PROCRAFT 511307, 511625, 511467 Operating Instructions Manual

MIG / MAG

MODELS 511307, 511467 & 511625

WELDING

SAVE THIS MANUAL

WARNING!

READ AND UNDERSTAND ALL INSTRUCTIONS

Failure to follow all instructions listed below may result
in electric shock, re, and/or serious injury.

SAVE THESE INSTRUCTIONS
Keep this manual for the safety warnings and precautions,

assembly, operating, inspection, maintenance and
cleaning procedures. Write the product’s serial number
in the back of the manual (or month and year of purchase
if product has no number). Keep this manual and the
receipt in a safe and dry place for future reference.

OPERATING INSTRUCTIONS

PROCRAFT

Page 2

FIG.1

511307: 170i Multi MIG / MMA / TIG

FIG.2

511467: 210i Multi MIG / MMA / TIG

Page 3

FIG.1

511625: 250i MIG / MAG

Page 4



SAVE THIS MANUAL

Keep this manual for the safety

warnings and precautions, assembly,

operating, inspection, maintenance and

cleaning procedures. Write the product’s

serial number in the back of the manual

near the assembly diagram (or month and

year of purchase if product has no

number). Keep this manual and the receipt

in a safe and dry place for future

reference.

IMPROTANT SAFETY INFORMATION

In this manual, on the labeling, and all

other information provided with this

product:

This is the safety alert symbol. It is

used to alert you to potential personal

injury hazards. Obey all safety

messages that follow this symbol to

avoid possible injury or death.

DANGER indicates a hazardous

situation which, if not avoided, will

result in death or serious injury.

WARNING: WARNING indicates a

hazardous situation which, if not

avoided, could result in death or

serious injury.

CAUTION: CAUTION, used with

the safety alert symbol, indicates a

hazardous situation which, if not

avoided, could result in minor or

moderate injury.

NOTICE: NOTICE is used to

address practices not related to

personal injury.

SAFETY WARNINGS AND

PRECAUTIONS

WARNING: When using tool, basic safety

precautions should always be followed to

reduce the risk of personal injury and

damage to equipment.

Read all instructions before using this

tool!

Work Area Precautions

1. Keep your work area clean and well

lit. Cluttered benches and dark areas

invite accidents.

2. Do not operate power tools in

explosive atmospheres, such as in

the presence of flammable liquids,

gases, or dust. Power tools create

sparks which may ignite the dust or

fumes.

3. Keep bystanders, children, and

visitors away while operating a

power tool. Distractions can cause

you to lose control. Protect others in

the work area from debris such as

chips and sparks. Provide barriers or

shields as needed.

WARNING!



READANDUNDERSTANDALL

INSTRUCTIONS

Failuretofollowallinstructionslistedbelow

mayresultinelectricshock,fire,and/or

seriousinjury.

Page 5

Electrical Safety

1. Grounded tools must be plugged

into an outlet properly installed and

grounded in accordance with all

codes and ordinances. Never

remove the grounding prong or

modify the plug in any way. Do not

use any adapter plugs. Check with

a qualified electrician if you are in

doubt whether the outlet is properly

grounded. If the tool should

electrically malfunction or break down,

grounding provides a low resistance

path to carry electricity away from the

user.

2. Double insulated tools are

equipped with a polarized plug (one

blade is wider than the other). This

plug will fit in a polarized outlet

only one way. If the plug does not

fit fully in the outlet, reverse the

plug. If it still does not fit, contact a

qualified electrician to install a

polarized outlet. Do not change the

plug in any way. Double insulation

eliminates the need for the three wire

grounded power cord and grounded

power supply system.

3. Avoid body contact with grounded

surfaces such as pipes, radiators,

ranges, and refrigerators. There is

an increased risk of electric shock if

your body is grounded.

4. Do not expose power tools to rain

or wet conditions. Water entering a

power tool will increase the risk of

electric shock.

5. Do not abuse the Power Cord.

Never use the Power Cord to carry

the tool or pull the Plug from an

outlet. Keep the Power Cord away

from heat, oil, sharp edges, or

moving parts. Replace damaged

Power Cords immediately.

Damaged Power Cords increase the

risk of electric shock.

6. When operating a power tool

outside, sue an outdoor extension

cord marker “W-A” or “W”. These

extension cords are rated for outdoor

use, and reduce the risk of electric

shock.

Personal Safety

1. Stay alert. Watch what you are

doing, and use common sense

when operating a power tool. Do

not use a power tool while tired or

under the influence of drugs,

alcohol, or medication. A moment of

inattention while operating power tools

may result in serious personal injury.

2. Dress properly. Do not wear loose

clothing or jewelry. Contain long

hair. Keep your hair, clothing, and

gloves away from moving parts.

Loose clothes, jewelry, or long hair

can be caught in moving parts.

3. Avoid accidental staring. Be sure

the Power Switch is off before

plugging in. Carrying power tools

with your finger on the Power Switch,

or plugging in power tools with the

Power Switch on, invites accidents.

4. Remove adjusting keys or

wrenches before turning the power

tool on. A wrench or a key that is left

attached to a rotating part of the power

tool may result in personal injury.

5. Do not overreach. Keep proper

footing and balance at all times.

Proper footing and balance enables

better control of the power tool in

unexpected situations.

6. Use safety equipment. Always wear

Page 6

eye protection. Dust mask, non-skid

safety shoes, hard hat, or hearing

protection must be used for

appropriate conditions.

Tool Use and Care

1. Use clamps (not included) or other

practical ways to secure and

support the workpiece to a stable

platform. Holding the work piece by

hand to against your body is unstable

and may lead to loss of control.

2. Do not force the tool. Use the

correct tool for your application.

The correct tool will do the job better

and safer at the rate for which it is

designed.

3. Do not use the power tool if the

Power Switch does not turn it on or

off. Any tool that cannot be controlled

with the Power Switch is dangerous

and must be replaced.

4. Disconnect the Power Cord Plug

from the power source before

making any adjustments, changing

accessories, or storing the tool.

Such preventive safety measures

reduce the risk of starting the tool

accidentally.

5. Store idle tools out of reach of

children and other untrained

persons. Tools are dangerous in the

hands of untrained users.

6. Maintain tools with care. Keep

cutting tools maintained and clean.

Properly maintained tools are less

likely to bind and are easier to control.

Do not use a damaged tool. Tag

damaged tools “Do not use” until

repaired

7. Check for misalignment or binding

of moving parts, breakage of parts,

and any other condition that may

affect the tool’s operation. If

damaged, have the tool serviced

before using. Many accidents are

caused by poorly maintained tools.

8. Use only accessories that are

recommended by the manufacturer

for your model. Accessories that may

be suitable for one tool may become

hazardous when used on another tool.

Service

1. Tool service must be performed only

by qualified repair personnel. Service

or maintenance performed by

unqualified personnel could result in a

risk of injury.

2. When servicing a tool, use only

identical replacement parts. Use of

unauthorized parts or failure to follow

maintenance instructions may create a

risk of electric shock or injury.

SPECIFIC SAFETY RULES

1. Maintain labels and nameplates on

the tool. These carry important

information. If unreadable or missing,

contact TOOLEX INDUSTRIAL for a

replacement.

2. Always wear the approved safety

impact eye goggles and heavy work

gloves when suing the tool. Using

personal safety devices reduce the

risk for injury. Safety impact eye

goggles and heavy work gloves are

available from Harbor Freight Tools.

3. Maintain a safe working

environment. Keep the work area

well lit. Make sure there is adequate

surrounding workspace. Always keep

the work area free of obstructions,

grease, oil, trash, and other debris. Do

not use a power tool in areas near

flammable chemicals, dusts, and

Page 7

vapors. Do not use this product in a

damp or wet location.

4. Avoid unintentional starting. Make

sure you are prepared to begin work

before turning on the tool.

5. Never leave the tool unattended

when it is plugged into an electrical

outlet. Turn off the tool, and unplug it

from its electrical outlet before leaving.

6. Always unplug the tool from its

electrical outlet before performing

and inspection, maintenance, or

cleaning procedures.

7. Prevent eye injury and burns.

Wearing and using the approved

personal safety clothing and safety

devices reduce the risk for injury.

a. Wear the approved safety impact

eye goggles with a welding helmet

featuring at least a number 10

shade lens rating.

b. Leather leggings, fire resistant

shoes or boots should be worn

when using this product. Do not

wear pants with cuffs, shirts with

open pockets, or any clothing that

can catch and hold molten metal

or sparks.

c. Keep clothing free of grease, oil,

solvents, or any flammable

substances. Wear dry, insulating

gloves and protective clothing.

d. Wear an approved head covering

to protect the head and neck. Use

aprons, cape, sleeves, shoulder

covers, and bibs designed and

approved for welding and cutting

procedures.

e. When welding/cutting overhead or

in confined spaces, wear flame

resistant ear plugs or ear muffs to

keep sparks out of ears.

8. Prevent accidental fires. Remove

any combustible material from the

work area.

a. When possible, move the work to

a location well away from

combustible; protect the

combustibles with a cover made of

fire resistant material.

b. Remove or make safe all

combustible materials for a radius

of 35 feet (10 meters) around the

work area. Use a fire resistant

material to cover or block all open

doorways, windows, cracks, and

other openings.

c. Enclose the work area with

portable fire resistant screens.

Protect combustible walls, ceilings,

floors, etc., from sparks and heat

with fire resistant covers.

d. If working on a metal wall, ceiling,

etc., prevent ignition of

combustibles on the other side by

mobbing the combustibles to a

safe location. If relocation of

combustibles is not possible,

designate someone to serve as a

fire watch, equipped with a fire

extinguisher, during the welding

process and for at least one half

hour after the welding is

completed.

e. Do not weld or cut on materials

having a combustible coating or

combustible internal structure, as

in walls or ceilings, without an

approved method for eliminating

the hazard.

f. Do not dispose of hot slag in

containers holding combustible

materials. Keep a fire extinguisher

nearby and know how to use it.

g. After welding or cutting, make a

thorough examination for evidence

of fire. Be aware that easily visible

smoke or flame may not be

Page 8

present for some time after the fire

has started. Do not weld or cut in

atmospheres containing

h. Dangerously reactive or

flammable gases, vapors, liquids,

and dust.

i. Provide adequate ventilation in

work areas to prevent

accumulation of flammable gases,

vapors, and dust. Do not apply

heat to a container that has held

an unknown substance or a

combustible material whose

contents, when heated, can

produce flammable or explosive

vapors. Clean and purge

containers before applying heat.

Vent closed containers, including

castings, before preheating,

welding, or cutting.

9. Avoid overexposure to fumes and

gases. Always keep your head out of

the fumes. Do not breathe the fumes.

Use enough ventilation or exhaust, or

both, to keep fumes and gases from

your breathing zone and general area.

! Where ventilation is questionable,

have a qualified technician take

an air sampling to determine the

need for corrective measures.

Use mechanical ventilation to

improve air quality. If engineering

controls are not feasible, use an

approved respirator.

! Work in a confined area only if it

is well ventilated, or while

wearing an air-supplied

respirator.

! Follow OSHA guidelines for

Permissible Exposure Limits

(PEL’s) for various fumes and

gases.

! Follow the American Conference

of Governmental Industrial

Hygienists recommendations for

Threshold Limit Values (TLV’s)

for fumes and gases.

! Have a recognized specialist in

Industrial Hygiene or

Environmental Services check

the operation and air quality and

make recommendations for the

specific welding or cutting

situation.

10. Always keep hoses away from

welding/cutting spot. Examine all

hoses and cables for cuts, burns, or

worn areas before each use. If any

damaged areas are found, replace the

hoses or cables immediately.

11. Read and understand all

instructions and safety precautions

as outlined in the manufacturer’s

WARNING

INHALATION HAZARD: Welding and

Plasma Cutting Produce

TOXIC FUMES.

Exposure to welding or cutting exhaust fumes

can increase the risk of developing certain

cancers, such as cancer of the larynx and

lung cancer. Also, some diseases that may be

linked to exposure to welding or plasma

cutting exhaust fumes are:

a. Early onset of Parkinson’s Disease

b. Heart disease

c. Ulcers

d. Damage to the reproductive organs

e. Inflammation of the small intestine or

stomach

f. Kidney damage

g. Respiratory diseases such as

emphysema, bronchitis, or pneumonia

Use natural or forced air ventilation and wear

a respirator approved by NIOSH to protect

against the fumes produced to reduce the risk

Page 9



Manual for the material you will

weld or cut.

12. Proper cylinder care. Secure

cylinders to a cart, wall, or post, to

prevent them from falling. All cylinders

should be used and stored in an

upright position. Never drop or strike a

cylinder. Do not use cylinders that

have been dented. Cylinder caps

should be used when moving or

storing cylinders. Empty cylinders

should be kept in specified areas and

clearly marked “empty.”

13. Never use oil or grease on any

inlet connector, outlet connector,

or cylinder valves.

14. Use only supplied Torch on this

Inverter Air Plasma Cutter. Using

components from other systems may

cause personal injury and damage

components within.

15. People with pacemakers should

consult their physician(s) before using

this product. Electromagnetic fields in

close proximity to a heart pacemaker

could cause interference to, or failure

of the pacemaker.

16. USE PROPER EXTENSION

CORD.

Make sure your extension cord is in

good condition. When using an

extension cord, be sure to

use one

heavy enough to carry the current your

product will draw. An undersized cord

will cause a drop in line voltage

resulting in loss of power and

overheating.

We recommend that a
15amp extension cord be used with
the 1.5mm

2

cable. The following
Toolex Industrial Extension Leads
would be suitable 594530 10 metre,
594531 20 metre & 594532 30
metre.

Page 10





SPECIFICATIONS

Model

Item

511307 511467 511625

Rated input voltage(V)

1 Phase 240V - 50Hz 1 Phase 240V - 50Hz 1 Phase 240V - 50Hz

Rated input current）(A)

24.8 25.6

26

Rated input power (KVA)

27A 33A 38.65A

Wire speed (M/MIN)

2 - 18 2 - 18

0 - 10

Welding current（MMA

10 - 170 20 - 180

-

Welding current）-MIG

40-170

40 - 200

40 - 250

No-load voltage（V） 65V 65V 39V

Duty cycle

120A@100%:

170A@30%

140A @ 100%

170A @ 60%

160A @ 100%

200A @ 60%

Wire diameter (mm)

Ф0.6 - 0.8 - 0.9

Ф0.6 - 0.8 - 0.9 - 1.2 Ф0.6 - 0.8 - 0.9 - 1.2

Welding thickness (mm)

0.6~4.0

0.6~6.0 0.8~10.0

Cover protection

IP21S IP21S IP21S

Insulation

F F F

Dimension

（L×W×H mm）

520 x 330 x 360 520 x 335 x 365 870 x 390 x 610

Weight（kg） 9.5 15 48

Page 11

Duty Cycle

Duty Cycle is the equipment

specifications which defines the number of

minutes within a 10 minute period that a

piece of equipment can safely operate.

Example for welding duty cycle
30%@170Amps is as follows

, which
means that it continuously operates for 3

minutes at maximum output during a 10

minute period.

CAUTION: Failure to observe the duty

cycle limitations of this

MIG MACHINE

can easily damage this equipment, and

will void warranty.

UNPACKING

When unpacking, checks to make sure the

following parts are included.

Inverter welding machine with

MIG torch with Power Cord

Ground cable with Clamp

If any parts are missing or broken, please

call

PROCRAFT at the number on the

cover of this manual.

Preparing Your Work Area

1. You must have a sturdy work table

that is open below the area you are

welding. Molten slag will be blown

through the work metal, and must be

able to fall away freely

2. Your work table must allow the work

metal to be firmly clamped to prevent it

accidentally falling or moving.

3. The floor and surrounding area of your

work site must not be flammable. A

clean cement floor is recommended.

The cutting process will eject molten

metal slag onto the floor, and it will

scatter for 8-10 feet or more in any

direction. Have an adequate fire

extinguisher available if needed.

ASSEMBLY

Attach air supply:

Caution: Do not use an Argon/Mixed

pressure regulator/flow meter with CO

2

Shielding gas. To use CO2 Shielding gas,

you must install a CO

2

Shielding gas

pressure regulator/flow meter.

1. Make sure the Flow Adjust on the

Pressure Regulator/Flow Meter is

turned off. Then Pressure

Regulator/Flow Meter (not included)

firmly onto the cylinder valve.

2. Connect the gas air inlet (1) to your

supply CO

2

Gas supply by one air

hose (not supplied). And remember to

fasten it with coupling.

3. Adjust the flow rate of the gas by

turning the Flow Adjust. The typical

flow rate is 10-30 CFH (cubic feet per

hour). Make sure to check the

Welding Wire manufacturer’s

recommended flow rate.

Front Panel and Instruction

Gasinlet(1) 

Page 12



1. “ ” Mode Selector :

Choosing MIG, MMA, TIG Welding

according the work needed.

” MIG welding: when you

chose this welding mode, please

plug the welding plug with cable to

the MIG control socket 10 and plug

the earth cable to socket 8. (Refer to

page 9, (1)).

“

” MMA welding: when you

chose this welding mode, please

connect the MMA welding plug and

earth cable plug to socket 8 or 9.

They can be exchanged. (Refer to

page 9, (1)).

“

” TIG welding: when this TIG

welding mode is selected, please

connect the TIG torch control cable

in to TIG control socket 8 and

connect the earth cable to the socket

2. “

”” ”Working

Indicator Light. It will be on during

welding operation.

3. “

”Thermal Overload Indicator

Lamp. This light will come on, and the

device will shut down if the tool

becomes overheated. Stop trying to

use the cutter while leaving the power

switch onto allow the cooling fan to

operate, and the lamp will turn off

automatically when the machine cools

down.

Please pay attention to the Rated

Duty Cycle discussed on page 11.

4.

Manual wire feeding:

The welder begins to feed the wire,

when this button is pressed and the

1

2

4

378766992

3

1

10

11



12

4

Page 13

wire won’t stop running until this

trigger is released.

5. “

MIG/MMA/TIG” You can adjust the

welding current by turning this knob.

for all welding functions MIG /
MMA / TIG.

6.

Spool Gun Connection

7.

Euro Mig Torch Connector

8.

"+" Output Connector

9.

"-" Output Connector

For Model 511625:

10.

Burn Back Adjustment, sets the
amount of wire that will be burnt
back once weld is complete.

11. Spot Weld Timer, adjusts the

length of spot weld time.

12. Soft Start, controls the voltage

supply when the weld is starting

TIG Torch Connect

MMA welding

MIG welding connect

Setting the Gun polarity For Wire type

1. Set for Electrode Positive (GAS) for

gas welding with solid-core wire and

the gas supply is needed.

Note: When it is gas welding, you also

should set common Wire feed rolls

2. Set for Electrode Negative (DCEN) for

gasless flux core wire and this kind

connect don’t need gas supply.

Note: When it is gasless welding, you also

should set the special Wire feed rolls.

Without

tooth inthe

groove

With

tooth

in the

groove

NO

GA

GAS

Page 14

Assembly the wire feeder

Note:

When installing wire of a different size or composition, you will also need to

change wire settings, set the gun polarity, and, possibly, install a gas cylinder, Refer to the

below:

1. Important: Securely hold onto the end of the Welding Wire and keep tension on it

during the following steps. If this is not done the welding wire will spring back and

creating a tangled “bird’s nest” and resulting in wasted wire.

2. Hold the Welding Wire securely while you cut enough Wire off the end of the

Spool to remove all bent and crimped Wire. Make sure the cut end has no burrs or

sharp edges (cut again, if needed).

3. Loosen and lower the Tension Adjusting Knob (1a) on the Wire Feed Assembly.

Then, raise the Swing Arm (2a)

4. Keep tension on the Welding Wire, and guide at least 12 inches of Wire into the

Wire Feed Leader (3a).

5. Lower the Swing Arm (2a) on the Wire Feed Assembly. Lower and tighten the

Tension Adjusting Knob (1a). Once the Wire is held in place, you may release it.

6. Lay the Torch Cable out in a straight line so that the Welding Wire moves through it

easily.

Tension Adjusting

Knob (1a)

Wire Feed

Leader (3a)

Swing

Arm (2a)

Page 15

OPERATION

Note: Before beginning, please read and understand all the safety precautions

staring on page 1 and especially the section “Specific Safety Rules” starting on

page 3.

MIG Welding

1. Turn the Current Adjustment Knob to meet the needs of the job.

2. Move the Model Selector Switch to “MIG”.

3. Put the metal to be welded on the metal weeding-cutting table. Ensure the metals to

be welded are clean, so good welding efficiency can be promised.

4. Place the MIG welding unit no closer than six feet from the work piece to be welded

5. Connect the MIG torch control, cable plug as shown on page 10. Twist to lock in

place.

6. Plug in the Grounding Cable into the Ground Connector on the upper of the unit front.

Twist to lock.

7. Securely place the clamping end of the Grounding Cable Clamp to a part of the work

piece or metal table that is clean of paint, oil, or dirt. Clamp as close as possible to the

work piece without damaging the cable during welding.

8. Assemble the desired accessories and tips inside the tip of the MIG Torch handle.

Insert the Contact Tip (2b) onto the Welding Wire and screw it firmly into the Head

Tube (3b) of the Torch Handle. Replace the Nozzle (1b), and cut off any excess

Welding Wire over 1/2 inches.

9. Connect a hose and coupling from the gas regulator on a CO2 gas tank (none

included) to the CO

2

Gas Inlet on the back of the unit. Follow the gas cylinder

manufacturer’s instructions for set-up and use.

10. Verify that the Power Switch is in the off position, then plug the

240~line cord plug into

an appropriate

240~outlet.

11. When everything is in place for welding, press the Power Switch UP to the ON

position. The Power Light”

will illuminate, but the Torch is not yet

energized.

12. Point the Torch Handle away from all objects. Then, press the Trigger Switch (51e) on

the Torch Handle until the Welding Wire feeds through the Head Tube (51c) of the

Torch Handle about 2 inches. If necessary, move the Torch Handle slightly in a circular

motion to help feed the Welding Wire properly out of the Head Tube.

13. Press the torch and orient yourself to one side of the area to be welded, and move the

Welding Helmet Face Shield (not included, see page 4 item 7) over your eyes.

Page 16

14. Caution: The Torch handle is now energized. Be careful not touch anything else with

the Torch except the work piece to be welded.

15. Hold the Trigger down and tilt the torch forward. Keep the wire touch the work piece.

16. When the arc ignites, tilt the tip forward and hold it touch the work piece.

17. Never tap the Welding Wire into the welding surface to ignite the arc. This will cause

the Welding Wire to stick to the work piece.

18. For a narrow weld, you can usually draw the Welding Wire in a steady straight line.

This is called a “stringer bead”

19. For a wider weld, draw the Welding Wire back and forth across the joint in a curve.

This is called a “weave bead”.

TIG Welding

1. Turn the Current Adjustment Knob to meet the needs of the job.

2. Move the Model Selector Switch to “MIG”.

3. Put the metal to be welded on the metal weeding-cutting table. Ensure the metals to

be welded are clean, so good welding efficiency can be promised.

4. Hold the Trigger down and tilt the torch forward. Keep a constant distance between

the torch and the work piece but do not contact it.

5. Stroke the work piece lightly to ignite the arc. Do not strike like a match? Never tap the

electrode wire to ignite the arc; it will damage the electrode.

6. When the arc ignites, tilt the electrode forward and hold it near the work piece.

Arc (stick) Welding

1. Turn the Current Adjustment Knob to meet the needs of the job.

2. Move the Stick or TIG Switch to “TIG”

3. Connect the Electrode Clamp and Cable to the torch control connector (as 7 shown on

page 9 and twist to lock in place.

4. Plug the cable of the Grounding Clamp into the DC ground connector and secure the

clamp to a clean, exposed metal part of the work piece.

5. Place the metal portion of the welding rod inside the jaws of the Electrode Clamp.

Welding rod types vary for welding different metals.

Note: If too much current is drawn from the welder; the Thermal Overload protector will

activate, the Overload indicator

will light, and the welder will turn off until it cools

down. It will automatically reset.

When finished welding

a) Release the Torch handle trigger and lift the Torch handle from the work

piece,

b) Press the Power Switch to the Off (O) position.

c) Set the Torch handle down on the metal workbench,

d) Turn the air supply off,

e) Unplug the line cord from the electrical outlet.

Page 17

Excess or

Burn-through

Weld droops on top

and underneath, or falls

through entirely,

making a hole

Proper

Weld is visible underneath and

bulges slightly on top.

Inadequate

Weld does not contact the

joint fully, just on the

surface.

Possible causes

and Solutions

1. Excessive material at weld:

Reduce wire feed speed

2. Overheating:
Increase welding speed and
ensure that welding speed is kept
steady.

Welding not adhering properly

Gaps present between weld and previous

bead or between weld and work piece.

Possible causes

and Solutions

1. Dirty work piece:
Make certain that work piece is clean
and free from oil, coatings, and other
residues.

2. Insufficient weld material:
Increase wire feed speed.

3. Incorrect welding technique:

Place stringer bead at correct place in
joint. Adjust work piece position or weld
angle to permit proper welding at
bottom of work- piece.

Pause briefly at sides when using a
weave bead. Keep arc on leading edge
of weld puddle. Hold gun at proper
angles and make tack welds to help
hold pieces.

Possible causes

and Solutions

1. Work pieces too thick/close:
Joint design must allow weld to
reach bottom of groove and allow
proper welding procedures.

2. Incorrect welding technique:
Maintain

1

/ 2”or less stick out. Keep
arc on leading edge of weld puddle.
Hold gun at proper angles.

3. Insufficient weld material:

Increase wire feed speed.

4. Insufficient weld heat:
Reduce Welding Speed.

Bent at joint

Possible causes

and Solutions

1. Improper clamping:
Make sure that pieces are clamped
securely in place.

2. Excessive heat:
Weld a small portion and allow
cooling before proceeding.
Reduce wire feed speed.

Page 18



Ins

pection

, Mai

ntenance, an

d

cleanin

g

WARNING!

Before performing any maintenance on the Welder, unplug the

p

ower

cord

(54) from its electrical outlet and allow all

components of the Welder to completely cool.

1. Periodically open the Access Panel

from the machine and, using
compressed air, blow out all dust and
debris from the interior

2. Always store the welder in a clean,
dry, safe location out of reach of
children and other unauthorized
people.

3. For optimal weld quality, clean and
inspect the contact tip and nozzle
before each use, as follows:

4. inspect the Contact T

ip (51b) and Nozzle (51a) before each use, as follows:

Nozzle Inspection,

c

leaning,

1. Turn the Nozzle

(1b)

counterclockwise while
pulling to remove.

2. Scrub the interior of the Nozzle
clean with a wire brush.

3. Examine the end of the

nozzle(1a).The end should be flat
and even, If the end is uneven,
chipped, melted, cracked, or
otherwise damaged, the nozzle will
adversely effect the weld and
should be replaced.

4. Reinstall the Nozzle (1a)
after inspecting and cleaning
the Contact Tip.

Contact tip Inspection,

cleaning, and replacement

1. Make sure the entire Welding torch is

completely cool before proceeding.

2. Remove the nozzle as explained

above. Then remove the contact tip.

3. Scrub the exterior of the contact tip
clean with a wire brush. Check that
the contact tip is the proper type for
the wire size used.

4. Examine the hole at the end of the
contact tip for the following problems:

Shape: The hole should be an even
circle, and should not be oblong or
have any bulges in it.

Size: The Contact Tip will decrease
in efficiency as the center hole
enlarges. A Contact Tip that
measures 150% or more the original
size* should be replaced. (*.045” or

more for .030”

t

ips; .035” or more

for .023

t

ips.)

5. If any problems are noted with a

Contact Tip (1b), it is recommended
to have it replaced.

6. When inspection and maintenance is

completed, reinstall the Contact Tip
(1b) and Nozzle (2b).

Page 19

Gas metal arc welding

Gas metal arc welding (GMAW),
sometimes referred to by its subtypes
metal inert gas (MIG) welding or metal
active gas (MAG) 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
GMAW, but constant current systems, as
well as alternating current, can be used.
There are four primary methods of metal
transfer in GMAW, called globular,
short-circuiting, spray, and pulsed-spray,
each of which has distinct properties and
corresponding advantages and limitations.

Welding gun and wire feed unit

The typical GMAW welding gun has a
number of key parts—a control switch, a
contact tip, a power cable, a gas nozzle,
an electrode conduit and liner, and a gas
hose. The control switch, or trigger, when
pressed by the operator, initiates the wire

feed, electric power, and the shielding gas

reduce spatter, is connected to the
welding power source through the power
cable and transmits the electrical energy
to the electrode while directing it to the
weld area. It must be firmly secured and
properly sized, since it must allow the
passage of the electrode while maintaining
an electrical contact. Before arriving at the
contact tip, the wire is protected and
guided by the electrode conduit and liner,
which help prevent buckling and maintain
an uninterrupted wire feed. The gas nozzle
is used to evenly direct the shielding gas
into the welding zone—if the flow is
inconsistent, it may not provide adequate
protection of the weld area. Larger nozzles
provide greater shielding gas flow, which
is useful for high current welding
operations, in which the size of the molten
weld pool is increased. The gas is
supplied to the nozzle through a gas hose,
which is connected to the tanks of
shielding gas. Sometimes, a water hose is
also built into the welding gun, cooling the
gun in high heat operations. The wire feed
unit supplies the electrode to the work,
driving it through the conduit and on to the
contact tip. Most models provide the wire
at a constant feed rate, but more
advanced machines can vary the feed rate
in response to the arc length and voltage.
Some wire feeders can reach feed rates
as high as 30.5 m/min (1200 in/min), but
feed rates for semiautomatic GMAW
typically range from 2 to 10 m/min
(75–400 in/min)

Page 20

Power supply

Most applications of gas metal arc welding
use a constant voltage power supply. As a
result, any change in arc length (which is
directly related to voltage) results in a
large change in heat input and current. A
shorter arc length will cause a much
greater heat input, which will make the
wire electrode melt more quickly and
thereby restore the original arc length.
This helps operators keep the arc length
consistent even when manually welding
with hand-held welding guns. To achieve a
similar effect, sometimes a constant
current power source is used in
combination with an arc voltage-controlled
wire feed unit. In this case, a change in arc
length makes the wire feed rate adjust in
order to maintain a relatively constant arc
length. In rare circumstances, a constant
current power source and a constant wire
feed rate unit might be coupled, especially
for the welding of metals with high thermal
conductivities, such as aluminum. This
grants the operator additional control over
the heat input into the weld, but requires
significant skill to perform successfully.
Alternating current is rarely used with
GMAW; instead, direct current is
employed and the electrode is generally
positively charged. Since the anode tends
to have a greater heat concentration, this
result in faster melting of the feed wire,
which increases weld penetration and
welding speed? The polarity can be
reversed only when special
emissive-coated electrode wires are used,
but since these are not popular, a
negatively charged electrode is rarely
employed

Technique

The basic technique for GMAW is quite
simple, since the electrode is fed
automatically through the torch. By
contrast, in gas tungsten arc welding, the
welder must handle a welding torch in one
hand and a separate filler wire in the other,
and in shielded metal arc welding, the
operator must frequently chip off slag and
change welding electrodes. GMAW
requires only that the operator guide the
welding gun with proper position and

orientation along the area being welded.
Keeping a consistent contact tip-to-work
distance (the stick out distance) is
important, because a long stick out
distance can cause the electrode to
overheat and will also waste shielding gas.
Stick out distance varies for different
GMAW weld processes and applications.
For short-circuit transfer, the sickout is
generally 1/4 inch to 1/2 inch, for spray
transfer the stick out is generally 1/2 inch.
The position of the end of the contact tip to
the gas nozzle are related to the stick out
distance and also varies with transfer type
and application. The orientation of the gun
is also important—it should be held so as
to bisect the angle between the work
pieces; that is, at 45 degrees for a fillet
weld and 90 degrees for welding a flat
surface. The travel angle, or lead angle, is
the angle of the torch with respect to the
direction of travel, and it should generally
remain approximately vertical. However,
the desirable angle changes somewhat
depending on the type of shielding gas
used—with pure inert gases; the bottom of
the torch is often slightly in front of the
upper section, while the opposite is true
when the welding atmosphere is carbon
dioxide.

Page 21



TROUBLESHOOTING

IMPORTANT!

BE CERTAIN to shut off the Welder, disconnect it from power, and discharge the torch to

ground before adjusting, cleaning, or repairing the unit.

Wire feed motor runs but wire does not feed properly

Possible causes and solutions

1. Insufficient wire feed pressure:

Increase wire feed pressure properly - follow instructions on page 11-12.

2. Incorrect wire feed roll size:

Replace with the proper one - follow the wire spool instructions on page 11.

3. Damaged torch, cable, or liner assembly:

Have a qualified technician inspect these parts and replace as necessary.

Wire creates a bird’s nest during operation

Possible causes and solutions

1. Excess wire feed pressure:

Adjust wire feed pressure properly - follow instructions on page 11-12

2. Incorrect contact tip size:

Replace with the proper tip for the wire size used.

3. Gun end not inserted into drive housing properly:

Loosen gun securing bolt and push gun end into housing just enough so that it does not touch

wire feed mechanism.

4. Damaged liner:
Have a qualified technician inspect and repair/replace as necessary

Welding arc not stable

Possible causes and solutions

1. Wire not feeding properly:

See first troubleshooting section above.

2. Incorrect contact tip size:

Replace with the proper tip for the wire size used.

3. Incorrect wire feed speed:

Adjust wire feed speed to achieve a more stable arc.

4. Loose torch cable or ground cable:

Check to ensure that all connections are tight.

5. Damaged torch or loose connection within torch:

Have a qualified technician inspect and repair/replace as necessary.

Page 22



TROUBLESHOOTING (continue)

IMPORTANT!

BE CERTAIN to shut off the Welder, disconnect it from power, and discharge the torch to

ground before adjusting, cleaning, or repairing the unit.

Welder does not function when switched on

Possible causes and solutions

1. tripped thermal protection device:

Shut the welder’s switch to off and allow it to cool for at least 20 minutes.

Reduce duration or frequency of welding periods to help reduce wear on the welder.

Refer to Duty Cycle section on page 18.

2. Faulty or improperly connected control Switch:

Have a technician check and secure/replace Control Switch.

3. Internal fuse blown:

Have a qualified technician check/replace.

Weak arc strength

Possible causes and solutions

1. Incorrect line voltage:

Check the line voltage and, if insufficient, have a licensed electrician remedy the situation.

Wire Feeds, but arc does not ignite

Possible causes and solutions

1. Improper ground connection:

Make certain that the work piece is contacted properly by the Ground Clamp and that the

work piece is properly cleaned near the ground clamp and the welding location.

2. Improperly sized or excessively worn contact tip (51b):

Verify that Contact Tip (51b) is the proper size for the welding wire used. Check that the

hole in the tip is not deformed or enlarged. Also, check that the tip is not dirty; this would

prevent a good connection. If needed, replace Contact Tip (51b) with proper size and type.

Page 23



TROUBLESHOOTING (continue)

IMPORTANT!

BE CERTAIN to shut off the Welder, disconnect it from power, and discharge the torch to ground

before adjusting, cleaning, or repairing the unit.

Wire feeds, but shielding gas does not Flow
Possible causes and solutions

1. Empty Gas cylinder:

Check gas cylinder.

2. Nozzle plugged:

Clean nozzle. If damaged, replace.

3. Regulator or cylinder valve closed:

Make sure both valves are adjusted properly.

4. Gas line blocked:

Check external hose, and hose within Torch cable.

5. Gas solenoid broken or not connected properly:

Have a qualified technician check/replace.

Page 24

511307: 170i Multi MIG / MMA / TIG

INCLUDED STANDARD ACCESSORIES

511467: 210i Multi MIG / MMA / TIG

INCLUDED STANDARD ACCESSORIES

4m Cable & Electrode Holder (500890) 4m Cable & Earth Clamp (500892)

SB15 4m Long MIG Torch (500886) Argon Regulator

INCLUDED STANDARD ACCESSORIES

4m Cable & Electrode Holder (500891)

4m Cable & Earth Clamp (500893)

SB24 4m Long MIG Torch (511520) Argon Regulator

Page 25

511625: 250i MIG / MAG

INCLUDED STANDARD ACCESSORIES

INCLUDED STANDARD ACCESSORIES

SB24 4m Long MIG Torch

(511520)

Argon Regulator

4m Cable & Earth Clamp

(500893)