liner 5 Metre
Yellow Steel Liner 3 Metre
Yellow Steel Liner 4 Metre
Yellow Steel Liner 5 Metre
Neck Spring for Aluminium
L135YE SPOOL GUN
SPG135 AMP SPOOL GUN
Duty Cycle 30% @ 135Amp
Torch Model
Description
Part Number
XcelArc Spool Gun SPG135 x 6m
SPG135
Spare Parts
Part Number
1LGJ2003
2LMH2001
3
LMT2001
4
LMT2016 5
LMT2015
6
LMT2014
7
LMT2013
8
LMT2012
9
LMT2011
10
LGH2011 11
LGX2016U
12
LGX2015 13
LGX2014
14
LGX2012
15
LGX2011
16LGF2111
17
LX1040
18
LMX2011
Description
Trigger
Handle
Spool Cover Total Assembly
Spool Cover Shell
Spool Shaft
Rubber Resistance Bush
Locating Bush
Adjusting Nut
Locking Screw
Drive Roll Cover
Pressure Roll U Groove 0.8-0.9mm
Bearing
Pressure Arm with Shaft
Pressure Arm Spring
Pressure Arm Bolt
Nut
Gear Box Assembly
Inlet Guide
19LGX2018
20
LGX2019U
21LZ3603
22
LYFE1001
23
SEE PAGE 41
24
SEE PAGE 41
25
SEE PAGE 41
26
LYFE1011
27
LW0101
28
LGK2011
29
LYH1012
30
LYH1013 31
LYL1640
32
ES2001
33
EH2201
34
EP3001
35
LTU2202
36
LMV0004
Part Number
Description
Key
DriveRoll U Groove 0.8-0.9mm
Motor
Gun Neck
Gas Nozzle
Contact Tip
Diffuser Tip Holder with Spring
Gun Neck Body
Gas Hose
Conducting Board
Cable Support
Handle Nut
Cable Assembly 4m
Cable Support Spring
Cable Support Cover
Euro Connector Nut
Euro Connector Plug
4 Pin Plug
41
SPG135 AMP SPOOL GUN
Duty Cycle 30% @ 135Amp
Front end consumables
Ø 6.0
M6 x 1.0
M6 x 1.0
M8 x 1.0-L
25.0
Ø 12.5
Bore
Ø 18.0
53.0
Part Number PCT0008-06
PCT0008-08
PCT0008-09
PCT0008-10
PCTAL0008-09
PCTAL0008-10
Description
Contact Tip Steel (0.6mm) Contact Tip Steel (0.8mm)
Contact Tip Steel (0.9mm)
Contact Tip Steel (1.0mm)
Contact Tip Aluminium (0.9mm)
Contact Tip Aluminium (1.0mm)
SB15 Tip Holder
42.0
42
SB15 Contact Tips
Part Number PCTH15
PCTH195
Description
Contact Tip Holder (Suit SB15)
Contact Tip Holder Suit Procraft 195 / BP15 Torch
SB15 Gas Nozzle
Part Number PGN15CYL
PGN15CON
PGN15TAP
Description
Cylindrical Nozzle
Conical Nozzle
Tapered Nozzle
SPG200II AMP SPOOL GUN
Duty Cycle 35% @ 200Amp
Torch Model
Description
XcelArc Spool Gun x 6m
Spare Parts
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Part Number
LMZ2017
LMH2114
LMH2111
LMH2115
LMS2101
LMZ2001
LMZ2011
LMZ2012
LMZ2013
LMZ2016
LMT2101
LMH2112
LMH2113 LMJ2101
Part Number
SPG200II Description
Speed Adjusting Knob
Open/Close Button
Left-Gun Case
Hang Hook
Spring Support
Motor
Motor Plate
Suspension Screw
Drive Roll Assembly
Wire Nipple
Spool Shaft
Right-Gun Case
Upper-Gun Case
Switch
15
16
17
18
19
20
21
22
23
24
25
26
27
Part Number
LMZ2014
LMZ2015
LMK2001
EF1101
SEE PAGE 38
SEE PAGE 38
SEE PAGE 38
LML2140
ES1201
EH2201
LMV2007
EP2001
LMV0004
Description
Potentiometer
Push Roll
Conducting Board
Conducting Tube
Tip Holder
Contact Tip
Gas Nozzle
Welding Cable
Spring Support (Back)
Adaptor Support
Adaptor Support Nut
Adaptor
4 Pin Plug
43
SPG200II AMP SPOOL GUN
Front end consumables
SB24 Contact Tips
Ø 8.0
M6 x 1.0
M6 x 1.0
M6 x 1.0
28.0
Part Number PCT0009-06 PCT0009-08
PCT0009-09
PCT0009-10
PCT0009-12
PCT0009-16
PCTZR009-09
PCTZR009-12
PCTAL0009-09
PCTAL0009-10
PCTAL0009-12
Description
Contact Tip Steel (0.6mm)
Contact Tip Steel (0.8mm)
Contact Tip Steel (0.9mm)
Contact Tip Steel (1.0mm)
Contact Tip Steel (1.2mm)
Contact Tip Steel (1.6mm)
Contact Tip Steel Long Life (0.9mm)
Contact Tip Steel Long Life (1.2mm)
Contact Tip Aluminium (0.9mm)
Contact Tip Aluminium (1.0mm)
Contact Tip Aluminium (1.2mm)
SB24 Tip Holder
Part Number PCTH24
Description
Contact Tip Holder
26.0
Ø 13.1
Ø 14.5
SB24 Gas Diffuser
Part Number PCGD24
PCGDR24
44
63.5
Ø 17.2
Bore
Ø 20.0
25.0
Description
Gas Diffuser (Ceramic)
Gas Diffuser (Rubber)
SB24 Gas Nozzle
Part Number PGN24CYL
PGN24CON
PGN24TAP
Description
Cylindrical Nozzle
Conical Nozzle
Tapered Nozzle
©All rights reserved. No part of this publication may be reproduced, stored in a retrieval system or transmitted by any means,
electronic, mechanical, photocopying or otherwise without the prior permission of ©Uniarc® the copyright holder.
Suregrip Series
SR17 ERGO TIG TORCH
150A AIR COOLED TIG WELDING TORCH
5
Rating: 150A DC, 105A AC @35% ducy cycle.
3
4
8
2
6
7
b
Stu
es
seri
ens
s
ns s
erie
as le
as l
by g
eg
Larg
ns s
s
es
erie
13
seri
erie
dard
by s
s
11
Stan
Stub
10
le
Gas
9
12
*
19
Wear Parts Identification Next Page
14
15
16
7
17
18
Torch Model
Description
SR17 Suregrip Tig Torch Package QF Gas Connect
Part Number
4m
8m
SR-17-4MCP25
SR-17-4MCP50
SR-17-8MCP25
SR-17-8MCP50
Spare Parts
Part Number
Description
Part Number
Description
1
2
3
4
5
6
7
8
9
10
11
WP17
WP17F
57Y02
57Y03
57Y04
UER1MS
UERSWL4
UERSWL8
UERSP1
UERH100 UERKJ100
UERLC200-08
UERJK100 Torch head
Torch head flexible
Back cap long
Medium back cap
Short back cap
Momentary Kit
Trigger Lead 12.5ft
Trigger Lead 25ft
Screw Pack
Small Ergo Tig Handle Small Knuckle Joint
Leather Cover X 0.8mt
Jointing Repair Kit
12
13
14
15
16
17
18
19
UERNCL-32
UERNCL-72
UERCO100-40
UERCO100-80
USLH917-S USLH917-H
USL57Y01AR
USL57Y03AR
USL3550 USL-1-GS4
10004667
Neoprene Cover X 3.2mt
Neoprene Cover X 7.2mt
Sheath X 12.5ft Inc Leather Cover
Sheath X 25ft Inc Leather Cover Cable Support Small
“Surelok “ Housing Small
“Power Cable X 12.5ft “Surelok “ Rubber
Power Cable X 25ft “Surelok “ Rubber “Surelok “ Body & Support
Gas Supply Hose
7 Pin Plug
©All rights reserved. No part of this publication may be reproduced, stored in a retrieval system or transmitted by any means,
electronic, mechanical, photocopying or otherwise without the prior permission of ©Uniarc® the copyright holder.
45
Suregrip Series
SR17 ERGO TIG TORCH
Standard Front End Parts
Part #
18CG
Part #
10N49L
53N48L
53N47L
Description
Cup Gasket
Part #
10N30
10N31
10N32
10N28
Part #
10N22
10N23
10N24
10N25
Description
Collet Body 1.0mm
Collet Body 1.6mm
Collet Body 2.4mm
Collet Body 3.2mm
Description
Collet 1.0mm
Collet 1.6mm
Collet 2.4mm
Collet 3.2mm
Part #
10N50
10N49
10N48
10N47
10N46
10N45
10N44
Description
Long Alumina Nozzle Ø8mm #5L
Long Alumina Nozzle Ø 10mm #6L
Long Alumina Nozzle Ø 11mm #7L
Description
Alumina Nozzle Ø 6mm #4
Alumina Nozzle Ø 8mm #5
Alumina Nozzle Ø 10mm #6
Alumina Nozzle Ø 11mm #7
Alumina Nozzle Ø 13mm #8
Alumina Nozzle Ø 16mm #10
Alumina Nozzle Ø 19mm #12
Compact Gas Lens Front End Parts
Part #
54N01
Description
Gas Lens Gasket
Part #
45V25
45V26
45V27
Description
Gas Lens Body 1.6mm
Gas Lens Body 2.4mm
Gas Lens Body 3.2mm
Part #
54N14
54N15
54N17
Description
Gas lens ceramic 8.0mm
Gas lens ceramic 7.0mm
Gas lens ceramic 5.0mm
TR0004-16
RED
ANSI/AWS A5.12-98
ISO 6848 WT20
2% Thoriated: Best stability
at medium currents, good arc
starts, medium tendency to
spit, medium erosion rate.
Commonly used for steel and
stainless steel applications
Part #
TR0004-10
TR0004-16
TR0004-24
TR0004-32
Description
1.0mm x 175mm
1.6mm x 175mm
2.4mm x 175mm
3.2mm x 175mm
thoriated
thoriated
thoriated
thoriated
tungsten
tungsten
tungsten
tungsten
electrode
electrode
electrode
electrode
2%
2%
2%
2%
1/16 x 7” (1.6mm x 175mm)
3/32 x 7” (2.4mm x 175mm)
1/8 x 7” (3.2mm x 175mm)
TR0006-16
WHITE
ANSI/AWS A5.12 M-98
ISO 6848 WZ8
.8% Zirconiated: Balls well, handles
higher current with less spitting, better arc starts and arc stability than
pure tungsten
Commonly used for
aluminium applications
Part #
TR0006-10
TR0006-16
TR0006-24
TR0006-32
Description
1.0mm x 175mm
1.6mm x 175mm
2.4mm x 175mm
3.2mm x 175mm
zirconiated
zirconiated
zirconiated
zirconiated
tungsten
tungsten
tungsten
tungsten
electrode
electrode
electrode
electrode
1%
1%
1%
1%
1/16 x 7” (1.6mm x 175mm)
3/32 x 7” (2.4mm x 175mm)
1/8 x 7” (3.2mm x 175mm)
46
©All rights reserved. No part of this publication may be reproduced, stored in a retrieval system or transmitted by any means,
electronic, mechanical, photocopying or otherwise without the prior permission of ©Uniarc® the copyright holder.
Suregrip Series
SR26 ERGO TIG TORCH
5
8
3
2
180A AIR COOLED TIG WELDING TORCH
Rating:180Amp DC, 125Amp AC @35% duty cycle.
4
6
7
s
serie
ens
as L
s
s
erie
ns s
e
as L
serie
s
serie
dard
ries
s se
Len
by G
eG
Larg
Gas
Stan
by
Stub
b
Stu
9
10
11
13
12
20
*
Wear Parts Identification Next Page
16
17
14
15
7
18
19
Torch Model
Description
Part Number
4m
8m
SR26 Suregrip Tig Torch Package c/w QF Gas Connect
SR-26-4MCP50
SR-26-8MCP50
Spare Parts
Part Number
Description
Part Number
Description
1
2
3
4
5
6
7
8
9
10
11
WP26
WP26F
57Y02
57Y03
57Y04
UER1MS
UERSWL4
UERSWL8
UERSP1
UERH200
UERKJ200
UERLC200-08
UERJK200
Torch head
Torch head flexible
Back cap long
Medium back cap
Short back cap
Momentary Kit
Trigger Lead 12.5ft
Trigger Lead 25ft
Screw Pack
Large Ergo Tig Handle
Large Knuckle Joint
Leather Cover X 0.8mt
Jointing Repair Kit
12
13
14
15
16
17
18
19
20
UERNCL-32
UERNCL-72
UERCO200-40
UERCO200-80
USLH26-S USLH26-H
USLH26-C
USL46V28AR
USL46V30AR
USL3550
USL-1-GS4
10004667
Neoprene Cover X 3.2mt
Neoprene Cover X 7.2mt
Sheath X 12.5ft Inc Leather Cover
Sheath X 25ft Inc Leather Cover Cable Support Large
“Surelok “ Housing Large
“Surelok “ Housing Cover
Power Cable X 12.5ft “Surelok “ Rubber
Power Cable X 25ft “Surelok “ Rubber
“Surelok “ Body & Support
Gas Supply Hose
7 Pin Plug
©All rights reserved. No part of this publication may be reproduced, stored in a retrieval system or transmitted by any means,
electronic, mechanical, photocopying or otherwise without the prior permission of ©Uniarc® the copyright holder.
47
Suregrip Series
SR26 ERGO TIG TORCH
Standard Front End Parts
Part #
18CG
Description
Cup Gasket
Part #
10N30
10N31
10N32
10N28
Part #
10N22
10N23
10N24
10N25
Description
Collet Body 1.0mm
Collet Body 1.6mm
Collet Body 2.4mm
Collet Body 3.2mm
Description
Collet 1.0mm
Collet 1.6mm
Collet 2.4mm
Collet 3.2mm
Part #
10N49L
53N48L
53N47L
Part #
10N50
10N49
10N48
10N47
10N46
10N45
10N44
Description
Long Alumina Nozzle Ø8mm #5L
Long Alumina Nozzle Ø 10mm #6L
Long Alumina Nozzle Ø 11mm #7L
Description
Alumina Nozzle Ø 6mm #4
Alumina Nozzle Ø 8mm #5
Alumina Nozzle Ø 10mm #6
Alumina Nozzle Ø 11mm #7
Alumina Nozzle Ø 13mm #8
Alumina Nozzle Ø 16mm #10
Alumina Nozzle Ø 19mm #12
Compact Gas Lens Front End Parts
Part #
54N01
Description
Gas Lens Gasket
Part #
45V25
45V26
45V27
Description
Gas Lens Body 1.6mm
Gas Lens Body 2.4mm
Gas Lens Body 3.2mm
Part #
54N14
54N15
54N17
Description
Gas lens ceramic 8.0mm
Gas lens ceramic 7.0mm
Gas lens ceramic 5.0mm
TR0004-16
RED
ANSI/AWS A5.12-98
ISO 6848 WT20
2% Thoriated: Best stability
at medium currents, good arc
starts, medium tendency to
spit, medium erosion rate.
Commonly used for steel and
stainless steel applications
Part #
TR0004-10
TR0004-16
TR0004-24
TR0004-32
Description
1.0mm x 175mm
1.6mm x 175mm
2.4mm x 175mm
3.2mm x 175mm
thoriated
thoriated
thoriated
thoriated
tungsten
tungsten
tungsten
tungsten
electrode
electrode
electrode
electrode
2%
2%
2%
2%
1/16 x 7” (1.6mm x 175mm)
3/32 x 7” (2.4mm x 175mm)
1/8 x 7” (3.2mm x 175mm)
TR0006-16
WHITE
ANSI/AWS A5.12 M-98
ISO 6848 WZ8
.8% Zirconiated: Balls well, handles
higher current with less spitting, better arc starts and arc stability than
pure tungsten
Commonly used for
aluminium applications
Part #
TR0006-10
TR0006-16
TR0006-24
TR0006-32
Description
1.0mm x 175mm
1.6mm x 175mm
2.4mm x 175mm
3.2mm x 175mm
zirconiated
zirconiated
zirconiated
zirconiated
tungsten
tungsten
tungsten
tungsten
electrode
electrode
electrode
electrode
1/16 x 7” (1.6mm x 175mm)
3/32 x 7” (2.4mm x 175mm)
1/8 x 7” (3.2mm x 175mm)
48
©All rights reserved. No part of this publication may be reproduced, stored in a retrieval system or transmitted by any means,
electronic, mechanical, photocopying or otherwise without the prior permission of ©Uniarc® the copyright holder.
1%
1%
1%
1%
MIG WELDING TROUBLE SHOOTING
The following chart addresses some of the common problems of MIG welding. In all cases of equipment malfunction, the manufacturer’s recommendations should be strictly adhered to and followed.
1: Excessive Spatter
Possible Reason
Suggested Remedy
Wire feed speed set too high
Select lower wire feed speed
Voltage too high
Select a lower voltage setting
Wrong polarity set
select the correct polarity for the wire being used - see machine setup guide
Stick out too long
Bring the torch closer to the work
Contaminated base metal
Remove materials like paint, grease, oil, and dirt, including mill scale from base metal
Contaminated mig wire
Use clean dry rust free wire. Do not lubricate the wire with oil, grease etc
Inadequate gas flow or too much gas Check the gas is connected, check hoses, gas valve and torch are not restricted. Set
flow
the gas flow between 12-15l/min flow rate. Check hoses and fittings for holes, leaks etc
Protect the welding zone from wind and drafts
2: Porosity - small cavities or holes resulting from gas pockets in weld metal.
Possible Reason
Suggested Remedy
Wrong gas
Check that the correct gas is being used
Inadequate gas flow or too much gas Check the gas is connected, check hoses, gas valve and torch are not restricted. Set the
flow
gas flow between 12 - 15 l/min flow rate. Check hoses and fittings for holes, leaks etc.
Protect the welding zone from wind and drafts
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
Contaminated mig wire
Use clean dry rust free wire. Do not lubricate the wire with oil, grease etc
Gas nozzle clogged with spatter,
worn or out of shape
Clean or replace the gas nozzle
Missing or damaged gas diffuser
Replace the gas diffuser
Mig torch euro connect o-ring missing or damaged
check and replace the o-ring
4: Wire stubbing during welding
Possible Reason
Suggested Remedy
Holding the torch too far away
Bring the torch closer to the work and maintain stick out of 5-10mm
Welding voltage set too low
Increase the voltage
Wire Speed set too high
Decrease the wire feed speed
5: Lack of Fusion − failure of weld metal to fuse completely with base metal or a proceeding weld bead.
Possible Reason
Suggested Remedy
Contaminated base metal
Remove materials like paint, grease, oil, and dirt, including mill scale from base metal
Not enough heat input
Select a higher voltage range and /or adjust the wire speed to suit
Improper welding technique
Keep the arc at the leading edge of the weld pool.
Gun angle to work should be between 5 & 15°
Direct the arc at the weld joint
Adjust work angle or widen groove to access bottom during welding
Momentarily hold arc on side walls if using weaving technique
5: Excessive Penetration − weld metal melting through base metal
Possible Reason
Suggested Remedy
Too much heat
Select a lower voltage range and /or adjust the wire speed to suit
Increase travel speed
6: Lack of Penetration − shallow fusion between weld metal and base metal
Poor in incorrect joint preparation
Material too thick. Joint preparation and design needs to allow access to bottom of
groove while maintaining proper welding wire extension and arc characteristics
Keep the arc at the leading edge of the weld pool and maintain the gun angle at
5 & 15° keeping the stick out between 5-10mm
Not enough heat input
Select a higher voltage range and /or adjust the wire speed to suit
Reduce travel speed
Contaminated base metal
Remove materials like paint, grease, oil, and dirt, including mill scale from base metal.
49
MIG WIRE FEED TROUBLE SHOOTING
The following chart addresses some of the common WIRE FEED problems during MIG welding. In all cases of equipment
malfunction, the manufacturer’s recommendations should be strictly adhered to and followed.
1: No wire feed
Possible Reason
Suggested Remedy
Wrong mode selected
Check that the TIG/MMA/MIG selector switch set to MIG position
Wrong torch selector switch
Check that the STANDARD/SPOOLGUN selector switch is set to STANDARD position
for MIG welding and SPOOLGUN when using the Spoolgun
2: Inconsistent / interrupted wire feed
Possible Reason
Suggested Remedy
Adjusting wrong dial
Be sure to adjust the WIRE FEED and VOLTAGE dials for MIG welding.
The AMPERAGE dial is for STICK and TIG welding mode
Wrong polarity selected
Select the correct polarity for the wire being used - see machine setup guide
Incorrect wire speed setting
Adjust the wire feed speed
Voltage setting incorrect
Adjust the voltage setting
Mig torch lead too long
Small diameter wires and soft wires like aluminium don’t feed well through long torch
leads - replace the torch with a lesser length torch
Mig torch lead kinked or too sharp
angle being held
Remove the kink, reduce the angle or bend
Contact tip worn, wrong size, wrong
type
Replace the tip with correct size and type
Liner worn or clogged (the most
common causes of bad feeding)
Try to clear the liner by blowing out with compressed air as a temporary cure,
it is recommended to replace the liner
Wrong size liner
Install the correct size liner
Blocked or worn inlet guide tube
Clear or replace the inlet guide tube
Wire misaligned in drive roller groove Locate the wire into the groove of the drive roller
50
Incorrect drive roller size
Fit the correct size drive roller eg; 0.8mm wire requires 0.8mm drive roller
Wrong type of drive roller selected
Fit the correct type roller (e.g. knurled rollers needed for flux cored wires)
Worn drive rollers
Replace the drive rollers
Drive roller pressure too high
Can flatten the wire electrode causing it to lodge in the contact tip - reduce the drive
roller pressure
Too much tension on wire spool hub
Reduce the spool hub brake tension
Wire crossed over on the spool or
tangled
Remove the spool untangle the wire or replace the wire
Contaminated mig wire
Use clean dry rust free wire. Do not lubricate the wire with oil, grease etc
TIG WELDING TROUBLE SHOOTING
The following chart addresses some of the common problems of DC TIG welding. In all cases of equipment malfunction, the
manufacturer’s recommendations should be strictly adhered to and followed.
1: Tungsten burning away quickly
Possible Reason
Suggested Remedy
Incorrect Gas
Check that pure Argon is being used
No gas
Check the gas cylinder contains gas and is connected and the torch gas valve is open
Inadequate gas flow
Check the gas is connected, check hoses, gas valve and torch are not restricted. Set
the gas flow between 12 - 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 shielding gas flowing 10–15 seconds after arc stoppage. 1 second for each 10
amps of weld current.
2: Contaminated tungsten
Possible Reason
Suggested Remedy
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 from touching the tungsten during welding, feed the filler wire into the
leading edge of the weld pool in front of the tungsten
Tungsten melting into the weld pool
Check that correct type of tungsten is being used. Too much current for the tungsten
size so reduce the amps or change to a larger tungsten
3: Porosity - poor weld appearance and colour
Possible Reason
Suggested Remedy
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 6 - 10 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
Contaminated filler wire
Remove all grease, oil, or moisture from filler metal.
Incorrect filler wire
Check the filler wire and change if necessary
Possible Reason
Suggested Remedy
Incorrect Gas
Use pure Argon gas
Inadequate gas flow
Set the gas flow between 6 - 10 l/min flow rate
4: Yellowish residue / smoke on the alumina nozzle & discoloured tungsten
Alumina gas nozzle too small for size Increase the size of the alumina gas nozzle
of tungsten being used
5: Unstable Arc during DC welding
Possible Reason
Suggested Remedy
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
7: Arc wanders during DC welding
Possible Reason
Suggested Remedy
Poor gas flow
Check and set the gas flow between 6 - 10 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
51
continued- TIG WELDING TROUBLE SHOOTING
8: Arc difficult to start or will not start DC welding
Possible Reason
Suggested Remedy
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
Earth clamp not connected to work
Connect the earth clamp directly to the work piece wherever possible
ATTENTION! - CHECK FOR GAS LEAKS
At initial set up and at regular intervals we recommend to check for gas leakage.
Recommended procedure is as follows:
1. Connect the regulator and gas hose assembly and tighten all connectors and clamps.
2. Slowly open the cylinder valve.
3. Set the flow rate on the regulator to approximately 6-10 l/min.
4. Close the cylinder valve and pay attention to the needle indicator of the contents pressure
gauge on the regulator, if the needle drops away towards zero there is a gas leak.
Sometimes a gas leak can be slow and to identify it will require leaving the gas pressure in the
regulator and line for an extended time period. In this situation it is recommended to open the cylinder valve, set the flow rate to 6-10 l/min, close the cylinder valve and check after a
minimum of 15 minutes.
5.If there is a gas loss then check all connectors and clamps for leakage by brushing orspraying
with soapy water, bubbles will appear at the leakage point.
6. Tighten clamps or fittings to eliminate gas leakage.
Important: We strongly recommend that you check for gas leakage prior to operation of
your machine. We recommend that you close the cylinder valve when the machine is not
in use. Welding Guns Of Australia PTY LTD, authorised representatives or agents of
Welding Guns Of Australia will not be liable or responsible for the loss of any gas.
52
MMA (Stick) WELDING TROUBLE SHOOTING
The following chart addresses some of the common problems of MMA welding. In all cases of equipment malfunction,
the manufacturer’s recommendations should be strictly adhered to and followed.
1: No arc
Possible Reason
Suggested Remedy
Incomplete welding circuit
Check earth lead is connected. Check all cable connections.
Wrong mode selected
Check the MMA selector switch is selected
No power supply
Check that the machine is switched on and has a power supply
Possible Reason
Suggested Remedy
Arc length too long
Shorten the arc length
Work piece dirty, contaminated or
moisture
Remove moisture and materials like paint, grease, oil, and dirt, including mill scale from
base metal
Damp electrodes
Use only dry electrodes
2: Porosity − small cavities or holes resulting from gas pockets in weld metal.
3: Excessive Spatter
Possible Reason
Suggested Remedy
Amperage too high
Decrease the amperage or choose a larger electrode
Arc length too long
Shorten the arc length
Possible Reason
Suggested Remedy
Insufficient heat input
Increase the amperage or choose a larger electrode
Work piece dirty, contaminated or
moisture
Remove moisture and materials like paint, grease, oil, and dirt, including mill scale from
base metal
Poor welding technique
Use the correct welding technique or seek assistance for the correct technique
3: Weld sits on top, lack of fusion
4: Lack of penetration
Possible Reason
Suggested Remedy
Insufficient heat input
Increase the amperage or choose a larger electrode
Poor welding technique
Use the correct welding technique or seek assistance for the correct technique
Poor joint preparation
Check the joint design and fit up, make sure the material is not too thick. Seek assistance for the correct joint design and fit up
5: Excessive penetration - burn through
Possible Reason
Suggested Remedy
Excessive heat input
Reduce the amperage or use a smaller electrode
Incorrect travel speed
Try increasing the weld travel speed
Possible Reason
Suggested Remedy
Unsteady hand, wavering hand
Use two hands where possible to steady up, practise your technique
Possible Reason
Suggested Remedy
Excessive heat input
Reduce the amperage or use a smaller electrode
Poor welding technique
Use the correct welding technique or seek assistance for the correct technique
Poor joint preparation and or joint
design
Check the joint design and fit up, make sure the material is not too thick. Seek assistance for the correct joint design and fit up
Possible Reason
Suggested Remedy
Incorrect polarity
Change the polarity, check the electrode manufacturer for correct polarity
6: Uneven weld appearance
7: Distortion − movement of base metal during welding
7: Electrode welds with different or unusual arc characteristic
53
PO Box 3033, Lansvale NSW 2166, AUSTRALIA
112 Christina Rd, Villawood, NSW 2163
Phone: (02) 9780 4200
Fax: (02) 9780 4244
Email: sales@unimig.com.au / Web: www.unimig.com.au
Welding Guns Of Australia Pty Ltd ABN: 14 001 804 422
Welding Guns Of Australia Pty Ltd (‘Us’, ‘We’) warrants that the following products under UNI-MIG, UNI-TIG,
UNI-PLAS, UNI-FLAME, TECNA, T&R, HIT-8SS & ROTA, supplied by Us and purchased by you from an Authorised
UNI-MIG, UNI-TIG, UNI-PLAS, UNI-FLAME, TECNA, T&R, HIT-8SS & ROTA Dealer throughout Australia are free of
Material and Faulty Workmanship defects except for those products listed under ‘Warranty Exclusions’.
These terms and conditions supersede and exclude all former and other representations and arrangements relating
to any warranties on these products.
WARRANTY PERIOD
We offer the following ‘Warranty Periods’ from ‘date of purchase’:
An Extended Warranty Period of 6 months total shall apply only to Machinery where offered and warranty
is registered online.
UNI-MIG WELDING MACHINES
UNI-MIG DIY Series (Power Source Only)
UNI-MIG Procraft Series (Power Source Only)
UNI-MIG Trade Series (Power Source Only)
UNI-MIG Trade Series SWF (Power Source / Seperate Wire Feeder Only)
UNI-MIG Workshop Series (Power Source Only)
UNI-MIG Workshop Series SWF (Power Source / Separate Wire Feeder Only)
UNI-MIG Jasic Inverter MIG (Power Source Only)
UNI-MIG Jasic Inverter MIG SWF (Power Source / Separate Wire Feeder Only)
UNI-TIG Jasic Inverter TIG (Power Source Only)
UNI-MIG Water Cooler
T&R Pulse MIG (Power Source Only)
T&R Pulse MIG SWF (Power Source / Separate Wire Feeder Only)
UNI-PLAS (Power Source Only)
UNI-PLAS Jasic Series (Power Source Only)
UNI-PLAS Site Cut Series (Power Source Only)
UNI-FLAME Gas Cutting and Welding Kits
UNI-FLAME Straight Line & Gas Cutting Machines (Power Source Only)
UNI-FLAME Regulators Argon/ Acetylene / Oxygen / LPG / Bobbin Flowmeter
UNI-FLAME Automatic Welding Helmet
UNI-MIG Automatic Welding Helmets
TECNA (Power Source Only)
HIT-8SS Automatic Carriage (Power Source Only)
ROTA 102 Rotating table
HOTBOX ElectrodeOven
SPOTCAR 3500
TORCHES -GMAW, GTAW, MMAW, PLASMA, EARTH LEADS,
INTERCONNECTING CABLES, GAS HOSE
2 Years
3 Years
3 Years
3 Years
3 Years
3 Years
3 Years
3 Years
3 Years
1 Year
2 Year
2 Year 3 Years
2 Years
1 Year
3 Months 1 Year 1 Year
2 Years
2 Years
1 Year 1 Year
1 Year
1 Year
1 Year
(Clause 3)
(Clause 1&3)
(Clause 1&3)
(Clause 1&3))
(Clause 1&3)
(Clause 1&3)
(Clause 3)
(Clause 3)
(Clause 3)
(Clause 3)
(Clause 3)
(Clause 3)
(Clause 3)
(Clause 3)
(Clause 3)
(Clause 2&3)
(Clause 3)
(Clause 3)
(Clause 3)
(Clause 3)
3 Months (Clause 3)
(Clause 1) 3 year warranty on transformers, inductor and rectifier. 1 year warranty on PCB, and all other
components, .
(Clause 2) Gas Hose, Flashbacks are subject to and covered by the Manufacture’s Individual Warranty, Contact
the manufacturer for details
(Clause 3) This only Covers Manufactures defaults on all accesories for the first three months after date of purchase.
54
WARRANTY / RETURNS / EXCHANGES
We understand that sometimes you may need to return a product you have purchased from Welding Guns Of
Australia PTY LTD Authorised Dealer Network, to assist you, we have set out below the Welding Guns Of Australia
PTY LTD Returns Policy that you should know.
Our Returns Policy includes the rights you have under the Australian Consumer Law and other relevant laws.
Your Rights under the Australian Consumer Law - 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.
• You shall inspect the Goods on delivery and shall within seven (7) days of delivery (time being of the essence)
notify Welding Guns Of Australia PTY LTD of any alleged defect, shortage in quantity, damage or failure to comply
with the description or quote.
• You shall also afford Welding Guns Of Australia PTY LTD the opportunity to inspect the Goods within a reasonable
time following delivery if you believe the Goods are defective in any way.
• If you shall fail to comply with these provisions the Goods shall be presumed to be free from any defect or damage.
For defective Goods, which Welding Guns Of Australia PTY LTD has agreed in writing that you are entitled to reject,
Welding Guns Of Australia PTY LTD liability is limited to either (at the Welding Guns Of Australia PTY LTD
discretion) replacing the Goods or repairing the Goods except where you have acquired Goods as a consumer within
the meaning of the Trade Practices Act 1974 or the Fair Trading Acts of the relevant state or territories of Australia,
and is therefore also entitled to, at the consumer’s discretion either a refund of the purchase price of the Goods, or
repair of the Goods, or replacement of the Goods.
Returns will only be accepted provided that:
(a) You have complied with the provisions outlined above, and
(b) where the Goods are unable to be repaired, the Goods are returned at your cost within thirty (30) days of the
delivery date, and
(c) Welding Guns Of Australia PTY LTD will not be liable for Goods which have not been stored or used in a proper
manner, and
(d) the Goods are returned in the condition in which they were delivered and with all packaging material, brochures
and instruction material in as new condition as is reasonably possible in the circumstances.
• Welding Guns Of Australia PTY LTD Accepts no responsibility for products lost, damaged or mislaid whilst in transit
• Welding Guns Of Australia PTY LTD may (at their sole discretion) accept the return of Goods for credit but this may
incur a handling fee of up to fifteen percent (15%) of the value of the returned Goods plus any freight costs.
• Where a failure does not amount to a major failure, Welding Guns Of Australia PTY LTD is entitled to choose
between providing you with a repair, replacement or other suitable remedy.
• Your rights under the Australian Consumer Law are not limited by a defined time. However, the Australian
Consumer Law does recognise that the relevant time period can vary from product to product, depending on factors
such as the nature of the product and the price. Welding Guns Of Australia PTY LTD adopts the same approach. As
you can appreciate, the type of remedy we can offer you may also vary depending on how long it takes you to return
the product to us.
MAKING A CLAIM
If you wish to make a claim under this Warranty, you should:
• Return the product to the point of purchase either in person or on a prepaid courier; or
• Contact Us by Telephone at one of our service centres:
Sydney Head Office: 02 9870 4200 or Mail PO Box 3033 Lansvale NSW 2166.
Queensland:
07 3333 2855
Victoria:
03 8682 9911
Western Australia:
08 6363 5111
When returned, the product must be accompanied with the original invoice including the purchase price and
disclosing the purchase date
All costs of installation, cartage, freight, travelling expenses, hiring tools and insurance are paid by the
Customer.
To the extent permitted by law, our total liability for loss or damage of every kind related to the product in any way
whatsoever is limited to the amount paid to the retailer by you for the product or the value of the product.
No responsibility will be taken for products lost, damaged or mislaid whilst in transit.
55
WARRANTY EXCLUSIONS
This Warranty covers Material and Faulty Workmanship defects only.
This Warranty does not cover damage caused by:
•
•
•
•
• •
•
•
•
•
Normal wear and tear due to usage
Misuse or abusive use of the UNI-MIG, UNI-TIG, UNI-PLAS, UNI-FLAME, TECNA, T&R, HIT-8SS & ROTA, instructions supplied with the product.
Failure to clean or improper cleaning of the product
Failure to maintain the equipment such as regular services etc
Incorrect voltage or non-authorised electrical connections
Improper installation
Use of non-authorised/non-standard parts
Abnormal product performance caused by any ancillary equipment interference or other external factors
Failure or any breakage caused by overload, dropping or abusive treatment or use by the customer
Repair, modifications or other work carried out on the product other than by an Authorised UNI-MIG, UNI-TIG, UNI-PLAS, UNI-FLAME, TECNA, T&R, HIT-8SS & ROTA Service Dealer
Unless it is a manufacturing fault, this Warranty does not cover the following parts:
MIG Welding Torches and Consumables to suit, such as:
Gas Nozzels, Gas Diffusers, Contact Tip holder, Contact tip, Swan Necks, Trigger, Handle, Liners,
Wire Guide, Drive Roller, Gas Nozzle Spring. Neck Spring, Connector Block, Insulator, Gas Nipple, Cap, Euro Block,
Head Assembly, Gas Block, Trigger Spring, Spring Cable Support, Neck Insulator, Shroud Spring,
Gun Plug Cover, Lock Nut, Snap On Head, Spring Cap, Ball, Motor 42 Volt, Pot 10K standard, Knob, Drive Roll Seat,
Washer, Bow, Ball Bearing, Wire Condue Nipple, Central Plug, Printed Circuit Board, Gun Plug House, Cable
Support, Gas Connector, Handle To Suit PP36 with Knobs, All Xcel-Arc/ Magmaweld Mig Welding Wires &
Electrodes, Arc Leads, Welding Cable, Electrode Holder, Eatch Clamps
.
TIG Welding Torches and Consumables to suit, such as:
Tungsten Electrodes, Collet, Collet Body, Alumina Nozzle, Torch Head, Torch Head water Cooled,
Torch Head Flexible,Back Caps, Gas Lens, Torch Handle, Cup Gasket, Torch Body Gas Valve, O-ring,
All UNI-MIG TIG Welding Rods, All Xcel-Arc/ Magmaweld Electrodes, Arc Leads, Welding Cable, Electrode Holder,
Eatch Clamps.
PLASMA Cutting Torches and Consumables to suit, such as:
All Cutting Tips, All Diffuser/Swirl Ring, All Electrode, Retaining Caps, Nozzle Springs, All Spacers, All Shield Caps,
All Air and Power Cables, All Switches, All O-rings, All Springs, All Circle Guides and Cutting Kits, Torch Bodies, Air
Filter Regulator, Arc Leads, Welding Cable, Electrode Holder, Eatch Clamps
STRAIGHT LINE CUTTING MACHINES and Consumables to suit, such as:
Hoses, Fittings, Track, Cutting Nozzles.
HIT-8SS Welding Carriage Consumables to suit, such as:
Input Cord, Inter-connecting Cord, Triggering Cable.
This Warranty does not cover products purchased:
• From a non-authorised UNI-MIG, UNI-TIG, UNI-PLAS, UNI-FLAME, TECNA,T&R, HIT-8SS & ROTA Dealer
(such as purchases from unauthorised retailers and purchases over the Internet from unauthorised
local/international sellers or sites such as EBay)
• At an auction;
• From a private seller
Unless it is a manufacturing fault, this Warranty does not apply to any products sold to Hire Companies.
These conditions may only be varied with the written approval of the Directors of Welding Guns Of Australia PTY LTD
REMEMBER TO RETAIN YOUR ORIGINAL INVOICE FOR PROOF OF PURCHASE.
56
NOTES:
57
NOTES:
58
NOTES:
59
© Welding Guns Of Australia PTY LTD 2012
Welding Guns Of Australia PTY LTD Pty Ltd
ABN: 14 001 804 422
PO Box 3033, Lansvale NSW 2166, AUSTRALIA
112 Christina Rd, Villawood, NSW 2163
Phone: (02) 9780 4200
Fax: (02) 9780 4244
Email: sales@unimig.com.au / Web: www.unimig.com.au
60